CN111395816B - Modularization integrated form swimming pool system - Google Patents

Abstract

The invention discloses a modularized integrated swimming pool system, belongs to the technical field of swimming pool construction, and solves the problems that the construction time of the swimming pool is long, a large amount of manpower and material resources are consumed, the existing pipeline installation structure is unstable, the anti-seismic effect is poor, the flexibility of a water treatment system is poor, the site construction difficulty of an auxiliary facility application room is high, the quality is difficult to guarantee, and the like. The invention relates to a modularized integrated swimming pool system, which comprises a modularized swimming pool type pool body, a water treatment system and a pipeline system; the modular swimming pool type pool body comprises a frame structure, modular components and a bottom plate; the tank body modularized component is connected to the tank body frame structure to form the side wall of the modularized swimming tank type tank body. The swimming pool system has the advantages of large field adaptability, simple and convenient installation mode and low labor cost.

Description

Modularization integrated form swimming pool system

Technical Field

The invention belongs to the technical field of swimming pool construction, and particularly relates to a modular integrated swimming pool system.

Background

Traditional swimming pool carries out civil engineering construction subaerial, and this type of swimming pool installation time is long, and the installation need use heavy equipment, and the risk of assembling mistake on the factory is very big, easily takes place size deviation, cell body structure and breaks or reveals, still influences the use because of the oxidation erosion effect of pond water easily, consumes a large amount of manpower and materials. The modular assembled swimming pool technology has been popularized in developed countries such as Europe, America and the like for years, and the technology is widely applied from large professional swimming venues to small and medium-sized swimming pools, SPAs, private clubs and the like, and achieves good effect; the method is mainly used in temporary swimming venues in China, and meanwhile, the technology and the method are different, and the quality cannot be guaranteed. The technology has no mature industrial standard or accepted high-quality technology at home; at present, domestic assembled swimming pools are mostly made of plastic products, the depth of the pool water cannot exceed 1.5m, and the domestic assembled swimming pools can only be used as temporary swimming pools; the technology introduced abroad has more localization problem.

For example, the swimming pool industry commonly employs a cyclic purification process for the pool water to ensure that the pool water meets sanitary requirements. In a conventional swimming pool water treatment system, water treatment units are generally uniformly arranged in a machine room and are arranged in a treatment process sequence. This arrangement facilitates individual equipment servicing and replacement, but suffers from the following disadvantages: the space utilization rate is low, and the waste area of the whole field of the machine room is large; the equipment needs to be assembled, debugged and the like on the basis of on-site masonry, the construction arrangement is complicated, and the construction period is long; the flexibility of equipment arrangement is poor, the equipment room is put, the combination is restricted by the space of the site, and the equipment needs to be arranged according to the site condition. The construction form of the auxiliary facility application room is mainly field construction, the whole labor intensity is high, the field management is complex and disordered, the construction period is long, the cost is high, and the engineering quality is difficult to guarantee. The support and the anti-seismic performance of the existing pipeline installation system are poor, when an earthquake occurs, the pipeline is easy to break, water outflow is caused, and risks such as short circuit and fire are possibly caused.

Disclosure of Invention

In view of the above analysis, the present invention aims to provide a modular integrated swimming pool system that solves at least one of the following problems: (1) the construction time of the swimming pool is long, and a large amount of manpower and material resources are consumed; (2) the pipeline installation structure is unstable, the anti-seismic effect is poor, and the pipeline installation is complex; (3) the existing swimming pool water treatment system has poor flexibility; (4) the swimming pool auxiliary facilities are difficult to construct on site, the period is long, and the quality is difficult to ensure.

The purpose of the invention is mainly realized by the following technical scheme:

the invention provides a modularized integrated swimming pool system, which comprises a modularized swimming pool type pool body, a water treatment system and a pipeline system, wherein the modularized swimming pool type pool body is provided with a water inlet and a water outlet; the modular swimming pool type pool body comprises a frame structure, modular components and a bottom plate; the tank body modularized component is connected to the tank body frame structure to form the side wall of the modularized swimming tank type tank body.

Further, the tank modular member comprises a vertical plate assembly, a long support frame, a ditch bracket and a bottom plate support frame; the water ditch is arranged at the upper part of the vertical plate assembly and is used as an overflow tank and/or a regulating water tank; the bottom plate support frame is arranged at the bottom of the vertical plate assembly and is vertical to the vertical plate assembly; one end of the bottom plate support frame is connected with the vertical plate assembly, and the other end of the bottom plate support frame is connected with the long support frame; one end of the long support frame is connected with the bottom plate support frame, the other end of the long support frame is connected with the vertical plate assembly, and the length of the long support frame is adjustable; the gutter bracket is supported between the gutter and the riser assembly.

Further, a middle support frame is arranged between the long support frame and the vertical plate assembly; one end of the middle support frame is connected with the middle part of the long support frame, the other end of the middle support frame is connected with the vertical plate assembly, and the middle support frame is used for supporting the long support frame.

Further, water treatment system includes casing, water treatment unit and the control unit, and water treatment unit, the control unit install in the casing, through the operation of the control unit control water treatment unit, set up the through-hole that supplies the pipeline to pass through on the casing, and water treatment unit passes through the pipeline and is connected with the cell body.

Further, the water treatment unit comprises a circulation unit, a filtering unit and a disinfection unit; the pond water in the pond body flows back to the pond body after being treated by the circulating unit, the filtering unit and the disinfecting unit; the circulating unit provides power for the whole water treatment system; the control unit can adjust the circulation amount of the circulation unit according to the load change of the water treatment system.

Further, the water treatment unit also comprises a heating unit which can provide heat energy for the pool water.

Furthermore, the pipeline system comprises a pipeline system and an anti-seismic pipeline support and hanger, wherein the anti-seismic pipeline support and hanger is used for providing support for the pipeline system; the water inlet and the water outlet of the swimming pool body are communicated with a water inlet pipe and a water outlet pipe of the water treatment system through a pipeline system; the water in the swimming pool flows into the water treatment system through the water inlet pipe, flows out of the water outlet pipe after being treated and flows back to the pool body again.

Further, a antidetonation pipeline gallows includes: the main body supporting frame is used for supporting and fixing the pipeline and comprises a first vertical supporting piece, a second vertical supporting piece, a horizontal supporting piece, a first inclined supporting piece, a second inclined supporting piece and a pipe clamp; wherein, first vertical support piece, second vertical support piece respectively with horizontal support piece's both ends fixed connection, constitute a U type or door type structure.

Furthermore, the modularized integrated swimming pool system also comprises an assembly type auxiliary facility application room, wherein the auxiliary facility application room comprises a forced shower area and a foot soaking disinfection pool, and the facility application room is formed by assembling prefabricated parts; the prefabricated part comprises profile steel and a panel; the section steel is used for forming an integral section steel framework of the facility room, and the panel is used for being installed on the integral section steel framework to form a wall of the facility room.

Furthermore, equipment interlayers are arranged on the top and the side surfaces of the facility room, and the water supply and drainage pipeline is integrated in the equipment interlayers.

Compared with the prior art, the invention can at least realize one of the following technical effects:

1) the modular pool member provided by the invention supports the modular pool member on the side wall of the swimming pool in a secondary supporting mode, the long supporting frame supports the vertical plate assembly in a triangular inclined mode, and meanwhile, the support frame in the secondary supporting frame can support the inclined supporting frame, so that the deformation of the long supporting frame is prevented, the stability of the whole structure of the modular member is ensured, and the whole stability of the spliced swimming pool is further ensured. The triangular supports have good shear resistance, are uniformly distributed around the modular swimming pool type pool body and are uniformly distributed with load, and the triangular supports can support the swimming pool body and adjust small size deviation.

2) The upper part of the vertical plate assembly is provided with a ditch which is used as an overflow groove and used for collecting overflow water, so that the problem of water accumulation of the platform is solved, the antiskid effect is achieved, and the ditch has the function of regulating the impact of water fluctuation.

3) The water treatment system integrates the water treatment unit into the shell, a special civil engineering machine room is not required to be reserved, the water treatment unit can be assembled and installed in the shell when leaving a factory, the assembly on the site of a swimming pool is not required, the water treatment system can be used only by simply connecting the water treatment unit with the swimming pool and the like through pipelines, and the construction period can be effectively shortened; the water treatment units are tightly combined and integrated in a standardized shell, so that the transportation, construction and installation are facilitated, and the arrangement space is saved; the interior of the machine shell is arranged in a factory and finished, and the exterior only needs to butt joint water inlet, water outlet, back flushing pipelines and the like, so that the assembly process is efficient and quick, and the field installation time and labor cost are saved; through with each water treatment unit integration in the casing, saved 66% than traditional swimming pool computer lab area, reduced the place by a wide margin and taken, effectively improved the usable space of building, improved the whole economic benefits of swimming pool.

4) A gallows of antidetonation pipeline has addd conduit saddle and tube cap, conduit saddle and tube cap constitute the cylinder casing, press from both sides the tight fixing of pipeline inside the cylinder casing, the conduit saddle still has the prepositioning effect, in the installation fixed course of pipeline and antidetonation gallows support, can play certain restriction effect to the balance and the stability of pipeline, prevent sliding or the slope of pipeline for a gallows, influence constructor's safety from the support landing when having avoided the pipeline not fixed completely, the security is higher, make the work progress more succinct simultaneously, in order, can simplify the work progress, make things convenient for the workman to be under construction, and the work efficiency is improved. The pipeline is fixed through the main body support frame, the pipe bracket and the pipe cover respectively, the multi-point fixed installation mode with a plurality of supporting points can be realized, and the pipe bracket structure enables the support to be more closely and reliably connected with the pipeline, so that the stability of the structure body is increased. The multipoint support enables a plurality of connection points to be arranged between the pipeline and the positioning steel plate of the building main body, the pipeline is enabled to be provided with a plurality of support points, the bearing of a single support point can be dispersed, the installation reliability of the pipeline system is guaranteed, and the shock resistance of the pipeline system is improved.

5) The prefabricated member is adopted to assemble the assembled auxiliary facility application room, the components can be produced and pre-assembled in advance in a production place, the integrated all-dimensional design is realized, the problems of electric, water drainage, water supply, automatic chemical dosing in a foot soaking disinfection pool and the like are solved, and the assembled auxiliary facility application room is finally spliced on a construction site, so that the processes of masonry, plastering, heat preservation and the like do not need to be carried out on the site. The on-site construction strength is reduced, the construction error is reduced, and the construction efficiency is improved; the water-proof surface layer is arranged on the house panel for the auxiliary facilities, the requirement on the original civil engineering part is avoided, water proofing is not needed to be conducted again, the construction procedures are reduced, and the optional range of the house address for the auxiliary facilities is enlarged. The surface layer can be provided with an anti-slip structure, so that the safety performance is improved.

6) The assembled auxiliary facilities are provided with a forced shower control device, and after the photoelectric sensor detects that someone enters a forced spraying area, the shower is opened, so that the situation that someone does not clean before entering a swimming pool is prevented. The water spraying is continuously set every time the water sprayer is opened, so that the waste of water resources is prevented; the integrated automatic chemical dosing device can prevent the problems of too little or too much chemical dosing amount and the like caused by human factors, and is combined with a disinfection system of a swimming pool without independently arranging a control system, thereby saving investment.

7) The modularized integrated swimming pool system is formed by assembling prefabricated parts, the prefabricated parts are processed and manufactured in a factory, and a complete swimming pool can be assembled only by assembling after entering a field, so that the installation mode is simpler and more convenient, and meanwhile, the labor cost is saved; the multifunctional swimming pool can be quickly installed on most simple flat sites meeting the requirements according to the use requirements of users, and has remarkable site adaptability and repeated installation and disassembly characteristics compared with the common civil swimming pool. Each part of the component is produced and prepared in a standardized way, so that the external condition can be better controlled, and the engineering quality can be better ensured; compared with the traditional method that a large number of workers participate in field operation, the construction can be completed only by assembling the components on the spot, the number of required workers is reduced, and the cost is saved.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The drawings are only for purposes of illustrating particular embodiments and are not to be construed as limiting the invention, wherein like reference numerals are used to designate like parts throughout.

FIG. 1 is a side view of a modular tank member of the present invention;

FIG. 2 is a perspective view of a cell modular member;

FIG. 3 is a diagram of the assembly effect of swimming pool modules;

FIG. 4 is a top view of the interior of the water treatment system;

FIG. 5 is a block diagram of a water treatment system;

FIG. 6 is a block diagram of a water treatment system (II);

FIG. 7 is a perspective view of a water treatment system;

FIG. 8 is a schematic structural view of the main body of the anti-seismic pipe support and hanger of the present invention;

FIG. 9 is a schematic side support structure of the seismic pipe support hanger of the present invention;

FIG. 10 is a schematic view of a tube cover with an elastic band;

FIG. 11 is a schematic view of the installation of a seismic support hanger for pipes;

FIG. 12 is a top view of a prefabricated auxiliary facility application room;

FIG. 13 is a cross-sectional view taken along line 1-1 of FIG. 12;

FIG. 14 is a cross-sectional view taken along line 2-2 of FIG. 12

FIG. 15 is a schematic view of a structure of a showerhead spray;

FIG. 16 is a schematic view of a rain-down type spray structure;

FIG. 17 is a schematic structural view of a water permeable surface layer of a GRC plate;

fig. 18 is a schematic structural view of a water permeable surface layer of the wood pallet;

FIG. 19 is a circuit diagram of a photoelectric sensor;

FIG. 20 is a schematic view of the auxiliary facility housing in general A;

FIG. 21 is a schematic view of the whole of a facility room B;

fig. 22 is an overall schematic view C of a facility building.

Reference numerals

1-a riser assembly; 2-ditch; 3-connecting the plates; 4-gutter bracket; 5-a first anchoring cannula; 6-anchoring the pipe; 7-a screw; 8-a second anchoring cannula; 9-middle support frame; 10-a bottom plate support frame; 11-a housing; 12-a control unit; 1201-display screen; 13-a recycling unit; 1301-a circulating water pump; 1302-a negative pressure detection pressure gauge; 1303-hair gatherer; 1304-an electric machine; 14-a filtration unit; 1401-a filter; 1402-filter water inlet pressure gauge; 1403-filter inlet valve; 1404-filter backwash water inlet valve; 1405-filter outlet valve; 1406-filter outlet pressure gauge; 1407-filter backwash outlet valve; 15-a disinfection unit; 1501-AOT disinfector; 1502-silver ion sterilizer; 16-a heating unit; 1601-a heat exchanger; 1602-a selection valve; 1603-incoming water temperature sensor; 1604-water outlet temperature sensor; 1605-heat exchange water outlet check valve, 1606-heat medium water inlet valve; 1607-electronic descaler; 17-a water inlet pipe; 18-a water outlet pipe; 19-a pipeline; 20-a main body support; 2001-anchor bolt; 2002-a first vertical support; 2003-a second vertical support; 2004-horizontal support; 2005-a first cross brace; 2006-a second cross brace; 2007-pipe card; 2008-a first connector; 2009-a second connecting piece; 2010-a first transition piece; 2011-second adaptor; 2012-L shaped connectors; 2013-a third adapter; 2014-third connecting member; 2015-a fourth adaptor; 2016-fourth connection; 21-lateral support structure; 2101-pipe bracket; 2102-lateral struts; 2103-a mounting plate; 2104-a tube cover; 2105-a fixed part; 2106-a first fixation hole; 2107-a second fixation hole; 2108-an elastic band; 22-forced spraying area; 23-soaking the feet in a disinfection tank; 24-a device interlayer; 25-line sandwich; 26-top spray head; 27-side spray head; 28-water collecting and draining pit; 29-water permeable surface layer; 30-a first water outlet 31-a first overflow; 32-a second water outlet; 33-a second overflow; 34-water gap passing; 35-a water tap; 36-photoelectric sensor.

Detailed Description

A modular integrated swimming pool system is described in further detail below with reference to specific embodiments, which are provided for purposes of comparison and explanation only and to which the present invention is not limited.

The terms "top," "bottom," "above … …," "below," and "on … …" as used throughout the description are relative positions with respect to components of the device, such as the relative positions of the top and bottom substrates inside the device. It will be appreciated that the devices are multifunctional, regardless of their orientation in space.

The invention provides a modularized integrated swimming pool system which comprises a modularized swimming pool type pool body, a water treatment system and a pipeline system, wherein the modularized integrated swimming pool system is assembled by prefabricated parts.

The customized production of all prefabricated parts is completed in a factory, and the assembly construction of swimming pool facilities with various specifications is completed by adopting a field assembly operation mode; the installation can be carried out in a short time, and because the light steel suit structure of the pool body is light, firm and has strong adaptability, the construction of the swimming pool in the most difficult environment is feasible; the feasibility of building swimming pools is available in high-rise buildings, small inaccessible areas, seismic zones, and areas with difficult climate and address.

As shown in fig. 1 to 3, in particular, the modular swimming pool type pool body includes a frame structure, modular members and a bottom plate; the tank body modularized component is connected to the tank body frame structure to form the side wall of the modularized swimming tank type tank body. The frame structure of the tank body adopts Q-235 type hot rolled steel which is connected by high-strength bolts, wherein the bolts are 8.8 grades and M-14. Before assembling the frame structure of the tank body, the Q-235 hot rolled steel needs to be galvanized and subjected to corrosion prevention treatment. The pool body modularization member is welded on the side surface of the pool body frame structure to form the side wall of the modularization swimming pool type pool body, and the swimming pool bottom plate is welded at the bottom of the pool body frame structure.

Cell body modularization component includes riser assembly 1, ditch 2, connecting plate 3, ditch bracket 4 and anchor support, and the anchor support includes: a long support frame, a middle support frame 9 and a bottom plate support frame 10. After the splicing of the plurality of modular pool bodies is completed, the side walls of the modular pool type pool body are formed, as shown in fig. 3. The ditch bracket 4, the long support frame, the middle support frame 9 and the bottom plate support frame 10 are all rod-shaped structures, and the rod-shaped structures in the ditch bracket are not cylindrical rods in the traditional sense, but comprise channel steel, I-shaped steel, square (cross-section) columns or linear structures formed by splicing and assembling and used for realizing supporting and fixing.

The ditch 2 is installed at one side of the vertical plate assembly 1 and is attached to the side surface of the vertical plate assembly 1, and the ditch 2 is a water tank with a U-shaped section, as shown in fig. 1. The upper end of the ditch 2 is flush with the upper end of the vertical plate assembly 1, the ditch 2 is used as an overflow groove of the pool body of the swimming pool, and meanwhile, the ditch 2 is also used as a regulating pool for eliminating the influence of the water fluctuation of the swimming pool.

The anchor support is supported between ground and riser assembly 1 for riser assembly 1 provides the holding power, maintains the stability of swimming pool cell body structure.

The ditch bracket 4 is arranged below the ditch 2, the ditch bracket 4 is supported between the vertical plate assembly 1 and the ditch 2, one end of the ditch bracket 4 is connected with the outer end of the connecting plate 3, the other end of the ditch bracket is connected with a third supporting point of the vertical plate assembly 1, and the connecting mode is fixed connection or hinge connection. The ditch bracket 4 is used for supporting the ditch 2 and maintaining the reliability of installation and fixation between the ditch 2 and the riser assembly 1, namely the side wall surface of the swimming pool.

It should be noted that the main load of the swimming pool comes from the water storage pressure, so the bottom plate of the swimming pool bears the hydrostatic pressure along the gravity direction, and the side wall (side wall plate) of the swimming pool bears the lateral water pressure along the vertical line direction of the side plate, therefore, in order to improve the capability of the swimming pool body to bear the lateral water pressure, the vertical plate assembly 1 of the modular component of the swimming pool body of the present invention is made of metal material, preferably Q235B steel. The ditch 2 is made of steel, preferably Q235 steel.

Specifically, a connecting plate 3 is arranged below the ditch 2, the connecting plate 3 is a thin steel plate, the connecting plate 3 is rectangular, the length of the connecting plate 3 is the same as the width of the vertical plate assembly 1, and the width of the connecting plate 3 is the same as the width of the ditch 2; the connecting plate 3 is fixedly connected with a steel structure of a vertical plate assembly 1 of the swimming pool body in a welding, bonding or integrated forming mode; the ditch 2 and the connecting plate 3 are fixedly connected in a welding, bonding or bolt connection mode.

Specifically, the central position of connecting plate 3 sets up first mounting hole, and the bottom of ditch 2 sets up the second mounting hole that corresponds with the mounting hole on the connecting plate 3, and the size of first mounting hole and second mounting hole is the same and the position corresponds from top to bottom. The ditch 2 and the connecting plate 3 are fixed by screws passing through the first mounting holes and the second mounting holes.

Specifically, a sealing gasket is arranged between the ditch 2 and the connecting plate 3. For example, the packing is an O-ring type rubber packing installed between the first and second installation holes for sealing the gutter 2 against water leakage.

Furthermore, a ditch bracket 4 is arranged between the connecting plate 3 and the vertical plate assembly 1, and the ditch bracket 4, the vertical plate assembly 1 and the bottom of the ditch 2 form a triangular support for supporting/holding the ditch 2. One end of the ditch bracket 4 is fixedly connected or hinged with a third supporting point on the outer side surface of the vertical plate assembly 1, and the other end of the ditch bracket 4 is fixedly connected or hinged with one end of the connecting plate 3 far away from the vertical plate assembly 1.

Furthermore, when the ditch bracket 4 is fixedly connected with the vertical plate assembly 1 and the connecting plate 3, the ditch bracket can be fixed in a welding and bonding mode; or, the ditch bracket 4 is hinged and fixed with the vertical plate assembly 1 and the connecting plate 3 through the hinge bolt, and the ditch bracket 4 is supported in a triangular manner with the vertical plate assembly 1 and the connecting plate 3, so that even if the ditch bracket 4 is hinged and fixed with the vertical plate assembly 1 and the connecting plate 3, the ditch bracket 4, the vertical plate assembly 1 and the connecting plate 3 cannot relatively rotate due to the stability of the triangle.

Ditch bracket 4 is in when articulated state with connecting plate 3, when ditch 2 or riser assembly 1 met the rigidity and assaults, can adjust the small deformation between ditch bracket 4, connecting plate 3 and the riser assembly 1, forms a nimble support, on the structural stability's of the modularization component of guaranteeing the swimming pool cell body basis, can be to a certain extent the rigidity that buffer structure component received strikes.

Further, the anchor stent includes: a long support frame, a middle support frame 9 and a bottom plate support frame 10. The bottom plate supporting frame 10 is perpendicular to the vertical plate assembly 1, one end of the bottom plate supporting frame 10 is connected with a first supporting point of the vertical plate assembly 1, the other end of the bottom plate supporting frame is connected with the lower end of the long supporting frame, and the upper end of the long supporting frame is connected with a second supporting point of the vertical plate assembly 1. Specifically, the second supporting point is higher than the first supporting point, and the third supporting point is located between the first supporting point and the second supporting point. Long support frame, bottom plate support frame 10 and riser assembly 1 constitute the triangle-shaped and support, and when riser assembly 1 bore the planar lateral water pressure of the perpendicular to curb plate of the water in the swimming pool, support riser assembly 1 through long support frame and bottom plate support frame 10, balanced side water pressure keeps the structural stability of swimming pool cell body.

Furthermore, set up well support frame 9 between long carriage and the riser assembly 1, well support frame 9 perpendicular to long carriage, when riser assembly 1 received the side direction water pressure of the water in the swimming pool, long carriage has the trend that the atress takes place bending deformation, and the lower part of riser assembly is connected to well support frame 9 one end, and the middle part of long support frame is connected to the other end, forms the support to long support frame, keeps the structural stability of swimming pool massing component.

Furthermore, one end of the middle support frame 9 is connected with a fourth support point of the vertical plate assembly in a fixed connection or a hinged connection mode. The fourth support point is located between the third support point and the first support point, i.e. the fourth support point is higher than the first support point and lower than the third support point.

Furthermore, one or more than one ditch bracket 4 and a middle support frame 9 are arranged.

Further, the long support frame includes: a first anchoring sleeve 5, an anchoring tube 6 and a second anchoring sleeve 8. The first anchoring sleeve 5 and the second anchoring sleeve 8 are both tubular structures, and the inner hole diameters of the first anchoring sleeve 5 and the second anchoring sleeve 8 are the same as the outer diameter of the anchoring pipe 6. One end of the anchoring pipe 6 is sleeved in the first anchoring sleeve 5, the other end is sleeved in the second anchoring sleeve 8, and the two ends are fixed through screws 7.

Specifically, the anchor tube 6 is a tubular structure or a solid columnar structure.

Further, the length of the long support frame can be adjusted by adjusting (changing) the length of the anchoring tube 6 connected into the first anchoring sleeve 5 and the second anchoring sleeve 8.

Specifically, the invention provides two length adjustment modes of the long support frame:

example one: the anchor pipe 6 is provided with a plurality of threaded holes, the length of the anchor pipe 6 sleeved in the first anchor sleeve 5 and the second anchor sleeve 8 is changed through the matching of the screw 7 and different threaded holes on the anchor pipe 6, and the length adjustment of the long support frame is realized. The threaded holes are perpendicular to the axial direction of the anchoring tube 6.

Example two: the anchoring pipe 6 is of a columnar steel structure with external threads at two ends, and two ends of the anchoring pipe 6 are fixedly connected with the first anchoring sleeve 5 and the second anchoring sleeve 8 through threads respectively. Correspondingly, the first anchoring sleeve 5 and the second anchoring sleeve 8 are provided with internal threads matched with the external threads at the two ends of the anchoring pipe 6. The screwing directions of the external threads at the two ends of the anchoring pipe 6 are opposite, when the anchoring pipe 6 is rotated, the two ends of the anchoring pipe 6 are screwed out or screwed into the first anchoring sleeve 5 and the second anchoring sleeve 8 respectively, and further, the length of the anchoring pipe 6 connected into the long support frame is lengthened or shortened. For example: when the anchoring pipe 6 is arranged to rotate clockwise relative to the first anchoring sleeve 5 and the second anchoring sleeve 8, the two ends of the anchoring pipe 6 are synchronously screwed out of the first anchoring sleeve 5 and the second anchoring sleeve 8; when the anchoring pipe 6 is rotated counterclockwise with respect to the first anchoring sleeve 5 and the second anchoring sleeve 8, both ends of the anchoring pipe 6 are synchronously screwed into the first anchoring sleeve 5 or the second anchoring sleeve 8.

Furthermore, when the anchoring pipe 6 with the thread structures at two ends is adopted in the middle of the long support frame as an adjusting piece for adjusting the length, a handle perpendicular to the length direction (axial direction) of the anchoring pipe 6 is arranged in the middle of the anchoring pipe 6. The handle is a rod-shaped structure and is fixedly connected (preferably welded) with the anchoring pipe 6 or is an integral structure, and the handle is used as a force application part to assist the rotation of the anchoring pipe 6. Preferably, two handles are symmetrically arranged outside the tube body of the anchoring tube 6.

Or, two clamping grooves are symmetrically arranged on two sides of the pipe body in the middle of the anchoring pipe 6, and the anchoring pipe 6 rotates relative to the first anchoring sleeve 5 and the second anchoring sleeve 8 by means of a wrench, so that the length of the long supporting frame is adjusted.

Specifically, the first anchoring sleeve 5 is connected with the vertical plate assembly 1, and the fixing mode is welding, bonding or hinging.

Specifically, the middle support frame and the ditch supporting frame are rigid rod pieces or adjustable rod pieces with the same structure as the long support frame.

When the modular members of the swimming pool body are assembled, the supporting strength and the state of the opposite plate assembly 1 can be adjusted through the fine adjustment middle supporting frame and the fine adjustment long supporting frame, the coordinated assembly of all the modular members can be ensured through the fine adjustment supporting frame, small-amplitude deviation generated in processing or transportation is eliminated, and the adaptability of a modular product is improved.

The modular swimming pool body component is supported by the adjustable support frame, and the main load of the swimming pool is from the water storage pressure of the swimming pool, so that the bottom plate of the swimming pool bears the hydrostatic pressure along the gravity direction, and the side plate of the swimming pool bears the lateral water pressure along the vertical line direction of the side plate. Support, long support adjustment through in the fine setting support intensity and the support state to riser assembly 1, can deal with the required support intensity under the different retaining states.

When in implementation: after the assembly of the modular components of the present invention is completed, the bottom plate support frame 10 is attached to the ground. The long support frame is used as a first-stage support: the long support frame, the bottom plate support frame 10 and the vertical plate assembly 1 form a triangular support; the long support frame sets up and is used for supporting riser assembly 1 in bottom plate support frame 10 (ground), prevents riser assembly 1's deformation, keeps riser assembly 1's stable in structure, further keeps the stability of swimming pool cell body. The middle support frame 9 is used as a secondary support: the middle support frame 9, the vertical plate assembly 1 and the long support frame form a triangular support; the middle support frame 9 is supported between the vertical plate assembly 1 and the long support frame and used for preventing the long support frame from bending deformation and keeping the structural stability of the modularized component.

The swimming pool member provided by the embodiment is mainly formed by adopting a socket type and a pin type, is simple and convenient to install and disassemble, has high construction speed, and can improve the work efficiency by more than 30% compared with the traditional formwork supporting process.

The upper part of the vertical plate assembly 1 is provided with the ditch 2 as an overflow groove for collecting overflow water, so that the problem of water accumulation of a platform is solved, the antiskid effect is achieved, and the ditch has the function of regulating water fluctuation impact; set up ditch bracket 4 between ditch 2 and the riser assembly 1 and support, bottom plate support frame 10 perpendicular to riser assembly 1, length-adjustable's long support frame and bottom plate support frame 10 constitute the triangle-shaped of riser assembly 1 and support, have fine shear resistance performance, triangle-shaped supports evenly distributed around modularization swimming pool formula cell body, and the load distribution is even, adjusts small size deviation when can supporting the swimming pool cell body.

As shown in fig. 4 to 6, the water treatment system includes a housing 11, a water treatment unit and a control unit 12, the water treatment unit and the control unit 12 are integrated in the housing 11, the control unit 12 controls the operation of the water treatment unit, the water treatment unit is connected to external devices (such as a swimming pool outlet, a swimming pool return port, a back flush outlet, a hot water unit, etc.) through a pipe system, a through hole for passing the pipe is formed in the housing 11, and the housing 11 can be carried and placed at a proper position.

The water treatment unit is used for purifying, disinfecting and the like the water in the tank body, and specifically comprises a circulating unit 13, a filtering unit 14, a disinfecting unit 15 and a heating unit 16. The water in the tank body flows back to the tank body after being treated by the circulating unit 13, the filtering unit 14, the disinfecting unit 15 and the heating unit 16 in sequence. It should be noted that the sequence of the circulation unit 13, the filtering unit 14, the disinfecting unit 15 and the heating unit 16 can be adjusted according to the actual application, and one or some of the units can be removed or some other water treatment units can be added according to the actual application.

The circulating unit 13 provides power for the whole water treatment system, continuous operation of the water treatment system is ensured without interruption, and the control unit 12 adjusts the circulating amount of the circulating unit 13 according to load change of the water treatment system so as to achieve the effect of energy conservation. The circulation unit 13 can ensure that the treated clean water can be uniformly distributed to various parts in the swimming pool. Specifically, the circulating unit 13 is connected with a swimming pool water outlet to introduce pool water to be treated into a water treatment system, the circulating unit 13 comprises a circulating water pump 1301, a negative pressure detection pressure gauge 1302, a hair collector 1303 and a motor 1304, the swimming pool water outlet is connected with the circulating water pump 1301 through a pipeline, the circulating water pump 1301 supplies power for running pool water in the water treatment system, a negative pressure detection pressure gauge and a hair collector are sequentially arranged between the swimming pool water outlet and the circulating water pump, the negative pressure detection pressure gauge is used for detecting pool water pressure formed by the circulating water pump and sending the detected pressure value to the control unit, the control unit adjusts the starting and stopping of the circulating water pump according to data detected by the negative pressure detection pressure gauge, and the pump can be stopped emergently when the pressure is suddenly changed, so as to prevent harm to people; the hair collector is used for collecting the hair, flying flocks and other sundries in the water in the pool so as to prevent the damage of equipment caused by the hair winding the impeller of the water pump; the motor is connected with the circulating water pump to drive the circulating water pump to rotate.

The pool water in the swimming pool is pressurized by a circulating water pump and then pumped to a filtering unit 14 after the pressure of the pool water is measured by a negative pressure detection pressure gauge and impurities such as hair are removed by a hair collector. The filtering unit can remove various suspended pollution impurities in the pool water so as to ensure the sanitation and safety of the pool water.

Specifically, the filtering unit comprises a filter 1401, and the filter is respectively connected with a circulating water pump and a sterilizing unit 15 of the circulating unit through pipelines, and specifically, the filter is a particle pressure type filter.

After a filter accumulates more impurities, the filtering effect is reduced, in order to ensure the filtering effect of the filter 1401, a filter water inlet pressure gauge 1402 is arranged between the filter and the circulating water pump, the filter water inlet pressure gauge and the filter are provided with two water inlet pipelines which are an upper water inlet pipeline and a lower water inlet pipeline respectively, the upper water inlet pipeline is connected with the top of the filter, the lower water inlet pipeline is connected with the middle or the bottom of the filter, the upper water inlet pipeline is provided with a filter water inlet valve 1403, and the lower water inlet pipeline is provided with a filter backwashing water inlet valve 1404; a pipeline between the filter and the disinfection unit 15 is arranged in the middle or at the bottom of the filter, a filter water outlet valve 1405 is arranged on the pipeline, and a filter water outlet pressure gauge 1406 is arranged between the filter water outlet valve and the disinfection unit; the top of the filter is also provided with a drainage pipeline connected with the backwashing water outlet, and the drainage pipeline is provided with a filter backwashing water outlet valve 1407.

The filter water inlet pressure gauge and the filter water outlet pressure gauge are connected with the control unit and transmit the measured pressure values to the control unit in real time; the water inlet valve of the filter, the backwashing water inlet valve of the filter, the water outlet valve of the filter and the backwashing water outlet valve of the filter are electromagnetic valves, and the opening and the closing of the water inlet valve of the filter, the backwashing water inlet valve of the filter, the water outlet valve of the filter and the backwashing water outlet valve of the filter are controlled by the control unit, specifically, the opening and the closing of the water inlet valve of the filter, the backwashing water inlet valve of the filter, the water outlet valve of the filter and the backwashing water outlet valve of the filter are controlled by the control unit according to the pressure difference of the water inlet pressure gauge and the water outlet pressure gauge of the filter.

In this embodiment, the pressure of the filter water inlet pressure gauge is P₁The pressure of the filter water outlet pressure gauge is P₂，△P＝P₁-P₂When the Δ P is less than m (m is the pressure difference between the filter inlet pressure gauge and the filter outlet pressure gauge when the filter effect of the filter is poor, the m value is a relative value, and a user can set the m value according to the actual situation), the filter inlet valve and the filter outlet valve are opened, the filter backwashing inlet valve and the filter backwashing outlet valve are closed, at this time, water flowing out of the circulating pump flows into the filter through the upper water inlet pipeline, and the pool water flows into the disinfection unit (in the embodiment, flows into the AOT disinfector 1501) after being filtered; when the delta P is larger than or equal to m, the water inlet valve of the filter and the water outlet valve of the filter are closed, the backwashing water inlet valve of the filter and the backwashing water outlet valve of the filter are opened, water flowing out of the circulating pump flows into the filter through the water inlet pipeline of the next path, the filter starts a backwashing flow, impurities in the filter are washed out, and finally the water flows out of the machine shell from the water drainage pipeline at the top.

The disinfection unit can kill harmful bacteria in the pond water so as to avoid cross infection, and in order to ensure the water quality to be sanitary and healthy, the disinfectant released by the disinfection unit should not corrode the pipeline equipment and has no peculiar smell. Specifically, the disinfection unit comprises an AOT disinfector 1501 and a silver ion disinfector 1502, the filter, the AOT disinfector, the silver ion disinfector and the heating unit 16 are connected in sequence through pipelines, that is, the pond water flowing out of the filter flows into the heating unit 16 after being disinfected by the AOT disinfector and the silver ion disinfector.

The AOT sterilizer is an ultraviolet photocatalytic titanium dioxide sterilizer, which utilizes hydroxyl radicals to kill harmful substances such as bacteria, viruses and the like in pool water, and the silver ion sterilizer is a long-acting sterilizing device to ensure that silver ions with certain concentration exist in the pool water and improve the sterilizing effect of the pool water in the using process.

The heating unit 16 can provide heat energy to the pool water to ensure that the pool water temperature is appropriate in the pool. The pool water flowing out of the disinfection unit can directly flow back to the water return port of the swimming pool through a pipeline, and can also flow to the heating unit for heating and then flow back to the water return port of the swimming pool. Specifically, whether the pond water is heated or not is determined according to the temperature of the pond water flowing out of the disinfection unit.

Specifically, the heating unit comprises a heat exchanger 1601, a selector valve 1602, a water inlet temperature sensor 1603, a water outlet temperature sensor 1604 and a heat exchange water outlet check valve 1605, a pipeline connecting the heating unit and the return water port of the swimming pool is called a return water pipeline, the selector valve 1602 is arranged on the return water pipeline, the return water pipeline on the front side and the rear side of the selector valve 1602 is respectively provided with the water inlet temperature sensor and the water outlet temperature sensor, the pool water flowing through the selector valve flows to the return water port of the swimming pool through two loops or directly flows to the return water port of the swimming pool through the return water pipeline, and the loop is a direct current loop; or the water is heated by the heat exchanger and then flows to the return port of the swimming pool through the return pipeline, and the loop is a heating loop. The heat exchanger is arranged on the heating loop, pipelines connected with the inlet and the outlet of the heat exchanger are respectively called a water inlet pipe section and a water outlet pipe section, and a heat exchange water outlet check valve is arranged on the water outlet pipe section and used for preventing unheated pool water or heated pool water from flowing back into the heat exchanger.

The inlet water temperature sensor and the outlet water temperature sensor are respectively used for testing the temperature of the pool water flowing out of the disinfection unit and the temperature of the pool water entering the swimming pool, are connected with the control unit and transmit the temperature signals measured in real time to the control unit. The heat exchanger is connected with the control unit, and the heat exchange temperature of the heat exchanger is controlled by the control unit. The selector valve is an electromagnetic valve and is connected with the control unit and controlled by the control unit, specifically, the control unit controls the selector valve according to the temperature measured by the water inlet temperature sensor, and the control unit controls the temperature of the heat exchanger according to the temperature measured by the water outlet temperature sensor.

Specifically, the temperature measured by the inlet water temperature sensor is T₁The temperature measured by the water outlet temperature sensor is T₂When T is₁When the temperature is less than n (n is the suitable temperature of the human body, and a user can set the value of n according to the actual situation), the pool water flows to the swimming pool after being heated by the heat exchanger 1601; when T is₁When the water flow rate is larger than or equal to n, the water flowing out of the disinfection unit directly flows to the swimming pool. When T is₂When the temperature is less than n, the control unit controls the heat exchanger to heat up, and the heat exchanger ensures that the temperature of the pool water is properMaximum heating temperature T_sIt is not preferable to exceed n too much (e.g., 0 ℃ T_s-n is less than or equal to 5 ℃) to prevent the body health from being influenced by overhigh temperature of the pool water.

Specifically, the heat exchanger 1601 is a plate heat exchanger that is heated by the heat medium water, and the pipeline and the heat medium water circulation pump required by the heat medium water may be disposed inside the casing 11 or outside the casing 11. A heat medium water inlet valve 1606 is arranged in a pipeline through which heat medium water enters the heat exchanger 1601, the heat medium water inlet valve 1606 is an electromagnetic valve and is connected with the control unit 12, and the control unit 12 controls the opening size of the heat medium water inlet valve 1606 according to the temperature measured by the outlet water temperature sensor 1604, so that the amount of heat medium water flowing into the heat exchanger 1601 is controlled, and the temperature of the heat exchanger 1601 is controlled.

In order to ensure the use effect of the plate heat exchanger and reduce the overhaul and shutdown caused by hot water scaling, an electronic scale remover 1607 is arranged between the pool water and the plate heat exchanger through a hot medium water inlet valve 1606, namely, the pool water is firstly descaled at the electronic scale remover 1607 before entering the plate heat exchanger, so as to reduce the scaling phenomenon of the pool water in the plate heat exchanger.

In order to reduce the heat loss of the heating unit 16, the heating unit 16 is wrapped with a thermal insulation material, which may be Polyurethane (PU) or the like.

The control unit 12 is integrated in the control cabinet, and the display 1201 of the control unit 12 is arranged on the outer surface of the casing 11, so that the staff can observe the operation conditions of the units, specifically, the display 1201 can be used for viewing the operation conditions of the units, for example: hair collector 1303 hydrohead loss; pressure value and flow rate of the circulating water pump 1301; filter 1401 head loss; consumption of the disinfection unit; the temperature, the flow rate of the heating medium water, and the like at various locations of the heating unit 16. The control unit 12 is connected to the water treatment unit to control the operation of each unit.

In order to make it easier for the operator to operate the water treatment system, the control unit 12 is provided with shortcut keys, such as a back flush key and a filter key of the filter unit 14, a pause key of each treatment unit, etc., which can be set to have appropriate functions according to the actual situation. In addition, the control unit 12 is provided with a communication module, the control unit 12 is remotely connected with an intelligent terminal through the communication module, and a worker remotely monitors the water treatment system through the intelligent terminal such as a mobile phone and a tablet computer.

In order to further improve the safety performance of the water treatment system, the water treatment system further comprises an alarm unit, the alarm unit is connected with the control unit 12, when the pressure, the temperature and the water treatment equipment of the water treatment unit are abnormal, the control unit 12 sends out instructions to the alarm unit, and the alarm unit sends out corresponding alarms according to different instructions to remind workers of handling faults in time.

The water treatment unit and the control unit 12 are installed in the machine shell 11, the machine shell 11 is of a closed structure and specifically comprises a steel beam frame and a panel, and the panel is wrapped on the outer side of the steel beam frame to form the closed machine shell 11.

In this embodiment, casing 11 is the cuboid structure, and the girder steel frame encloses through 12 steel roof beams and establishes into cube supporting structure, and the panel includes top panel, bottom surface board, left panel, right panel, front panel and rear panel.

In order to improve the strength of the casing 11 and facilitate the installation and replacement of the panels, the bottom panel is directly welded at the bottom of the steel beam frame, and the rest panels are detachably installed on the steel beam frame. Furthermore, the left panel, the right panel, the front panel, the rear panel and the top panel are respectively composed of a plurality of auxiliary plates so as to be convenient to assemble and disassemble, and the auxiliary plates are specifically distributed in a row or a column.

The steel beam frame is formed by welding and processing galvanized steel channels, and the surface of the steel beam frame is sprayed with anti-rust paint to ensure that the steel beam frame is not rusted in a humid environment. The bottom panel is made of stainless steel plate, the other panels are made of galvanized steel plates, and fireproof heat-insulating materials are pasted on the inner sides of all the panels and can be selected from Polyurethane (PU) and the like.

In order to improve the strength of the enclosure, a support secondary beam is further arranged on the steel beam frame of the enclosure 11, and specifically, the support secondary beam is arranged between the cross beams or the longitudinal beams of the steel beam frame in parallel (the steel beam frame is placed on a horizontal plane, the cross beams are parallel to the horizontal plane, and the longitudinal beams are vertical to the horizontal plane). In this embodiment, the support sub-beams are perpendicular to the cross beams and parallel to the longitudinal beams.

It should be noted that, besides a through hole for passing the duct, a notch for installing the exhaust fan and the display screen 1201 is provided on the housing 11.

In the embodiment, the front panel is provided with a through hole at the position corresponding to the circulating pump, and is connected with the return water port of the swimming pool through a pipeline of the through hole; the front panel is provided with two through holes at the positions corresponding to the heat exchanger, and is connected with an inlet and an outlet of the heating medium water equipment through two pipelines of the through holes; an electric control cabinet is arranged above the side of the through hole corresponding to the circulating pump, the control unit 12 is installed in the electric control cabinet, and the electric control cabinet is provided with an openable cabinet door so that a worker can operate the electric control cabinet. The top panel is provided with two through holes, and two pipelines penetrating through the through holes are respectively connected with the backwashing water outlet and the swimming pool water outlet.

The water treatment unit and the control unit 12 are detachably and fixedly arranged in the machine shell 11, so that the mobility of the whole water treatment unit is improved, the machine shell 11 does not need civil engineering and masonry equipment foundations, and a water treatment system is convenient to flexibly arrange and use.

It should be noted that the shape of the casing 11 can be designed as a standardized rectangular box body to facilitate the transportation convenience of the water treatment system, but if the site combination is needed, the casing 11 matched with the site can be specially customized to improve the applicability of the water treatment system to the sites with different conditions, and the low utilization rate space around the swimming pool is fully utilized.

Specifically, the water treatment system is further provided with a water inlet pipe 17 and a water outlet pipe 18.

Specifically, the pipeline system comprises a pipeline system and an anti-seismic pipeline support and hanger. The anti-seismic pipeline support hanger is used for providing support for the pipeline system. The pipeline system is connected with the modularized swimming pool body and the water treatment system, and the water inlet and the water outlet of the swimming pool body are connected with the water inlet pipe 17 and the water outlet pipe 18 of the water treatment system through the pipeline system. The water flows into the water treatment system through the water inlet pipe 17, and flows out of the water outlet pipe 18 after being filtered, purified, disinfected and heated and flows back to the swimming pool.

Specifically, a antidetonation pipeline gallows includes: main part support frame 20, main part support frame support pipeline 19 fixedly, and the main part support frame includes: a first vertical support 2002, a second vertical support 2003, a horizontal support 2004, a first cross support 2005, a second cross support 2006, and a tube clamp 2007. The first vertical support 2002 and the second vertical support 2003 are respectively and fixedly connected to two ends of the horizontal support 2004 to form a U-shaped (door-shaped) structure, as shown in fig. 8.

Further, the pipe 19 is placed above the horizontal support member and is clamped and fixed by a pipe clamp. The pipe clamp is fixedly arranged on the horizontal supporting piece through bolts. The pipe clamp is of a U-shaped structure; or the pipe clamp is of a split structure and is formed by assembling two arc-shaped pieces (P-shaped pieces). A rubber pad is arranged between the pipe clamp and the pipeline, so that the vibration-proof and anti-skid effects are achieved.

Furthermore, the upper ends of the first vertical supporting piece and the second vertical supporting piece are fixedly connected with the building main body through anchor bolts 2001; further, the first vertical support and the second vertical support are both C-shaped channel steel, and the type of the channel steel is 41 × 41 × 2 (mm). Two sides of the first vertical supporting member 2002 and the second vertical supporting member 2003 are fixedly mounted with two L-shaped connecting members 2012 by bolts, and the L-shaped connecting members are provided with threaded holes and fixed with the building main body by anchor bolts. That is to say, L type connecting piece is total four, divide into two sets ofly, installs respectively in the both sides of first vertical support piece and second vertical support piece upper end for realize carrying out fixed connection's mounting means through the crab-bolt between first vertical support piece and the second vertical support piece and the building main part.

Further, the sides of the lower ends of the first and second vertical supports mount the first and second cross supports 2005 and 2006, respectively. Specifically, one end of the first inclined support member is connected with the first vertical support member, the other end of the first inclined support member is connected with the building main body, the first inclined support member can deflect (rotate) relative to the first vertical support member, and after the installation is completed, an acute angle is formed between the first inclined support member and the first vertical support member; one end of the second diagonal support is connected to the second vertical support, the other end is connected to the building body, and the second diagonal support is capable of deflecting (rotating) relative to the second vertical support, and after installation, the second diagonal support 2006 makes an acute angle with the second vertical support 2003.

The installation of the first and second inclined supporting pieces of the rigid hanger of the earthquake-proof support hanger does not deviate from the central line; the support installation angle of the vertical support and the inclined support is preferably 45 degrees, and when the field condition limit cannot meet the angle requirement, the inclined support of the anti-seismic support and hanger is adjusted to be not less than 30 degrees and not more than 60 degrees.

Further, the first cross brace 2005 is hinged at its lower end to the first vertical support 2002 and at its upper end to the building body. The first inclined support 2005 and the first vertical support 2002 are connected through a first connecting piece 2008 and a first switching piece 2010, the first connecting piece 2008 and the first inclined support 2005 are fixedly connected through a bolt, the first switching piece 2010 is connected with the first inclined support 2005 through a bolt, the first connecting piece 2008 is hinged to the first switching piece 2010, and hinged connection between the first inclined support 2005 and the first vertical support 2002 is achieved through the first switching piece 2010 and the first connecting piece 2008.

Further, the upper end of first inclined support piece 2005 is fixedly connected with second adaptor 2011 through a bolt, second adaptor 2011 is hinged with second connecting piece 2009, and second connecting piece 2009 is provided with a mounting hole and is fixed with the building main body through an anchor bolt.

Similarly, the second cross support 2006 is coupled to the second vertical support 2003 via a third coupling 2014 and a third adapter 2013. The third connecting piece 2014 is fixedly connected with the second cross support 2006 through bolts, the third adaptor 2013 is connected with the second cross support 2006 through bolts, the third connecting piece 2014 is hinged with the third adaptor 2013, and the third adaptor 2013 and the third connecting piece 2014 are used for realizing the hinged connection between the second cross support 2006 and the first vertical support.

Further, the upper end of second inclined support member 2006 is passed through bolt fixed connection fourth adaptor 2015, and fourth adaptor 2015 is articulated with fourth connecting piece 2016, and fourth connecting piece 2016 is last to set up the mounting hole and pass through the crab-bolt and fix with the building main body, as shown in 11.

Illustratively, first link 2008, second link 2009, third link 2014, and fourth link 2016 are each an a-shaped link, as shown in fig. 8.

In addition, the anti-seismic pipe support and hanger can further comprise lateral support structures 21, wherein the lateral support structures are arranged on two sides of the main body support frame and provide multi-point support. As shown in fig. 9 to 10, the lateral support structure includes: tube carrier 2101, lateral struts 2102, and tube cover 2104; the pipe bracket 2101 is a semi-cylindrical semi-surrounding shell, the pipe bracket 2101 is used for supporting the lower half part of the pipeline 19, and the diameter of the arc-shaped inner wall of the pipe bracket 2101 is slightly larger than the outer diameter of the pipeline 19; the pipe bracket 2101 is fixedly connected with the horizontal support 2004 through the lateral support bar 2102 in a welding or bolt connection mode. Tube bracket 2101 and lateral strut 2102 are integrally formed or welded together.

The end of the lateral strut 2102 is provided with a mounting plate 2103, the mounting plate 2103 is welded and fixed with the lateral strut 2102 or integrally formed, the mounting plate 2103 is provided with a threaded hole, and the mounting plate 2103 is fixedly connected with the horizontal support 2004 through a bolt.

Further, the pipe bracket 2101 has a semi-arc-shaped groove in which the pipe 19 is placed. A tube cover 2104 is provided over the pipe 19, the tube cover 2104 including: a semi-circular housing and two side fixing portions 2105. The tube holder 2101 and the tube cover 2104 form a cylindrical housing, and the tube 19 is disposed inside the cylindrical housing, or the cylindrical housing surrounds the tube 19.

Further, a plurality of first fixing holes 2106 are provided in the fixing portion 2105 of the tube cover 2104, and correspondingly, a plurality of second fixing holes 2107 are provided in the tube holder 2101 so as to be opposed to the first fixing holes 2106, and bolts are installed in the first fixing holes 2106 and the second fixing holes 2107, and the tube holder 2101 and the tube cover 2104 are fastened together by tightening the bolts. The pipe bracket 2101 and the pipe cover 2104 are respectively positioned at the upper and lower sides of the pipe 19, and the pipe 19 is clamped and fixed in the cylindrical housing formed by the pipe bracket 2101 and the pipe cover 2104, so that the surrounding fixing of the pipe 19 is realized.

Further, in order to ensure that the pipe 19 is sufficiently fixed by the support and hanger, the pipe bracket 2101 has a certain length, and preferably, the length of the pipe bracket 2101 is 1 to 2 times of the diameter of the pipe 19.

Further, in order to ensure that the pipe 19 is in close contact with the pipe bracket 2101 and the pipe cover 2104 of the lateral support structure while avoiding rigid impact of the bracket on the pipe 19 in case of vibration, an elastic band 2108 is provided on the arc-shaped wall surface of the inner side of the pipe bracket 2101 and the pipe cover 2104. The elastic band 2108 is one or more elastic buffer layers made of an elastic material such as rubber and bonded to the inner wall surface of the pipe holder 2101. On the one hand, elastic band 2108 can guarantee that pipe bracket 2101 and pipe lid 2104 can with pipeline 19 in close contact with, and provide certain pretightning force, prevents that pipeline 19 from producing axial for a antidetonation gallows and sliding, guarantees the stability and the reliability that the support supported pipeline 19. On the other hand, when an earthquake is encountered, the elastic band 2108 has a shock-absorbing effect, preventing a rigid impact between the pipe 19 and the pipe bracket 2101 and the pipe cover 2104 of the lateral support structure.

When the anti-seismic support and hanger is implemented:

firstly, the main body support frame and the building main body are tightly connected through an anchor bolt. Specifically, the upper ends of the first vertical support 2002, the second vertical support 2003, the first cross support 2005 and the second cross support 2006 are fixed to the building body by anchor bolts;

further, the lateral support frame and the main body support frame are fixedly installed. Specifically, lateral struts 2102 are bolted on both sides of horizontal support 2004. After the installation is completed, the bottom of the arc-shaped groove of the pipe bracket 2101 is flush with the upper surface of the horizontal support 2004, and the pipe bracket 2101 is installed on both sides of the horizontal support 2004.

Further, the pipeline 19 is placed in the groove of the pipe bracket 2101, and the pipe bracket 2101 is arranged on two sides of the horizontal support member 2004 respectively and has a certain length, so that the effect of balancing the pipeline 19 can be achieved, the pipeline 19 can be kept balanced and cannot incline in the installation process, the construction difficulty of workers is reduced, the installation efficiency is improved, and the construction period is shortened.

Further, the pipe clamp 2007 is sleeved on the pipe 19 and is tightly connected with the horizontal support member 2004 through a bolt, so that the first pivot of the pipe 19 is fixed.

Further, the tube cover 2104 and the tube holder 2101 are fixed by screwing with bolts. The lateral support structures enclose the pipeline 19 in a cylinder formed by the pipe bracket 2101 and the pipe cover 2104, and the support fixation of the second pivot and the third pivot of the pipeline 19 by the two lateral support structures of the earthquake-proof support and suspension bracket is completed.

In the process that the pipe cover 2104 and the pipe bracket 2101 are screwed and fixed through bolts, the elastic belt 2108 is squeezed to enable pressing force to be generated between the pipe 19 and the pipe bracket 2101 and the pipe cover 2104, the pressing force can prevent the pipe 19 from moving in the radial direction and the axial direction, and the pipe bracket 2101 has a certain length, so that the contact area between the bracket and the pipe 19 is increased, and the effective support of the bracket to the pipe 19 is ensured.

Further, vertical connecting rods are provided on the tube cover 2104 in parallel to the first and second vertical supports (not shown in the figure).

One end of the vertical connecting rod is fixedly connected with the pipe cover 2104 through a bolt or integrally formed with the pipe cover 2104, and the other end of the vertical connecting rod is fixedly connected with the building main body through an anchor bolt (bolt). The vertical connecting rods can share the bearing of the main supporting frame, a plurality of supporting points can be arranged between the pipeline and the building main body by installing a pipeline supporting and hanging bracket, the pipeline supporting and hanging bracket can support multiple points of the pipeline 19, the reliability and the stability of pipeline installation can be guaranteed, and the anti-seismic performance of the pipeline supporting and hanging bracket and a pipeline system is improved.

The main body support frame is assembled before construction, and the main body support frame and the lateral support structure can be assembled on a construction site or assembled before on-site construction operation or assembled into a whole in a preset factory.

In one possible design, the modular integrated swimming pool system further comprises a fitted ancillary facility application room for showering and disinfecting a person prior to entering the pool body. As shown in fig. 12-22, the prefabricated auxiliary facility housing is assembled from prefabricated sets; the prefabricated part comprises profile steel and a panel; the section steel is used for forming an integral section steel framework of the facility room, and the panel is used for being installed on the integral section steel framework to form a wall of the facility room. The panel comprises a base layer and a surface layer, wherein the base layer is a section plate, and the surface layer is a glue film type waterproof material. The panel has a waterproof effect, does not have requirements on the original civil engineering part, does not need to be waterproofed again, reduces the construction procedures and improves the selectable range of the addresses of the rooms for the auxiliary facilities. The surface layer can be provided with an anti-slip structure, so that the safety performance is improved.

The prefabricated member also comprises steps, a walking platform, guardrails and other components required by the assembled forced shower area and the foot soaking disinfection area, the position of a water supply and drainage pipeline is reserved as required, and the module group and the number of the prefabricated member are increased as required. The device can be installed in a building or outdoors. Specifically, the connection mode between the prefabricated parts is welding.

The assembled facility room of the present invention, as shown in fig. 12 to 14, includes a forced shower area and a foot soaking disinfection tank 23; the forced shower area is positioned at the entrance of a channel for entering the water tank from the dressing room, the length of the forced shower channel is more than or equal to 2.0m, and the width of the forced shower channel is the same as that of the entrance channel; the inlet direction of the channel is defined as front, the outlet direction of the channel is defined as back, the foot soaking disinfection tank 23 is arranged after the channel passes through the forced shower area, the length of the tank is more than or equal to 2m, and the width of the tank is the same as that of the inlet channel. The ground at the front end and the rear end of the foot soaking disinfection tank 23 are inclined towards the foot soaking disinfection tank 23 at a gradient of more than or equal to 1 percent; the depth of the pool is more than or equal to 0.2m, the effective depth of the disinfectant in the pool is more than or equal to 0.15m, and the effective depth is the shallowest depth of the disinfectant in the pool. The swimming pool can be cleaned and disinfected fully before people enter the swimming pool.

The water spray of the forced shower area comprises a top spray mode and a side spray mode, and the top spray mode comprises a spray head type spray head and a drop shower type spray head. The spray heads are characterized in that a plurality of top spray heads 26 are arranged at the top of the forced shower area, and the area formed by spraying water by each top spray head 26 is circular and outwards diffused by the top spray heads 26; the rain-falling water is a vertically downward strip-shaped area.

When the spray head type spraying is adopted, the top spray nozzles are more than or equal to 3 rows, and the distance between every two rows is less than or equal to 0.8 m; the installation height of the top spray nozzle 26 is more than or equal to 2.2 m; so that the water spray is uniformly distributed in the channel. The side spray nozzles are more than or equal to 2 rows, the height of the side spray nozzles 27 of the top row from the ground is less than or equal to 1m, so that water is prevented from entering eyes, particularly, children are low in height, and water easily enters eyes during side spraying.

The top and the side of the facility application room are both provided with equipment interlayers 24, and the water supply and drainage pipeline is integrated in the equipment interlayers. The bottom of the forced shower area and the foot soaking disinfection tank 23 is provided with a pipeline interlayer 25, and a drainage pipeline is integrated in the pipeline interlayer. The water supply and drainage pipeline and the water drainage pipeline are integrated in the equipment interlayer and the pipeline interlayer in advance, so that the field assembly difficulty and time are reduced.

Illustratively, the forced shower area has a length of 3.4m, a clear width of 2m, a clear height of 2.2m, and a top and side equipment mezzanine 24 thickness of 0.5 m. The length of the foot soaking disinfection tank 23 is 2m, the net width is 2.05m, and the thickness of the equipment interlayer 24 on the side surface is 0.5 m. The pipeline interlayer 25 at the bottom of the shower area and the foot soaking disinfection tank 23 is forced to be empty by 0.3 m.

When the spray head type spraying is adopted, 9 rows of 3 top spray heads are arranged, the distance between each row and each column of the top spray heads 26 is 0.8m, the distance between the first row of the top spray heads 26 and the inlet of the forced spraying area 22 is 0.9m, the distance between the third row of the top spray heads 26 and the outlet of the forced spraying area 22 is 0.9m, and the distances between the first row of the top spray heads 26 and the edges of the left side and the right side of the forced spraying area 22 are 0.2 m; when the rain-falling type spraying is adopted, 3 rows of spraying strips are arranged, the length of each spraying strip is the same as the width of the forced shower area, the width of each spraying strip is 0.3m, the distance between two adjacent edges of the two spraying strips is 0.5m, the distance between the first row of spraying strips and the inlet of the forced shower area 22 is 0.75m, and the distance between the third row of spraying strips and the outlet of the forced shower area 22 is 0.75 m.

The side spray heads 27 are provided with 6 in 2 rows and 3 columns so that the water spray is evenly distributed over the channels. The height of the lower row of side spray nozzles 27 from the floor of the forced shower area is 0.6m, and the height of the upper row of side spray nozzles 27 from the floor of the forced shower area is 1m, so that water spray is prevented from entering human eyes.

The forced shower area is provided with a water collecting and draining pit 28 at the bottom, a water permeable surface layer 29 at the top, a first water outlet 30 at the bottom and a first overflow opening 31 on the side wall of the top. The bottom of the foot soaking disinfection tank 23 is provided with a second water outlet 32, and the side wall of the top of the tank is provided with a second overflow port 33.

The water permeable surface layer 29 is used for permeating and collecting sprayed water to the water collecting and draining pit 28 when people walk on the water permeable surface layer. The water permeable facing 29 may be a GRC board water permeable facing 29 or a wood pallet water permeable facing 29.

When the GRC sheet water permeable facing 29 is used, as shown in fig. 17, the GRC sheet water permeable facing 29 is a single piece, and water passing slits 34 are provided at positions close to the inlet and the outlet of the forced shower area, and the GRC sheet water permeable facing 29 is inclined from the central position toward the water passing slits 34 at the inlet and the outlet. Illustratively, 1 water passing seam 34 with a seam width of 0.02m is respectively arranged at a position 0.2m away from the inlet and the outlet in the forced shower area, and the GRC plate water permeable surface layer 29 passes through the water passing seams 34 from the central position to two sides at a gradient of 1%, so that shower water quickly passes through the water permeable surface layer 29 and enters the water collecting and draining pit 28.

When the wood pallet permeable surface layer 29 is used, as shown in fig. 18, a plurality of wood pallets are used, and a water gap 34 is formed between every two wood pallets. Illustratively, the wood pallet permeable surface layer 29 has a length of 2mm and a width of 0.18m for each wood pallet, and a water passing seam 34 with a width of 0.02m is left between the two wood pallets.

The depth of the water collecting and draining pit 28 is 0.15m, and the bottom surface slopes to the first water outlet 30 with a slope of 1%. And a first overflow port 31 is arranged on the side wall with the equipment interlayer 24 at a position 0.15m away from the bottom of the pool, so that the first water outlet 30 is prevented from being full of water in the water collecting and draining pit 28 due to the fact that water cannot be drained timely. The first overflow port 31 is made of a material having the same structure as the main body, and is convenient to assemble and disassemble. The same material can be directly welded, and if different materials are adopted, the welding can be not tight. The second weirs 33 are also provided on the side wall having the equipment sandwich 24.

The first water outlet 30 and the first overflow port 31 of the forced shower area and the second water outlet 32 and the second overflow port 33 of the foot soaking disinfection tank 23 are connected with the drainage pipe which penetrates into the equipment interlayer 24 of the side wall through the bottom line pipe interlayer and is connected with the drainage main pipe in a unified way.

A water supply tap 35 is arranged on the side wall above the foot soaking disinfection tank 23 and is 0.3m away from the top of the foot soaking disinfection tank 23.

Preferably, the water supply pipe is made of thin-wall stainless steel pipe, and the water discharge ports (such as a water outlet and an overflow port) and the water discharge pipe are made of corrosion-resistant plastic material, such as PVC. The water supply pipe is made of stainless steel pipe, has high corrosion resistance and rigidity, and is not easy to deform. The drain pipe is generally thick, and if stainless steel is adopted, the cost is too high, and corrosion-resistant plastic materials are preferred.

The entrance of the forced shower area is provided with a photoelectric sensor 36 for controlling water discharge when a person enters the forced shower area through the entrance. Preferably, the photoelectric sensor is 0.8m to 1m away from the floor of the forced shower area. The shower is started by adopting a forced shower control system with the reaction time not exceeding 0.5s, when a human body passes through a photoelectric line area of a photoelectric sensor, a photoelectric line emitted by a light projector cannot be received by a light receiver due to the shielding of the human body, a signal processed by the forced shower control device is sent to an electromagnetic valve, and the electromagnetic valve receives the signal and then opens a valve core to control water outlet. The duration of the water spray is 6s per opening. The SW in the light receptor is a tamper switch which is closed when the housing is closed. JMP in the photoreceiver is the line selection of the relay coil, and the selection method is as follows: the jumper cap is short-circuited for 1-2, and when the light receiver receives the infrared light beam, the relay coil is not electrified; the jumper cap is short-circuited for 2-3, and the relay coil is electrified when the light receiver receives the infrared light beam.

In order to prevent the problems of too little or too much medicine feeding amount of the foot soaking disinfection tank caused by human factors, the facility room further comprises an automatic medicine feeding device for feeding medicine into the foot soaking disinfection tank.

Specifically, the disinfection unit 15 is also provided with a long-acting disinfection and pH adjustment automatic device; the water discharge pipeline of the foot soaking disinfection tank 23 is provided with a first residual chlorine sensor and a pH sensor which are used for detecting the pH value and residual chlorine content when liquid in the foot soaking disinfection tank 23 is discharged and transmitting data information to the automatic long-acting disinfection and pH adjustment device, the automatic long-acting disinfection and pH adjustment device automatically adjusts the amount of chlorine agent added into the foot soaking disinfection tank according to the received information, and the water discharge pipe of the foot soaking disinfection tank 23 is connected with a water system of a swimming pool. The invention combines the automatic chemical dosing device of the foot soaking disinfection tank 23 with the device of the water treatment system, and a set of control system is not required to be independently arranged, thereby saving investment.

Chlorine is used for disinfecting swimming pool water, but is a toxic substance, and once the content is too high, people can be poisoned, so the set value is 5-10 mg/L; the pH is 6.5-8.5, the water is neutral, and the skin irritation is avoided.

A method of installing a modular integrated swimming pool system, comprising the steps of:

step 1, assembling a tank body frame;

step 2, installing the modular pool body member and the swimming pool bottom plate on a pool body frame to form a modular swimming pool type pool body;

and 3, assembling the water treatment system.

In step 2, after the modular swimming pool type pool body is formed, an inner wall pressure bearing plate and a waterproof layer are paved inside the pool body. Illustratively, the inner wall bearing plate is a PVC hollow plate with the thickness of 300 mm/30 mm and the single skin thickness of 2.5mm or an aluminum-zinc plated steel plate with the thickness of 1.5 mm; the waterproof layer is composed of 1.2mm thick adhesive film special for the imported swimming pool with tensile reinforcing ribs, and the adhesive film is manufactured by high-frequency welding.

Furthermore, an outer wall decoration and pool enclosing passageway is arranged, and the outer wall decoration and the pool enclosing passageway are made of pvc materials, so that the novel solar water heater is attractive and durable. And the peripheral guardrails can be arranged and are made of stainless steel or carbon steel spraying materials.

Specifically, in step 3, a pipeline system is adopted to connect the water treatment system and the tank body.

Specifically, the step 1 is also preceded by assembling the assembled auxiliary facility room, and the connection of the auxiliary facility room, the water treatment system and the pool body is completed according to the field situation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.

Claims (7)

1. A modularized integrated swimming pool system is characterized by comprising a modularized swimming pool type pool body, a water treatment system and a pipeline system; the modular swimming pool type pool body comprises a pool body frame structure, a pool body modular component and a swimming pool bottom plate; the tank body modularized component is connected to a tank body frame structure to form a side wall of the modularized swimming tank type tank body; the water treatment system comprises a casing (11), a water treatment unit and a control unit (12), wherein the control unit (12) is used for controlling the operation of the water treatment unit, a through hole for a pipeline to pass through is formed in the casing (11), and the water treatment unit is connected with the tank body through the pipeline; the machine shell (11) is of a closed structure, the water treatment unit and the control unit (12) are detachably and fixedly arranged in the machine shell (11), the water treatment unit is arranged in the machine shell when leaving a factory, a civil engineering machine room does not need to be reserved, and a civil engineering masonry equipment foundation does not need to be arranged on the machine shell;

the pipeline system comprises a pipeline system and an anti-seismic pipeline support and hanger, wherein the anti-seismic pipeline support and hanger is used for providing support for the pipeline system; the water inlet and the water outlet of the tank body are communicated with a water inlet pipe (17) and a water outlet pipe (18) of the water treatment system through a pipeline system; the pond water flows into the water treatment system through the water inlet pipe (17), flows out of the water outlet pipe (18) after being treated and flows back to the pond body again;

the anti-seismic pipeline support hanger comprises: the main body supporting frame (20), the main body supporting frame (20) supports and fixes the pipeline (19), and the main body supporting frame comprises a first vertical support (2002), a second vertical support (2003), a horizontal support (2004), a first inclined support (2005), a second inclined support (2006) and a pipe clamp (2007); the first vertical support piece (2002) and the second vertical support piece (2003) are respectively and fixedly connected with two ends of the horizontal support piece (2004) to form a U-shaped or door-shaped structure;

antidetonation pipeline gallows still includes side direction bearing structure (21), and side direction bearing structure installs in the both sides of main part support frame, provides the multiple spot and supports, and side direction bearing structure includes: a tube holder (2101), a lateral strut (2102), and a tube cover (2104); the pipe bracket (2101) is a semi-cylindrical semi-surrounding shell, the pipe bracket (2101) is used for supporting the lower half part of the pipeline (19), and the diameter of the arc-shaped inner wall of the pipe bracket (2101) is slightly larger than the outer diameter of the pipeline (19); the pipe bracket (2101) is fixedly connected with the horizontal support (2004) through a lateral strut (2102); the pipe bracket (2101) and the lateral strut (2102) are integrated;

the tube cover (2104) includes: the pipe bracket (2101) and the pipe cover (2104) form a cylindrical shell, and the pipeline (19) is sleeved in the cylindrical shell;

when the anti-seismic pipeline support hanger is implemented:

firstly, a main body support frame is tightly connected with a building main body through an anchor bolt; next, mounting and fixing the lateral support frame and the main body support frame; next, placing the pipeline (19) in a groove of the pipe bracket (2101), and next, sleeving the pipe clamp (2007) on the pipeline (19) and fixedly connecting the pipe clamp with the horizontal supporting piece (2004) through a bolt to fix a first fulcrum of the pipeline (19); finally, the pipe cover (2104) and the pipe bracket (2101) are screwed and fixed through bolts, the lateral support structures surround the pipeline (19) in a cylinder formed by the pipe bracket (2101) and the pipe cover (2104), and the support and fixation of the two lateral support structures of the anti-seismic support and suspension bracket on the second fulcrum and the third fulcrum of the pipeline (19) are completed.

2. The modular integrated swimming pool system according to claim 1, wherein the pool modular member comprises a riser assembly (1), a long support frame, a gutter (2), a gutter bracket (4) and a floor support frame (10); the ditch (2) is arranged at the upper part of the vertical plate assembly (1), and the ditch (2) is used as an overflow tank and/or a regulating water tank; the bottom plate support frame (10) is arranged at the bottom of the vertical plate assembly (1) and is vertical to the vertical plate assembly (1); one end of the bottom plate support frame (10) is connected with the vertical plate assembly (1), and the other end of the bottom plate support frame is connected with the long support frame; one end of the long support frame is connected with the bottom plate support frame (10), the other end of the long support frame is connected with the vertical plate assembly (1), and the length of the long support frame is adjustable; the ditch bracket (4) is supported between the ditch (2) and the vertical plate assembly (1).

3. The modular integrated swimming pool system according to claim 2, wherein a middle support frame (9) is arranged between the long support frame and the riser assembly (1); one end of the middle support frame (9) is connected with the middle part of the long support frame, the other end of the middle support frame is connected with the vertical plate assembly (1), and the middle support frame (9) is used for supporting the long support frame.

4. The modular integrated swimming pool system according to claim 3, wherein the water treatment unit comprises a circulation unit (13), a filtration unit (14) and a disinfection unit (15); the pond water in the pond body flows back to the pond body after being treated by the circulating unit (13), the filtering unit (14) and the disinfecting unit (15); the circulating unit (13) provides power for the whole water treatment system; the control unit (12) can adjust the circulation amount of the circulation unit (13) according to the load change of the water treatment system.

5. The modular integrated swimming pool system according to claim 4, wherein the water treatment unit further comprises a heating unit (16), the heating unit (16) being capable of providing thermal energy to the pool water.

6. The modular integrated swimming pool system according to any one of claims 1-5, further comprising a fabricated auxiliary facility room comprising a forced shower area and a foot soaking disinfection tank, the facility room being assembled from prefabricated sets; the prefabricated part comprises section steel and a panel; the section steel is used for forming an integral section steel framework of the facility application room, and the panel is used for being installed on the integral section steel framework to form a wall of the facility application room.

7. The modular integrated swimming pool system according to claim 6, wherein the facility room is provided with equipment interlayers on both the top and the sides, and the water supply and drainage pipelines are integrated in the equipment interlayers.

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