CN113350838A

CN113350838A - Energy-concerving and environment-protective type water treatment facilities

Info

Publication number: CN113350838A
Application number: CN202110658248.7A
Authority: CN
Inventors: 辜芳亮
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-15
Filing date: 2021-06-15
Publication date: 2021-09-07

Abstract

The invention provides an energy-saving and environment-friendly water treatment device, which structurally comprises: the invention comprises a control end, a bracket, a drain pipe and a connecting system, wherein the rear end face of the control end is welded with the front end face of the bracket, the inner side of a support is connected with the outer ring of the drain pipe in a nested manner, the right end of the drain pipe is embedded into the inner side of the connecting system, and the lower end face of the connecting system is fixedly connected with the upper end face of the bracket in an embedded manner, when the equipment is closed, the lower end of the threaded rod is embedded into the inner side of the auxiliary cavity and pushes the buffer device to extrude the return spring, so that the return spring is gradually restored to the original state when the threaded rod moves upwards, the return spring pushes the slide block to move in the groove, so that the buffer device moves upwards to enable the auxiliary cavity to be in a sealed state, when the water suction pump is started, the phenomenon that the valve tightness is reduced because the sand floating in the water flow is accumulated in the auxiliary cavity can be avoided.

Description

Energy-concerving and environment-protective type water treatment facilities

Technical Field

The invention relates to the field of environmental protection, in particular to energy-saving and environment-friendly water treatment equipment.

Background

Water resources are one of indispensable resources in human life, under the condition that water resources are increasingly lacked, water in rivers is absorbed and treated through water treatment equipment, so that the water resources can be recycled, the water treatment equipment has high treatment efficiency, large flow and other excellent performances, but in the energy-saving and environment-friendly water treatment equipment in the prior art, as the water treatment equipment is provided with a valve for controlling water flow, water in the rivers is absorbed by opening the valve during water treatment, silt in the rivers can float along with the flowing water, sand and stone can scatter around the valve along with the flowing water impact on the valve in the floating process, so that part of sand and stone can fall to a valve port in the process of sedimentation, the valve is blocked, when the valve is closed after water absorption is finished, gaps exist at the valve port, so that water can continuously flow into the treatment equipment, causing the phenomenon that the water in the equipment can not be precipitated.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide energy-saving and environment-friendly water treatment equipment, which is characterized in that sediment in a river can float along with the flowing water, sand and stone can impact a valve along the water flow and scatter around the valve in the floating process, so that part of sand and stone can fall to a valve port in the process of sedimentation to block the valve, and when the valve is closed after water absorption is finished, gaps exist at the valve port, so that water continuously flows into the treatment equipment, and the water in the equipment cannot be subjected to sedimentation treatment.

In order to achieve the purpose, the invention is realized by the following technical scheme: an energy-saving and environment-friendly water treatment device structurally comprises: the water draining device comprises a control end, a support, a water draining pipe and a connecting system, wherein the rear end face of the control end is welded with the front end face of the support, the inner side of the support is connected with the outer ring of the water draining pipe in a nested manner, the right end of the water draining pipe is embedded into the inner side of the connecting system, and the lower end face of the connecting system is fixedly connected with the upper end face of the support in a nested manner;

the connecting system comprises a sedimentation tank, a water suction pump, a sleeve, a valve and a connecting pipe, wherein the right end of the sedimentation tank is provided with the connecting pipe, the inner side of the water suction pump is connected with the outer ring of the connecting pipe in an embedded mode, the inner side of the sleeve is provided with the water suction pump, the two ends of the valve are provided with the connecting pipe, and the inner side of the connecting pipe is fixedly connected with one end of a drain pipe in an embedded mode.

As preferred, the valve is including activity chamber, solid fixed ring, threaded rod, disc, fixed chamber, the inboard in activity chamber carries out sliding connection with the lower extreme outer loop of threaded rod, gu fixed ring's inner ring is inlayed with the outer loop in fixed chamber and is connected, the outer loop of threaded rod carries out threaded connection with the inner ring in fixed chamber, disc and threaded rod formula mechanism as an organic whole, the lower terminal surface in fixed chamber is inlayed with the inboard in activity chamber and is connected, the disc diameter is greater than fixed chamber diameter.

As preferred, the activity chamber includes support ring, baffle, supplementary chamber, auxiliary tube, inlet opening, the inner ring of support ring welds with the outer loop of auxiliary tube mutually, baffle and auxiliary tube structure as an organic whole, the lower extreme in supplementary chamber welds with the inboard of auxiliary tube mutually, be equipped with the inlet opening in the auxiliary tube, the baffle is the rubber material, and then when the threaded rod removed to the top, avoid threaded rod and auxiliary tube inboard to take place the striking, and lead to the threaded rod to take place the phenomenon of wearing and tearing, supplementary chamber is located the same axis with the threaded rod, and the inboard of supplementary chamber laminates with the lower extreme of threaded rod mutually.

Preferably, the auxiliary cavity comprises a return spring, a connecting rod, a buffering device, a sliding block, an extrusion block, a through hole and a groove, the return spring is mounted on the inner side of the groove, the upper end of the return spring is fixedly embedded in the outer ring of the sliding block, the outer ring of the connecting rod is embedded in the inner side of the sliding block, the buffering device is mounted between the connecting rods, the outer ring of the sliding block is slidably connected with the inner side of the groove, the extrusion blocks are symmetrically distributed on two sides of the auxiliary cavity, the lower end of the through hole is embedded in the inner side of the auxiliary cavity, the groove and the auxiliary cavity are of an integrated structure, the return spring is not extruded or stretched when the valve is started, the upper half end of the buffering device is exposed out of the auxiliary cavity when the groove is located at the topmost end, and the side face of the buffering device is completely attached to.

Preferably, buffer includes connector link, buffer block, backup pad, locating plate, connector link symmetric distribution is in the both sides of backup pad, the lower extreme embedding of buffer block is in the inboard of backup pad, locating plate and backup pad structure as an organic whole, the buffer block is made for the rubber material and forms.

As preferred, the buffer block includes fixed block, arc pole, elastic block, the fixed block is the integral structure with the buffer block, the arc pole is installed between the elastic block, the one end of elastic block is embedded in the inboard of fixed block, the arc pole is made for the spring steel material and forms, arc pole symmetric distribution is in the inboard of cavity.

Preferably, the threaded rod comprises a supporting block, a middle penetrating rod, a fitting block and a swinging device, the inner side of the supporting block is connected with an outer ring of the threaded rod in a nested manner, the middle penetrating rod is installed between the supporting block and the swinging device, the upper end of the fitting block is embedded into the inner side of the threaded rod, and the supporting block and the threaded rod are located on the same axis.

Preferably, the swing device comprises an air bag, a positioning block, a supporting rod, a swing block and an inner cavity, the air bag is installed between the inner cavity and the swing block, the positioning block and the inner cavity are of an integrated structure, the supporting rod penetrates through the positioning block, the swing block is symmetrically distributed on two sides of the supporting rod and is arc-shaped, the concave surface of the swing block is attached to the upper end of the extrusion block, and the swing device and the upper end ring of the extrusion block are located on the same axis.

Compared with the prior art, the invention has the following advantagesAdvantageous effects：

1. When the water suction pump is started, water flow can flow through the movable cavity, and in the process that the threaded rod moves upwards, because the lower end of the threaded rod is embedded into the inner side of the auxiliary cavity and pushes the buffer device to extrude the return spring, when the threaded rod moves upwards, the return spring gradually restores to the original shape, the return spring pushes the sliding block to move in the groove, so that the buffer device moves upwards to enable the auxiliary cavity to be in a sealed state, and when the water suction pump is started, the phenomenon that the airtightness of the valve is reduced due to the fact that sand floating in the water flow is accumulated in the auxiliary cavity can be avoided.

2. When the threaded rod moves downwards, the inner side of the swinging block is in contact with the extrusion block, and the swinging block is pressed by the extrusion block along with the continuous movement of the threaded rod, so that the swinging block swings towards two ends and extrudes the air bag, and when the circular ring at the upper end of the extrusion block is embedded into the swinging block, the reaction of the air bag pushes the swinging block to clamp the extrusion block, thereby improving the sealing performance of the valve.

Drawings

FIG. 1 is a schematic structural view of an energy-saving and environment-friendly water treatment apparatus according to the present invention.

Fig. 2 is a schematic front view of the connection system of the present invention.

Fig. 3 is a schematic front view of the valve of the present invention.

Fig. 4 is a schematic cross-sectional structure of the movable chamber of the present invention.

FIG. 5 is a schematic structural view of an auxiliary chamber according to the present invention.

FIG. 6 is a schematic structural diagram of a buffering device according to the present invention.

FIG. 7 is a cross-sectional structural diagram of a buffer block according to the present invention.

Fig. 8 is a front view of the threaded rod of the present invention.

Fig. 9 is a schematic structural diagram of the swing device of the present invention.

In the figure: control end-1, support-2, water discharge pipe-3, connecting system-4, sedimentation tank-41, water pump-42, sleeve-43, valve-44, connecting pipe-45, movable cavity-441, fixed ring-442, threaded rod-443, disk-444, fixed cavity-445, support ring-411, baffle-412, auxiliary cavity-413, auxiliary pipe-414, water inlet-415, reset spring-131, connecting rod-132, buffer-133, slide block-134, extrusion block-135, through hole-136, groove-137, connecting buckle-331, buffer block-332, support plate-333, positioning plate-334, fixed block-321, arc rod-322, elastic block-323, elastic block-411, and the like, A supporting block-431, a middle through rod-432, a joint block-433, a swinging device-434, an air bag-341, a positioning block-342, a supporting rod-343, a swinging block-344 and an inner cavity-345.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in figures 1 to 7:

the invention provides an energy-saving and environment-friendly water treatment device, which structurally comprises: control end 1, support 2, drain pipe 3, connected system 4, the rear end face of control end 1 welds with the preceding terminal surface of support 2 mutually, support 2's inboard and the outer loop of drain pipe 3 and carry out nested connection, the right-hand member of drain pipe 3 is embedded in connected system 4's inboard, connected system 4's lower terminal surface and support 2's up end are connected in the embedded fixation.

Wherein, connected system 4 includes sedimentation tank 41, suction pump 42, sleeve 43, valve 44, connecting pipe 45, sedimentation tank 41's right-hand member is equipped with connecting pipe 45, the inboard of suction pump 42 carries out nested connection with the outer loop of connecting pipe 45, the inboard of sleeve 43 is equipped with suction pump 42, the both ends of valve 44 are equipped with connecting pipe 45, the inboard of connecting pipe 45 is connected with the one end of drain pipe 3 is inlayed admittedly.

The valve 44 comprises a movable cavity 441, a fixed ring 442, a threaded rod 443, a disc 444 and a fixed cavity 445, wherein the inner side of the movable cavity 441 is in sliding connection with the outer ring of the lower end of the threaded rod 443, the inner ring of the fixed ring 442 is fixedly embedded with the outer ring of the fixed cavity 445, the outer ring of the threaded rod 443 is in threaded connection with the inner ring of the fixed cavity 445, the disc 444 and the threaded rod 443 are an integrated mechanism, the lower end face of the fixed cavity 445 is fixedly embedded with the inner side of the movable cavity 441, and the diameter of the disc 444 is larger than that of the fixed cavity 445, so that the phenomenon that the disc 444 enters the inner side of the fixed cavity 445 can be avoided.

The movable cavity 441 includes a support ring 411, a baffle 412, an auxiliary cavity 413, an auxiliary tube 414, and a water inlet 415, an inner ring of the support ring 411 is welded to an outer ring of the auxiliary tube 414, the baffle 412 and the auxiliary tube 414 are integrated, a lower end of the auxiliary cavity 413 is welded to an inner side of the auxiliary tube 414, the auxiliary tube 414 is provided with the water inlet 415 therein, the baffle 412 is made of rubber, so that when the threaded rod 443 moves to the top end, the threaded rod 443 is prevented from colliding with an inner side of the auxiliary tube 414, which causes abrasion of the threaded rod 443, the auxiliary cavity 413 and the threaded rod 443 are located on the same axis, and the inner side of the auxiliary cavity 413 is attached to a lower end of the threaded rod 44, which causes the valve 44 to be closed by attaching the threaded rod 443 to the auxiliary cavity 413.

Wherein, the auxiliary cavity 413 comprises a return spring 131, a connecting rod 132, a buffer device 133, a sliding block 134, an extrusion block 135, a through hole 136 and a groove 137, the return spring 131 is installed inside the groove 137, the upper end of the return spring 131 is fixedly connected with the outer ring of the sliding block 134, the outer ring of the connecting rod 132 is embedded inside the sliding block 134, the buffer device 133 is installed between the connecting rods 132, the outer ring of the sliding block 134 is slidably connected with the inside of the groove 137, the extrusion blocks 135 are symmetrically distributed on both sides of the auxiliary cavity 413, the lower end of the through hole 136 is embedded inside the auxiliary cavity 314, the groove 137 and the auxiliary cavity 134 are integrated, the return spring 131 is not extruded or stretched when the valve 44 is started, the sliding block 134 is located at the top end of the groove 137, so the buffer device 133 seals the auxiliary cavity 413, and when the groove 137 is located at the top end, the upper half end of the buffer device 133 is exposed outside the auxiliary cavity 413, and the side surface of the buffer device 133 is completely attached to the auxiliary cavity 413, so that the phenomenon that sand enters the inner side of the auxiliary cavity 413 due to the impact of water flow on the buffer device 133 is avoided.

The buffer device 133 includes a connecting buckle 331, a buffer block 332, a support plate 333, and a positioning plate 334, wherein the connecting buckle 331 is symmetrically distributed on two sides of the support plate 333, the lower end of the buffer block 332 is embedded into the inner side of the support plate 333, the positioning plate 334 and the support plate 333 are integrated, the buffer block 332 is made of rubber, and therefore when the buffer block 332 is extruded by the threaded rod 443, the buffer block 332 is recessed inwards and is completely attached to the lower end face of the threaded rod 443.

Wherein, buffer block 332 includes fixed block 321, arc pole 322, elastic block 323, fixed block 321 and buffer block 332 are the integral structure, arc pole 322 is installed between elastic block 323, elastic block 323's one end is embedded in the inboard of fixed block 321, arc pole 322 is made for spring steel matter and forms, and consequently arc pole 322 has elasticity, arc pole 322 symmetric distribution is in the inboard of cavity 323, and when consequently buffer block 332 up end received rivers to strike, can shake buffer block 332 through arc pole 322's elasticity to shake the grit of buffer block 332 upper end.

The specific use mode and function of the embodiment are as follows:

in the invention, when the equipment is operated, by operating the control end 1, under the control of the control end 1, the water pump 42 is started, so that river water can enter the sedimentation tank 41 through the connecting pipe 45 for sedimentation treatment, so that the river water can be reused, water resources are saved, before the water pump 42 is started, the disc 444 above the valve 44 is rotated, because the threaded rod 443 is arranged below the disc 444, and the threaded rod 443 is in threaded connection with the fixed cavity 445, the threaded rod 443 is driven by the disc 444 to move upwards in a spiral manner, so that the movable cavity 441 is opened, when the water pump 42 is started, water can flow through the movable cavity 441, and during the upward movement of the threaded rod 443, when the equipment is closed, the lower end of the threaded rod 443 is embedded in the inner side of the auxiliary cavity 413, and the buffer device 133 is pushed to extrude the return spring 131, therefore, when the threaded rod 443 moves upwards, the return spring 131 gradually recovers, and the return spring 131 pushes the slider 134 to move in the groove 137, so that the buffer device 133 moves upwards, so that the auxiliary cavity 413 is in a sealed state, when the water suction pump 42 is started, the phenomenon that the airtightness of the valve 44 is reduced due to the fact that sand floating in the water flow is accumulated in the auxiliary cavity 413 can be avoided, the arc-shaped rod 322 is arranged in the buffer block 332, and the arc-shaped rod 332 is made of spring steel, so that the arc-shaped rod 322 has elasticity, when the upper end face of the buffer block 332 is impacted by the water flow, the buffer block 332 can be shaken through the elasticity of the arc-shaped rod 322, and therefore the sand at the upper end of the buffer block 332 is shaken.

Example 2

As shown in fig. 8 to 9:

the invention provides energy-saving and environment-friendly water treatment equipment, wherein a threaded rod 443 comprises a supporting block 431, a middle penetrating rod 432, an attaching block 433 and a swinging device 434, the inner side of the supporting block 431 is connected with the outer ring of the threaded rod 434 in a nested manner, the middle penetrating rod 432 is installed between the supporting block 431 and the swinging device 434, the upper end of the attaching block 433 is embedded into the inner side of the threaded rod 443, the supporting block 431 and the threaded rod 443 are located on the same axis, and the swinging device 434 is symmetrically distributed on two sides of the supporting block 431, so that the stress on two ends of the supporting block 431 is equal, and the phenomenon that the supporting block 431 inclines is avoided.

The swing device 434 includes an air bag 341, a positioning block 342, a supporting rod 343, a swing block 344, and an inner cavity 345, the air bag 341 is installed between the inner cavity 345 and the swing block 344, the positioning block 342 and the inner cavity 345 are integrated, the supporting rod 343 penetrates through the positioning block 342, the swing block 344 is symmetrically distributed on two sides of the supporting rod 343, the swing block 344 is arc-shaped, the concave surface of the swing block 344 is attached to the upper end of the extrusion block 135, so that the sealing performance of the valve 44 can be improved, and the swing block 344 and the upper end ring of the extrusion block 135 are located on the same axis, so that the swing block 344 can clamp the extrusion block 135.

The specific use mode and function of the embodiment are as follows:

in the invention, when the equipment stops running, the water pump 42 stops starting, so that the disc 444 is rotated, the threaded rod 443 is driven by the disc 444 to move downwards, so that the lower end of the fitting block 443 presses the buffer block 332, as the threaded rod 443 continuously moves downwards, the fitting block 443 can be completely embedded into the inner side of the auxiliary cavity 413, so that the valve 44 is closed, during the movement of the threaded rod 443, because the supporting block 431 is nested in the outer ring of the threaded rod 443, the swinging device 434 is arranged on two sides of the supporting block 431, and the swinging device 434 is positioned on the same axis with the ring on the upper end of the extrusion block 135, when the threaded rod 443 moves downwards, the inner side of the swinging block 344 is in contact with the extrusion block 135, and as the threaded rod 443 continuously moves downwards, the swinging block 344 is pressed by the extrusion block 135, so that the swinging block 344 swings towards two ends, meanwhile, the air bag 341 is squeezed, and when the upper end ring of the squeezing block 135 is embedded into the swinging block 344, the swinging block 344 is pushed by the reaction of the air bag 341 to clamp the squeezing block 135, so that the tightness of the valve 44 is improved.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. An energy-saving and environment-friendly water treatment device structurally comprises: control end (1), support (2), drain pipe (3), connected system (4), the rear end face of control end (1) welds with the preceding terminal surface of support (2), the inboard of support (2) carries out nested connection with the outer loop of drain pipe (3), the right-hand member of drain pipe (3) is embedded in the inboard of connected system (4), the lower terminal surface of connected system (4) is connected its characterized in that with the up end of support (2) the build-in:

connection system (4) include sedimentation tank (41), suction pump (42), sleeve (43), valve (44), connecting pipe (45), the right-hand member of sedimentation tank (41) is equipped with connecting pipe (45), the inboard of suction pump (42) carries out nested connection with the outer loop of connecting pipe (45), the inboard of sleeve (43) is equipped with suction pump (42), the both ends of valve (44) are equipped with connecting pipe (45), the inboard of connecting pipe (45) is inlayed with the one end of drain pipe (3) and is connected firmly.

2. The energy-saving and environment-friendly water treatment equipment as claimed in claim 1, wherein: the valve (44) comprises a movable cavity (441), a fixing ring (442), a threaded rod (443), a disc (444) and a fixing cavity (445), the inner side of the movable cavity (441) is in sliding connection with the outer ring of the lower end of the threaded rod (443), the inner ring of the fixing ring (442) is fixedly embedded with the outer ring of the fixing cavity (445), the outer ring of the threaded rod (443) is in threaded connection with the inner ring of the fixing cavity (445), the disc (444) and the threaded rod (443) are integrated, and the lower end face of the fixing cavity (445) is fixedly embedded with the inner side of the movable cavity (441).

3. The energy-saving and environment-friendly water treatment equipment as claimed in claim 2, wherein: the movable cavity (441) comprises a support ring (411), a baffle plate (412), an auxiliary cavity (413), an auxiliary pipe (414) and a water inlet hole (415), the inner ring of the support ring (411) is welded with the outer ring of the auxiliary pipe (414), the baffle plate (412) and the auxiliary pipe (414) are of an integrated structure, the lower end of the auxiliary cavity (413) is welded with the inner side of the auxiliary pipe (414), and the water inlet hole (415) is arranged in the auxiliary pipe (414).

4. The energy-saving and environment-friendly water treatment equipment as claimed in claim 3, wherein: the auxiliary cavity (413) comprises a return spring (131), a connecting rod (132), a buffering device (133), a sliding block (134), an extrusion block (135), a through hole (136) and a groove (137), wherein the return spring (131) is installed on the inner side of the groove (137), the upper end of the return spring (131) is fixedly connected with the outer ring of the sliding block (134), the outer ring of the connecting rod (132) is embedded into the inner side of the sliding block (134), the buffering device (133) is installed between the connecting rods (132), the outer ring of the sliding block (134) is in sliding connection with the inner side of the groove (137), the extrusion blocks (135) are symmetrically distributed on two sides of the auxiliary cavity (413), the lower end of the through hole (136) is embedded into the inner side of the auxiliary cavity (314), and the groove (137) and the auxiliary cavity (134) are of an integrated structure.

5. The energy-saving and environment-friendly water treatment equipment as claimed in claim 4, wherein: buffer (133) are including connector link (331), buffer block (332), backup pad (333), locating plate (334), connector link (331) symmetric distribution is in the both sides of backup pad (333), the lower extreme embedding of buffer block (332) is in the inboard of backup pad (333), locating plate (334) and backup pad (333) are the integrated structure.

6. The energy-saving and environment-friendly water treatment equipment as claimed in claim 5, wherein: buffer block (332) are including fixed block (321), arc pole (322), elastic block (323), fixed block (321) and buffer block (332) are integrated structure, arc pole (322) are installed between elastic block (323), the inboard in fixed block (321) is embedded into to the one end of elastic block (323).

7. The energy-saving and environment-friendly water treatment equipment as claimed in claim 2, wherein: the threaded rod (443) comprises a supporting block (431), a middle penetrating rod (432), an attaching block (433) and a swinging device (434), the inner side of the supporting block (431) is connected with an outer ring of the threaded rod (434) in a nested mode, the middle penetrating rod (432) is installed between the supporting block (431) and the swinging device (434), and the upper end of the attaching block (433) is embedded into the inner side of the threaded rod (443).

8. The energy-saving and environment-friendly water treatment equipment as claimed in claim 7, wherein: the swinging device (434) comprises an air bag (341), a positioning block (342), a supporting rod (343), a swinging block (344) and an inner cavity (345), the air bag (341) is installed between the inner cavity (345) and the swinging block (344), the positioning block (342) and the inner cavity (345) are of an integrated structure, the supporting rod (343) penetrates through the positioning block (342), and the swinging block (344) is symmetrically distributed on two sides of the supporting rod (343).