CN211552066U - Solar heat collector without water tank - Google Patents

Abstract

The utility model provides a solar heat collector without a water tank, which mainly comprises a heat collector, a pipe orifice supporting module, a pipe tail supporting module, a cold water inlet pipe, a water inlet inner pipe, a connecting pipe, a hot water outlet pipe, an upper shell, a lower shell, a left shell and a right shell, wherein the heat collector comprises a heat collecting pipe, a stainless steel inner container and a sealing ring, two ends of the heat collecting pipe are arranged on the pipe orifice supporting module, the pipe tail support module comprises a pipe orifice upper shell module, a lower shell module, a rear module and a front module, the pipe orifice support module comprises a pipe orifice upper shell module, a pipe orifice lower shell module, a pipe orifice rear shell module and a pipe orifice front shell module, the pipe orifice support module comprises a pipe orifice upper shell module, a pipe orifice upper shell module and a pipe orifice front shell module which are connected through two-way dovetail strips, respectively, the pipe orifice upper shell comprises a pipe orifice upper shell module and a pipe orifice rear shell module, the pipe orifice lower shell module comprises a pipe orifice upper shell module and a pipe orifice front shell module, a pipe. The vacuum tube has the characteristics of difficult bursting, high thermal efficiency, simple structure, good safety, convenient disassembly and maintenance, long service life and the like.

Description

Solar heat collector without water tank

Technical Field

The patent of the utility model relates to a solar water heater with solar energy as the heat source, specifically speaking are no water tank solar collector.

Background

The solar water heater for domestic high-rise buildings at present comprises: the solar water heater comprises a split wall-mounted solar water heater and a large-diameter vacuum tube solar water heater. The split wall-mounted solar water heater can be installed and used on a high-rise building, but the outdoor flat plate collector is hung on an outdoor wall, so that high-altitude operation is dangerous during installation, the split wall-mounted solar water heater is inconvenient to maintain in the future, and the split wall-mounted solar water heater is long in the day and has the risk of falling due to the fact that a hanging rack is corroded after being drenched and sun-dried; in recent years, research on directly-heated solar water heaters begins, and the principle of the directly-heated solar water heaters is that solar vacuum tubes are made into large-volume directly-stored water and are arranged on a wall below a windowsill, so that the directly-stored water heaters are good in heat absorption performance and high in heat exchange efficiency, but the vacuum tubes are easy to burst, high in use cost and serious in water resource waste, can hurt the life safety of people sometimes, particularly have low pressure bearing and are extremely inconvenient to use water. When normal water use, open the running water inlet valve, keep certain water supply pressure, nevertheless cause the vacuum tube to break when stopping the water use in order to prevent that hot water backward flow or running water pressure in the vacuum tube are too high, generally in time close running water inlet valve, under the condition of closing running water inlet valve, because water has stronger expend with heat and contract with cold performance, after cold water in the vacuum tube is heated, can produce great pressure in the vacuum tube, cause the vacuum tube to break, some are equipped with the one-way relief valve on the water supply pipeline, when vacuum intraductal pressure is higher, still can not play the safety protection effect. The steel wire, the steel belt or the film is wound on the outer wall of the vacuum tube in some methods, so that the pressure bearing capacity is improved, the vacuum tube is prevented from bursting, the structure is complex, the effect is not ideal, and the heat exchange efficiency is reduced. The existing large-diameter vacuum tube solar water heater is mounted on a wall in a wall-mounted mode, also mounted on a balcony guardrail in a wall-mounted mode, is difficult to mount and has a falling risk, once a vacuum tube bursts, glass of the vacuum tube falls in high altitude, and the glass falling in the high altitude can cause damage to people; if the vacuum tube glass is installed on a balcony guardrail, once the vacuum tube bursts, the vacuum tube glass also falls from the high altitude, and the glass falling from the high altitude can cause damage to people. At present, a large vacuum tube is adopted, one end of the large vacuum tube is opened, the other end of the large vacuum tube is sealed and vacuumized in a hemispherical mode, a stainless steel tube inner container is arranged in the large vacuum tube to bear pressure, the weight of the horizontally arranged stainless steel tube inner container and the weight of water in the stainless steel tube inner container are supported at the end portion of an inner wall tube of a glass vacuum tube at the sealed end of the vacuum tube, large pressure is generated on an inner tube of the large-diameter glass vacuum tube, stress is generated at the joint of inner glass and outer glass of the vacuum glass tube, and the vacuum tube is. The invention also applies for the patent of 'balcony embedded solar water heater', the product structure adopts novel modular assembly, is convenient to disassemble and maintain, but because the adopted modular structure is not reasonable in design, all the heat collecting pipes and modules need to be completely disassembled and re-assembled when the heat collecting pipes are maintained or replaced, the time consumption is long, the labor intensity is high, and the maintenance process is complex.

Disclosure of Invention

The utility model discloses a purpose is: the solar heat collector without the water tank has the advantages of being high in heat exchange efficiency, simple in structure, good in safety, convenient to disassemble and maintain, long in service life and the like, and the vacuum tube of the solar heat collector without the water tank is not prone to burst.

The utility model discloses a technical scheme who adopts for solving above-mentioned technical problem is: this no water tank solar collector mainly comprises heat collector, mouth of pipe support module, pipe tail support module, cold water inlet tube, the inner tube of intaking, connecting pipe, hot water outlet pipe, epitheca, inferior valve, left shell, right shell, its characterized in that: the heat collector consists of heat collecting pipes, a stainless steel inner container and a sealing ring, wherein two ends of each heat collecting pipe are respectively arranged in an orifice supporting module and a pipe tail supporting module for supporting and are tightly connected by a dovetail strip and a bolt assembly; the pipe orifice supporting module consists of a pipe orifice upper shell module, a pipe orifice lower shell module, a pipe orifice rear module and a pipe orifice front module, wherein a pipe orifice upper shell front dovetail groove, a pipe orifice upper shell rear dovetail groove and a pipe orifice upper shell connecting dovetail groove are arranged on the pipe orifice upper shell module; the pipe tail supporting module consists of a pipe tail lower shell module, a pipe tail upper shell module, a pipe tail rear module and a pipe tail front module, wherein a pipe tail upper shell rear dovetail groove, a pipe tail upper shell front dovetail groove and a pipe tail upper shell connecting dovetail groove are formed in the pipe tail upper shell module; the left sides of the tube tail lower shell module, the tube tail upper shell module, the tube tail rear module and the tube tail front module are respectively provided with a longitudinal installation fixed connection groove for installing and fixing the solar heat collector without a water tank; the upper shell consists of an upper shell front module, an upper shell rear module and a dovetail groove; the lower shell consists of a lower shell front module, a lower shell rear module and a dovetail groove; the left shell consists of a left shell front shell plate, a left shell middle shell plate, a left shell rear shell plate, a pipe tail left shell front shell plate screw and a pipe tail left shell rear shell plate screw, one side of the left shell front shell plate is buckled with the left shell middle shell plate, the other side of the left shell front shell plate is fastened on the pipe tail front module through the pipe tail left shell front shell plate screw, one side of the left shell rear shell plate is buckled with the left shell middle shell plate, and the other side of the left shell rear shell plate is fastened on the pipe tail rear module through the pipe tail left shell rear shell plate screw; the right shell consists of a right shell front shell plate, a right shell middle shell plate, a right shell rear shell plate, a pipe orifice left shell rear shell plate screw and a pipe orifice left shell front shell plate screw, wherein one side of the right shell front shell plate is buckled with the right shell middle shell plate, the other side of the right shell front shell plate is fastened on the pipe orifice front module through the pipe orifice left shell plate screw, one side of the right shell rear shell plate is buckled with the right shell middle shell plate, and the other side of the right shell rear shell plate is fastened on the pipe orifice rear module through the pipe orifice left shell rear shell plate screw; the front dovetail groove of the upper shell of the pipe orifice, the rear module of the pipe orifice and the dovetail grooves arranged on the front module of the pipe orifice in the up-down direction are connected with the front dovetail groove of the lower shell of the pipe orifice and the rear dovetail groove of the lower shell of the pipe orifice through dovetail strips; the rear dovetail groove of the tube tail upper shell, the front dovetail groove of the tube tail upper shell, the tube tail rear module, the dovetail grooves in the up-down direction arranged on the tube tail front module, the front dovetail groove of the tube tail lower shell and the rear dovetail groove of the tube tail lower shell are connected through dovetail strips; the upper shell, the lower shell, the left shell and the right shell connect the solar heat collector without the water tank into a whole.

The utility model discloses a beneficial effect is: the water tank-free solar heat collector adopting the structure has the advantages that the stainless steel tube inner containers are connected in series in an S shape, tap water enters the stainless steel tube inner container of the heat collector at the lowest part through the cold water inlet pipe and the water inlet inner pipe, all the stainless steel tube inner containers are filled in sequence through the connecting pipe, and finally the tap water is discharged from the hot water outlet pipe of the stainless steel tube inner container of the heat collector at the highest part for users to use. Sunlight passes through the heat collecting pipe and the stainless steel inner container to heat water, and hot water is stored in the stainless steel inner container, so that the heat exchange efficiency is high, and the heat preservation effect is good. Because the stainless steel inner bag of water storage is built-in the heat-collecting pipe, and adopts the pressure-bearing design, does not need other storage water tank, consequently additionally does not occupy user's indoor space, and user's comfortable convenient to use. The water heater is installed in an indoor balcony, does not need an installation support, saves installation cost, and does not have the falling risk caused by the corrosion of the support. The solar heat collector without the water tank can be composed of a plurality of heat collecting pipes, stainless steel inner containers of the heat collecting pipes are connected in series, the hot water output rate is higher, solar water heaters with different volumes can be designed by changing the number of the heat collecting pipes, and water paths among the stainless steel inner containers are connected through connecting pipes. The left side and the right side of the heat collecting pipe are supported on the stainless steel inner container through the supporting blocks, the stainless steel inner container and water in the stainless steel inner container cannot compress the vacuum pipe by gravity, therefore, the possibility that the heat collecting pipe bursts due to the pressure of the stainless steel inner container is reduced, the stainless steel inner container is not prone to bursting, and water in the stainless steel inner container cannot leak tap water in a large amount due to the burst of the heat collecting pipe, so that property loss is brought to users. The product can be independently installed on balconies, roofs and high floors, the danger that people are injured by falling products is avoided, and the accident that people are injured by glass fragments due to cracking of the heat collecting pipes is avoided. The product can be fixed on a wall body by matching the bolt with the mounting fixed connecting groove, and is safer and more reliable. Because the product structure adopts modular assembly mode, the user can the field assembly, when dismantling and maintaining, pull down left shell front shell board, shell board in the middle of the left shell, right shell front shell board, as required, pull down and unscrew the bolt assembly on the two-way dovetail strip, can follow two-way dovetail strip and pull down one or more mouth of pipe front module and pipe tail front module and maintain or change the thermal-collecting tube, during the installation, reverse can, effectively avoided present mosaic solar water heater ubiquitous maintenance complicated drawback, reach the effect of convenient maintenance, time saving and labor saving, simple and convenient swift.

As the utility model discloses an improvement, the insulating block is established to this no water tank solar collector's mouth of pipe side, is favorable to further improving the heat preservation effect.

As the utility model discloses a further improvement, this no water tank solar collector right side shell on be equipped with right guide rail, left side shell on be equipped with left track, the epitheca on be equipped with the motor for installation and control reflector panel are favorable to further improving collecting efficiency through the reflector panel.

As the utility model discloses a further improvement, this no water tank solar collector also can vertically place, and wherein the shape of connecting pipe changes the U type into and connects, and the hot water outlet pipe changes the L type into, and there is the water inner tube in the delivery port side of stainless steel inner bag, and the delivery port side does not have the inner tube of intaking, can guarantee that the water that comes out from the heat collector is whole to be hot water, and convenience of customers uses, and other structures are unchangeable, and the theory of operation is similar with horizontal.

Drawings

Fig. 1 is a schematic front sectional view of a first embodiment of a solar collector without a water tank according to the present invention;

fig. 2 is a C-C sectional view of a first embodiment of the solar collector without a water tank of the present invention shown in fig. 1;

fig. 3 is a B-B sectional view of the first embodiment of the solar collector without a water tank shown in fig. 1;

3 fig. 34 3 is 3 a 3 sectional 3 view 3 of 3 the 3 assembly 3 of 3 the 3 left 3 shell 3 and 3 the 3 pipe 3 end 3 in 3 the 3 direction 3 a 3- 3 a 3 of 3 the 3 first 3 embodiment 3 of 3 the 3 solar 3 collector 3 without 3 a 3 water 3 tank 3 shown 3 in 3 fig. 31 3; 3

Fig. 5 is a schematic view of a first embodiment of the solar collector without a water tank shown in fig. 4 (a) in a partially enlarged structure;

fig. 6 is a schematic view of the right shell and pipe orifice assembly structure of the first embodiment of the solar collector without water tank shown in fig. 1;

fig. 7 is a schematic view of a partially enlarged structure of (b) a first embodiment of the solar collector without a water tank shown in fig. 1;

fig. 8 is a schematic three-view structural diagram of a pipe orifice upper shell module (the pipe orifice lower shell module is the same) of the first embodiment of the solar collector without a water tank shown in fig. 1;

fig. 9 is a schematic diagram of a tube-tail upper shell module of the first embodiment of the solar collector without a water tank shown in fig. 1 (the tube-tail lower shell module is the same as the tube-tail upper shell module);

fig. 10 is a schematic sectional structure view of a second embodiment of the solar collector without a water tank in the utility model.

In the figure: 1. a lower shell rear module, 2, a pipe orifice lower shell module, 3, a cold water inlet pipe 4, a pipe orifice rear module, 5, a right shell middle shell plate, 6, a connecting pipe, 7, a pipe orifice upper shell module, 8, a hot water outlet pipe, 9, an upper shell rear module, 10, a pipe tail upper shell module, 11, a left shell middle shell plate, 12, a pipe tail rear module, 13, a stainless steel inner container, 14, a bidirectional dovetail strip, 15, an inlet inner pipe, 16, a bolt assembly, 17, a pipe tail lower shell module, 18, a heat collecting pipe, 19, a heat insulating block, 20, a left shell rear shell plate, 21, a left shell front shell plate, 22, a pipe tail front module, 23, a right shell rear shell plate, 24, a right shell front shell plate, 25, a pipe orifice front module, 26, an upper shell front module, 27, a lower shell front module, 28, a pipe orifice left shell rear module screw, 29, a pipe orifice left shell front module screw, 30, a pipe tail left shell screw, 31, a pipe tail left shell module screw, 32. the pipe tail upper shell rear dovetail groove 33, the pipe tail upper shell front dovetail groove 34, the pipe tail upper shell connecting dovetail groove 35, the pipe orifice upper shell front dovetail groove 36, the pipe orifice upper shell rear dovetail groove 37, the pipe orifice upper shell connecting dovetail groove 38, the mounting fixed connecting groove 39, the motor 40, the left rail 41 and the right rail.

Detailed Description

The solar thermal collector without a water tank of the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, the solar heat collector without water tank mainly comprises a heat collector, a pipe orifice supporting module, a pipe tail supporting module, a cold water inlet pipe 3, a water inlet inner pipe 15, a connecting pipe 6, a hot water outlet pipe 8, an upper shell, a lower shell, a left shell and a right shell, and is characterized in that: the heat collector consists of heat collecting pipes 18, a stainless steel inner container 13 and a sealing ring, wherein two ends of each heat collecting pipe 18 are respectively arranged in a pipe orifice supporting module and a pipe tail supporting module for supporting and are fixedly connected by a dovetail strip 14 and a bolt assembly 16, a water path between each heat collecting pipe 18 is connected in series in an S shape by a connecting pipe 6, tap water enters the left side of the stainless steel inner container 13 at the lowest part from a cold water inlet pipe 3 and a water inlet inner pipe 15, is discharged from a water outlet at the upper part of the right side of the stainless steel inner container 13 through the connecting pipe 6 and enters the left side of the stainless steel inner container 13 at the upper stage, is discharged from the right side of the stainless steel inner container 13 at the upper stage through the connecting pipe 6 and enters the left side of the stainless steel inner container 13 at; the pipe orifice supporting module consists of an upper pipe orifice casing module 7, a lower pipe orifice casing module 2, a rear pipe orifice module 4 and a front pipe orifice module 25, wherein a front pipe orifice upper casing dovetail groove 35, a rear pipe orifice upper casing dovetail groove 36 and a pipe orifice upper casing connecting dovetail groove 37 are arranged on the upper pipe orifice casing module 7, the lower pipe orifice casing module 2 is also provided with the same dovetail grooves, the rear pipe orifice module 4 and the front pipe orifice module 25 are respectively provided with a front dovetail groove and a rear dovetail groove, the upper pipe orifice casing connecting dovetail groove 37 arranged at the lower part of the upper pipe orifice casing module 7 is connected with the rear pipe orifice module 4 and the front dovetail groove and the rear dovetail groove arranged at the upper part of the front pipe orifice module 25 through a bidirectional dovetail strip 14, the lower pipe orifice casing connecting dovetail groove arranged at the upper part of the lower pipe orifice casing module 2 is connected with the rear pipe orifice module 4 and the front dovetail groove and the, The front module 25 of the pipe orifice is connected into a whole; the pipe tail supporting module consists of a pipe tail lower shell module 17, a pipe tail upper shell module 10, a pipe tail rear module 12 and a pipe tail front module 22, wherein the pipe tail upper shell module 10 is provided with a pipe tail upper shell rear dovetail groove 32, a pipe tail upper shell front dovetail groove 33 and a pipe tail upper shell connecting dovetail groove 34, the pipe tail lower shell module 17 is also provided with the same dovetail grooves, the pipe tail rear module 12 and the pipe tail front module 22 are respectively provided with a front dovetail groove and a rear dovetail groove, the pipe tail upper shell connecting dovetail groove 34 arranged at the lower part of the pipe tail upper shell module 10 is connected with the pipe tail rear module 12 and the front dovetail groove arranged at the upper part of the pipe tail front module 22 through a bidirectional dovetail strip 14, the pipe tail lower shell connecting dovetail groove arranged at the upper part of the pipe tail lower shell module 17 is connected with the pipe tail rear module 12 and the front dovetail groove arranged at the lower part of the pipe tail front module 22 through the bidirectional dovetail strip 14, the bidirectional dovetail strip 14 is fastened through a, The pipe tail front module 22 is connected into a whole; the left sides of the tube tail lower shell module 17, the tube tail upper shell module 10, the tube tail rear module 12 and the tube tail front module 22 are respectively provided with a longitudinal installation fixed connection groove 38 for installing and fixing the solar heat collector without a water tank; the upper shell consists of an upper shell front module 26, an upper shell rear module 9 and a dovetail groove; the lower shell consists of a lower shell front module 27, a lower shell rear module 1 and a dovetail groove; the left shell consists of a left shell front shell plate 21, a left shell middle shell plate 11, a left shell rear shell plate 20, a tube tail left shell front shell plate screw 30 and a tube tail left shell rear shell plate screw 31, wherein one side of the left shell front shell plate 21 is buckled with the left shell middle shell plate 11, the other side of the left shell front shell plate is fastened on the tube tail front module 22 through the tube tail left shell front shell plate screw 30, one side of the left shell rear shell plate 20 is buckled with the left shell middle shell plate 11, and the other side of the left shell rear shell plate is fastened on the tube tail rear module 12 through the tube tail left shell rear shell plate screw 31; the right shell consists of a right shell front shell plate 24, a right shell middle shell plate 5, a right shell rear shell plate 23, a pipe orifice left shell rear shell plate screw 28 and a pipe orifice left shell front shell plate screw 29, wherein one side of the right shell front shell plate 24 is buckled with the right shell middle shell plate 5, the other side of the right shell front shell plate is fastened on the pipe orifice front module 25 through the pipe orifice left shell plate screw 29, one side of the right shell rear shell plate 23 is buckled with the right shell middle shell plate 5, and the other side of the right shell rear shell plate is fastened on the pipe orifice rear module 4 through the pipe orifice left shell rear shell plate screw 28; the front dovetail groove 35 and the rear dovetail groove 36 of the upper casing of the pipe orifice are connected with the dovetail grooves in the up-down direction on the rear module 4 and the front module 25 of the pipe orifice, the front dovetail groove of the lower casing of the pipe orifice and the rear dovetail groove of the lower casing of the pipe orifice through dovetail strips; the pipe tail upper shell rear dovetail groove 32 and the pipe tail upper shell front dovetail groove 33 are connected with the pipe tail rear module 12 and the pipe tail front module 22 through dovetail strips, wherein the dovetail grooves in the up-down direction are arranged on the pipe tail lower shell front dovetail groove and the pipe tail lower shell rear dovetail groove; the upper shell, the lower shell, the left shell and the right shell connect the solar heat collector without the water tank into a whole.

According to the solar heat collector without the water tank with the structure, the stainless steel pipe inner containers 13 are connected in series in an S shape, tap water enters the stainless steel pipe inner container 13 of the heat collector at the lowest part through the cold water inlet pipe 3 and the water inlet inner pipe 15, all the stainless steel pipe inner containers 13 are filled in sequence through the connecting pipe 6, and finally the tap water is discharged from the hot water outlet pipe 8 of the stainless steel pipe inner container 13 of the heat collector at the uppermost part for users to use. Sunlight passes through the heat collecting tube 18 and the stainless steel inner container 13 to heat water, and hot water is stored in the stainless steel inner container 13, so that the heat exchange efficiency is high, and the heat preservation effect is good. Because the stainless steel inner container 13 of water storage is built-in thermal-collecting tube 18, and adopt the pressure-bearing design, do not need other storage water tanks, consequently additionally do not occupy user's indoor space, user's comfortable convenient to use. The water heater is installed in an indoor balcony, does not need an installation support, saves installation cost, and does not have the falling risk caused by the corrosion of the support. The solar heat collector without the water tank can be composed of a plurality of heat collecting pipes 18, stainless steel inner containers 13 of the heat collecting pipes 18 are connected in series, the hot water output rate is higher, solar water heaters with different volumes can be designed by changing the number of the heat collecting pipes 18, and water paths among the stainless steel inner containers 13 are connected through connecting pipes 6. The left side and the right side of the heat collecting pipe 18 are supported on the stainless steel inner container 13 through the supporting blocks, the stainless steel inner container 13 and water in the stainless steel inner container do not have gravity compression on the vacuum pipe, therefore, the possibility that the heat collecting pipe 18 bursts due to the pressure of the stainless steel inner container 13 is reduced, the heat collecting pipe is not prone to bursting, and water in the stainless steel inner container 13 cannot cause a large amount of tap water leakage due to the burst of the heat collecting pipe 18, so that property loss is brought to users. The product can be independently installed on balconies, roofs and high floors, the danger that people are injured by falling products is avoided, and the accident that people are injured by glass fragments due to cracking of the heat collecting pipes is avoided. The product can be fixed on the wall body by matching the bolts with the mounting fixed connecting grooves 38, so that the product is safer and more reliable. Because the product structure adopts modular assembly mode, the user can assemble on site, when dismantling and maintaining, dismantle left shell front shell 21, left shell middle shell 11, right shell front shell 24, as required, dismantle and unscrew bolt assembly 16 on the two-way dovetail strip 14, can pull down one or more mouth of pipe front module 25 and pipe tail front module 22 from two-way dovetail strip 14 and maintain or change thermal-collecting tube 18, during the installation, reverse can, effectively avoided present mosaic solar water heater ubiquitous maintenance complicated drawback, reach the effect of convenient maintenance, time saving and labor saving, it is simple and convenient swift.

As the utility model discloses an improvement, as shown in fig. 2, the insulating block 19 is established to this no water tank solar collector's mouth of pipe side, is favorable to further improving the heat preservation effect.

As the utility model discloses a further improvement, as shown in fig. 2, fig. 3, this no water tank solar collector right side shell on be equipped with right guide rail 41, left shell on be equipped with left track 40, the epitheca on be equipped with motor 39 for installation and control reflector panel are favorable to further improving collecting efficiency through the reflector panel.

As the utility model discloses a further improvement, as shown in fig. 10, this no water tank solar collector also can vertically place, and wherein the shape of connecting pipe 6 changes the U type into and connects, and hot water outlet pipe 8 changes the L type into, and there is the water inner tube stainless steel inner bag 13's delivery port side, and the delivery port side does not have the water inner tube of intaking, can guarantee that the water that comes out from the heat collector is whole to be hot water, and convenience of customers uses, and other structures are unchangeable, and the theory of operation is similar with horizontal.

Through the above detailed description, the technical field can be easily realized by the technical personnel. It should be understood, however, that the intention is not to limit the invention to the particular embodiments described. On the basis of the disclosed embodiments, a person skilled in the art can combine different technical features at will, thereby implementing different technical solutions.

Claims (5)

1. The utility model provides a no water tank solar collector, mainly comprises heat collector, mouth of pipe support module, pipe tail support module, cold water inlet tube (3), the inner tube of intaking (15), connecting pipe (6), hot water outlet pipe (8), epitheca, inferior valve, left shell, right shell, its characterized in that: the heat collector consists of heat collecting pipes (18), a stainless steel inner container (13) and a sealing ring, wherein two ends of each heat collecting pipe (18) are respectively installed in a pipe orifice supporting module and a pipe tail supporting module for supporting, and are tightly connected by a dovetail strip (14) and a bolt component (16), a water channel between each heat collecting pipe (18) is in S-shaped series connection by a connecting pipe (6), tap water enters the left side of the stainless steel inner container (13) at the lowest part from a cold water inlet pipe (3) and a water inlet inner pipe (15), is discharged from a water outlet at the upper part of the right side of the stainless steel inner container (13) through the connecting pipe (6) and enters the left side of the stainless steel inner container (13) at the previous stage, is discharged from the right side of the stainless steel inner container (13) at the previous stage through the connecting pipe (6) and enters the left side of the stainless steel inner container (13) at the next previous stage; the pipe orifice supporting module consists of a pipe orifice upper shell module (7), a pipe orifice lower shell module (2), a pipe orifice rear module (4) and a pipe orifice front module (25), wherein a pipe orifice upper shell front dovetail groove (35), a pipe orifice upper shell rear dovetail groove (36) and a pipe orifice upper shell connecting dovetail groove (37) are arranged on the pipe orifice upper shell module (7), the pipe orifice lower shell module (2) is also provided with the same dovetail grooves, the pipe orifice rear module (4) and the pipe orifice front module (25) are respectively provided with a front dovetail groove and a rear dovetail groove, the pipe orifice upper shell connecting dovetail groove (37) arranged at the lower part of the pipe orifice upper shell module (7) is connected with the pipe orifice rear module (4), the front dovetail groove and the rear dovetail groove arranged at the upper part of the pipe orifice front module (25) are connected through a bidirectional dovetail strip (14), the pipe orifice lower shell connecting dovetail groove arranged at the upper part of the pipe orifice lower shell module (2) is, the bidirectional dovetail strip (14) is fastened through a bolt component (16) to connect the pipe orifice rear module (4) and the pipe orifice front module (25) into a whole; the pipe tail supporting module consists of a pipe tail lower shell module (17), a pipe tail upper shell module (10), a pipe tail rear module (12) and a pipe tail front module (22), wherein the pipe tail upper shell module (10) is provided with a pipe tail upper shell rear dovetail groove (32), a pipe tail upper shell front dovetail groove (33) and a pipe tail upper shell connecting dovetail groove (34), the pipe tail lower shell module (17) is also provided with the same dovetail grooves, the pipe tail rear module (12) and the pipe tail front module (22) are respectively provided with a front dovetail groove and a rear dovetail groove, the pipe tail upper shell connecting dovetail groove (34) arranged at the lower part of the pipe tail upper shell module (10) is connected with the pipe tail rear module (12) and the front dovetail groove and the rear dovetail groove arranged at the upper part of the pipe tail front module (22) through a bidirectional dovetail strip (14), the pipe tail connecting dovetail groove arranged at the upper part of the pipe tail lower shell module (17) is connected with the pipe tail rear module (12) and the front dovetail groove and the rear dovetail groove arranged at the, the bidirectional dovetail strip (14) is fastened through a bolt component (16) to connect the pipe tail rear module (12) and the pipe tail front module (22) into a whole; the left sides of the tube tail lower shell module (17), the tube tail upper shell module (10), the tube tail rear module (12) and the tube tail front module (22) are respectively provided with a longitudinal installation fixed connection groove (38) for installing and fixing the solar heat collector without a water tank; the upper shell consists of an upper shell front module (26), an upper shell rear module (9) and a dovetail groove; the lower shell consists of a lower shell front module (27), a lower shell rear module (1) and a dovetail groove; the left shell consists of a left shell front shell plate (21), a left shell middle shell plate (11), a left shell rear shell plate (20), a tube tail left shell front shell plate screw (30) and a tube tail left shell rear shell plate screw (31), one side of the left shell front shell plate (21) is buckled with the left shell middle shell plate (11), the other side of the left shell front shell plate is fastened on the tube tail front module (22) through the tube tail left shell front shell plate screw (30), one side of the left shell rear shell plate (20) is buckled with the left shell middle shell plate (11), and the other side of the left shell rear shell plate is fastened on the tube tail rear module (12) through the tube tail left shell rear shell plate screw (31); the right shell consists of a right shell front shell plate (24), a right shell middle shell plate (5), a right shell rear shell plate (23), a pipe orifice left shell rear shell plate screw (28) and a pipe orifice left shell front shell plate screw (29), one side of the right shell front shell plate (24) is buckled with the right shell middle shell plate (5), the other side of the right shell front shell plate is fastened on the pipe orifice front module (25) through the pipe orifice left shell plate screw (29), one side of the right shell rear shell plate (23) is buckled with the right shell middle shell plate (5), and the other side of the right shell rear shell plate is fastened on the pipe orifice rear module (4) through the pipe orifice left shell rear shell plate screw (28); the front dovetail groove (35) of the upper shell of the pipe orifice, the rear dovetail groove (36) of the upper shell of the pipe orifice are connected with the rear module (4) of the pipe orifice and the dovetail grooves in the up-down direction arranged on the front module (25) of the pipe orifice, the front dovetail groove of the lower shell of the pipe orifice and the rear dovetail groove of the lower shell of the pipe orifice through dovetail strips; the rear dovetail groove (32) of the tube tail upper shell, the front dovetail groove (33) of the tube tail upper shell, the tube tail rear module (12) and the dovetail groove in the up-down direction arranged on the tube tail front module (22) are connected with the front dovetail groove of the tube tail lower shell and the rear dovetail groove of the tube tail lower shell through dovetail strips; the upper shell, the lower shell, the left shell and the right shell connect the solar heat collector without the water tank into a whole.

2. The tankless solar collector of claim 1, further comprising: the side of the pipe orifice is provided with a heat preservation block (19).

3. A tank-less solar collector as claimed in claim 1 or 2, wherein: the right shell on be equipped with right guide rail (41), be equipped with left track (40) on the left shell, be equipped with motor (39) on the epitheca for installation and control reflector panel.

4. A tank-less solar collector as claimed in claim 1 or 2, wherein: the solar heat collector without the water tank is vertical, the shape of the connecting pipe (6) is changed into U-shaped connection, the hot water outlet pipe (8) is changed into L-shaped, the water outlet side of the stainless steel inner container (13) is provided with a water outlet inner pipe, and the water inlet side is not provided with a water inlet inner pipe.

5. A tankless solar collector of claim 3, further comprising: the solar heat collector without the water tank is vertical, the shape of the connecting pipe (6) is changed into U-shaped connection, the hot water outlet pipe (8) is changed into L-shaped, the water outlet side of the stainless steel inner container (13) is provided with a water outlet inner pipe, and the water inlet side is not provided with a water inlet inner pipe.

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