CN111853910A - Water-cooling multi-connected heat recovery floor heating device - Google Patents

Abstract

The invention discloses a water-cooling multi-connected heat recovery floor heating device, which belongs to the technical field of floor heating, and comprises a foundation support component, a heat compensation component and a heat absorption component, wherein the foundation support component is positioned at the bottommost end of the whole device, the heat compensation component is arranged in the foundation support component, and the heat absorption component is arranged below the heat compensation component. Greatly saving the energy consumption.

Description

Water-cooling multi-connected heat recovery floor heating device

Technical Field

The invention relates to the technical field of floor heating, in particular to a water-cooling multi-connected heat recovery floor heating device.

Background

The floor heating uses the whole floor as a radiator, the whole floor is uniformly heated through a heating medium in a floor radiation layer, and heat is supplied to the indoor through the floor in a radiation mode to achieve the purpose of comfortable heating, in the use process of the floor heating, the heating of the radiation layer plays a role of heat radiation heating effect on the whole set of house, but in a special environment, people can not frequently walk around all rooms, for example, people only stay in a bedroom when sleeping at night, and go out without being at home, which causes the phenomenon of energy waste, and the air supply and liquid supply radiation type floor heating can flow along with a pipeline, so that the heat of a radiation source is gradually reduced, which causes the phenomenon of temperature difference in the space, can not ensure that each corner can achieve comfortable floor heating, and in the existing gas and liquid radiation heating environment, a large amount of heat energy loss can be caused, and the lost heat energy can not be effectively recycled, people need a water-cooling multi-connected heat recovery floor heating device to solve the problems.

Disclosure of Invention

The invention aims to provide a water-cooling multi-connected heat recovery floor heating device to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a water-cooling multi-connected heat recovery floor heating device comprises a basic supporting component, a heat compensation component, a heat absorption component, an air inlet component, an air exhaust component and a water flow driving component, wherein the basic supporting component is positioned at the bottommost end of the whole device and plays a role of other components in the supporting device, the heat compensation component is arranged in the basic supporting component and plays a role of compensating and balancing the regional temperature difference of heating, the heat absorption component is arranged below the heat compensation component and plays a role of absorbing the heat of the heating in time and storing energy, the air inlet component is arranged on one side of the heat compensation component and plays a role of distributing inlet air in the heat compensation component, the air exhaust component is arranged at one end, far away from the air inlet component, of the heat compensation component and plays a role of exhausting the heating out of the heat compensation component, the side of the heat absorption assembly is provided with a water flow driving assembly which plays a role in controlling water flow circulation.

The basic supporting component comprises an installation groove plate, an air inlet pipe and an air outlet pipe, the installation groove plate is located at the lowest end of the whole set of device, an installation groove is formed in the upper surface of the installation groove plate, the air inlet pipe is fixedly installed on the side wall of one end of the installation groove plate, the air inlet pipe is far away from one end of the installation groove, the installation groove plate is fixed upwards on the ground, the installation groove plate and internal components of the installation groove plate are fixed through filling cement mortar into the installation groove plate, and after the installation groove plate is fixed, the floor can be attached and installed above the installation groove plate.

The thermal compensation component comprises a first heating pipe and a second heating pipe, the air inlet pipe is communicated with the outer side wall of the installation groove plate, the end, far away from the outer side wall of the installation groove plate, of the air inlet pipe is fixedly provided with the first heating pipe, the end, far away from the outer side wall of the installation groove plate, of the air inlet pipe is fixedly provided with the second heating pipe, the first heating pipe is communicated with the interior of the air inlet pipe, the second heating pipe is communicated with the interior of the air inlet pipe, the first heating pipe and the second heating pipe are S-shaped pipelines, heating air enters the first heating pipe and the second heating pipe through the air inlet pipe, the first heating pipe and the second heating pipe can generate heat radiation to the ground surface, the living environment temperature is increased, living is convenient, and more heating air can be contained in a limited area through the first heating pipe and the second heating pipe because the first heating pipe and the second heating pipe are S-shaped, so that the heat radiation degree in a room is high, and the, first heating pipe and second heating pipe intertwine, because the heating installation is when the pipeline flows, the heat constantly reduces, so first heating pipe is close to outlet duct one end temperature and is less than first heating pipe and keeps away from outlet duct one end temperature, the second heating pipe is close to outlet duct one end temperature and is less than second heating pipe and keeps away from outlet duct one end temperature, and first heating pipe low temperature one end is coiled with second heating pipe high temperature one end, second heating pipe low temperature one end is coiled with first heating pipe high temperature one end, make whether first heating pipe or second heating pipe are located the regional one end of low temperature and can both obtain the heat supply of other side, make first heating pipe and second heating pipe very little to the thermal radiation degree difference in each position in the room, be favorable to maintaining the equilibrium of indoor temperature environment, it is better to live and experience.

The heat absorption subassembly includes inlet tube, heat exchange water pipe, outlet pipe, the intake pipe below is provided with the inlet tube, the inlet tube runs through mounting groove board lateral wall and external intercommunication, the inlet tube is close to the fixed intercommunication of the inside one end of mounting groove board and has the heat exchange water pipe, the fixed intercommunication of inlet tube one end is kept away from to the heat exchange water pipe has the outlet pipe, the outlet pipe runs through mounting groove board lateral wall and external intercommunication, utilizes the PLC controller control intake pump to the intraductal water injection of heat exchange water of non-bedroom, and the heat radiation of the heating installation that comes from first heating pipe and second heating pipe can heat the intraductal water of heat exchange water.

The air inlet assembly comprises a shunting air inlet pipe, a valve, a shunting pipe and a total air inlet pipe, wherein the shunting air inlet pipe is fixedly communicated with one end, close to the outer side wall of the mounting groove plate, of the air inlet pipe, the valve is fixedly arranged on the shunting air inlet pipe, the shunting air inlet pipe is fixedly communicated with one end, far away from the mounting groove plate, of the shunting pipe, the total air inlet pipe is fixedly communicated with the middle of the shunting pipe, and when floor heating air is used, a heater plays a role in heating the whole set of house, but in a special environment, people cannot spread all rooms, such as a bedroom when sleeping at night, and when the people go out, the phenomenon of energy waste can be caused, the device adopts a plurality of mounting groove plates to carry out splicing type regional heat radiation, the whole house can obtain uniform heat radiation, and the splicing type heat supply effect enables each mounting, the scientific distribution and utilization of the heating are realized, the PLC is used for controlling the valve, and only the heating environment needing the heating is heated, so that the energy consumption is greatly saved.

The exhaust assembly comprises a shunt outlet pipe and a total outlet pipe, the shunt outlet pipe is fixedly communicated with one end, close to the outer side wall of the mounting groove plate, of the outlet pipe, the total outlet pipe is fixedly communicated with one end, far away from the outlet pipe, of the shunt outlet pipe, and the heating air finally flows out in a concentrated mode through the shunt outlet pipe at the total outlet pipe.

The water flow driving assembly comprises a water inlet pump, a water outlet pump, a warm water outlet pipe and a water storage tank, wherein one end of the water inlet pipe, which is far away from a heat exchange water pipe, is fixedly communicated with the water inlet pump through a pipe fitting, one end of the water outlet pipe, which is far away from the heat exchange water pipe, is fixedly communicated with the water outlet pump through a pipe fitting, one end of the water outlet pump, which is far away from the water outlet pipe, is fixedly communicated with the warm water outlet pipe, one end of the warm water outlet pipe, which is far away from the water outlet pump, is fixedly communicated with the water storage tank, a controller is utilized to write a program, the water outlet pump is started after 20-30 minutes, the warm water is pumped into the water storage tank to be stored, the water inlet.

The water inlet pump, the water outlet pump, the warm water delivery pipe and the water storage tank are fixed above the ground, cement mortar is filled in the mounting groove above the mounting groove plate to fill the mounting groove gap, and the cement mortar plays a supporting role in supporting the heat exchange water pipe, the first heating pipe and the second heating pipe.

The utility model discloses a water storage tank, including storage water tank, water inlet pump, water outlet pump, water storage tank side fixed mounting has the PLC controller, PLC controller and external power electric connection, the water inlet pump passes through electric wire and PLC controller electric connection, the water outlet pump passes through electric wire and PLC controller electric connection.

The valve is an electromagnetic valve and is electrically connected with the PLC through an electric wire.

Compared with the prior art, the invention has the beneficial effects that:

the two heating pipes of the device are mutually coiled, so that the heat of the opposite side can be supplemented no matter the first heating pipe or the second heating pipe is positioned at one end of a low-temperature area, the difference of the heat radiation degree of the first heating pipe and the second heating pipe to each direction in a room is small, the balance of an indoor temperature environment is favorably maintained, and the living experience is better;

in the use process of floor heating, the heating has a heat radiation heating effect on the whole set of house, but in a special environment, people can not frequently walk around all rooms, for example, the people can only stay in bedrooms when sleeping at night, and when the people go out of the house, the phenomenon of energy waste can be caused;

the device utilizes the PLC controller to control the water inlet pump to inject water into the heat exchange water pipe of the non-bedroom, the heat radiation of the heating air from the first heating air pipe and the second heating air pipe can heat the water in the heat exchange water pipe, the controller is utilized to write a program, the water outlet pump is started after 20-30 minutes, warm water is pumped into the water storage tank to be stored, and the warm water is continuously stored according to the program setting so as to be used for domestic water in winter.

Drawings

Fig. 1 is a schematic perspective structural view of a water-cooling multi-connected heat recovery floor heating device in a top view state;

fig. 2 is a schematic sectional structure view of a thermal compensation assembly area in a top view state of the water-cooling multi-connected heat recovery floor heating device of the present invention;

fig. 3 is a schematic sectional structure view of the heat absorption assembly area in a top view state of the water-cooling multi-connected heat recovery floor heating device of the present invention;

fig. 4 is a schematic view of a structural connection relationship between an air intake assembly and a thermal compensation assembly of the water-cooling multi-connected heat recovery floor heating device;

fig. 5 is a schematic view of a structural connection relationship between a water flow driving assembly and a heat absorption assembly of the water-cooling multi-connected heat recovery floor heating device;

fig. 6 is a schematic left-view sectional structure view of the water-cooling multi-connected heat recovery floor heating device of the present invention.

Reference numbers in the figures: 101. installing a groove plate; 102. an air inlet pipe; 103. an air outlet pipe; 201. a first heating pipe; 202. a second heating pipe; 301. a water inlet pipe; 302. a heat exchange water pipe; 303. a water outlet pipe; 401. a flow-dividing air inlet pipe; 402. a valve; 403. a shunt tube; 404. a main air inlet pipe; 501. a shunt air outlet pipe; 502. a main air outlet pipe; 601. a water inlet pump; 602. discharging the water pump; 603. warm water output pipe; 604. a water storage tank.

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 (b): as shown in fig. 1 to 6, the water-cooling multi-connected heat recovery floor heating device comprises a basic supporting component, a heat compensation component, a heat absorption component, an air intake component, an air exhaust component and a water flow driving component, wherein the basic supporting component is positioned at the bottommost end of the whole device and plays a role of supporting other components in the device, the heat compensation component is arranged in the basic supporting component and plays a role of compensating and balancing the regional temperature difference of the heating, the heat absorption component is arranged below the heat compensation component and plays a role of absorbing the heat of the heating in time and storing the energy, the air intake component is arranged at one side of the heat compensation component and plays a role of distributing the intake air in the heat compensation component, the air exhaust component is arranged at one end of the heat compensation component far away from the air intake component and plays a role of exhausting the heating out of the heat compensation component, and the water flow driving component is arranged at, the water flow driving assembly plays a role in controlling water flow circulation.

Basic supporting component includes installation frid 101, intake pipe 102, outlet duct 103, installation frid 101 is located the lower extreme of complete equipment, the mounting groove has been seted up to installation frid 101 upper surface, fixed mounting has intake pipe 102 on the lateral wall of mounting groove one end, intake pipe 102 one end fixed mounting has outlet duct 103 is kept away from to the mounting groove, fix installation frid 101 mounting groove subaerial up, to the inside and outside filling cement mortar of installation frid 101 with installation frid 101 and internals fixed, installation frid 101 is fixed the back, can carry out the laminating installation on floor in installation frid 101 top.

The thermal compensation assembly comprises a first heating pipe 201 and a second heating pipe 202, the air inlet pipe 102 is communicated with the outer side wall of the installation groove plate 101, the first heating pipe 201 is fixedly installed at one end, away from the outer side wall of the installation groove plate 101, of the air inlet pipe 102, the second heating pipe 202 is fixedly installed at one end, away from the outer side wall of the installation groove plate 101, of the air inlet pipe 102, the first heating pipe 201 is communicated with the inside of the air inlet pipe 102, the second heating pipe 202 is communicated with the inside of the air inlet pipe 102, the first heating pipe 201 and the second heating pipe 202 are S-shaped pipelines, heating air enters the first heating pipe 201 and the second heating pipe 202 through the air inlet pipe 102, the first heating pipe 201 and the second heating pipe 202 can generate heat radiation to the earth surface, the temperature of the living environment is increased, living is convenient to live, because the first heating pipe 201 and the second heating pipe 202 are S-shaped, the first heating pipe 201 and the second heating pipe 202 can contain, can ensure that a higher environment temperature which makes people feel comfortable is maintained in a room all the time, the first heating pipe 201 and the second heating pipe 202 are mutually coiled, because when the heating flows in the pipeline, the heat is continuously reduced, the temperature of one end, close to the outlet pipe 103, of the first heating pipe 201 is lower than that of one end, far away from the outlet pipe 103, of the first heating pipe 201, the temperature of one end, close to the outlet pipe 103, of the second heating pipe 202 is lower than that of one end, far away from the outlet pipe 103, of the second heating pipe 202, the low-temperature end of the first heating pipe 201 is coiled with the high-temperature end of the second heating pipe 202, the low-temperature end of the second heating pipe 202 is coiled with the high-temperature end of the first heating pipe 201 or the high-temperature end of the first heating pipe 202, so that the heat supplement of the other side can be obtained no matter whether the first heating pipe 201 or the second, the indoor temperature environment can be maintained well, and living experience is better.

The heat absorption subassembly includes inlet tube 301, heat exchange water pipe 302, outlet pipe 303, intake pipe 102 below is provided with inlet tube 301, inlet tube 301 runs through installation frid 101 lateral wall and external intercommunication, inlet tube 301 is close to the fixed intercommunication of the inside one end of installation frid 101 has heat exchange water pipe 302, heat exchange water pipe 302 is kept away from the fixed intercommunication of inlet tube 301 one end and is had outlet pipe 303, outlet pipe 303 runs through installation frid 101 lateral wall and external intercommunication, utilize the PLC controller to control intake pump 601 to the water injection in the heat exchange water pipe 302 of non-bedroom, the heating heat radiation that comes from first heating pipe 201 and second heating pipe 202 can heat the water in the heat exchange water pipe 302.

The air inlet component comprises a shunting air inlet pipe 401, a valve 402, a shunting pipe 403 and a total air inlet pipe 404, wherein the shunting air inlet pipe 401 is fixedly communicated with one end of the air inlet pipe 102 close to the outer side wall of the mounting groove plate 101, the valve 402 is fixedly mounted on the shunting air inlet pipe 401, the shunting pipe 403 is fixedly communicated with one end of the shunting air inlet pipe 401 far away from the mounting groove plate 101, the total air inlet pipe 404 is fixedly communicated with the middle part of the shunting pipe 403, and in the use process of floor heating air, the heating air has a heat radiation heating effect on the whole set of house, but in special environment, people can not spread all rooms, for example, only stay in a bedroom when sleeping at night, and when going out, the phenomenon of energy waste can be caused, the device adopts a plurality of mounting groove plates 101 to carry out splicing type regional heat radiation, the whole house can obtain uniform heat radiation, and each mounting, the scientific distribution and utilization of the heating are realized, the PLC is used for controlling the valve 402, and only the heating environment needing heating is heated, so that the energy consumption is greatly saved.

The exhaust assembly comprises a branch air outlet pipe 501 and a main air outlet pipe 502, one end of the air outlet pipe 103 close to the outer side wall of the installation trough plate 101 is fixedly communicated with the branch air outlet pipe 501, one end of the branch air outlet pipe 501 far away from the air outlet pipe 103 is fixedly communicated with the main air outlet pipe 502, and the central heating finally flows out in a concentrated mode through the branch air outlet pipe 501 at the main air outlet pipe 502.

The water flow driving assembly comprises a water inlet pump 601, a water outlet pump 602, a warm water outlet pipe 603 and a water storage tank 604, wherein one end of the water inlet pipe 301, which is far away from the heat exchange water pipe 302, is fixedly communicated with the water inlet pump 601 through a pipe fitting, one end of the water outlet pipe 303, which is far away from the heat exchange water pipe 302, is fixedly communicated with the water outlet pump 602 through a pipe fitting, one end of the water outlet pump 602, which is far away from the water outlet pipe 303, is fixedly communicated with the warm water outlet pipe 603, one end of the warm water outlet pipe 603, which is far away from the water outlet pump 602, is fixedly communicated with the water storage tank 604, a controller is used for programming, the water outlet pump 602 is started after 20-30 minutes, warm water is pumped into the water storage tank 604 for storage, the water inlet pump 601 is.

The water inlet pump 601, the water outlet pump 602, the warm water delivery pipe 603 and the water storage tank 604 are fixed above the ground, cement mortar is filled in the mounting groove above the mounting groove plate 101 to fill the gap of the mounting groove, and the cement mortar plays a supporting role in supporting the heat exchange water pipe 302, the first heating pipe 201 and the second heating pipe 202.

The PLC controller is fixedly mounted on the side of the water storage tank 604 and electrically connected with an external power supply, the water inlet pump 601 is electrically connected with the PLC controller through a wire, and the water outlet pump 602 is electrically connected with the PLC controller through a wire.

The valve 402 is an electromagnetic valve, and the valve 402 is electrically connected with the PLC controller through an electric wire.

The working principle is as follows:

the installation groove plate 101 is upwards fixed on the ground, cement mortar is filled into the installation groove plate 101 to fix the installation groove plate 101 and internal components thereof, and after the installation groove plate 101 is fixed, the floor can be attached and installed above the installation groove plate 101;

the household self-heating or community unified air supply pipeline is communicated with the air inlet pipe 102, the first heating pipe 201 and the second heating pipe 202 are S-shaped pipelines, the heating air enters the first heating pipe 201 and the second heating pipe 202 through the air inlet pipe 102, the first heating pipe 201 and the second heating pipe 202 can generate heat radiation to the earth surface, the temperature of a living environment is increased, and living is facilitated, because the first heating pipe 201 and the second heating pipe 202 are S-shaped, the first heating pipe 201 and the second heating pipe 202 can accommodate more heating air in a limited area, the heat radiation degree in a room is high, higher environment temperature which enables people to feel comfortable can be maintained in the room at any time, the first heating pipe 201 and the second heating pipe 202 are mutually coiled, when the heating air flows in the pipelines, the heat is continuously reduced, so that the temperature of one end, close to the air outlet pipe 103, of the first heating pipe 201 is lower than the temperature of one end, far from the air outlet pipe 103, of the first heating pipe 201, the temperature of one end, close to the outlet pipe 103, of the second heating pipe 202 is lower than that of one end, far away from the outlet pipe 103, of the second heating pipe 202, the low-temperature end of the first heating pipe 201 is coiled with the high-temperature end of the second heating pipe 202, the low-temperature end of the second heating pipe 202 is coiled with the high-temperature end of the first heating pipe 201, so that heat of the opposite side can be supplemented no matter the first heating pipe 201 or the second heating pipe 202 is located at one end of a low-temperature area, the difference degree of heat radiation of the first heating pipe 201 and the second heating pipe 202 to all directions in a room is small, the balance of the indoor temperature environment is favorably maintained, the living experience is better, and the heating finally flows out in a concentrated mode at;

in the use process of floor heating, the heating has a heat radiation heating effect on the whole set of house, but in a special environment, people can not spread all rooms, for example, people can only stay in bedrooms when sleeping at night, and when going out, the people are not at home, so that the phenomenon of energy waste can be caused, the device adopts a plurality of installation groove plates 101 to carry out splicing type regional heat radiation, the whole house can obtain uniform heat radiation, and the splicing type heat supply effect enables each installation groove plate 101 to independently close an air passage, thereby realizing scientific distribution and utilization of the heating, and the PLC controller is utilized to control the valve 402, so that the heating is only carried out on the environment needing the heating, thereby greatly saving the energy consumption;

the PLC controller is used for controlling the water inlet pump 601 to inject water into the heat exchange water pipe 302 of the non-bedroom, the water in the heat exchange water pipe 302 can be heated through the heat radiation of the heating air from the first heating air pipe 201 and the second heating air pipe 202, the controller is used for programming, the water outlet pump 602 is started after 20-30 minutes, warm water is pumped into the water storage tank 604 to be stored, the water inlet pump 601 is started repeatedly, cold water is injected into the heat exchange water pipe 302, the water is continuously pumped into the water storage tank 604 to be stored after heating is carried out for 20-30 minutes, and the warm water is continuously stored according to the program setting so as to be used for domestic water in.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. Water-cooling multiple hot recovery floor heating device, its characterized in that: the heat compensation device comprises a basic supporting component, a heat compensation component, a heat absorption component, an air inlet component, an exhaust component and a water flow driving component, wherein the basic supporting component is positioned at the bottommost end of the whole device and plays a role of supporting other components in the device, the heat compensation component is arranged in the basic supporting component and plays a role of compensating and balancing regional temperature difference of heating air, the heat absorption component is arranged below the heat compensation component and plays a role of absorbing heating heat in due time and storing energy, the air inlet component is arranged on one side of the heat compensation component and plays a role of distributing inlet air into the heat compensation component, the exhaust component is arranged at one end, far away from the air inlet component, of the heat compensation component, the exhaust component plays a role of exhausting the heating air out of the heat compensation component, and the water flow driving component is arranged on the side of the heat absorption component, the water flow driving assembly plays a role in controlling water flow circulation.

2. The water-cooling multi-connected heat recovery floor heating device of claim 1, characterized in that: the basis supporting component includes mounting groove plate (101), intake pipe (102), outlet duct (103), mounting groove plate (101) are located the lower extreme of whole equipment, the mounting groove has been seted up to mounting groove plate (101) upper surface, fixed mounting has intake pipe (102) on the mounting groove one end lateral wall, intake pipe (102) one end fixed mounting is kept away from to the mounting groove has outlet duct (103).

3. The water-cooling multi-connected heat recovery floor heating device of claim 2, characterized in that: the heat compensation assembly comprises a first heating pipe (201) and a second heating pipe (202), the air inlet pipe (102) is communicated with the outer side wall of the installation groove plate (101), the air inlet pipe (102) is far away from one end of the outer side wall of the installation groove plate (101) and is fixedly provided with the first heating pipe (201), the air inlet pipe (102) is far away from one end of the outer side wall of the installation groove plate (101) and is fixedly provided with the second heating pipe (202), the first heating pipe (201) is communicated with the air inlet pipe (102) in the inside, and the second heating pipe (202) is communicated with the air inlet pipe (102) in the inside.

4. The water-cooling multi-connected heat recovery floor heating device of claim 3, characterized in that: the heat absorption subassembly includes inlet tube (301), heat exchange water pipe (302), outlet pipe (303), intake pipe (102) below is provided with inlet tube (301), inlet tube (301) run through installation frid (101) lateral wall and external intercommunication, inlet tube (301) are close to the fixed intercommunication of the inside one end of installation frid (101) and have heat exchange water pipe (302), heat exchange water pipe (302) are kept away from the fixed intercommunication of inlet tube (301) one end and are had outlet pipe (303), outlet pipe (303) run through installation frid (101) lateral wall and external intercommunication.

5. The water-cooling multi-connected heat recovery floor heating device of claim 4, characterized in that: the subassembly of admitting air is including reposition of redundant personnel intake pipe (401), valve (402), shunt tubes (403), total intake pipe (404), intake pipe (102) are close to the fixed intercommunication of installation frid (101) lateral wall one end and have reposition of redundant personnel intake pipe (401), fixed mounting has valve (402) on reposition of redundant personnel intake pipe (401), shunt tubes (403) are kept away from installation frid (101) one end fixed intercommunication to reposition of redundant personnel intake pipe (401), shunt tubes (403) middle part fixed intercommunication has total intake pipe (404).

6. The water-cooling multi-connected heat recovery floor heating device of claim 5, characterized in that: the exhaust assembly comprises a shunt outlet pipe (501) and a total outlet pipe (502), the outlet pipe (103) is fixedly communicated with the shunt outlet pipe (501) close to one end of the outer side wall of the mounting groove plate (101), and the end, away from the outlet pipe (103), of the shunt outlet pipe (501) is fixedly communicated with the total outlet pipe (502).

7. The water-cooling multi-connected heat recovery floor heating device of claim 6, characterized in that: the rivers drive assembly includes intake pump (601), goes out water pump (602), warm water takeover pipe (603), storage water tank (604), it has intake pump (601) to keep away from heat exchange water pipe (302) one end through the fixed intercommunication of pipe fitting in inlet tube (301), it has out water pump (602) to keep away from heat exchange water pipe (302) one end through the fixed intercommunication of pipe fitting in outlet pipe (303), it has warm water takeover pipe (603) to keep away from outlet pipe (303) one end fixed intercommunication in outlet pipe (602), warm water takeover pipe (603) are kept away from the fixed intercommunication of outlet pump (602) one end and are had storage water tank (604).

8. The water-cooling multi-connected heat recovery floor heating device of claim 7, characterized in that: the water inlet pump (601), the water outlet pump (602), the warm water output pipe (603) and the water storage tank (604) are fixed above the ground, and cement mortar is filled in the mounting groove above the mounting groove plate (101) to fill the gap of the mounting groove.

9. The water-cooling multi-connected heat recovery floor heating device of claim 8, characterized in that: storage water tank (604) side fixed mounting has the PLC controller, PLC controller and external power electric connection, intake pump (601) pass through electric wire and PLC controller electric connection, go out water pump (602) and pass through electric wire and PLC controller electric connection.

10. The water-cooling multi-connected heat recovery floor heating device of claim 9, characterized in that: the valve (402) is an electromagnetic valve, and the valve (402) is electrically connected with the PLC through an electric wire.

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