CN117433154B

CN117433154B - Gas energy-saving exchange device with thermal cycle

Info

Publication number: CN117433154B
Application number: CN202311509093.6A
Authority: CN
Inventors: 诸秋寅; 曹以盛; 谷维
Original assignee: Suzhou Xiangcheng District Gas Co ltd
Current assignee: Suzhou Xiangcheng District Gas Co ltd
Priority date: 2023-11-14
Filing date: 2023-11-14
Publication date: 2024-04-12
Anticipated expiration: 2043-11-14
Also published as: CN117433154A

Abstract

The invention relates to the technical field of fuel gas energy-saving exchange devices, and discloses a fuel gas energy-saving exchange device with thermal circulation, which comprises a case, wherein an exhaust pipe is fixedly arranged at the top of the case, baffles are respectively and fixedly arranged at two sides of the inside of the case, a cambered part is formed at the top between the two baffles, a heat exchange pipe is arranged in the middle between the two baffles, two ends of the heat exchange pipe are respectively connected with a cold water pipe and a hot water pipe, a ring heat pipeline and a circulating storage pipe are sequentially connected between the cold water pipe and the hot water pipe, and a water accumulation pipe is hung at the bottom of the circulating storage pipe.

Description

Gas energy-saving exchange device with thermal cycle

Technical Field

The invention relates to the technical field of fuel gas energy-saving exchange devices, in particular to a fuel gas energy-saving exchange device with a thermal cycle.

Background

A heat exchanger (also known as a heat exchanger or heat exchange device) is a device for transferring heat from a hot fluid to a cold fluid to meet specified process requirements, and is an industrial application of convective heat transfer and thermal conduction.

The heat exchanger comprises a gas exchange device, wherein the gas exchange device has certain characteristics, and the heat exchanger is heated by flame generated in a gas combustion mode.

In domestic life, the exchange device comprises a floor heating and gas water heater, wherein the gas water heater can be connected with the floor heating, and a heat exchange device is arranged in the gas water heater, according to a life example, people can know that when a faucet is screwed to a hot water direction, the gas water heater generates a sparking phenomenon, gas and air are mixed, the surface of a pipeline of the built-in heat exchange device is heated, high-pressure cold water is heated instantly when passing through the inside of the heat exchange device, and then the heated water is blended with water in a cold water pipe to control the temperature, so that hot water personnel continuously use the water at a water outlet pipe of the gas water heater; the gas water heater and the hot water outlet pipe are additionally connected with the ground heating through the three-way pipe to heat the ground heating plate, so that domestic water and heating are achieved at one time.

However, in life we can find that when the water faucet screwed to the hot water direction is turned on and off in a short period of time in the process of making the gas water heater, the cold water always comes out first, a long time is needed to wait for the hot water, the temperature of the hot water is gradually increased just before starting, and the water resource and the gas heating time are wasted, and the first point is that: the internal thermal cycle efficiency of the device is insufficient, that is to say, the internal hot water that is located in the heat exchange device pipeline when having the exhaust fan in the inside can not keep constant temperature, but can not remove the exhaust fan again, this can lead to burning oxygenation inadequately, causes the carbon monoxide to increase, and the second point: after the water tap is shut down, the water in the cold water pipeline is in backflow caused by the pressure loss, so that the water is cooled quickly, and the temperature cannot be quickly increased in a short time especially in winter, and therefore, the gas energy-saving exchange device with the thermal cycle is provided.

Disclosure of Invention

The invention aims to provide a fuel gas energy-saving exchange device with a thermal cycle, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a gas energy-saving exchange device with thermal cycle, includes the quick-witted case, quick-witted case top fixed mounting has the exhaust pipe, quick-witted incasement portion both sides respectively fixed mounting has the baffle, two the top forms the arch portion between the baffle, arch portion one side fixed mounting has the variable frequency fan, and mid-mounting has the heat exchange tube between two the baffle, the heat exchange tube both ends are connected with cold water pipe and hot-water line respectively, connect gradually ring hot pipeline and circulation storage tube between cold water pipe and the hot-water line, ring hot pipeline and circulation storage tube are intercommunication each other, circulation storage tube bottom hangs and has the ponding pipe, ponding pipe outside fixed mounting has a plurality of copper pipes, a plurality of copper pipe outside cover is equipped with the constant temperature cover, ponding pipe bottom fixed mounting has the heat transfer case, heat transfer case links to each other with the hot-water line; a gas furnace is arranged at the bottom between the two baffles, a driving head assembly for driving and starting the gas furnace to strike fire is connected to the cold water pipe, one end of the driving head assembly is connected with the heat-delivering box, and a movable valve assembly for opening or closing the outflow of hot water in the water accumulation pipe is arranged outside the heat-delivering box; the bottom of the case is provided with at least one pair of support rods, the driving head assembly comprises an extension pipe connected with the cold water pipe, a piston rod is slidably arranged in the extension pipe, a first spring is sleeved on the piston rod, one end of the piston rod extends out of the extension pipe, a push rod extending part is sleeved at the end of the piston rod, a push rod is fixedly arranged at one end, far away from the extension pipe, of the push rod extending part, and the push rod extending part is slidably connected with the support rods; an electromagnetic ignition tube for igniting the gas furnace is arranged at the bottom of the gas furnace, a lifting rod is connected inside the electromagnetic ignition tube in a sliding manner, the lifting rod is contacted with the ejector rod extension part, and the top of the lifting rod is in contact with an electromagnetic switch of the gas furnace; the movable valve assembly comprises a rack connected with one end of the ejector rod, one end of the heat supply box, far away from the hot water pipe, is rotationally connected with a rotary pipe, one end of the rotary pipe is fixedly connected with a gear, the gear and the rack are meshed with each other, the inner ring of the rotary pipe is provided with threads, the inner ring of the rotary pipe is in threaded connection with a screw rod, a wedge block is fixedly arranged at one end of the screw rod and slides in the heat supply box, the top of the heat supply box is communicated with a water accumulation pipe, and the bottom of the heat supply box is connected with an air compression pump through a pipeline.

Preferably, the bottom of the water accumulation pipe is provided with a cavity area, the bottom of the cavity area is fixedly provided with a water blocking plug, the inner ring of the water blocking plug is slidably connected with a touch rod, the inside of the water blocking plug is filled with a second spring, the top of the touch rod is fixedly provided with a plum blossom water outlet plug, the top of the water blocking plug is downwards sunken to form a deep groove, the bottom of the deep groove is matched with the bottom of the plum blossom water outlet plug, the inner ring of the water blocking plug is provided with a water outlet hole, and when the bottoms of the deep groove and the plum blossom water outlet plug are matched, the water outlet hole is blocked.

Preferably, a water pump is fixedly arranged on one side of the inside of the case, the water pump is connected with a cold water pipe, an expansion tank is arranged beside the case above the water pump, a three-way pipe is sleeved outside the cold water pipe, and the cold water pipe is connected with the expansion tank through the three-way pipe.

Preferably, a fixed cylinder is fixedly arranged on one side, facing the ejector rod, of the heat supply box, a delay switch is movably connected inside the fixed cylinder, the delay switch is electrically connected with the air compression pump, a sliding sheet is fixedly connected on the ejector rod, and the sliding sheet is close to the fixed cylinder.

Preferably, a drainage cover facing the gas furnace is arranged in the middle of the constant temperature cover, the drainage cover penetrates through one of the baffles, and a plurality of heat-guiding sheets are arranged on the baffles.

Preferably, the circular heat pipeline and the circulating storage pipe form a circular flow channel, and the constant temperature cover is made of polyurethane foam materials.

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

according to the invention, the heat exchange tube is externally connected with the annular heat pipe and the circulating storage pipe, the bottom of the circulating storage pipe is communicated with the ponding pipe, when the heat exchange tube is heated, water in the heat exchange tube is heated and then flows into the ponding pipe for storage, the rest heat is synchronously absorbed outside the ponding pipe through the heat-guiding sheet and the constant temperature cover for heat storage, so that a large amount of heat is prevented from being dissipated, when water is repeatedly used in a short time, hot water in the heat exchange tube repeatedly enters the ponding pipe for circulation and exchange, and when the cold water pipe and the hot water pipe are communicated for water outlet, the water temperature is convenient to adjust, so that the water coming out of the water tap is not in a cold state at normal temperature, the water outlet time and the heating time are also saved, and the heating energy is saved;

the device is simple to use, does not need complicated operation steps when heating, can be used by cold water through the cold water pipe, has a compact structure, and can effectively save resources.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the overall internal structure of the present invention;

FIG. 3 is a schematic view of the entire interior of the present invention from another perspective;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present invention;

FIG. 5 is a schematic view of a movable valve assembly according to the present invention;

FIG. 6 is a schematic view of the structure of the heat exchange tube and its connection according to the present invention;

FIG. 7 is a schematic view of the other side of the interior of the present invention as a whole;

FIG. 8 is an enlarged schematic view of the structure of FIG. 7B in accordance with the present invention;

FIG. 9 is an enlarged schematic view of the structure of FIG. 6C in accordance with the present invention;

FIG. 10 is a schematic illustration of the connection of the drive head assembly and the movable valve assembly of the present invention.

In the figure: 1-a case; 2-an exhaust pipe; 3-a variable frequency fan; 4-baffle plates; 5-heat exchange tubes; 6-an expansion tank; 7-a water pump; 8-a three-way pipe; 9-a hot water pipe; 10-gas furnace; 11-an electromagnetic ignition tube; 12-supporting rods; 13-a heat-inducing sheet; 14-loop heat pipe; 15-an air compression pump; 16-a heat transfer box; 17-ejector rods; 18-rack; 19-gear; 20-fixing the cylinder; 21-a ram extension; 22-a piston rod; 23-a first spring; 24-rotating a pipe; 25-screw rod; 26-wedge; 27-a circulation storage tube; 28-a constant temperature cover; 29-water accumulation pipe; 30-drainage cover; 31-copper pipe; 32-a water blocking plug; 33-a trigger lever; 34-plum blossom water outlet plug; 35-a second spring; 36-sliding sheets; 37-delay switch; 38-cold water pipe.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1: referring to fig. 1-10, the present invention provides a technical solution: the utility model provides a gas energy-saving exchange device with thermal cycle, includes quick-witted case 1, quick-witted case 1 top fixed mounting has exhaust pipe 2, quick-witted case 1 inside both sides respectively fixed mounting have baffle 4, two the top forms the arch portion between baffle 4, arch portion one side fixed mounting has variable frequency fan 3, two the mid-mounting has heat exchange tube 5 between baffle 4, heat exchange tube 5 both ends are connected with cold water pipe 38 and hot-water line 9 respectively, connect gradually ring hot pipe 14 and circulation storage tube 27 between cold water pipe 38 and the hot-water line 9, ring hot pipe 14 and circulation storage tube 27 are intercommunication each other, circulation storage tube 27 bottom hangs and is equipped with long-pending water pipe 29, long-pending water pipe 29 outside fixed mounting has a plurality of copper pipes 31, a plurality of copper pipe 31 outside cover is equipped with constant temperature cover 28, long-pending water pipe 29 bottom fixed mounting has heat-delivering box 16, heat-delivering box 16 links to each other with hot-water line 9; the bottom between the two baffles 4 is provided with a gas furnace 10, the cold water pipe 38 is connected with a driving head assembly for driving and starting the ignition of the gas furnace 10, one end of the driving head assembly is connected with the heat delivery box 16, the outside of the heat delivery box 16 is provided with a movable valve assembly for opening or closing the outflow of hot water in the water accumulation pipe 29, when the gas furnace is started to be installed, firstly, one end of the cold water pipe 38 and one end of the hot water pipe 9 are connected with a water tap, the cold water pipe 38 is provided with a regulating valve, the bottom of the gas furnace 10 is connected with a pipeline with the regulating valve, and extends out of the case 1, when the water tap is screwed in the hot water direction, high-pressure cold water enters from the cold water pipe 38, most of water flows to the heat exchange pipe 5, the gas furnace 10 flows to the heating pipeline at the bottom of the heat exchange pipe 5, then flows to the inside of the loop heat exchange pipe 14 successively, the high-pressure water flows to the circulating storage pipe 27 through the loop heat exchange pipe 14 in part of the pipeline 5, the circulation storage tube 27 is in contact connection with the second half of the heat exchange tube 5, so that the circulation storage tube has a certain temperature, and the water temperature in the annular heat exchange tube 14 is neutralized, so that the water temperature in the water tap is prevented from being excessively high due to the neutralization temperature, the water is prevented from being scalded due to the fact that the water temperature is originally discharged by the water tap, and then flows into the water accumulation tube 29, meanwhile, high-pressure water flows to the driving head assembly, the movable valve assembly is rotated through the driving head assembly, a channel between the inside of the heat supply box 16 and the water accumulation tube 29 is opened, the water in the water accumulation tube 29 flows to the hot water tube 9, when the water tap is screwed in the hot water direction, the water temperature discharged at the moment is relatively high, then, the flame size is constant after the flow of the regulating valve at the bottom of the gas furnace 10 is fixed along with the heating of the heat exchange tube 5 of the gas furnace 10, and the variable-frequency fan 3 is arranged, the temperature of the water discharged by the water tap is constant after being increased; the constant temperature cover 28 is made of polyurethane foam material, so that a temporary heat preservation effect on the water accumulation pipe 29 can be achieved, the copper pipe 31 can achieve a heat transfer effect when the gas furnace 10 is subjected to flame spraying and heating, and then after the water tap is closed, the circulating storage pipe 27 and the water accumulation pipe 29 can store heat temporarily, so that the circulating storage pipe 27 and the water accumulation pipe 29 can store heat for secondary recycling, for example, hot water or warm water is adopted to mix dishes in the process of washing dishes in winter, a tap valve is required to be opened and closed in a short time, the device neutralizes temporary hot water in the water accumulation pipe 29 and water cooled in the hot water pipe 9 when the tap valve is opened and closed, the water temperature is constant, the waste of more water is avoided, and the energy saving effect is achieved;

in addition, the cold water pipe 38 and the hot water pipe 9 are connected (not shown, and are of an existing structure) during installation, so that the cold water and the hot water can be conveniently neutralized, and the temperature is regulated in an auxiliary way.

Specifically, at least a pair of bracing piece 12 is installed to chassis 1 bottom, the drive head subassembly includes the extension pipe of being connected on the cold water pipe 38, extension pipe inside slidable mounting has piston rod 22, first spring 23 has been cup jointed on the piston rod 22, piston rod 22 one end extends outside the extension pipe, and is equipped with ejector pin extension 21 at this pot head, ejector pin extension 21 keeps away from extension pipe one end fixed mounting and has ejector pin 17, ejector pin extension 21 and bracing piece 12 sliding connection, the electromagnetism firing tube 11 that is used for gas furnace 10 to strike sparks is installed to gas furnace 10 bottom, electromagnetism firing tube 11 inside sliding connection has the lifter, lifter and ejector pin extension 21 contact, lifter top and gas furnace 10 electromagnetic switch conflict, when tap is to hot water direction twist, cold water is introduced into the extension pipe inside by cold water pipe 38, and high pressure cold water drive piston rod 22, and after the piston rod 22 atress, stretch out to the extension pipe outside, drive extension 21 and ejector pin 17 simultaneously and send hot box 16 direction removal, when extension 21 begins to remove, lift the lifter 11 and lift the lifter, and then the lifter 10 and the electromagnetism firing tube 10 and the top of gas furnace 10 and the firing valve box, when the top of the motion is opened, and the top of gas furnace 10 is heated, and the top is heated to the top is moved, and the top is blown to the electromagnetic valve 10 and is moved, and the top is blown to the top and is moved to the top to the hot box 16 simultaneously.

Further, the movable valve assembly comprises a rack 18 connected with one end of the ejector rod 17, one end of the heat supply box 16 far away from the hot water pipe 9 is rotationally connected with a rotary pipe 24, one end of the rotary pipe 24 is fixedly connected with a gear 19, the gear 19 and the rack 18 are mutually meshed, the inner ring of the rotary pipe 24 is provided with threads, the inner ring of the rotary pipe 24 is in threaded connection with a screw rod 25, one end of the screw rod 25 is fixedly provided with a wedge block 26, the wedge block 26 slides in the heat supply box 16, the top of the heat supply box 16 is communicated with a water accumulating pipe 29, the bottom of the heat supply box 16 is connected with an air compression pump 15 through a pipeline, when the ejector rod 17 moves, the rack 18 moves to drive the gear 19 to rotate, when the gear 19 rotates, the rotary pipe 24 is driven to rotate on the heat supply box 16, and when the rotary pipe 24 rotates, the screw rod 25 is driven to linearly move, and the wedge block 26 is driven to move towards the other end of the heat supply box 16, so that the water accumulating pipe 29 discharges water;

specifically, a cavity area is arranged at the bottom of the water accumulation pipe 29, a water blocking plug 32 is fixedly arranged at the bottom of the cavity area, a touch rod 33 is slidably connected to the inner ring of the water blocking plug 32, a second spring 35 is filled in the water blocking plug 32, a quincuncial water outlet plug 34 is fixedly arranged at the top of the touch rod 33, the top of the water blocking plug 32 is downwards sunken to form a deep groove, the deep groove is matched with the bottom of the quincuncial water outlet plug 34, a water outlet hole is formed in the inner ring of the water blocking plug 32, when the bottoms of the deep groove and the quincuncial water outlet plug 34 are matched, water outlet Kong Shoufeng is blocked, the touch rod 33 is lifted in the process of moving the wedge 26, the second spring 35 is driven to be upwards stretched when the touch rod 33 is lifted, meanwhile, the quincuncial water outlet plug 34 and the quincuncial water outlet plug 32 are driven to be separated, hot water in the water accumulation pipe 29 flows into the hot water tank 16 along the cavity area and the upper hole of the quincuncial water outlet plug 34, then flows into the hot water tank 16 along the surface of the touch rod 33, the bottom of the water blocking plug 16 is connected with the bottom of the water accumulation pipe 16, when the deep groove is matched with the bottom of the air compression pump 15, and the water accumulation pipe 15 is intermittently sprayed into the hot water tank 16 and the hot water pump 29 is prevented from being smoothly conveyed to the bottom of the hot water pipe 29 by the hot water pipe 29 along the high pressure air pump 9, and the hot water pipe 29 is conveniently arranged inside the hot water pipe 9 is prevented from being compressed to be easily inside the bottom by the hot water pipe 9; when the tap stops water, the piston rod 22 is not pressed, the ejector rod 17 is reset, the electromagnetic oven 10 stops flaming, the ejector rod 17 is reset to drive the rack 18 and the gear 19 to move reversely and rotate, the wedge 26 is reset, the water blocking plug 32 and the plum blossom water outlet plug 34 are re-matched for stopping water under the action of the second spring 35, the flow of hot water in the water accumulating pipe 29 is prevented, and the temperature inside the water accumulating pipe 29 positioned at the inner ring of the constant temperature cover 28 is favorably stored.

Further, the inside one side fixed mounting of quick-witted case 1 has water pump 7, water pump 7 and cold water pipe 38 are connected, the quick-witted case 1 is being close to water pump 7 top side and is installed expansion tank 6, cold water pipe 38 outer lane cover is equipped with three-way pipe 8, cold water pipe 38 passes through three-way pipe 8 and connects expansion tank 6, and water pump 7 opens when cold water is introduced and is favorable to assisting cold water to introduce fast, and the wet return in the hot-water heating radiator is connected to expansion tank 6 bottom, and expansion tank 6 can also carry out effective water supply for cold water pipe 38, and expansion tank 6 is not repeated for current structural function.

Example 2: specifically, the heat-delivering box 16 is fixedly provided with a fixed cylinder 20 towards one side of the ejector rod 17, the fixed cylinder 20 is internally and movably connected with a delay switch 37, the delay switch 37 is electrically connected with the air compression pump 15, the ejector rod 17 is fixedly connected with a sliding sheet 36, the sliding sheet 36 is close to the fixed cylinder 20, when the ejector rod 17 starts to move from an initial position, the sliding sheet 36 is driven to directly contact with the delay switch 37, when the delay switch 37 is started, the air compression pump 15 is driven to intermittently boost pressure for a period of time, and then the air compression pump 15 is turned off due to the function of the delay switch 37, so that intercommunication of water between the hot water pipe 9 and the cold water pipe 38 is facilitated, and unstable water outlet pressure of a faucet is prevented.

Further, the middle part of the constant temperature cover 28 is provided with a drainage cover 30 facing the gas furnace 10, the drainage cover 30 penetrates through one of the baffle plates 4, the baffle plates 4 are provided with a plurality of heat guiding sheets 13, the annular heat pipeline 14 and the circulating storage pipe form a circulating flow channel, the drainage cover 30 and the heat guiding sheets 13 have heat absorption effects, when the gas furnace 10 is ignited electromagnetically, hot gas is facilitated to penetrate through the drainage cover 30 and enter the constant temperature cover 28 for storage and circulation, and the heat guiding sheets 13 are used for guiding a part of heat to the baffle plates 4 for later absorption by the constant temperature cover 28.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a gas energy-saving exchange device with thermal cycle, includes quick-witted case (1), quick-witted case (1) top fixed mounting has exhaust pipe (2), inside both sides of quick-witted case (1) are fixed mounting respectively baffle (4), two top formation arch portion between baffle (4), arch portion one side fixed mounting has variable frequency fan (3), its characterized in that: a heat exchange tube (5) is arranged in the middle between the two baffles (4), two ends of the heat exchange tube (5) are respectively connected with a cold water tube (38) and a hot water tube (9), a circular heat pipeline (14) and a circulating storage tube (27) are sequentially connected between the cold water tube (38) and the hot water tube (9), the circular heat pipeline (14) and the circulating storage tube (27) are communicated with each other, a water accumulation tube (29) is hung at the bottom of the circulating storage tube (27), a plurality of copper tubes (31) are fixedly arranged outside the water accumulation tube (29), a constant temperature cover (28) is sleeved outside the copper tubes (31), a heat delivery box (16) is fixedly arranged at the bottom of the water accumulation tube (29), and the heat delivery box (16) is connected with the hot water tube (9);

a gas furnace (10) is arranged at the bottom between the two baffles (4), a driving head assembly for driving and starting the gas furnace (10) to fire is connected to the cold water pipe (38), one end of the driving head assembly is connected with the heat delivery box (16), and a movable valve assembly for opening or closing the outflow of hot water in the water accumulation pipe (29) is arranged outside the heat delivery box (16);

the bottom of the case (1) is provided with at least one pair of support rods (12), the driving head assembly comprises an extension pipe connected with the cold water pipe (38), a piston rod (22) is slidably arranged in the extension pipe, a first spring (23) is sleeved on the piston rod (22), one end of the piston rod (22) extends out of the extension pipe, a push rod extension part (21) is sleeved at the end, a push rod (17) is fixedly arranged at one end, far away from the extension pipe, of the push rod extension part (21) and the support rods (12) in a sliding connection manner;

an electromagnetic ignition tube (11) for igniting the gas furnace (10) is arranged at the bottom of the gas furnace (10), a lifting rod is connected inside the electromagnetic ignition tube (11) in a sliding manner, the lifting rod is in contact with an ejector rod extension part (21), and the top of the lifting rod is in contact with an electromagnetic switch of the gas furnace (10);

the movable valve assembly comprises a rack (18) connected with one end of a push rod (17), one end of a heat supply box (16) far away from a hot water pipe (9) is rotationally connected with a rotary pipe (24), one end of the rotary pipe (24) is fixedly connected with a gear (19), the gear (19) and the rack (18) are meshed with each other, threads are formed in an inner ring of the rotary pipe (24), a screw rod (25) is connected with the inner ring of the rotary pipe (24) in a threaded manner, a wedge block (26) is fixedly installed at one end of the screw rod (25), the wedge block (26) slides in the heat supply box (16), the top of the heat supply box (16) is communicated with a water accumulating pipe (29), and the bottom of the heat supply box (16) is connected with an air compression pump (15) through a pipeline.

2. A gas energy saving exchanging apparatus with thermal cycle according to claim 1, wherein: the water accumulation pipe is characterized in that a cavity area is formed in the bottom of the water accumulation pipe (29), a water blocking plug (32) is fixedly arranged at the bottom of the cavity area, a touch rod (33) is slidably connected with the inner ring of the water blocking plug (32), a second spring (35) is filled in the water blocking plug (32), a plum blossom water outlet plug (34) is fixedly arranged at the top of the touch rod (33), the top of the water blocking plug (32) is downwards sunken to form a deep groove, the bottoms of the deep groove and the plum blossom water outlet plug (34) are identical, and a water outlet hole is formed in the inner ring of the water blocking plug (32), and when the bottoms of the deep groove and the plum blossom water outlet plug (34) are identical, water outlet Kong Shoufeng is blocked.

3. A gas energy saving exchanging apparatus with thermal cycle according to claim 1, wherein: the novel water cooling device is characterized in that a water pump (7) is fixedly arranged on one side of the interior of the case (1), the water pump (7) is connected with a cold water pipe (38), an expansion water tank (6) is arranged beside the case (1) above the water pump (7), a three-way pipe (8) is sleeved on the outer ring of the cold water pipe (38), and the cold water pipe (38) is connected with the expansion water tank (6) through the three-way pipe (8).

4. A gas energy saving exchanging apparatus with thermal cycle according to claim 1, wherein: the utility model discloses a heat transfer box, including ejector pin (17) and fixed barrel (20) are installed to one side of heat transfer box (16), fixed barrel (20) inside swing joint has delay switch (37), delay switch (37) and air compression pump (15) electric connection, fixedly connected with gleitbretter (36) on ejector pin (17), gleitbretter (36) and fixed barrel (20) are close to.

5. A gas energy saving exchanging apparatus with thermal cycle according to claim 1, wherein: the constant temperature cover (28) mid-mounting has drainage cover (30) towards gas furnace (10), drainage cover (30) pass one of them baffle (4), install a plurality of heat pieces (13) on baffle (4).

6. A gas energy saving exchanging apparatus with thermal cycle according to claim 1, wherein: the circular heat pipeline (14) and the circulating storage pipe form a circular flow channel, and the constant temperature cover (28) is made of polyurethane foaming materials.