CN113669773A

CN113669773A - Heating power pipe network heat exchange system

Info

Publication number: CN113669773A
Application number: CN202111009561.4A
Authority: CN
Inventors: 刘意
Original assignee: Individual
Current assignee: Linyi Shengrong Thermal Power Co ltd
Priority date: 2021-08-31
Filing date: 2021-08-31
Publication date: 2021-11-19
Anticipated expiration: 2041-08-31
Also published as: CN113669773B

Abstract

The invention discloses a heat exchange system of a heating pipe network, wherein two ends of a sliding heat exchange box and an extension heat exchange box are provided with supporting limit boxes, one end of the sliding heat exchange box is welded with a limit fixed block, one end of the extension heat exchange box is welded with an installation fixed block, the bottom end of the sliding heat exchange box is welded with a sliding block, the bottom end of the sliding heat exchange box is clamped and installed with a supporting sliding plate at a position corresponding to the sliding block, one end of the supporting sliding plate is hinged with a rotating sliding plate, an Contraband-shaped clamping plate slides along a movement limit plate, the rotating plate is linked to rotate to drive a moving linkage plate to slide along a moving sliding rod, so that the sliding heat exchange box can be rapidly folded and supported, the extension heat exchange box is limited by an extension spring and an extension limit plate, the heat exchange area is increased, the indoor occupied area of a heat exchanger can be reduced in seasons without heat supply, hot water is input into the inner side of the sliding heat exchange box through an input pipe and a water inlet pipe, and carrying out comprehensive heat supply.

Description

Heating power pipe network heat exchange system

Technical Field

The invention relates to the technical field of a heat pipe network, in particular to a heat exchange system of the heat pipe network.

Background

The heat supply pipe network is also called as a heat supply pipeline, starting from a boiler room, a direct-fired machine room, a heat supply center and the like, and leading heat sources to heat supply pipelines of a building heat inlet, wherein a plurality of heat supply pipelines form a pipe network, the design pressure of a heat supply hot water medium is less than or equal to 2.5MPa, the design temperature is less than or equal to 200 ℃, the design pressure of a heat supply steam medium is less than or equal to 1.6MPa, and the design temperature is less than or equal to 350 ℃.

But at present when supplying heat to the environment, the heat exchanger can't be quick fold and adjust, has leaded to using the heat exchanger that needs to change the length difference under different environment, can't change the heat radiating area of heat exchanger according to environment actual temperature simultaneously in the use, influences the effect of heat transfer.

Disclosure of Invention

The invention provides a heat pipe network heat exchange system, which can effectively solve the problems that the heat exchanger cannot be folded and adjusted quickly when the heat is supplied to the environment at present in the prior art, so that the heat exchanger with different lengths needs to be replaced when used in different environments, and the heat dissipation area of the heat exchanger cannot be changed according to the actual temperature of the environment in the use process, so that the heat exchange effect is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a heating power pipe network heat exchange system comprises a sliding heat exchange box, wherein a folding heat exchange assembly is mounted on one side of the sliding heat exchange box, and comprises a conveying pipe, an extension heat exchange box, a support limiting box, an extension spring, an extension limiting plate, a limiting fixing block, a mounting fixing block, an inserting hole, an inserting column, an embedding mounting groove, an extension heat exchange strip, a water inlet pipe, a water discharging pipe, a sliding moving block, a support sliding plate, a rotating sliding plate, a sliding moving groove, an Contraband-type clamping plate, a moving limiting plate, a moving sliding rod, a moving linkage plate and a linkage rotating plate;

the top of one end of the sliding heat exchange box is penetrated with a conveying pipe, the water outlet end of the conveying pipe is penetrated and installed at one end of the extension heat exchange box, the two ends of the sliding heat exchange box and the extension heat exchange box are both rotatably installed with a supporting limit box, the inner side of the supporting limit box is welded with extension springs, one ends of the two extension springs are welded and installed at one end of an extension limit plate, the top of one end of the sliding heat exchange box is symmetrically welded with limit fixed blocks, the two sides of one end of the extension heat exchange box are symmetrically welded with installation fixed blocks, one ends of the limit fixed blocks and the installation fixed blocks are provided with insertion holes, the inner sides of the insertion holes are embedded with insertion columns, a plurality of embedding mounting grooves are equidistantly formed at one ends of the sliding heat exchange box and the extension heat exchange box, the positions of the sliding heat exchange box and the extension heat exchange box are close to the embedding mounting grooves, and are equidistantly welded with extension heat exchange strips, and a water inlet pipe is penetrated through the bottom of one end of the sliding heat exchange box, one ends of the sliding heat exchange box and the extension heat exchange box are penetrated with drain pipes;

the bottom welding of slip heat transfer box has the slip movable block, slip heat transfer box bottom corresponds slip movable block position department joint and installs the support sliding plate, support sliding plate one end is articulated to have the rotation sliding plate, support sliding plate and rotation sliding plate top correspond slip movable block position department and have seted up the slip shifting chute, slip heat transfer box one end welding has Contraband type joint board, the welding of the corresponding Contraband type joint board position department of slip heat transfer box one end has the removal limiting plate, slip heat transfer box one end welding has the removal slide bar, removal slide bar side sliding connection has the removal gangplate, the removal gangplate rotates and is connected with the linkage rotor plate, the linkage rotor plate side rotates with slip heat transfer box one end and is connected.

Preferably, the extension limiting plate is slidably mounted on the inner side of the support limiting box, the extension heat exchange strip is mounted on the inner side of the embedding mounting groove in an embedded manner, the sliding moving block is mounted on the inner side of the sliding moving groove in an embedded manner, and the maximum rotating angle of the linkage rotating plate is 45 degrees.

Preferably, a supporting and drying assembly is installed on one side of the extension heat exchange box and comprises an L-shaped clamping plate, a fixed supporting block, a supporting and connecting plate, a supporting and drying plate, a connecting clamping hole, a connecting clamping column, a mounting and fixing hole, a sleeved supporting column, a connecting fixing strip, a fixed supporting box, a pressing spring, an extension supporting plate, a threaded hole, an extension screw rod and a protection supporting pad;

the top of one end of the extension heat exchange box is welded with an L-shaped clamping plate, one end of each of the two L-shaped clamping plates is clamped with a fixed supporting block, the side ends of a plurality of fixed supporting blocks are welded with supporting connecting plates, the side ends of the supporting connecting plates are equidistantly hinged with supporting drying plates, the side ends of the supporting drying plates and the supporting connecting plates are both provided with connecting clamping holes, connecting clamping columns are embedded and installed inside the connecting clamping holes, the side ends of the supporting drying plates are provided with mounting fixing holes, the side ends of the mounting fixing holes are embedded and sleeved with sleeved supporting columns, and the side ends of the sleeved supporting columns are symmetrically embedded and clamped with connecting fixing strips at positions corresponding to the supporting drying plates;

support dry board side symmetry and rotate and be connected with the fixed bolster box, the welding of the inboard top of fixed bolster box has down compression spring, the welding of down compression spring bottom has the extension backup pad, the threaded hole is seted up to extension backup pad bottom, the inboard rotation of threaded hole is connected with the extension screw rod, extension screw rod bottom joint is connected with the protection supporting pad.

Preferably, the fixed supporting block is provided with an L-shaped clamping groove corresponding to the L-shaped clamping plate, the maximum rotation angle of the supporting drying plate is zero, and the extension supporting plate is slidably mounted on the inner side of the fixed supporting box.

Preferably, one side of the sliding heat exchange box is provided with a heat insulation orientation component, and the heat insulation orientation component comprises an installation connecting plate, a heat insulation fixing box, an installation connecting port, a connection fixing hole, a connection fixing rod, a connection spring, an installation connecting groove, a fixing support sleeve, an extension heat insulation box, an installation clamping column and a heat insulation plate;

the sliding heat exchange box is characterized in that an installation connecting plate is welded at one end of the sliding heat exchange box, the installation connecting plate is connected with a heat insulation fixing box in a clamped mode, an installation connecting port is formed in the position, corresponding to the installation connecting plate, of the side end of the heat insulation fixing box, connection fixing holes are formed in the installation connecting plate and the side end of the heat insulation fixing box symmetrically, a connection fixing rod is connected in an embedded mode inside the connection fixing holes, a connection spring is welded at one end of the connection fixing rod, an installation connecting groove is formed in the position, corresponding to the connection spring, of the side end of the heat insulation fixing box, a fixing support sleeve is welded at the top end of the heat insulation fixing box, an extension heat insulation box is installed in an embedded mode inside the fixing support sleeve, an installation clamping column penetrates through the top end of the heat insulation fixing box, and a heat insulation plate is embedded in the extending heat insulation box.

Preferably, thermal-insulated fixed box side end and the laminating of slip heat transfer box side end, coupling spring embedding is installed in the installation spread groove inboard, the thermal-insulated box side of extension corresponds installation joint post position department and has seted up the joint installing port.

Preferably, one side of the drain pipe is provided with an exhaust assembly, and the exhaust assembly comprises a threaded sleeve, an input pipe, a connecting thread, an exhaust port, an exhaust pipe, a limiting threaded column and a sealing adjusting cylinder;

the exhaust pipe is characterized in that a threaded sleeve is rotatably connected to the side end of the drain pipe, an input pipe is connected to the side end of the threaded sleeve, connecting threads are formed in the side end of the input pipe, an exhaust port is formed in the top end of the drain pipe, an exhaust pipe penetrates through the position, corresponding to the exhaust port, of the side end of the drain pipe, a limiting threaded column is welded on the inner side of the exhaust pipe, and a sealing adjusting cylinder is rotatably connected to the side end of the limiting threaded column.

Preferably, the input pipe is embedded in the inner side of the drain pipe, and the auxiliary block is welded at the top end of the sealing adjusting cylinder.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. the folding heat exchange assembly is arranged, a rotating sliding plate and a supporting sliding plate are flatly paved on the ground, a sliding heat exchange box is pulled to slide along a sliding moving groove, an Contraband-type clamping plate slides along a movement limiting plate, a linkage rotating plate rotates to drive a movement linkage plate to slide along a movement sliding rod, the sliding heat exchange box is limited so that the sliding heat exchange box can be quickly folded and supported, an extension heat exchange box is limited by an extension spring and an extension limiting plate, an installation fixing block is attached to the limit fixing block, an insertion column is embedded into the inner side of an insertion hole, an extension heat exchange strip is extracted from an embedding mounting groove, the heat exchange area is increased, the indoor occupied area of a heat exchanger can be reduced in seasons without heat supply, hot water is input into the inner side of the sliding heat exchange box through an input pipe and a water inlet pipe and is conveyed to the inner side of the extension heat exchange box through a conveying pipe, thereby providing a comprehensive heat supply.

2. Be provided with and support dry assembly, with fixed stay block embedding to L type joint board on, make the support connection board can stabilize the joint and receive extension heat transfer box side, it is spacing to supporting dry plate to connect the joint post embedding to connect the joint pore pair, promote the extension backup pad at the push down spring and slide, rotate the extension screw rod simultaneously, make the protection supporting pad stable support supporting dry plate, make the operation of going on that can be quick when needs heat are dried, be convenient for can be quick when the clothing is dry in winter heat dry and dry, the scope of using has further been increased.

In conclusion, through folding heat exchange assembly and supporting dry subassembly and mutually supporting for can be quick when needs heat to dry the installation support, make the operation that can be quick when needs heat supply, and can be quick when need not the heat supply shrink, thereby reduce the area of heat exchanger.

3. Be provided with thermal-insulated directional subassembly, it is inboard to imbed the mounting panel with thermal-insulated fixed box, make the mounting panel stabilize the joint to the installation connector, it stabilizes the joint to extend thermal-insulated box and installation joint post to connect the fixed rod to drive by coupling spring, it is thermal-insulated to the heat exchanger by the heat insulating board again, make in the use heat can not last to the wall output, control thermal heat dissipation direction, avoid continuously drying to the wall simultaneously and lead to the wall the condition of dry crack to appear, the protection to the wall when having guaranteed the stoving.

4. Be provided with exhaust subassembly, sealed regulation section of thick bamboo is opened the blast pipe along spacing screw post for the gas in slip heat transfer box and the extension heat transfer box can quick discharge, has guaranteed the stability of inside water supply, avoids atmospheric pressure too big the condition that leads to hot water to spill over to appear, and goes out the condition of breathing out and leaking to input tube and drain pipe connection gap through threaded sleeve and connecting thread when the pipe connection.

Combine the use, mutually support through thermal-insulated orientation subassembly and folding heat exchange assemblies for can carry on spacingly to the heat supply direction when the heat supply, avoid the during operation heat to scatter and disappear wantonly, mutually support through folding heat exchange assemblies and exhaust subassembly, make the exhaust that can stabilize when the heat supply, mutually support through a plurality of subassemblies, make the heat supply that can stabilize when the heat supply, guarantee the stability of heat transfer.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic structural view of a folded heat exchange assembly of the present invention;

FIG. 3 is a schematic view of the installation structure of the extended heat exchange cassette of the present invention;

FIG. 4 is a schematic view of the mounting structure of the movement limiting plate of the present invention;

FIG. 5 is a schematic view of the mounting structure of the mobile linkage plate of the present invention;

FIG. 6 is a schematic structural view of the support and drying assembly of the present invention;

FIG. 7 is a schematic view of the mounting structure of the hold-down spring of the present invention;

FIG. 8 is a schematic view of the mounting structure of the socketed support post of the present invention;

FIG. 9 is a schematic structural view of the insulation orienting assembly of the present invention;

FIG. 10 is a schematic view of the installation structure of the heat insulating fixing box of the present invention;

FIG. 11 is a schematic structural view of the exhaust assembly of the present invention;

reference numbers in the figures: 1. sliding the heat exchange box;

2. folding the heat exchange assembly; 201. a delivery pipe; 202. extending the heat exchange box; 203. supporting the limit box; 204. an extension spring; 205. extending the limiting plate; 206. a limit fixing block; 207. mounting a fixed block; 208. an insertion hole; 209. inserting the post; 210. embedding the mounting groove; 211. extending the heat exchange strip; 212. a water inlet pipe; 213. a drain pipe; 214. a sliding moving block; 215. supporting the sliding plate; 216. rotating the sliding plate; 217. a sliding movement groove; 218. contraband type snap plate; 219. a movement restricting plate; 220. moving the slide bar; 221. moving the linkage plate; 222. a linkage rotating plate;

3. supporting a drying assembly; 301. an L-shaped clamping plate; 302. fixing a supporting block; 303. supporting the connecting plate; 304. supporting the drying plate; 305. connecting the clamping holes; 306. connecting the clamping columns; 307. mounting a fixing hole; 308. sleeving a support column; 309. connecting the fixing strips; 310. fixing the support box; 311. pressing down the spring; 312. extending the support plate; 313. a threaded hole; 314. extending the screw; 315. a protective support pad;

4. an insulated orientation assembly; 401. mounting a connecting plate; 402. a heat-insulating fixing box; 403. installing a connecting port; 404. connecting the fixing holes; 405. connecting a fixed rod; 406. a connecting spring; 407. mounting a connecting groove; 408. fixing the support sleeve; 409. an extended insulation box; 410. installing a clamping column; 411. a heat insulation plate;

5. an exhaust assembly; 501. a threaded sleeve; 502. an input tube; 503. connecting threads; 504. an exhaust port; 505. an exhaust pipe; 506. limiting the threaded column; 507. and sealing the adjusting cylinder.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-11, the present invention provides a technical solution, in a heat pipe network heat exchange system, a folding heat exchange assembly 2 is installed at one side of a sliding heat exchange box 1, and the folding heat exchange assembly 2 includes a conveying pipe 201, an extended heat exchange box 202, a supporting limit box 203, an extended spring 204, an extended limit plate 205, a limit fixed block 206, a mounting fixed block 207, an insertion hole 208, an insertion column 209, an embedding mounting groove 210, an extended heat exchange bar 211, a water inlet pipe 212, a water outlet pipe 213, a sliding moving block 214, a supporting sliding plate 215, a rotating sliding plate 216, a sliding moving groove 217, an Contraband type clamping plate 218, a moving limit plate 219, a moving sliding rod 220, a moving linkage plate 221, and a linkage rotating plate 222;

the top of one end of the sliding heat exchange box 1 is penetrated with a conveying pipe 201, the water outlet end of the conveying pipe 201 is penetrated and installed at one end of the extension heat exchange box 202, the two ends of the sliding heat exchange box 1 and the extension heat exchange box 202 are both rotatably installed with a supporting limit box 203, the inner side of the supporting limit box 203 is welded with extension springs 204, one ends of the two extension springs 204 are welded and installed at one end of an extension limit plate 205, the extension limit plate 205 is slidably installed at the inner side of the supporting limit box 203, so that effective limit can be performed in the extension process, the condition of rotating position deviation or blockage is avoided, the top of one end of the sliding heat exchange box 1 is symmetrically welded with limit fixed blocks 206, the two sides of one end of the extension heat exchange box 202 are symmetrically welded with installation fixed blocks 207, one ends of the limit fixed blocks 206 and the installation fixed blocks 207 are provided with inserting holes 208, inserting columns 209 are embedded and installed at the inner sides of the inserting holes 208, one ends of the sliding heat exchange box 1 and the extension heat exchange box 202 are provided with a plurality of embedding installation grooves 210 at equal intervals, the sliding heat exchange box 1 and the extension heat exchange box 202 are welded with the extension heat exchange strips 211 at the positions close to the embedding mounting groove 210 at equal intervals, the extension heat exchange strips 211 are embedded and mounted at the inner side of the embedding mounting groove 210, so that the collection can be rapidly carried out when the sliding heat exchange box is not used, a water inlet pipe 212 penetrates through the bottom of one end of the sliding heat exchange box 1, and a water outlet pipe 213 penetrates through one ends of the sliding heat exchange box 1 and the extension heat exchange box 202;

the bottom end of the sliding heat exchange box 1 is welded with a sliding moving block 214, the bottom end of the sliding heat exchange box 1 is clamped and installed with a supporting sliding plate 215 corresponding to the position of the sliding moving block 214, one end of the supporting sliding plate 215 is hinged with a rotating sliding plate 216, the top ends of the supporting sliding plate 215 and the rotating sliding plate 216 are provided with a sliding moving groove 217 corresponding to the position of the sliding moving block 214, the sliding moving block 214 is embedded and installed inside the sliding moving groove 217, the sliding heat exchange box 1 can be rapidly limited when moving, one end of the sliding heat exchange box 1 is welded with an Contraband type clamping plate 218, one end of the sliding heat exchange box 1 is welded with a moving limiting plate 219 corresponding to the position of the Contraband type clamping plate 218, one end of the sliding heat exchange box 1 is welded with a moving sliding rod 220, the side end of the moving sliding rod 220 is slidably connected with a moving linkage plate 221, the side end of the moving linkage plate 221 is rotatably connected with a linkage rotating plate 222, and the maximum rotating angle of the linkage rotating plate 222 is 45 degrees, the stability of limiting is ensured, and the side end of the linkage rotating plate 222 is rotatably connected with one end of the sliding heat exchange box 1.

A support drying component 3 is installed on one side of the extension heat exchange box 202, and the support drying component 3 comprises an L-shaped clamping plate 301, a fixed support block 302, a support connecting plate 303, a support drying plate 304, a connection clamping hole 305, a connection clamping column 306, an installation fixing hole 307, a sleeving support column 308, a connection fixing strip 309, a fixed support box 310, a downward pressing spring 311, an extension support plate 312, a threaded hole 313, an extension screw 314 and a protection support pad 315;

an L-shaped clamping plate 301 is welded at the top of one end of the extension heat exchange box 202, a fixed supporting block 302 is clamped at one end of each L-shaped clamping plate 301, an L-shaped clamping groove is formed in the position, corresponding to the L-shaped clamping plate 301, of each fixed supporting block 302, so that the connection and the support are convenient, the limiting fixing can be rapidly carried out during splicing, the supporting connecting plates 303 are welded at the side ends of the plurality of fixing supporting blocks 302, the supporting drying plates 304 are hinged at the side ends of the supporting connecting plates 303 at equal intervals, the maximum rotation angle of the supporting drying plates 304 is 90 degrees, and the rapid operation and use are facilitated, the connecting clamping holes 305 are formed in the side ends of the supporting drying plates 304 and the supporting connecting plates 303, the connecting clamping columns 306 are embedded and installed in the inner sides of the connecting clamping holes 305, the mounting fixing holes 307 are formed in the side ends of the supporting drying plates 304, the sleeving supporting columns 308 are embedded and sleeved in the side ends of the mounting fixing holes 307, and the connecting fixing strips 309 are symmetrically embedded and clamped in the positions, corresponding to the supporting drying plates 304, of the side ends of the sleeving supporting columns 308;

support 304 side symmetry rotation of drying plate and be connected with fixed support box 310, the inboard top welding of fixed support box 310 has down compression spring 311, the welding of down compression spring 311 bottom has extension backup pad 312, extension backup pad 312 slidable mounting is inboard in fixed support box 310, be convenient for carry on spacing slip, screw hole 313 is seted up to extension backup pad 312 bottom, screw hole 313 inboard rotates and is connected with extension screw rod 314, extension screw rod 314 bottom joint is connected with protection supporting pad 315.

One side of the sliding heat exchange box 1 is provided with a heat insulation directional component 4, and the heat insulation directional component 4 comprises a mounting connecting plate 401, a heat insulation fixed box 402, a mounting connecting port 403, a connecting fixed hole 404, a connecting fixed rod 405, a connecting spring 406, a mounting connecting groove 407, a fixed supporting sleeve 408, an extended heat insulation box 409, a mounting clamping column 410 and a heat insulation plate 411;

one end of the sliding heat exchange box 1 is welded with an installation connecting plate 401, one ends of the two installation connecting plates 401 are clamped with a heat insulation fixed box 402, the side end of the heat insulation fixed box 402 is jointed with the side end of the sliding heat exchange box 1, so that stable heat insulation is facilitated, and the direction of heat dissipation is limited, the side end of the heat insulation fixed box 402 is provided with an installation connecting port 403 corresponding to the position of the installation connecting plate 401, the side ends of the installation connecting plate 401 and the heat insulation fixed box 402 are symmetrically provided with a connecting fixed hole 404, a connecting fixed rod 405 is embedded and clamped inside the connecting fixed hole 404, one end of the connecting fixed rod 405 is welded with a connecting spring 406, the side end of the heat insulation fixed box 402 is provided with an installation connecting groove 407 corresponding to the position of the connecting spring 406, the connecting spring 406 is embedded and installed inside the installation connecting groove 407, so that sealing and limiting are facilitated, the top end of the heat insulation fixed box 402 is welded with a fixed support sleeve 408, and an extension heat insulation box 409 is embedded and installed inside the fixed support sleeve 408, the top of the thermal insulation fixed box 402 is penetrated with an installation clamping column 410, and the side of the extension thermal insulation box 409 is provided with a clamping installation port corresponding to the installation clamping column 410, so that the thermal insulation box 402 and the extension thermal insulation box 409 are embedded and clamped with a thermal insulation plate 411 when being installed at a position which can be rapidly and stably limited.

An exhaust component 5 is arranged on one side of the drain pipe 213, and the exhaust component 5 comprises a threaded sleeve 501, an input pipe 502, a connecting thread 503, an exhaust port 504, an exhaust pipe 505, a limiting threaded column 506 and a sealing adjusting cylinder 507;

the drain pipe 213 side rotates and is connected with threaded sleeve 501, threaded sleeve 501 side is connected with input tube 502, input tube 502 embedding is installed in drain pipe 213 inboard, the stability of drainage has been guaranteed, connecting thread 503 has been seted up to the input tube 502 side, gas vent 504 has been seted up on drain pipe 213 top, drain pipe 213 side corresponds gas vent 504 position department and runs through blast pipe 505, the inboard welding of blast pipe 505 has spacing screw post 506, spacing screw post 506 side rotates and is connected with sealed regulation section of thick bamboo 507, the welding of sealed regulation section of thick bamboo 507 top has the auxiliary block, can guarantee sealed stability.

The working principle and the using process of the invention are as follows: when the heat exchanger needs to be used, a user places the support sliding plate 215 on the ground, rotates the rotary sliding plate 216 to enable the rotary sliding plate 216 and the support sliding plate 215 to be stably clamped and paved on the ground, pulls the sliding heat exchange box 1 by the user, slides the sliding moving block 214 at the bottom end of the sliding heat exchange box 1 along the sliding moving groove 217, when the sliding heat exchange box 1 slides, the Contraband-type clamping plate 218 slides along the movement limiting plate 219, and simultaneously the linkage rotating plate 222 rotates to drive the movement linkage plate 221 to slide along the movement sliding rod 220, so that the sliding heat exchange box 1 is limited, the sliding heat exchange box 1 can be rapidly folded and supported, the user rotates the extension heat exchange box 202, when the extension heat exchange box 202 rotates, the extension spring 204 is stretched, the limiting plate 205 slides along the support limiting box 203, so that the rotated extension heat exchange box 202 is limited, and the mounting fixing block 207 is attached to the limiting fixing block 206, the insertion column 209 is inserted into the insertion hole 208, so that the extension heat exchange strip 211 is drawn out from the insertion mounting groove 210, the heat exchange area is increased, and the extension heat exchange strip can effectively and rapidly extend and retract when being used in a household, and the indoor occupied area of the heat exchanger can be reduced in seasons without heat supply;

before heat supply, a worker embeds the heat insulation fixing box 402 into the inner side of the mounting connecting plate 401, so that the mounting connecting plate 401 is stably clamped into the mounting connecting port 403, the connecting fixing rod 405 is pulled, the connecting spring 406 is stretched when the connecting fixing rod 405 is pulled, after the clamping of the mounting connecting plate 401 is completed, the connecting fixing rod 405 is loosened, the connecting fixing rod 405 is driven by the connecting spring 406 to be embedded into the inner side of the connecting fixing hole 404, the extended heat insulation box 409 is stably clamped with the mounting clamping column 410, and then the heat exchanger is insulated by the heat insulation plate 411, so that heat cannot be continuously output to the wall surface in the using process, the heat radiation direction of heat is controlled, the situation that the wall surface is dried and cracked due to continuous drying of the wall surface is avoided, and the protection of the wall surface during heat drying is guaranteed;

when hot drying water is supplied, hot water enters the inner side of the water inlet pipe 212 through the input pipe 502, the water inlet pipe 212 inputs the hot water into the inner side of the sliding heat exchange box 1, and the hot water is conveyed to the inner side of the extension heat exchange box 202 through the conveying pipe 201, so that comprehensive heat supply is performed, and the stability of heat supply is ensured;

when supplying heat, the staff rotates the sealing adjusting cylinder 507, the sealing adjusting cylinder 507 rises along the limiting threaded column 506, and the exhaust pipe 505 is opened, so that the gas in the sliding heat exchange box 1 and the extension heat exchange box 202 can be rapidly exhausted, the stability of internal water supply is ensured, the situation that hot water overflows due to overlarge air pressure is avoided, and the situation that the water leaks from the connecting gap between the input pipe 502 and the drain pipe 213 through the threaded sleeve 501 and the connecting thread 503 during pipeline connection;

when clothes need to be dried in winter, a user embeds the fixed supporting block 302 into the L-shaped clamping plate 301, so that the supporting connecting plate 303 can be stably clamped to the side end of the extension heat exchange box 202, rotates the supporting drying plate 304, so that the connecting clamping holes 305 are aligned, then embeds the connecting clamping posts 306 into the inner sides of the connecting clamping holes 305, limits the supporting drying plate 304, rotates the fixed supporting box 310, slides the extension supporting plate 312 along the fixed supporting box 310 under the pushing action of the pressing spring 311, so that the protective supporting pad 315 is in direct contact with the ground, and simultaneously slides the extension screw 314 along the threaded hole 313 by rotating the extension screw 314, so that the protective supporting pad 315 can stably contact with the ground and stably support the supporting drying plate 304, then embeds the sleeved supporting post 308 into the mounting fixing hole 307, and supports and limits the clothes through the connecting fixing strip 309, the operation can be rapidly carried out when the clothes are required to be dried, the clothes can be rapidly dried in winter conveniently, and the use range is further enlarged.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A heat pipe network heat exchange system comprises a sliding heat exchange box (1), and is characterized in that a folding heat exchange assembly (2) is mounted on one side of the sliding heat exchange box (1), wherein the folding heat exchange assembly (2) comprises a conveying pipe (201), an extension heat exchange box (202), a support limiting box (203), an extension spring (204), an extension limiting plate (205), a limiting fixing block (206), a mounting fixing block (207), an insertion hole (208), an insertion column (209), an embedding mounting groove (210), an extension heat exchange strip (211), a water inlet pipe (212), a water outlet pipe (213), a sliding moving block (214), a support sliding plate (215), a rotating sliding plate (216), a sliding moving groove (217), an Contraband-type clamping plate (218), a moving limiting plate (219), a moving sliding rod (220), a moving linkage plate (221) and a linkage rotating plate (222);

the top of one end of the sliding heat exchange box (1) is penetrated by a conveying pipe (201), the water outlet end of the conveying pipe (201) is penetrated and installed at one end of the extension heat exchange box (202), the two ends of the sliding heat exchange box (1) and the extension heat exchange box (202) are both rotated and installed with a supporting limit box (203), the inner side of the supporting limit box (203) is welded with an extension spring (204), the two ends of the extension spring (204) are welded and installed at one end of an extension limit plate (205), the top of one end of the sliding heat exchange box (1) is symmetrically welded with a limit fixed block (206), the two sides of one end of the extension heat exchange box (202) are symmetrically welded with an installation fixed block (207), one ends of the limit fixed block (206) and the installation fixed block (207) are provided with an insertion hole (208), the inner side of the insertion hole (208) is embedded with an insertion column (209), the sliding heat exchange box (1) and one end of the extension heat exchange box (202) are provided with a plurality of embedding installation grooves (210) with equal intervals, the sliding heat exchange box (1) and the extension heat exchange box (202) are welded with extension heat exchange strips (211) at positions close to the embedding mounting groove (210) at equal intervals, a water inlet pipe (212) penetrates through the bottom of one end of the sliding heat exchange box (1), and a water outlet pipe (213) penetrates through one ends of the sliding heat exchange box (1) and the extension heat exchange box (202);

a sliding moving block (214) is welded at the bottom end of the sliding heat exchange box (1), a supporting sliding plate (215) is installed at the bottom end of the sliding heat exchange box (1) in a clamping mode at a position corresponding to the sliding moving block (214), a rotating sliding plate (216) is hinged at one end of the supporting sliding plate (215), a sliding moving groove (217) is formed in positions corresponding to the sliding moving block (214) at the top ends of the supporting sliding plate (215) and the rotating sliding plate (216), an Contraband-type clamping plate (218) is welded at one end of the sliding heat exchange box (1), a moving limiting plate (219) is welded at one end of the sliding heat exchange box (1) at a position corresponding to the Contraband-type clamping plate (218), a moving sliding rod (220) is welded at one end of the sliding heat exchange box (1), a moving plate (221) is slidably connected at the side end of the moving sliding rod (220), and a linkage plate (221) is rotatably connected with a linkage rotating plate (222), the side end of the linkage rotating plate (222) is rotatably connected with one end of the sliding heat exchange box (1).

2. The heat exchange system of a heat distribution pipe network as claimed in claim 1, wherein the extension limiting plate (205) is slidably mounted inside the support limiting box (203), the extension heat exchange bar (211) is embedded inside the embedding mounting groove (210), the sliding moving block (214) is embedded inside the sliding moving groove (217), and the maximum rotation angle of the linkage rotating plate (222) is 45 degrees.

3. The heat exchange system of the heat distribution pipe network of claim 1, wherein a support drying component (3) is installed on one side of the extension heat exchange box (202), and the support drying component (3) comprises an L-shaped clamping plate (301), a fixed support block (302), a support connection plate (303), a support drying plate (304), a connection clamping hole (305), a connection clamping column (306), a mounting and fixing hole (307), a sleeving support column (308), a connection fixing strip (309), a fixed support box (310), a downward pressing spring (311), an extension support plate (312), a threaded hole (313), an extension screw (314) and a protection support pad (315);

the top of one end of each extension heat exchange box (202) is welded with an L-shaped clamping plate (301), one end of each L-shaped clamping plate (301) is clamped with a fixed supporting block (302), the side ends of the fixed supporting blocks (302) are welded with supporting connecting plates (303), the side ends of the supporting connecting plates (303) are equidistantly hinged with supporting drying plates (304), the side ends of the supporting drying plates (304) and the supporting connecting plates (303) are both provided with connecting clamping holes (305), the inner side of the connecting clamping hole (305) is embedded with a connecting clamping column (306), the side end of the supporting and drying plate (304) is provided with an installation fixing hole (307), the side end of the installation fixing hole (307) is embedded and sleeved with a sleeved supporting column (308), and the side ends of the sleeved supporting columns (308) are symmetrically embedded, clamped and connected with a connecting fixing strip (309) at the position corresponding to the supporting and drying plate (304);

support drying plate (304) side symmetry rotation and be connected with fixed bolster box (310), the welding of the inboard top of fixed bolster box (310) has down compression spring (311), down compression spring (311) bottom welding has extension backup pad (312), screw hole (313) are seted up to extension backup pad (312) bottom, screw hole (313) inboard rotation is connected with extension screw rod (314), extension screw rod (314) bottom joint is connected with protection supporting pad (315).

4. The heat exchange system of a heat distribution pipe network as claimed in claim 3, wherein the fixed support block (302) is provided with an L-shaped clamping groove at a position corresponding to the L-shaped clamping plate (301), the maximum rotation angle of the support drying plate (304) is 90 degrees, and the extension support plate (312) is slidably mounted inside the fixed support box (310).

5. The heat exchange system of a heat distribution pipe network as recited in claim 1, wherein one side of the sliding heat exchange box (1) is provided with a heat insulation orientation component (4), and the heat insulation orientation component (4) comprises a mounting connection plate (401), a heat insulation fixing box (402), a mounting connection port (403), a connection fixing hole (404), a connection fixing rod (405), a connection spring (406), a mounting connection groove (407), a fixing support sleeve (408), an extension heat insulation box (409), a mounting clamping column (410) and a heat insulation plate (411);

the heat insulation device is characterized in that one end of the sliding heat exchange box (1) is welded with an installation connecting plate (401), one end of each of the two installation connecting plates (401) is connected with a heat insulation fixing box (402) in a clamping manner, the side end of the heat insulation fixing box (402) is provided with an installation connecting port (403) corresponding to the position of the installation connecting plate (401), the side ends of the installation connecting plate (401) and the heat insulation fixing box (402) are symmetrically provided with connection fixing holes (404), the inner side of each connection fixing hole (404) is embedded and clamped with a connection fixing rod (405), one end of each connection fixing rod (405) is welded with a connection spring (406), the side end of the heat insulation fixing box (402) is provided with an installation connecting groove (407) corresponding to the position of the connection spring (406), the top end of the heat insulation fixing box (402) is welded with a fixing support sleeve (408), and the inner side of the fixing support sleeve (408) is embedded and provided with an extension heat insulation box (409), the top end of the heat insulation fixed box (402) penetrates through an installation clamping column (410), and the heat insulation fixed box (402) and the extension heat insulation box (409) are embedded and clamped with a heat insulation plate (411).

6. The heat exchange system of a heat distribution pipe network as claimed in claim 5, wherein the side end of the heat insulation fixing box (402) is attached to the side end of the sliding heat exchange box (1), the connecting spring (406) is embedded in the mounting connecting groove (407), and the side end of the extended heat insulation box (409) is provided with a clamping mounting opening corresponding to the position of the mounting clamping column (410).

7. The heat exchange system of a heat pipe network of claim 1, wherein an exhaust assembly (5) is installed on one side of the drain pipe (213), and the exhaust assembly (5) comprises a threaded sleeve (501), an input pipe (502), a connecting thread (503), an exhaust port (504), an exhaust pipe (505), a limiting threaded column (506) and a sealing adjusting cylinder (507);

the utility model discloses a drainage pipe, including drain pipe (213), drain pipe (213) side, screw sleeve (501) side are connected with input tube (502), connecting thread (503) have been seted up to input tube (502) side, gas vent (504) have been seted up on drain pipe (213) top, drain pipe (213) side corresponds gas vent (504) position department and has run through blast pipe (505), the inboard welding of blast pipe (505) has spacing screw post (506), spacing screw post (506) side is rotated and is connected with sealed regulation section of thick bamboo (507).

8. The heat exchange system of claim 7, wherein the input pipe (502) is embedded inside the drain pipe (213), and the top end of the sealing adjustment cylinder (507) is welded with an auxiliary block.