CN117366646A - Novel heating structure of assembled building - Google Patents

Abstract

The invention relates to a novel heating structure of an assembled building, which comprises a room-entering end connecting piece, a heating pipeline, a quick straight plug, a corner connecting piece, a U-shaped connecting piece and an adjustable column base connecting piece, wherein the U-shaped connecting piece is connected with the room-entering end connecting piece; the indoor end connecting piece is used for connecting a heating pipeline and an indoor heating pipeline, the quick straight plug is used for connecting the heating pipelines, the corner connecting piece is used for connecting the heating pipelines at two ends of a corner, the U-shaped connecting piece is used for connecting a water inlet pipe and a water return pipe at the tail end of the heating pipeline, and the adjustable column base connecting piece is used for connecting the heating pipelines at two ends of a column base; the corner connecting piece realizes the extension and retraction of the inner connecting pipe through rotating the threaded sleeve, and realizes the assembly and disassembly of the inner connecting pipe and the heating pipeline; the adjustable column base connecting piece comprises a right-angle outer pipe, an L-shaped inner pipe and an inner pipe fixing assembly; the L-shaped inner pipes are respectively inserted into the two ends of the right-angle outer pipe, the depth of the L-shaped inner pipes inserted into the right-angle outer pipe is adjustable to adapt to column bases of different sizes, and the L-shaped inner pipes are fixedly connected with the right-angle outer pipe through the inner pipe fixing assembly. The integration level of the heating structure and the assembled building is high, and the connecting piece of the heating structure is convenient to assemble and disassemble and convenient to maintain the local structure.

Description

Novel heating structure of assembled building

Technical Field

The invention belongs to the technical field of assembly type building heating equipment, and particularly relates to a novel heating structure of an assembly type building.

Background

The assembled building is formed by transporting prefabricated components and accessories of a factory to a building construction site and assembling and installing the prefabricated components and accessories on the site in a reliable connection mode, so that the workload of site construction is reduced as much as possible, and the construction efficiency is improved. The assembled building has become an important development direction of the building industry because of the advantages of flexible design, high building speed, high building quality, environmental protection, energy saving and the like.

At present, heating of the assembled building is mainly performed by using traditional heating modes such as a radiator, a floor heating mode and a central air conditioner, and traditional heating equipment can only be installed after construction of a building structure is completed, so that the workload of site construction is increased, and the assembled building is not matched with the design of the assembled building. In order to solve the heating problem of the fabricated building, the prior art also has the advantages that the heating structure is integrated in the fabricated building wall body to form the fabricated building heating wall body, so that the heat preservation effect is improved. For example, patent application No. 202210342899.X discloses an assembled wall water circulation heating system, a wall is provided with a mounting groove, a pressure-bearing box is arranged in the mounting groove, a water circulation heating device is arranged in the pressure-bearing box, but the loading and unloading of the heating system are inconvenient, and the installation and maintenance are inconvenient. Aiming at the problems, the invention designs a novel heating structure of an assembled building.

Disclosure of Invention

Aiming at the defects of the prior art, the invention aims to provide a novel heating structure of an assembled building.

The invention solves the technical problems by adopting the following technical scheme:

the novel heating structure of the assembled building is characterized by comprising a room-entering end connecting piece, a heating pipeline, a quick straight plug, a corner connecting piece, a U-shaped connecting piece and an adjustable column base connecting piece; the indoor end connecting piece is used for connecting a heating pipeline and an indoor heating pipeline, the quick straight plug is used for connecting the heating pipelines, the corner connecting piece is used for connecting the heating pipelines at two ends of a corner, the U-shaped connecting piece is used for connecting a water inlet pipe and a water return pipe at the tail end of the heating pipeline, and the adjustable column base connecting piece is used for connecting the heating pipelines at two ends of a column base;

the corner connecting piece comprises an outer connecting pipe, an inner connecting pipe, a threaded sleeve and a conical pipe; the two ends of the outer connecting pipe are respectively provided with an inner connecting pipe, the inner connecting pipe is rotatably provided with a threaded sleeve, and the threaded sleeve is rotated to realize the expansion and the contraction of the inner connecting pipe and the assembly and disassembly of the inner connecting pipe and a heating pipeline; the head of the inner connecting pipe is provided with a conical pipe, so that the inner connecting pipe can be positioned and guided in a telescopic manner;

the adjustable column base connecting piece comprises a right-angle outer pipe, an L-shaped inner pipe and an inner pipe fixing assembly; the L-shaped inner pipes are respectively inserted into the two ends of the right-angle outer pipe, the depth of the L-shaped inner pipes inserted into the right-angle outer pipe is adjustable to adapt to column bases of different sizes, and the L-shaped inner pipes are fixedly connected with the right-angle outer pipe through the inner pipe fixing assembly.

Further, the inner tube fixing component comprises a sliding block, a spring, a fixing frame, an elastic piece and an inclined block; the fixed frame is slidably arranged on the L-shaped inner tube, sliding blocks are symmetrically arranged on two sides of the fixed frame, and the fixed frame is made to slide on the L-shaped inner tube by pushing the sliding blocks; the end part of the sliding block is provided with a spring, a plurality of elastic sheets are distributed around one end of the fixing frame, the elastic sheets reset under the action of the spring, and after the elastic sheets reset, the elastic sheets are in close contact with the L-shaped inner tube, and a pretightening force is applied to the L-shaped inner tube, so that the L-shaped inner tube is fixed; the tail end of each elastic piece is connected with an inclined block, the inclined blocks are connected with the inner wall of the right-angle outer tube, all the inclined blocks form a ring, and the L-shaped inner tube passes through the ring.

Further, a clamping groove is formed in one end, adjacent to the conical tube, of the threaded sleeve, an annular flange is arranged at one end, adjacent to the threaded sleeve, of the conical tube, the annular flange is matched with the clamping groove of the threaded sleeve, and balls are arranged between the annular flange and the threaded sleeve; the inner side of the conical tube is provided with a guide ring which is sleeved on the inner connecting tube.

Further, the upper part and the lower part of the heating pipeline are respectively provided with a water inlet pipe and a water return pipe, and a cavity in the middle part of the heating pipeline is internally provided with transverse rib plates and vertical rib plates which are arranged in a staggered way; the middle part of heating pipeline one side sets up the fixed slot, and fixing bolt is located the fixed slot, and fixing bolt's one end runs through heating pipeline and wall connection.

Further, the surface of the heating pipeline, which is contacted with the building wall body, is provided with a heat insulation film.

Further, a water inlet pipe and a water outlet pipe are arranged in the indoor end connecting piece, one ends of the water inlet pipe and the water outlet pipe are respectively connected with a water inlet and a water outlet of the indoor heating pipeline, the other ends of the water inlet pipe and the water outlet pipe are respectively connected with a water inlet pipe and a water return pipe of the heating pipeline, and a sealing ring is arranged at one end of the water inlet pipe and the water outlet pipe, which is connected with the heating pipeline.

Further, the heating structure further comprises an internal corner decoration and an external corner decoration which are spliced with the heating pipeline.

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

1. the integration level of the heating structure and the assembled building is high; when the assembled building wall body is produced, a groove is reserved at the lower part of the wall body in advance, a heat dissipation pipeline can be assembled with the wall body in a factory and then transported to the site, and then a room end connecting piece, a corner connecting piece, an adjustable column foot connecting piece and the like are installed on the site, so that the assembly of a heating structure is completed, the workload of site construction is reduced, dust is not raised on a construction site, and the assembled building wall body is clean and tidy and environment-friendly.

2. The connecting piece of the heating structure is convenient to assemble and disassemble, so that the local structure is convenient to maintain; for example, the internal connecting pipe is driven to rotate by the rotary threaded sleeve, so that the internal connecting pipe stretches and contracts, and the assembly and the disassembly of the corner connecting piece are realized; therefore, when the blockage or water leakage occurs, the whole heating structure does not need to be disassembled, and only part of the structure needs to be disassembled for cleaning or replacement.

3. Adjacent two-sided wall bodies in the building are not necessarily directly connected, but are connected through the columns, and the sizes of the protruding wall surface parts of the columns are uncertain due to the fact that the sizes of the columns of different buildings are possibly different, so that the adjustable column foot connecting piece is designed, the L-shaped inner tube is telescopic through sliding, the length of the column foot connecting piece is further adjustable, and the adjustable column foot connecting piece can adapt to column feet of different sizes.

4. The heating pipeline is embedded into the grooves of the wall body, so that the surface of the heating structure is smooth and is kept flush with the wall surface, the heating pipeline is tightly attached to the grooves of the wall body, dust is not easy to store, indoor space is not occupied, and the heating pipeline is attractive. The outer surface of the heating structure is directly used as an indoor skirting line, so that the decoration cost can be reduced.

5. The heating structure surrounds the wall body, and radiates heat from the periphery to the indoor space, so that the heat radiation is more uniform; the heat of the heating medium is directly emitted into the room through the heating pipeline, so that the heat dissipation effect is good; the heat insulation film is adhered to the contact surface of the heating pipeline and the wall body, so that heat is prevented from being transferred to the wall body, heat loss is reduced, heat transfer efficiency is improved, and energy is saved.

Drawings

FIG. 1 is a diagram of a distribution of a heating structure within a fabricated building;

FIG. 2 is a cross-sectional view of the end-in-chamber connector;

FIG. 3 is a schematic view of a heating pipe;

FIG. 4 is a radial cross-sectional view of a heating conduit;

FIG. 5 is a schematic view of the structure of a quick straight plug;

FIG. 6 is a cross-sectional view of a quick straight plug;

FIG. 7 is a schematic view of a corner connector;

FIG. 8 is a cross-sectional view of the corner connector;

FIG. 9 is an enlarged view of a portion of FIG. 8 at A;

FIG. 10 is a cross-sectional view of a U-shaped connector;

FIG. 11 is a schematic illustration of the position of an adjustable column shoe connector within a fabricated building;

FIG. 12 is a schematic view of the structure of an adjustable column shoe connection;

FIG. 13 is a cross-sectional view of an adjustable column shoe connector;

FIG. 14 is a schematic view of the structure at B in FIG. 13;

FIG. 15 is a schematic view of the structure of the inside corner trim piece;

FIG. 16 is a schematic view of the structure of the male corner trim piece;

in the figure, a 1-chamber end connector; 2-heating pipes; 3-a quick straight plug; 4-corner connectors; a 5-U-shaped connector; 6-internal corner trim; 7-external corner decorating pieces; 8-an adjustable column shoe connector;

101-a water inlet pipe; 102-a water outlet pipe; 103-sealing groove I; 104-a first sealing ring; 201-a water inlet pipe; 202-a water return pipe; 203-a fixed slot; 204-fixing bolts; 205-transverse rib; 206-vertical rib plates; 207-insulating film; 301-plug limiting blocks; 302-sealing groove II; 303-a second sealing ring; 401-an outer connecting tube; 402-connecting tubes; 403-external threads; 404 threaded sleeves; 405-a threaded ring; 406-a conical tube; 407-balls; 408-an inner tube stopper; 409-guide ring; 410-sealing groove III; 411-third seal ring; 501-U-shaped tube; 502-seal groove number four; 503-fourth sealing ring; 601-an internal corner fixing clamping block; 701-external corner fixing clamping blocks; 801-right angle outer tube; an 802-L type inner tube; 803-connecting plug; 804-fifth seal groove; 805-fifth seal ring; 806-a chute; 807-reaction mass; 808-an outer slide; 809-connecting pieces; 810-inner slide; 811-a spring; 812-fixing the frame; 813-an elastic sheet; 814-diagonal blocks.

Detailed Description

The following description of specific embodiments is given by way of illustration only and not by way of limitation of the scope of the present application.

The invention provides a novel heating structure (heating structure for short, see fig. 1-16) of an assembled building, which comprises a room-entering end connecting piece 1, a heating pipeline 2, a quick straight plug 3, a corner connecting piece 4, a U-shaped connecting piece 5 and an adjustable column base connecting piece 8; the room-entering end connecting piece 1 is used for connecting a heating pipeline 2 with a household heating pipeline, the quick straight plug 3 is used for connecting the heating pipeline 2, the corner connecting piece 4 is used for connecting the heating pipelines 2 at two ends of a corner, the U-shaped connecting piece 5 is used for connecting a water inlet pipe and a water return pipe at the tail end of the heating pipeline 2, the water inlet pipe and the water return pipe form a circulation loop, and the adjustable column base connecting piece 8 is used for connecting the heating pipelines 2 at two ends of a column base.

The water inlet pipe 101 and the water outlet pipe 102 are arranged in the room-entering end connecting piece 1, one end of the water inlet pipe 101 and one end of the water outlet pipe 102 are flush with the end face of the room-entering end connecting piece 1 and are respectively connected with the water inlet and the water outlet of the room-entering heating pipeline, the other end of the water inlet pipe 101 and the other end of the water outlet pipe 102 extend out of the room-entering end connecting piece 1 and are respectively connected with the water inlet pipe 201 and the water return pipe 202 of the heating pipeline 2, a first sealing groove 103 is formed in the position, out of the room-entering end connecting piece 1, of the water inlet pipe 101 and the water outlet pipe 102, a first sealing ring 104 is arranged in the first sealing groove 103 and is used for realizing sealing connection between the room-entering end connecting piece 1 and the heating pipeline 2.

The upper part and the lower part of the heating pipeline 2 are respectively provided with a water inlet pipe 201 and a water return pipe 202, and a cavity in the middle part of the heating pipeline 2 is internally provided with transverse rib plates 205 and vertical rib plates 206 which are arranged in a staggered way, so that a groove body is formed in the middle part of the heating pipeline 2, the overall weight is reduced, the materials are saved, the strength is ensured, the heat dissipation area is increased, and the fixing bolts 204 are convenient to pass through the heating pipeline 2 and the installation of subsequent decorative pieces; the middle part of one side of the heating pipeline 2 is provided with a fixed groove 203, a plurality of fixed bolts 204 are distributed in the fixed groove 203, and one end of each fixed bolt 204 penetrates through the heating pipeline 2 and is inserted into a building wall body to realize the fixed connection between the heating pipeline 2 and the building wall body; the heat insulation film 207 is adhered to the outer wall of the heating pipeline 2, which is contacted with the building wall, so that heat dissipation to the wall is reduced.

A plug limiting block 301 is arranged in the middle of the quick straight plug 3 and is used for limiting the depth of the quick straight plug 3 inserted into the heating pipeline 2; and a plurality of second sealing grooves 302 are respectively arranged at two ends of the quick straight plug 3, and second sealing rings 303 are fixedly arranged in the second sealing grooves 302 and are used for sealing connection between the quick straight plug 3 and the heating pipeline 2.

The corner connector 4 comprises an outer connecting pipe 401, an inner connecting pipe 402, a threaded sleeve 404, a threaded ring 405 and a conical pipe 406; the middle part and the tail part of the inner connecting pipe 402 are provided with external threads 403, the two inner connecting pipes 402 are respectively inserted into the two ends of the outer connecting pipe 401, the inner connecting pipe 402 is in threaded connection with the outer connecting pipe 401, and the inner connecting pipe 402 can slide back and forth in the outer connecting pipe 401, so that the head part of the inner connecting pipe 402 can extend and retract, and the corner connecting piece 4 is convenient to assemble and disassemble; the threaded ring 405 is rotatably arranged on the inner connecting pipe 402, the threaded sleeve 404 is sleeved on the threaded ring 405 and is fixed together, the threaded ring 405 is driven to rotate by rotating the threaded sleeve 404, so that the inner connecting pipe 402 rotates, the inner connecting pipe 402 stretches out and draws back, and the inner connecting pipe 402 can be inserted into the water inlet pipe 201 or the water return pipe 202 of the heating pipeline 2; the conical tube 406 is sleeved on the head of the inner connecting tube 402, one end of the conical tube 406 is provided with an annular flange, the annular flange is matched with a clamping groove at one end of the threaded sleeve 404, and a ball 407 is arranged between the annular flange and the threaded sleeve 404, so that the conical tube 406 is not driven to rotate when the threaded sleeve 404 rotates, and the resistance when the threaded sleeve 404 rotates is reduced through the ball 407; the inner side of the conical tube 406 is provided with a guide ring 409, the guide ring 409 is sleeved on the inner connecting tube 402, the guide ring 409 does not influence the reciprocating sliding of the inner connecting tube 402, the guide ring 409 plays a role in guiding and positioning the inner connecting tube 402, and the inner connecting tube 402 can be ensured to stretch smoothly; the head of the inner connecting pipe 402 is provided with a third sealing groove 410, and a third sealing ring 411 is arranged in the third sealing groove 410 to ensure that the joint is sealed and watertight; an inner pipe stopper 408 is provided in the outer connection pipe 401 to serve as a stopper for the position of the inner connection pipe 402, and the tail end of the inner connection pipe 402 is in contact with the inner pipe stopper 408 when the inner connection pipe 402 is fully retracted.

The U-shaped connecting piece 5 is provided with a U-shaped pipe 501, and two ends of the U-shaped pipe 501 are respectively connected with a water inlet pipe 201 and a water return pipe 202 at the tail end of the heating pipeline 2, so that the water inlet pipe 201 and the water return pipe 202 of the heating pipeline 2 form a circulation loop; the U-shaped pipe 501 is provided with a fourth sealing groove 502 at the connection part of the water inlet pipe 201 and the water return pipe 202, and a fourth sealing ring 503 is arranged in the fourth sealing groove 502 for sealing connection of the U-shaped pipe 501 and the water inlet pipe 201 and the water return pipe 202.

The adjustable column base connecting piece 8 comprises a right-angle outer pipe 801, an L-shaped inner pipe 802 and an inner pipe fixing component; the two ends of the right-angle outer tube 801 are respectively inserted with an L-shaped inner tube 802, the fixed connection between the L-shaped inner tube 802 and the right-angle outer tube 801 is realized through an inner tube fixing assembly, and the depth of the L-shaped inner tube 802 inserted into the right-angle outer tube 801 is adjustable, so that the adjustable column base connecting piece 8 can adapt to column bases with different sizes; two connecting plugs 803 are arranged at one end of the L-shaped inner pipe 802, which is positioned outside the right-angle outer pipe 801, and the connection between the L-shaped inner pipe 802 and the heating pipeline 2 is realized through the connecting plugs 803; a fifth sealing groove 804 is arranged on the connecting plug 803, and a fifth sealing ring 805 is arranged in the fifth sealing groove 804, so that the tightness of the connecting position is ensured; the end of the L-shaped inner tube 802 located in the right-angle outer tube 801 is also provided with a fifth sealing ring 805 which is used for ensuring sealing and can be used as a limiting block to prevent the L-shaped inner tube 802 from being separated from the right-angle outer tube 801.

The inner tube fixing assembly comprises a sliding block, a spring 811, a fixing frame 812, an elastic piece 813 and an inclined block 814; the fixed frame 812 is slidably mounted on the L-shaped inner tube 802, and two sides of the fixed frame 812 are symmetrically provided with sliding blocks, the sliding blocks are matched with sliding grooves 806 on the right-angle outer tube 801, and the sliding blocks can slide in the sliding grooves 806 in a reciprocating manner, so that the fixed frame 812 slides on the L-shaped inner tube 802 in a reciprocating manner; the end of the slider is provided with a spring 811, the end of the spring 811 is in contact with a reaction block 807 on the inner wall of the right-angle outer tube 801, and the reaction block 807 plays a limiting role on the spring 811; a plurality of elastic pieces 813 are distributed around one end of the fixing frame 812, the elastic pieces 813 can be stretched, the elastic pieces 813 are tightly contacted with the L-shaped inner tube 802 under the action of the springs 811, the elastic pieces 813 apply pretightening force on the L-shaped inner tube 802, and the fixing of the L-shaped inner tube 802 is achieved; the tail end of each elastic piece 813 is connected with an inclined block 814, the inclined block 814 is connected with the inner wall of the right-angle outer tube 801, the L-shaped inner tube 802 is positioned in a ring formed by all the inclined blocks 804, and the inclined blocks 814 play a role in radial limiting and guiding on the L-shaped inner tube 802; when the slider drives the fixed frame 812 to slide in a direction away from the end of the right-angle outer tube 801, the spring 811 is compressed, the elastic piece 813 is stretched and is separated from contact with the L-shaped inner tube 802, so that the L-shaped inner tube 802 can slide freely, and the depth of the L-shaped inner tube 802 inserted into the right-angle outer tube 801 can be adjusted according to the size of the column; after the adjustment is completed, the slide block is released, the fixing frame 812 slides towards the end of the right-angle outer tube 801 under the action of the spring 811, and the elastic piece 813 resets, so that the fixing of the L-shaped inner tube 802 is realized. The slide comprises an outer slide 808, an inner slide 810 and a connecting piece 809 connecting the outer slide 808 and the inner slide 810; the inner slide 810 is positioned in the right-angle outer tube 801, the connecting piece 809 is matched with the sliding groove 806, the outer slide 808 is positioned outside the right-angle outer tube 801, and the inner slide 810 can be driven to slide by manually sliding the outer slide 808. The elastic piece 813 is provided with a rubber pad at a contact portion with the L-shaped inner tube 802 to increase friction with the L-shaped inner tube 802 and stability of the L-shaped inner tube 802.

Because two heating pipes 2 of corner are connected to the corner connecting piece 4, in order to make whole heating structure surface level, this heating structure decorates the corner through reentrant corner decoration 6 and reentrant corner decoration 7, the both ends of reentrant corner decoration 6 are provided with reentrant corner fixed fixture block 601, the both ends of reentrant corner decoration 7 are equipped with reentrant corner fixed fixture block 701, all be provided with the skid resistant course on reentrant corner fixed fixture block 601 and the reentrant corner fixed fixture block 701, the cell body that inserts in the heating pipe 2 through reentrant corner fixed fixture block 601 realizes the fixed connection of reentrant corner decoration 6 and heating pipe 2, the cell body that inserts in the heating pipe 2 through reentrant corner fixed fixture block 701 realizes the fixed connection of reentrant corner decoration 7 and heating pipe 2.

The installation flow of the heating structure is as follows: the method comprises the steps that a groove is formed in the skirting line position of an assembled building wall in advance, the number of heating pipelines 2, quick straight plugs 3, corner connecting pieces 4, adjustable column foot connecting pieces 8, internal corner decorating pieces 6 and external corner decorating pieces 7 is determined according to the wall structure, the heating pipelines 2 can be cut, and a plurality of heating pipelines 2 can be spliced through the quick straight plugs 3 to form longer heating pipelines; the indoor heating pipe and the heating pipe 2 are connected through the indoor end connecting piece 1, the heating pipes 2 at two ends of a corner are connected through the corner connecting piece 4, the heating pipes 2 at two ends of a column base are connected through the adjustable column base connecting piece 8, and the water inlet pipe and the water return pipe at the tail end of the heating pipe 2 are connected through the U-shaped connecting piece 5, so that the water inlet pipe and the water return pipe of the heating pipe 2 form a circulation loop; the heating pipeline 2 is fixed in a slot of a wall body through a fixing bolt, and an internal corner decoration 6 or an external corner decoration 7 is arranged at the corner of the wall body, so that the heating structure and the wall surface are kept flat.

The invention is applicable to the prior art where it is not described.

Claims (7)

1. The novel heating structure of the assembled building is characterized by comprising a room-entering end connecting piece, a heating pipeline, a quick straight plug, a corner connecting piece, a U-shaped connecting piece and an adjustable column base connecting piece; the indoor end connecting piece is used for connecting a heating pipeline and an indoor heating pipeline, the quick straight plug is used for connecting the heating pipelines, the corner connecting piece is used for connecting the heating pipelines at two ends of a corner, the U-shaped connecting piece is used for connecting a water inlet pipe and a water return pipe at the tail end of the heating pipeline, and the adjustable column base connecting piece is used for connecting the heating pipelines at two ends of a column base;

the corner connecting piece comprises an outer connecting pipe, an inner connecting pipe, a threaded sleeve and a conical pipe; the two ends of the outer connecting pipe are respectively provided with an inner connecting pipe, the inner connecting pipe is rotatably provided with a threaded sleeve, and the threaded sleeve is rotated to realize the expansion and the contraction of the inner connecting pipe and the assembly and disassembly of the inner connecting pipe and a heating pipeline; the head of the inner connecting pipe is provided with a conical pipe, so that the inner connecting pipe can be positioned and guided in a telescopic manner;

the adjustable column base connecting piece comprises a right-angle outer pipe, an L-shaped inner pipe and an inner pipe fixing assembly; the L-shaped inner pipes are respectively inserted into the two ends of the right-angle outer pipe, the depth of the L-shaped inner pipes inserted into the right-angle outer pipe is adjustable to adapt to column bases of different sizes, and the L-shaped inner pipes are fixedly connected with the right-angle outer pipe through the inner pipe fixing assembly.

2. The novel heating structure of the fabricated building according to claim 1, wherein the inner tube fixing assembly comprises a slider, a spring, a fixing frame, an elastic sheet and an inclined block; the fixed frame is slidably arranged on the L-shaped inner tube, sliding blocks are symmetrically arranged on two sides of the fixed frame, and the fixed frame is made to slide on the L-shaped inner tube by pushing the sliding blocks; the end part of the sliding block is provided with a spring, a plurality of elastic sheets are distributed around one end of the fixing frame, the elastic sheets reset under the action of the spring, and after the elastic sheets reset, the elastic sheets are in close contact with the L-shaped inner tube, and a pretightening force is applied to the L-shaped inner tube, so that the L-shaped inner tube is fixed; the tail end of each elastic piece is connected with an inclined block, the inclined blocks are connected with the inner wall of the right-angle outer tube, all the inclined blocks form a ring, and the L-shaped inner tube passes through the ring.

3. The novel heating structure of the fabricated building according to claim 1 or 2, wherein a clamping groove is formed in one end, adjacent to the conical tube, of the threaded sleeve, an annular flange is formed in one end, adjacent to the threaded sleeve, of the conical tube, the annular flange is matched with the clamping groove of the threaded sleeve, and balls are arranged between the annular flange and the threaded sleeve; the inner side of the conical tube is provided with a guide ring which is sleeved on the inner connecting tube.

4. The novel heating structure of the fabricated building according to claim 1, wherein the upper part and the lower part of the heating pipeline are respectively provided with a water inlet pipe and a water return pipe, and a cavity in the middle part of the heating pipeline is internally provided with transverse rib plates and vertical rib plates which are arranged in a staggered manner; the middle part of heating pipeline one side sets up the fixed slot, and fixing bolt is located the fixed slot, and fixing bolt's one end runs through heating pipeline and wall connection.

5. A novel heating structure of a fabricated building according to claim 1 or 4, wherein a surface of the heating pipe contacting the building wall is provided with a heat insulating film.

6. The novel heating structure of the fabricated building according to claim 1, wherein a water inlet pipe and a water outlet pipe are arranged in the indoor end connecting piece, one ends of the water inlet pipe and the water outlet pipe are respectively connected with a water inlet and a water outlet of the indoor heating pipeline, the other ends of the water inlet pipe and the water outlet pipe are respectively connected with a water inlet pipe and a water return pipe of the heating pipeline, and a sealing ring is arranged at one ends of the water inlet pipe and the water outlet pipe, which are connected with the heating pipeline.

7. The novel heating structure of the fabricated building of claim 1, further comprising inside corner trim pieces and outside corner trim pieces that are plugged into the heating pipe.