CN107676896B - Vacuum air-feeding refrigerating heating pipeline structure - Google Patents

Abstract

The invention belongs to the field of heating and refrigeration, and particularly relates to a vacuum air-supplying, refrigerating and heating pipeline structure. The pipe network system comprises a plurality of vacuum pipes with two ends respectively connected with the pipe network, wherein the inside of the pipe network is provided with a circular pipe, the pipe network comprises a stabilizing part which is at least positioned at the upper part and is formed by square outer contours, an arc-shaped deflection part which is positioned at the lower part or connected to the lower part and is convenient for adjusting the pipe network, and the deflection part is arranged by taking the center of the pipe network as the center. Through the cooperation of above-mentioned specific stabilizer and deflection portion to make the rigid network management can be stable, convenient, accurate installation can be stable, high-efficient long-term use and not fragile again.

Description

Vacuum air-feeding refrigerating heating pipeline structure

Technical Field

The invention belongs to the field of heating and refrigeration, and particularly relates to a vacuum air-supplying, refrigerating and heating pipeline structure.

Background

The existing indoor refrigerating and heating modes comprise an air conditioner air supply mode and an electric heating floor heating mode with an electric heating wire inside, but the problems of high indoor air flow, high energy consumption, poor environmental protection, inconvenient maintenance and the like exist in the modes.

In order to ensure that a plurality of factors which can cause the deviation or micro-distortion of the pipeline in the pipe burying process, such as paving a decorative cloth layer or a balance layer or pouring cement after the pipe is paved, a PVC (polyvinyl chloride) material pipe which can bend in the installation process is adopted, and the vacuum degree of the material pipe is not a problem, but the heat preservation effect is good generally, the heat dissipation is slow, and the heat preservation pipe is not suitable for the application which has special requirements and needs to rapidly lead out the temperature in the pipe.

Disclosure of Invention

The invention aims to provide a vacuum air-feeding, refrigerating and heating pipeline structure for solving the problems.

The technical aim of the invention is realized by the following technical scheme:

the utility model provides a vacuum air feed refrigeration heating pipeline structure, includes the pipe network system that lays in the wallboard, floor or cement filling layer, and is used for supplying air or return air of pipe network system in each connection room, pipe network system includes many vacuum that both ends are connected respectively with the house steward and inside have circular pipeline's network management, the network management includes at least at upper portion be used for stable stabilizer formed by square outline, locate the lower part or connect in the curved deflection part of regulation network management of lower part, the central line of deflection part, the axial lead of circular pipeline all is located on the symmetry central plane of stabilizer; the utility model discloses a solar energy collecting device, including main pipe, network management, locating strip, heat preservation, locating strip, the open draw-in groove has been seted up to locating strip length direction between the network management, the external connection seat of connecting the external connection seat of flat or bar that the external connection seat just has a plurality of external connection mouth, the soft coupling pipe of connecting connector and network management tip is connected respectively at both ends to the external connection seat, connect through the locating strip between the network management, locating strip length direction has seted up open draw-in groove on the locating strip, the network management tip is equipped with the narrow mouth that the external diameter reduces, the narrow mouth portion card is gone into in the draw-in groove.

Preferably, the upper circle and the lower circle of the outer contour of the net pipe form a stabilizing part and a deflection part respectively, and two side ends of the top of the deflection part exceed two side edges of the stabilizing part.

Preferably, the bottom of the net pipe is connected with a deflection part; the deflection part comprises a top connecting net pipe, a vertical beam frame with the bottom extending downwards to form a radial arrangement along a circular pipeline, and arc battens with the symmetry centers connected to the bottom ends of the vertical beam frame, wherein two sides of each arc batten are upwards and upwards in an arc shape.

Preferably, the mesh tube is also connected with a plurality of ratchet sheets for accelerating heat dissipation and reinforcing the mesh tube.

Preferably, the ratchet pieces are vertically and uniformly distributed on the outer surface of the stabilizing part.

Preferably, the ratchet piece is a short ratchet piece or a long ratchet piece which is discontinuously arranged along the length direction of the network pipe.

Preferably, the ratchet sheets are short ratchet sheets, and the short ratchet sheets between adjacent short ratchet sheets along the length direction of the net pipe are staggered.

Preferably, the mesh tube is a metal mesh tube.

In summary, the invention has the following beneficial effects:

1. according to the method, the vacuum pipeline is arranged on the indoor wall surface or the ground, then low-temperature or high-temperature gas is conveyed to the vacuum pipeline, the gas can be refrigerating and heating gas obtained in other modes through the form of evaporating phase-change heat exchange of the refrigerant (refrigerant), and the heat is conducted to the indoor space in the process of the pipeline, so that the refrigerating and heating effects are achieved.

2. The structure of the metal mesh tube is adopted, so that the radiating effect of the mesh tube is improved, the heat of high temperature or low temperature in the mesh tube can be conducted onto the ground or the wall surface as soon as possible, so that the effect of rapid refrigeration or heating is achieved, the radiating efficiency is improved, meanwhile, as the square stabilizing part is arranged outside the mesh tube, the thickness of the mesh tube is necessarily thickened at least partially, so that the strength of the mesh tube is enhanced on the basis of the rigid mesh tube, the situation that the mesh tube is not easy to twist or damage in landfill or long-time use is ensured, and compared with the conventional round structure, the square structure is difficult to shift by itself Yi Ka after being installed, so that the installation stability is ensured; the net tube can be twisted and finely adjusted along the cambered surface when being installed or buried by looking at the cambered deflection part at the bottom, so as to adapt to different installation conditions, the extrusion or pushing of part of the unreliability to the upper part of the net tube during installation is overcome by finely adjusting the rotation along the center of the net tube, and the net tube is adapted to the installation condition on the premise of ensuring that the whole net tube is not shifted, thereby ensuring that the net tube is not easy to be twisted due to overlarge local stress, having long service life of keeping the net tube, being strictly distributed according to the set layout and having high indoor temperature uniformity.

3. The main pipe and the network management are connected through the connecting sleeve and the positioning strips, so that the main pipe and the network management are convenient to install flexibly according to actual installation conditions, the positioning strips can control the distance between the network management, the network management is convenient to install, and the uniformity of indoor refrigerating and heating space is improved.

4. Through the cooperation of above-mentioned specific stabilizer and deflection portion to make the rigid network management can be stable, convenient, accurate installation can be stable, high-efficient long-term use and not fragile again.

5. The ratchet can improve the stability of the net pipe, so that the buried net pipe is tightly bound inside and the effect of accelerating heat dissipation and improving the heat utilization rate can be achieved.

6. The deflection parts in different forms can be applied to installation occasions with different thicknesses, and in addition, the installed net pipes can be firmly arranged in the wall surface or the ground due to the structure of the arc battens.

Description of the drawings:

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

FIG. 2 is a schematic diagram of a second embodiment;

FIG. 3 is a schematic view of a third embodiment;

FIG. 4 is a schematic view of a long spine structure;

FIG. 5 is a schematic diagram of a short spine structure;

FIG. 6 is a schematic illustration of an externally connected base structure;

fig. 7 is a schematic view of a structure of the positioning strip.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Embodiment one:

the utility model provides a vacuum air feed refrigeration heating pipeline structure, includes laying in the wallboard, in the floor or cement filling layer in the pipe network system, and connect the house steward 1 that is used for air feed or return air of pipe network system in each room, pipe network system includes many vacuum that both ends are connected respectively with the house steward and inside have circular pipeline's network management 2, the network management includes at least at upper portion be used for stable stabilizer 21 by square outline formation, locate lower part or connect in the curved deflection portion 22 of regulation network management of being convenient for of lower part, the central line of deflection portion, the axial lead of circular pipeline is located on the symmetry central plane of stabilizer; the main pipe is detachably connected with the network management through a connecting sleeve, the connecting sleeve comprises a flat or strip-shaped rigid external connection seat 6 connected with the main pipe and provided with a plurality of external connection ports 61, and a flexible connecting pipe 62 with two ends respectively connected with the connection ports and the end parts of the network management, wherein an insulating layer is coated outside the flexible connecting pipe, the network management is connected through a positioning strip 7, an open clamping groove 71 is formed in the length direction of the positioning strip, the end parts of the network management are provided with narrow opening parts with reduced outer diameters, and the narrow opening parts are clamped into the clamping groove.

Embodiment two:

the difference with the above embodiment is that the upper circle and the lower circle of the outer contour of the net pipe respectively form a stabilizing part and a deflection part, and two side ends of the top of the deflection part exceed two side edges of the stabilizing part.

Embodiment III:

the difference with the above embodiment is that the bottom of the net pipe is connected with a deflection part; the deflection part comprises a top connecting net pipe, a vertical beam frame 221 which is formed by extending downwards from the bottom and is arranged along the radial direction of the circular pipeline, and arc battens 222 which are connected with the bottom end of the vertical beam frame at the symmetrical center, wherein the two sides of each arc batten are upwards and upwards in an arc shape.

Embodiment four:

the difference from the above embodiment is that a plurality of ratchet sheets 23 for accelerating heat dissipation and reinforcing the mesh tube are further connected to the mesh tube.

The ratchet pieces are vertically and uniformly distributed on the outer surface of the stabilizing part.

The ratchet piece is a short ratchet or a long ratchet which is discontinuously arranged along the length direction of the network pipe.

Fifth embodiment:

the difference with the above embodiment is that the ratchet sheets are short ratchet sheets, and the short ratchet sheets between adjacent short ratchet sheets along the length direction of the net pipe are staggered.

Example six:

the difference from the above embodiment is that the mesh tube is a metal mesh tube. The metal tube ensures heat dissipation efficiency and improves rigidity and strength.

The structure of the metal mesh tube is adopted, so that the radiating effect of the mesh tube is improved, the heat of high temperature or low temperature in the mesh tube can be conducted onto the ground or the wall surface as soon as possible, so that the effect of rapid refrigeration or heating is achieved, the radiating efficiency is improved, meanwhile, as the square stabilizing part is arranged outside the mesh tube, the thickness of the mesh tube is necessarily thickened at least partially, so that the strength of the mesh tube is enhanced on the basis of the rigid mesh tube, the situation that the mesh tube is not easy to twist or damage in landfill or long-time use is ensured, and compared with the conventional round structure, the square structure is difficult to shift by itself Yi Ka after being installed, so that the installation stability is ensured; the net tube can be twisted and finely adjusted along the cambered surface when being installed or buried by looking at the cambered deflection part at the bottom, so as to adapt to different installation conditions, the extrusion or pushing of part of the unreliability to the upper part of the net tube during installation is overcome by finely adjusting the rotation along the center of the net tube, and the net tube is adapted to the installation condition on the premise of ensuring that the whole net tube is not shifted, thereby ensuring that the net tube is not easy to be twisted due to overlarge local stress, having long service life of keeping the net tube, being strictly distributed according to the set layout and having high indoor temperature uniformity.

Through the cooperation of above-mentioned specific stabilizer and deflection portion to make the rigid network management can be stable, convenient, accurate installation can be stable, high-efficient long-term use and not fragile again.

The ratchet can improve the stability of the net pipe, so that the buried net pipe is tightly bound inside and the effect of accelerating heat dissipation and improving the heat utilization rate can be achieved.

The deflection parts in different forms can be applied to installation occasions with different thicknesses, and in addition, the installed net pipes can be firmly arranged in the wall surface or the ground due to the structure of the arc battens.

Claims (7)

1. The utility model provides a vacuum air feed refrigeration heating pipeline structure which characterized in that: the pipe network system comprises pipe network systems laid in wallboards, floors or cement filling layers and a main pipe (1) connected with the pipe network systems in each room, wherein the pipe network systems comprise a plurality of vacuum pipe networks (2) with two ends respectively connected with the main pipe and a circular pipeline in the interior, the pipe networks comprise at least a stabilizing part (21) which is positioned at the upper part and is formed by square outer contours and is used for stabilizing, an arc-shaped deflection part (22) which is positioned at the lower part or is connected to the lower part and is convenient for adjusting the pipe networks, and the central line of the deflection part and the axial lead of the circular pipeline are positioned on the symmetrical central plane of the stabilizing part; the main pipe and the net pipe are detachably connected through a connecting sleeve, the connecting sleeve comprises a flat or strip-shaped rigid external connecting seat (6) which is connected with the main pipe and is provided with a plurality of external connecting ports (61), and a soft connecting pipe (62) which is respectively connected with the connecting ports and the end parts of the net pipe at two ends, wherein an insulating layer is coated outside the soft connecting pipe, the net pipes are connected through a positioning strip (7), an open clamping groove (71) is formed in the length direction of the positioning strip, a narrow opening part with a reduced outer diameter is formed in the end part of the net pipe, the narrow opening part is clamped into the clamping groove,

the deflection part comprises a top connecting net pipe, a vertical beam frame (221) with the bottom extending downwards to form a radial arrangement along a circular pipeline, and an arc plate strip (222) with the symmetrical center connected with the bottom end of the vertical beam frame, wherein the two sides of the arc plate strip are upwards and arcuately raised,

the deflection part can realize torsion fine adjustment of the net pipe along the cambered surface when the net pipe is installed or buried,

the pipeline conveys low-temperature or high-temperature gas, and the gas is a refrigerant.

2. A vacuum air-feed refrigerating and heating pipeline structure according to claim 1, wherein: the upper and lower circles of the outer outline of the net pipe respectively form a stabilizing part and a deflection part, and two side ends of the top of the deflection part exceed two side edges of the stabilizing part.

3. A vacuum air-feed refrigerating and heating pipeline structure according to claim 1, wherein: the net pipe is also connected with a plurality of ratchet sheets (23) for accelerating heat dissipation and reinforcing the net pipe.

4. A vacuum air-feed refrigerating and heating pipeline structure according to claim 3, wherein: the ratchet pieces are vertically and uniformly distributed on the outer surface of the stabilizing part.

5. A vacuum air-feed refrigerating and heating pipeline structure according to claim 4, wherein: the ratchet piece is a short ratchet or a long ratchet which is discontinuously arranged along the length direction of the network pipe.

6. A vacuum air-feed refrigerating and heating pipeline structure according to claim 5, wherein: the ratchet sheets are short ratchet sheets, and the short ratchet sheets between adjacent short ratchet sheets along the length direction of the net pipe are arranged in a staggered mode.

7. A vacuum air-feeding, refrigerating and heating pipeline structure according to any one of claims 1 to 6, wherein: the network management is a metal network management.

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