WO2019127600A1 - Horizontal transversely disposed bent and stacked heat pipe heat collection core evacuated tube module - Google Patents

Abstract

A horizontal transversely disposed bent and stacked heat pipe heat collection core evacuated tube module and a production process for a horizontal transversely disposed bent and stacked heat pipe heat collection core evacuated tube, the module consisting of a connection between horizontal transversely disposed bent and stacked heat pipe heat collection core evacuated tubes, a thermal insulation heat collection manifold, a heat collection tube mounting support frame and a top-tightened tailstock. The horizontal transversely disposed bent and stacked heat pipe heat collection core evacuated tubes comprise a cover glass tube (1), a horizontal transversely disposed bent and stacked heat pipe heat collection core, media inlet and outlet head glass sealing end caps and clamping positioning support getter elastic clamps. The thermal insulation heat collection manifold is arranged horizontally, arranged at an incline, or arranged vertically. A phase change heat transfer medium is transported and distributed under capillary action; the phase change heat transfer medium absorbs heat and vaporizes, and then condenses into a liquid by means of a phase change medium condensation heat release end. The heat collection system achieves thermosiphon convection self-circulation or forced circulation by a heating medium by means the difference in density between cold water within the thermal insulation heat collection manifold and hot water within the thermal insulation heat collection manifold, as well as the pressure generated by the height difference between a thermal insulation water storage tank and the heat collection tube module.

Description

Horizontal horizontal bending and stacking heat pipe collecting core vacuum heat collecting tube module Technical field

 The invention relates to a solar collector, in particular to a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module.

Background technique

 At present, solar collectors mainly include all-glass vacuum solar collector tube collector, all-glass heat pipe vacuum solar collector tube collector, tube-row heat pipe collector, metal plate collector, ceramic plate collector, slot Focusing on various types of medium and high temperature collectors.

The all-glass vacuum solar collector tube collector is not under pressure, and the all-glass heat pipe vacuum solar collector tube collector cannot achieve high-temperature heat collection. Although the metal flat plate collector is under pressure, it cannot provide high temperature and high pressure steam, and the heat absorbing film layer is equivalent to being exposed to the atmosphere, and is easily eroded by the corrosive gas component in the atmosphere, and the thermal efficiency is fast decayed and the service life is short. Although the ceramic plate type collector is stable against corrosion and heat absorption film, it can not be under pressure, has low heat collecting efficiency, low heat collecting temperature, poor heat preservation performance, and is easy to freeze and crack in winter. The existing trough-type focusing medium-high temperature collector consumes a large amount of non-ferrous metals, the processing technology is complicated, the manufacturing cost is high, the energy is converted many times, resulting in low efficiency, the market application is narrow, the acceptance is low, and it is difficult to promote.

Moreover, these conventional collectors are difficult to adapt to the harsh climatic environment. In some winters, because they do not have insulation conditions, they cannot resist frost insulation, and the heat collection efficiency is low, while the trough-type focusing high-temperature collectors and engineering systems are costly. The high cost, occupying a large area and space, and the combination of construction is quite difficult and difficult to promote.

Today, there are many technologies in China's solar thermal application field, but there are still key technical bottlenecks. The solar collector system does not solve the problems of pressure, high temperature heat collection, self-circulation, low cost, anti-freeze insulation, safety and reliability.

technical problem

 So far, the cost-effective all-glass vacuum solar collector tube collector technology and products have never had a big breakthrough, and it is basically applied in the low-temperature domestic hot water field. It does not solve the market demand for high-temperature (steam) heat sources for solar thermal utilization.

Technical solution

 The object of the present invention is to provide a new type of high-efficiency, medium-high temperature, low-cost, pressure-bearing, anti-freezing and heat-insulating collectors, which are composed of a horizontal horizontally-folded laminated heat pipe collector core vacuum heat collecting tube module, and The problem raised in the above background art is solved.

The technical solution of the present invention is as follows:

The utility model relates to a horizontal horizontally-folding and stacking heat pipe collecting core vacuum heat collecting tube module, which comprises a vacuum heat collecting tube, a top tight tailstock, a heat collecting and collecting heat box, a sealing ring and a heat collecting tube installation supporting frame, and the feature is: horizontal horizontal folding The curved laminated heat pipe collecting core vacuum heat collecting tube module comprises: a heat collecting and collecting heat box, a horizontal horizontal bending heat pipe collecting heat collecting core vacuum heat collecting tube, a heat collecting tube mounting supporting frame, and a heat collecting tube mounting supporting frame and a heat insulating set The thermal header is formed by paralleling the tailstock connection on the opposite frame. The heat collecting and collecting heat box is a single flow channel header, and the two ends of the single flow channel header are respectively provided with a single medium inlet and outlet connection pipe head, and the medium inlet connection pipe head is disposed at the end of the heat collection header. On the lower side of the head, the medium outlet connecting pipe head is disposed on the upper side of the heat collecting header. Or the two ends of the heat-collecting heat-collecting box are respectively provided with two medium-input and-out-connecting pipe heads arranged on the upper and lower sides, and around the heat collecting header, the insulating layer and the outer casing are wrapped. Or the heat-collecting heat-collecting box is a two-channel heat collecting header arranged on the upper and lower sides, and the two ends of the heat collecting box are respectively provided with a single medium inlet and outlet connecting pipe head, wherein the medium enters the heat collecting box The tube head is connected to the flow channel on the lower side, and the outlet header of the medium is connected to the flow channel on the upper side. Or the heat-collecting heat-collecting box is a two-channel heat collecting header arranged on the upper and lower sides, and the two ends of the heat collecting box are respectively provided with two medium inlet and outlet connecting pipe heads arranged up and down. Or the heat collecting header is a double-flow collecting and collecting box arranged on the upper and lower sides of the deflector, and the deflector is arranged between the upper and lower headers, and is connected with the connecting box partition and the connecting box opening wall. Or the two ends of the heat collecting header are respectively provided with a single medium inlet and outlet connecting pipe head, wherein the medium inlet heat collecting header pipe head is connected with the lower side flow channel, and the medium heat collecting and discharging The tank head is connected to the flow passage on the upper side. Or the heat collecting header is a double-flow collecting and collecting box arranged with the deflector arranged above and below, and the two ends of the collecting and connecting box are respectively provided with two medium inlet and outlet connecting pipe heads arranged up and down. The heat collecting box is surrounded by an insulation layer and an outer casing.

The horizontal horizontally-folded and folded heat-collecting heat-collecting core vacuum heat collecting tube is located on one side of the heat-insulating heat collecting box, or the heat-insulating heat collecting box is placed in the middle of the heat collecting tube installation supporting frame, and the horizontal horizontally-folded folding laminated heat-collecting heat collecting core vacuum set The heat pipes are symmetrically distributed on both sides of the heat collecting header. The horizontal horizontally-folded laminated heat pipe on the heat-insulating heat-collecting header is installed with the heat-collecting core vacuum heat-collecting pipe hole, and the heat-sealing end of the heat-collecting core vacuum heat collecting tube of the horizontal heat-dissipating heat pipe is formed by the sealing ring matched with the horizontal horizontally-folded bending heat pipe The head is connected, or the heat-insulating heat-collecting box is provided with a sealed heat-conducting sleeve which is installed with a horizontal horizontally-folded laminated heat pipe collecting core vacuum heat collecting tube heat-dissipating end, and is connected with the heat-insulating heat-collecting through the matching sealing ring. The sealed heat transfer sleeve provided on the box is closely attached to realize indirect heating of the medium in the heat collecting and collecting header. The horizontal horizontally-folded and folded heat-collecting heat-collecting vacuum-collecting heat-collecting tube is disposed on the parallel-shaped tailstock seat on the parallel frame of the heat-collecting pipe installation support frame and the heat-insulating heat-collecting header, and the horizontal horizontally-folded folding heat pipe heat collecting core vacuum set The heat pipe and the top tight seal are installed between the heat insulation collector and the heat collecting pipe installation support frame. Insulation collector box horizontal installation arrangement, or inclined installation arrangement, or vertical installation arrangement, horizontal horizontally-folded folded heat pipe collector core vacuum collector tube horizontal transverse bending laminated heat pipe collector core, with sunlight irradiation The angle is close to vertical.

The horizontal horizontally-folded and folded heat pipe collecting core vacuum heat collecting tube comprises a cover glass tube, a horizontal horizontally-folded laminated heat pipe heat collecting core, a medium inlet and outlet pipe head glass sealing end cover, and a clamping positioning support air-removing agent elastic card. The horizontal horizontally-folded laminated heat pipe heat collecting core is a horizontal horizontally-folded laminated heat pipe heat collecting core tube row which is sequentially bent and bent back, arranged in the upper and lower layers, and distributed on the same plane, and the horizontal horizontally-folded folding laminated heat pipe set An outlet tube head of the hot core tube row is distributed on the upper side of the horizontal transversely-folded laminated heat pipe collecting core tube row, and is closed at one end, and the other end is a parallel straight tube, and is assembled by clamping. Supporting the elastic card, the bent glass substrate is horizontally horizontally bent and folded, and the heat pipe collecting core tube row is assembled and integrated into one body. The surface of the horizontal horizontally-folded and folded heat pipe collecting core tube is compounded with a functional endothermic film surface composed of a reflective film, an absorption film and an anti-reflection film. Then, a getter is assembled on the clamping and positioning support card to form a clamping and positioning support scavenger cartridge. The horizontal horizontally-folded laminated heat pipe heat collecting core is inserted into one end of the outer glass tube of the outer end sealing head, and one end of the outer glass tube is provided with an exhaust tail pipe. The backlight surface of the cover glass tube is a light pipe or a tube compounded with a mirror. The horizontal horizontally-folded laminated heat pipe heat collecting core is fixed on the radial inner wall of the outer cover glass tube by horizontally transversely bending and folding the heat pipe collecting core card by assembling the clamping position supporting air getter elastic card, horizontally horizontally bending The condensing tube head of the laminated heat pipe heat collecting core is sealed by glass welding, and is sealed on the glass sealing head of the same end glass tube, and the phase change medium condensation heat releasing end of the medium filling tube is provided. The horizontal transversely-folded laminated heat pipe collector core vacuum collecting tube is vacuumed, the glass welding is closed to separate the exhaust tail pipe, and the air-extinguishing agent is evaporated, and then, the heat-collecting core vacuum-collecting tube phase change is set by the horizontally-rolled laminated heat pipe. a phase change medium charging tube on the heat condensing end of the medium, vacuuming the condensation end of the phase change medium, and then charging the phase change heat transfer medium to the horizontal horizontally folded heat pipe collecting heat collecting tube vacuum collecting tube. The glass is welded to close the phase change medium filling tube, and the horizontal glass tube cavity of the outer cover is made into a horizontal vacuum bending laminated heat pipe collecting core vacuum collecting tube with high vacuum.

The phase change heat transfer medium of the horizontally transversely folded heat pipe collecting heat core vacuum heat collecting tube is under the action of the capillary film, and the phase change heat transfer medium is transported and distributed, and the liquid phase phase change heat transfer medium absorbs heat and vaporizes through the horizontal level. The transversely-folded laminated heat pipe heat collecting core pipe enters the condensation heat release end cavity of the phase change medium, and after the heat of the heated medium is released by the condensation heat release end of the phase change medium, the phase change heat transfer medium condenses into a liquid and is horizontally placed horizontally. Under the action of the capillary membrane provided on the inner wall of the heat-collecting core of the folded laminated heat pipe, the transmission distribution of the phase change heat transfer medium is completed, and the condensation evaporation heat transfer cycle of the phase change medium is formed. The heat collecting system passes the difference between the cold water in the heat collecting and collecting heat box and the hot water in the heat collecting and collecting heat box, and between the heat insulating water storage tank and the horizontal horizontally folded and folded heat pipe collecting heat collecting core vacuum heat collecting tube module The pressure generated by the height difference achieves the thermosiphon convection self-circulation of the heated medium. Or install a water pump on the system to achieve a forced circulation of the system.

The thermal insulation heat collecting box matched with a horizontal horizontally-folded laminated heat pipe collector core vacuum heat collecting tube module is characterized in that: the heat insulating material of the heat collecting and heat collecting box and the same side or opposite side wall of the outer casing The pipe hole of the medium pipe head is inserted into the horizontal horizontally folded and folded heat pipe collector core vacuum heat collecting tube. The collector header hole is a flat surface, or is provided with a concave, or convex, or concave concave outer edge, or a concave edge of the concave inner inward edge. The wall of the heat-insulating collector box is wrapped with a coaxial line coaxial with the opening, and the heat-insulating heat-collecting box wall and the outer casing are filled with a heat insulating material, corresponding to the opening on the wall of the heat-insulating heat collecting box, the outer casing and the heat insulating material There is an opening on the outer casing, and a casing head is arranged on the outer casing corresponding to the heat-insulating heat-collecting header, the outer casing head is an insulated support ring, and the heat insulating material is filled between the outer casing head and the heat-insulating heat collecting pipe head. . A rib is mounted on the outer casing corresponding to the heat insulating support ring, and is connected to the frame opposite to the heat collecting pipe mounting support frame. A sealed connecting pipe unit is arranged on the head of the heat collecting and collecting header.

The heat-collecting heat-collecting box is a single-channel heat collecting header, and the two ends of the single-channel collecting heat-collecting box are respectively provided with a single medium inlet and outlet connecting pipe head, and the medium inlet connecting pipe head is set in the heat collecting unit. On the lower side of the end of the header, the medium outlet pipe head is disposed on the upper side of the heat collecting header. Or the two ends of the heat-collecting heat-collecting box are respectively provided with two medium-input and-out-connecting pipe heads arranged on the upper and lower sides, and around the heat collecting header, the insulating layer and the outer casing are wrapped.

Or the heat collecting and collecting heat box is a double-flow collecting and collecting box arranged up and down, and the inlet and outlet pipes are connected to the pipe head at the end of the double-flow collecting and collecting box. The double-flow collecting collector box is sealed with the other pipe fittings or the double-flow collecting header by the sealed connecting pipe unit and connected to the two ends of the heat collecting header, respectively, and a single medium inlet and outlet connecting pipe head is respectively arranged, wherein the medium The inlet and outlet headers are connected to the lower flow passage, and the medium heat collection header is connected to the upper flow passage. Or the heat-collecting heat-collecting box is a two-channel heat collecting header arranged on the upper and lower sides, and the two ends of the heat collecting box are respectively provided with two medium inlet and outlet connecting pipe heads arranged up and down.

Or the heat collecting header is a double-flow collecting and collecting box arranged on the upper and lower sides of the deflector, and the deflector is arranged between the upper and lower headers, and is connected with the connecting box partition and the connecting box opening wall. Or the two ends of the heat collecting header are respectively provided with a single medium inlet and outlet connecting pipe head, wherein the medium inlet heat collecting header pipe head is connected with the lower side flow channel, and the medium heat collecting and discharging The tank head is connected to the flow passage on the upper side. Or the heat collecting header is a double-flow collecting and collecting box arranged with the deflector arranged above and below, and the two ends of the collecting and connecting box are respectively provided with two medium inlet and outlet connecting pipe heads arranged up and down. The heat collecting box is surrounded by an insulation layer and an outer casing.

The heat collecting tube mounting support frame is matched with a horizontal horizontally-folded laminated heat pipe collector core vacuum heat collecting tube module, wherein the heat collecting tube installation supporting frame comprises an insulated heat collecting double-layer header box and a top tight tailstock supporting unit. The arm, the heat collecting tube supporting arm, the hanging and connecting the tail tail supporting arm and the collecting tube supporting arm are composed of an "X" hanging arm connecting arm. The heat collecting pipe installation supporting frame is a single-sided pipe-pipe rectangular structure, and the heat-receiving heat-collecting double-layer header box is arranged as one side, and is arranged in parallel with the top-tight tailstock supporting arm which is the opposite side, and the two heat collecting tubes support the connecting arms are parallel and opposite, The ends are respectively connected with the two ends of the heat-insulating collector double-layer header and the top-tight tailstock support arm to form a rectangular profile of the heat-collecting tube mounting support frame, and the sling-and-pull connection of the tailstock support arm and the heat collecting tube support arm The two ends of the X" hanging support arm are connected with the two ends of the heat-insulating heat-collecting double-layer header and the heat-collecting pipe support arm, and the sling-and-pull connection of the tailstock support arm and the heat collecting pipe support arm The two ends of the "X" hanging support arm on the other side are connected to the equally spaced points of the top tight tail support arm to form a hanging pull on the top tail tail support arm, and the "X" suspension is connected The intersection of the arms is combined to form a collector tube mounting support frame.

Or connecting a hanging wall between the three points of the junction of the heat-insulating heat-collecting double-layer header, the top-tight tailstock support arm, and the "X" hanging support arm of the heat-collecting pipe mounting support frame, wherein the heat-insulating heat-collecting pair The cascading box and the intermediate hanging wall are connected to form a hanging wall of the "mi"-shaped top tailstock supporting the connecting arm on the top end of the tailstock supporting arm, and the spacing is equally divided and the intersections are connected together.

Or between the three points of the intersection of the heat-insulating collector double-layer header, the top-tight tailstock support arm and the "X" suspension support arm of the heat collecting pipe installation support frame, an intermediate hanging wall is connected, and the heat collecting heat double A tank support arm is connected between the lower side of the stacking box and the heat collecting tube supporting arm, wherein the water tank supporting arm and the middle hanging wall are connected, and the spacing is equally divided on the supporting tail arm supporting arm, and the intersection is connected at Together with the "meter" shape, the tailstock supports the hanging wall of the arm.

The heat collecting pipe is installed with a support frame or has a rear load bearing support, and the load bearing arm of the rear load bearing support is disposed at the same end of the heat insulating and heat collecting double layer header and the top end of the tail support support arm, and the rear load bearing support is provided with a lateral tension "X" between the arm or the rear load bearing Tighten the arms. Between the insulated heat collecting double-layer header and the top tight tailstock supporting arm, the arm is tensioned by the "X" and connected at an appropriate position to form a non-deformed heat collecting tube mounting support frame.

Or the collector tube mounting support frame includes an insulated heat collecting double-layer header, a top-tight tailstock supporting arm, a heat collecting tube supporting arm, a hanging connecting top end tail supporting arm and a collecting tube supporting arm. The support arm is connected. The heat collecting pipe installation support frame is a "day" shape structure on both sides of the pipe, and the heat-insulating heat-collecting double-layer header is used as a middle shaft, and is arranged in parallel with the supporting tail arms of the opposite sides as two opposite sides, and two heat collecting pipes support the arm Parallel opposite, the two ends are respectively connected with the two ends of the heat-insulating collector double-layer header and the top-loading tailstock support arm on both sides of the heat-insulating heat-collecting double-layer header, forming an inverted "day"-shaped structure contour of the heat collecting tube mounting support frame , the two ends of the two "X" hanging support arms on the side of the tensioning tail support support arm and the heat collecting tube support arm and the two ends of the heat-insulating heat collecting double-layer box and the heat collecting tube supporting arm At the joint, the two ends of the two sides of the two "X" suspension arms of the two tight tailstock support arms and the heat collecting pipe support arms are connected and the two arms of the two tails are supported. The points are connected to each other to form a lifting of the two tight tailstock support arms, and the intersections of the two "X" suspension arms are connected to form a heat collecting pipe mounting support frame.

Or connecting a hanging wall between the six points of the junction of the heat-insulating heat-collecting double-layer header, the two-tailed tailstock support arm, and the "X" hanging support arm of the heat collecting pipe mounting support frame, wherein the heat collecting heat is connected The two sides of the double-deck header are connected with the middle hanging wall to form a two-meter-shaped top-end tailstock supporting the arm of the two arms. .

Or between the three points of the intersection of the heat-insulating collector double-layer header, the top-tight tailstock support arm and the "X" suspension support arm of the heat collecting pipe installation support frame, an intermediate hanging wall is connected, and the heat collecting heat double One or two tank support arms are connected between the lower side of the stacking box and the heat collecting tube supporting arm, wherein the water tank supporting arm and the middle hanging wall are connected, and the spacing is equally divided on the two tight tailstock supporting arms. The two "meter"-shaped top ends that are connected together support the hanging wall of the arm.

The heat collecting pipe is installed with a supporting frame or has a rear load bearing support, and the load bearing arm of the rear load bearing is disposed at the same end of the heat insulating and heat collecting double-layer header and the two top tailstock supporting arms, and the rear bearing support is tensioned The arm, the heat-receiving heat-collecting double-layer header and the two-tailed tailstock support arm are connected by two "X" tensioning arms and connected at appropriate positions to form a non-deformed heat collecting tube mounting support frame.

A horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module, wherein the top tight tailstock is a solar vacuum collecting tube tailstock, comprising a bracket and a nut threadedly connected with the bracket, the bracket is supported by the bracket The bowl and the support rod are formed, and the shape of the bowl is matched with the tail of the solar vacuum collecting tube, the tail of the bowl is connected with the diameter of the rod, the outer wall of the rod is threaded, and the nut matched with the thread of the rod is mounted on the rod. The bowl and the support rod are either integrated or connected by a split suit. The bowl and the rod are separated, and the bottom of the bowl has a plug which is set with the rod, and the nut is mounted on the rod, and the nut has a positioning edge which is matched with the support tail of the bracket and the tailstock support punch. . The nut is provided with a concentricity with the nut, a certain gap with the tail of the solar vacuum collecting tube, and an insulating sleeve corresponding to the tail of the solar vacuum collecting tube with the supporting steel card, the opening of the insulating sleeve, and the solar vacuum set A sealed retaining ring is placed between the heat pipes. Or the horizontally transversely folded and folded heat pipe collecting core of the supporting rod or the outer tube wall is provided with a polygonal tube or a polygonal hole for positioning, and the polygonal tube is positioned by the corresponding opening on the support of the tailstock support The polygonal holes are positioned by the corresponding polygonal tool. Or the rod is inserted into the opening of the water heater bracket to support the tailstock support, the nut is mounted on the support of the bracket to the top of the tailstock support, or is mounted under the bracket to support the tailstock support, and the nut is mounted on the bracket tightly The upper threaded section of the tailstock support corresponds to the nut on the upper side, and the nut is mounted on the lower end of the bracket to support the threaded section of the bracket below the nut. Or the support rod is of equal diameter or reduced diameter, and the diameter of the upper section of the joint between the bracket and the bowl is equal to or larger than the diameter of the lower section of the bracket.

Or the top end of the tailstock is a mounted solar vacuum heat collecting tube, and the thermal insulation tailstock is tightly mounted, including the heat insulating pipe sleeve hanging nut and the top tightening screw, and the outer wall of the heat insulating pipe sleeve mounting nut is provided with a mounting hook and a force. The supporting surface, at least one mounting hook is disposed on the upper part of the force supporting surface, and the internal thread of the heat insulating tube sleeve mounting nut is corresponding to the top tightening screw, and the heat insulating tube sleeve hanging nut is provided with the solar vacuum collecting tube tail end tube The wall has a certain gap of insulation pipe sleeve, and the sealing ring is arranged between the opening of the heat insulation pipe sleeve and the solar vacuum heat collecting pipe, and the outer wall of the top tightening screw is provided with an external thread corresponding to the hanging nut of the heat insulating pipe sleeve, and the top is tight The lower end of the screw is provided with a triggering tooth for screwing, the screwing trigger tooth is arranged on the inner wall of the lower end of the top screw, or on the outer wall of the lower end of the screw, and the upper end of the screw is provided with the mounting object. The tube orifice is along the force supporting surface, and the tube orifice corresponds to the force supporting surface and the bottom surface of the solar vacuum heat collecting tube. The mounting hooks of the insulating sleeve bushing nuts are arranged on the upper and lower portions of the force receiving surface.

Or the top end of the tailstock is a solar vacuum heat collecting tube that is tightly mounted with a thermal insulation tailstock assembly, including a threaded bracket, a threaded base, a heat insulating sleeve and a windshield, and the threaded bracket is composed of an externally threaded screw with a bowl The outer surface of the bowl is provided with a force tooth rib, or the threaded bracket is formed by a threaded nut with a bowl, the outer surface of the threaded nut is provided with a force tooth edge, and the threaded base is provided with a force tooth edge by the end The external threaded screw is formed, or the threaded base is formed by an internally threaded nut, and the outer surface of the internally threaded nut is provided with a force tooth edge. The threaded bracket matches the length of the screw and nut displacement on the threaded base. The heat-insulating tube sleeve and the threaded socket are concentrically arranged and correspond to each other. On the diameter of the heat-insulating tube sleeve, the outer surface of the heat-insulating tube sleeve is respectively provided with a single-layer strip-shaped fin and a double-layer strip-shaped fin, and a single insulating sleeve The strip-shaped fins are matched with the groove of the double-layered fins of the other heat-insulating tube sleeve, and the heat-insulating tube sleeve has a certain gap with the tail of the solar vacuum heat collecting tube, and the length of the heat-insulating tube sleeve and the tail of the solar vacuum heat collecting tube support steel The installation position of the card corresponds, and a sealing ring is inserted between the upper opening of the heat insulating sleeve and the solar vacuum heat collecting tube. The threaded base is mounted on the top surface of the water heater bracket and the positioning convex hull or the positioning pit on the upper tail support.

The production process of a horizontal transversely-bending laminated heat pipe collecting core vacuum heat collecting tube matched with a horizontal horizontally-folded laminated heat pipe collecting core vacuum heat collecting tube module, characterized in that: horizontal horizontally-folding and folding heat pipe collecting heat Core vacuum heat collecting tube, including outer cover glass tube, horizontal transverse bending and stacking heat pipe heat collecting core, medium inlet and outlet tube head glass sealing end cover, clamping positioning support air getter elastic card, horizontal horizontally bending and folding heat pipe collecting heat The core is a horizontal horizontally-folded laminated heat pipe collecting core tube row which is bent back in turn, arranged in the immediate vicinity of the upper and lower layers, and distributed on the same plane, and the connecting tube head of the horizontally horizontally folded and folded heat pipe collecting heat core tube row is distributed The parallel straight pipe arranged on the upper end of the horizontally-rolled laminated heat pipe collecting heat-collecting tube row is assembled by the clamping and positioning supporting the getter elastic card, and the bent glass substrate is horizontally horizontally bent and folded to stack the heat pipe collecting core The tube row assembly is integrated into one body, and the surface of the horizontally horizontally folded and folded heat pipe collecting core tube is combined with a functional endothermic film surface composed of a reflective film, an absorption film and an anti-reflection film. The condensing tube head of the horizontally-rolled laminated heat pipe heat collecting core is sealed on the glass sealing end cover by glass welding to form a horizontal transversely-folded laminated heat pipe collecting core. The horizontal horizontally-folded laminated heat pipe heat collecting core is inserted into one end of the glass tube of the exhaust tail pipe on the other end of the sealing head, and the horizontally horizontally folded The curved laminated heat pipe collector core is fixed on the radial inner wall of the outer cover glass tube, the outer cover glass tube and the connecting end cover glass are welded and closed, the upper exhaust table is vacuumed, the glass welding is sealed and the exhaust tail pipe is separated, and the exhaust gas is evaporated. After that, the phase change medium charging tube disposed on the condensing and releasing end of the phase change medium of the horizontally-folded heat-collecting heat collecting tube vacuum heat collecting tube is used to evacuate the condensation heat releasing end chamber of the phase change medium, and then The horizontal horizontally-folded and folded heat-collecting heat-collecting core vacuum collecting tube is filled with the phase-change heat-transfer medium, and the glass-welded closed phase-change medium filling tube is used to form the horizontally-covered glass tube lumen with a high degree of vacuum. Hot core vacuum collector tube.

Or the horizontally and horizontally folded and folded heat pipe heat collecting cores are connected to the condensing pipe head, and are set on the same glass sealing end cover to form a horizontal horizontally-folded laminated heat pipe heat collecting core assembly. The horizontal transversely-folded laminated heat pipe heat collecting core assembly is inserted into one end of the glass tube of the outer end of the sealing head with an exhaust tail pipe, and is horizontally placed by being equipped with a clamping position to support the getter elastic card. The folded laminated heat pipe heat collecting core support is fixed on the radial inner wall of the outer cover glass tube, the outer cover glass tube and the connecting end cover glass are welded and closed, and then the glass is welded, and the horizontal transversely folded and folded heat pipe collecting core is condensed and condensed. The tube head is welded to the glass sealing end cover package glass. After the upper exhaust table is evacuated, the glass tail is welded to separate the exhaust tail pipe, and the getter is evaporated, and then, the phase is set on the condensation heat release end of the phase change medium of the heat collecting core vacuum heat collecting tube of the horizontal horizontally folded heat pipe. The medium filling tube is filled with vacuum for the condensation end of the phase change medium, and then the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium is charged. The tube is made into a horizontal glass tube lumen with a high vacuum horizontally horizontally folded and folded heat pipe collecting core vacuum collecting tube.

Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is sealed by glass welding on the glass sealing end cover to form a horizontal transversely-folded laminated heat pipe collecting core. The horizontal horizontally-folded laminated heat pipe heat collecting core is inserted into the outer glass tube which is open at one end and the other end is also opened, and the horizontally transversely folded and folded heat pipe collecting core support is assembled by being equipped with a clamping positioning supporting air-removing agent elastic card. It is fixed on the radial inner wall of the glass tube of the outer cover, and the connecting end cover of the horizontally horizontally folded and folded heat pipe heat collecting core is welded and closed with the corresponding opening glass tube of the outer cover glass tube, and the other open glass sealing electrode of the outer cover glass tube is welded and sealed. Welding the exhaust tail pipe, after the upper exhaust table is vacuumed, the glass welding fuse seals the exhaust tail pipe, evaporates the getter, and then passes through the horizontally transversely folded heat pipe collector core vacuum collector tube phase change medium a phase change medium charging tube on the condensing heat release end, vacuuming the condensation heat release end cavity of the phase change medium, and then filling the phase change heat transfer medium with the horizontal transverse bending heat stacking heat collecting core vacuum heat collecting tube, glass The sealed phase change medium filling tube is welded, and the horizontal glass tube cavity of the outer cover is made into a horizontal vacuum bending laminated heat pipe collecting core vacuum collecting tube with high vacuum.

Or the horizontally and horizontally folded and folded heat pipe heat collecting cores are connected to the condensing pipe head, and are set on the same glass sealing end cover to form a horizontal horizontally-folded laminated heat pipe heat collecting core assembly. The horizontal horizontally-folded laminated heat pipe heat collecting core is inserted into the outer glass tube which is open at one end and the other end is also opened, and the horizontally transversely folded and folded heat pipe collecting core support is assembled by being equipped with a clamping positioning supporting air-removing agent elastic card. It is fixed on the radial inner wall of the glass tube of the outer cover, and the connecting end cover of the horizontally horizontally folded and folded heat pipe heat collecting core is welded and closed to the corresponding opening glass of the outer cover glass tube, and then the glass is welded horizontally to bend the horizontal heat pipe to heat the tube. The core condensing tube head is welded to the glass sealing end cap package glass. The other open glass of the outer cover glass tube is welded to the sealing head and the welded tail pipe is drawn. After the upper exhausting table is vacuumed, the glass is welded and sealed to separate the exhaust tail pipe, and the getter is evaporated, and then set at the level. The transversely-transformed laminated heat pipe collects the heat-collecting core vacuum heat collecting tube, the phase change medium filling tube on the condensation heat releasing end, the vacuum chamber of the phase change medium condensation is evacuated, and then the horizontally transversely folded heat pipe is laminated. The heat collecting core vacuum collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is made into a horizontally horizontally bent and folded heat pipe collecting core vacuum collecting tube with a high degree of vacuum in the outer glass tube.

Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is sealed by glass welding on the glass sealing end cover to form a horizontal transversely-folded laminated heat pipe collecting core. The horizontal horizontally-folded laminated heat pipe heat collecting core is inserted into one of the outer glass tubes of the exhaust tail pipe, and the outer end of the sealing head is equipped with a clamping position to support the getter elastic card, and the horizontal transverse bending is performed. The laminated heat pipe heat collecting core support is fixed on the radial inner wall of the outer cover glass tube, and the connecting end cover of the horizontally horizontally folded and folded heat pipe heat collecting core is in contact with the corresponding opening of the outer cover glass tube, and the glass welding is closed, and the assembly is positioned well. Horizontal horizontally-folded folded heat pipe collector core vacuum heat collecting tube assembly, placed in a heating vacuum furnace, heated and evacuated, and then passed through a laser glass welding machine, through a sealing glass window, the outer cover glass tube exhaust tail pipe glass welding Closing, evaporating the getter, and then condensing the exothermic cavity of the phase change medium by a phase change medium charging tube disposed on the condensation heat release end of the horizontally-transformed laminated heat pipe collecting heat collecting tube vacuum collecting tube After vacuuming, the horizontally-transformed laminated heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass-welded closed phase change medium filling tube is used to make the outer cover glass tube lumen high. Level of vacuum tube collectors transversely bent laminated core vacuum tube.

Or the horizontally and horizontally folded and folded heat pipe heat collecting cores are connected to the condensing pipe head, and are set on the same glass sealing end cover to form a horizontal horizontally-folded laminated heat pipe heat collecting core assembly. The horizontal horizontally-folded laminated heat pipe heat collecting core is inserted into the outer glass tube which is open at one end and the other end is also opened, and the horizontally transversely folded and folded heat pipe collecting core support is assembled by being equipped with a clamping positioning supporting air-removing agent elastic card. It is fixed on the radial inner wall of the glass tube of the outer cover, and the connecting end cover of the horizontally horizontally folded and folded heat pipe heat collecting core is welded and closed with the corresponding opening glass of the outer cover glass tube, and the assembled horizontally horizontally folded and folded heat pipe collecting core is assembled. The vacuum heat collecting tube assembly is placed in a heating vacuum furnace, heated and evacuated, and then passed through a laser glass welding machine, and the horizontally transversely bent and laminated heat pipe collecting core is connected to the condensing pipe head and the glass seal through the sealing glass window. The end cover is laser-welded and sealed. Evaporating the getter, and then vacuuming the phase-change medium condensing heat-dissipating end cavity by a phase change medium charging tube disposed on the horizontal heat-dissipating heat collecting core vacuum heat collecting tube phase change medium condensation heat releasing end Then, the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is used to make the horizontal glass tube lumen to be a high vacuum horizontal transverse bending. Stacked heat pipe collector core vacuum collector tube.

The production of the horizontal transversely-folded laminated heat pipe collecting core vacuum collecting tube includes the following production process: the inner glass thin blank tube of the collecting core is processed into a U-shaped or N-shaped bent glass tube by a lamp, and then U-shaped or N-shaped The tube head of the bent glass tube is flushed, burned, cleaned and dried, and the upper end is clamped and positioned to support the getter cartridge, and the heat absorbing film is laminated on the surface of the tube, and the horizontally transversely folded heat pipe is collected. The core is inserted and supported on the radially inner wall of the glass tube of the outer cover by the clamping and positioning support scavenger elastic card, and is welded and closed by connecting the end cover glass. Firstly, the open end glass of the outer cover glass tube is welded to the sealing head, and is processed through a die to form a glass nozzle having an inlet and an outlet corresponding to the size of the condensation end of the horizontally transversely folded heat pipe collector. Inserting the inlet and outlet nozzles at the same end of the horizontally stacked heat pipe collecting core into the inlet and outlet ports reserved on the end of the glass tube of the outer cover and pushing the bottom end, and then sealing the other end of the outer cover glass tube and making Connect the exhaust tail pipe, and then, the horizontal transverse bending of the heat pipe collecting heat collecting core in the outer cover glass tube is pushed to the set position, and the horizontally transversely folded heat pipe collecting heat collecting core condensation end, and the outer cover glass tube The nozzle glass at the same end is welded and sealed, and the mold is inflated, annealed, closed, and cooled. The horizontally horizontally folded and folded heat pipe collects the heat in and out of the glass tube head to complete the sealing. The upper exhaust pipe and the exhaust tail pipe are connected to the exhaust pipe, and after vacuuming, the glass is welded and sealed from the exhaust tail pipe. Evaporating the getter, and then vacuuming the phase-change medium condensing heat-dissipating end cavity by a phase change medium charging tube disposed on the horizontal heat-dissipating heat collecting core vacuum heat collecting tube phase change medium condensation heat releasing end Then, the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is used to make the horizontal glass tube lumen to be a high vacuum horizontal transverse bending. Stacked heat pipe collector core vacuum collector tube.

The production process of a horizontal transversely-bending laminated heat pipe collecting core vacuum heat collecting tube matched with a horizontal horizontally-folded laminated heat pipe collecting core vacuum heat collecting tube module, characterized in that: horizontal horizontally-folding and folding heat pipe collecting heat The core is connected to the condensing pipe head, and is inserted into one end opening, and the other end of the sealing head is provided with a horizontal horizontally-folded laminated heat pipe collecting core, and the outer cover glass tube is connected to the opening of the pipe head, and the horizontal transverse bending is laminated. The heat pipe collecting core take-out pipe head is led out through the opening on the cover glass tube head, and the horizontally horizontally folded and folded heat pipe heat collecting core support is fixed on the outer cover glass tube by being equipped with a clamping positioning supporting air getter elastic card. On the inner wall of the radial cover, the other open end glass of the outer cover glass tube is welded to the sealing head and the welded tail pipe is drawn, and then the glass hole is sealed to close the opening on the glass tube head of the outer cover and the horizontal transversely-folded laminated heat pipe The heat collecting core is taken out of the pipe head, and after the upper exhausting table is evacuated, the glass welding is sealed to separate the exhaust tail pipe, and the getter is evaporated, and then, the heat collecting tube vacuum collecting tube phase change is set by horizontally placing the folded heat pipe. Medium condensation heat release The phase change medium filling tube is used to evacuate the condensation heat release end cavity of the phase change medium, and then the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welding closed phase change The medium is filled with a tube, and the horizontal glass tube lumen is made of a horizontal vacuum bending heat stacking heat collecting core vacuum collecting tube with a high vacuum.

Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is inserted into one end opening, and the other end of the sealing head is provided with a horizontally transversely folded heat pipe collecting heat collecting core to receive the opening of the pipe head Inside the tube, and horizontally horizontally bending and stacking the heat pipe, the heat collecting core is taken out through the opening on the cover of the outer glass tube, and the horizontally transversely folded heat pipe is assembled by being equipped with a clamping position to support the getter cartridge. The collector core support is fixed to the radially inner wall of the cover glass tube. The horizontally horizontally folded and folded heat pipe heat collecting core is taken out from the pipe head, and is welded and sealed by glass welding and the opening on the cover glass tube head. The other open end glass of the outer cover glass tube is welded to the sealing head and the welded tail pipe is drawn. After the upper exhaust table is evacuated, the glass tail welding tube is separated by the glass welding, and the getter is evaporated, and then set. The phase change medium charging tube on the condensing and heat releasing end of the phase change medium of the heat transfer core vacuum heat collecting tube of the horizontally transversely folded heat collecting tube is vacuumed, and the condensing heat releasing end chamber of the phase change medium is evacuated, and then the horizontal transverse bending is performed. Laminated heat pipe collector core vacuum collector tube filled with phase change heat transfer medium, glass welded closed phase change medium filling tube, made of glass tube tube cavity with high vacuum, horizontal transverse bending, laminated heat pipe, hot core vacuum collector tube .

Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is inserted into one end opening, and the other end of the sealing head is provided with a horizontally transversely folded heat pipe collecting heat collecting core to receive the opening of the pipe head Inside the tube, the horizontally horizontally folded and folded heat pipe heat collecting core is taken out from the pipe head, and is led out through the opening on the cover of the outer glass tube, and the horizontally transversely bent and folded by the clamped positioning supporting the getter cartridge The heat pipe collector core is fixed on the radial inner wall of the outer cover glass tube, and then the other open end glass of the outer cover glass tube is welded and sealed, and then the assembled horizontally horizontally folded and folded heat pipe collector core vacuum set is assembled. The heat pipe is placed in a heating vacuum furnace, heated and evacuated, and then passed through a laser glass welding machine, a glass welded closed opening on the glass tube head of the outer cover, and a horizontally transversely folded heat pipe collecting core to take out the pipe head. Evaporating the getter, and then vacuuming the phase-change medium condensing heat-dissipating end cavity by a phase change medium charging tube disposed on the horizontal heat-dissipating heat collecting core vacuum heat collecting tube phase change medium condensation heat releasing end ,after that The horizontal horizontally-folded and folded heat-collecting heat-collecting core vacuum collecting tube is filled with the phase-change heat-transfer medium, and the glass-welded closed phase-change medium filling tube is used to form the horizontally-covered glass tube lumen with a high degree of vacuum. Hot core vacuum collector tube.

Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is inserted into one end opening, and the other end of the sealing head is provided with a horizontally transversely folded heat pipe collecting heat collecting core to receive the opening of the pipe head Inside the tube, the horizontally horizontally folded and folded heat pipe heat collecting core is taken out from the pipe head, and is led out through the opening on the cover of the outer glass tube, and the horizontally transversely bent and folded by the clamped positioning supporting the getter cartridge The heat pipe collector core is fixed on the radially inner wall of the glass tube of the outer cover, and is welded by the glass to weld the condensing pipe head of the horizontally transversely folded heat pipe heat collecting core and the opening glass on the outer glass tube head. welding. The other open end glass of the outer cover glass tube is sealed by welding the sealing head and the welding tail pipe is drawn, and then the horizontally horizontally folded and folded heat pipe collecting core vacuum collecting tube is placed in a heating vacuum furnace, and the vacuum is heated and vacuumed. Exhaust, and then through the laser glass welding machine, glass welding seals off the exhaust tail pipe on the glass tube head of the outer cover, evaporates the getter, and then, through the horizontally transversely folded heat pipe, the heat collecting core vacuum collecting tube phase change a phase change medium charging tube on the heat condensing end of the medium, vacuuming the condensation end of the phase change medium, and then charging the phase change heat transfer medium to the horizontal horizontally folded heat pipe collecting heat collecting tube vacuum collecting tube. The glass is welded to close the phase change medium filling tube, and the horizontal glass tube cavity of the outer cover is made into a horizontal vacuum bending laminated heat pipe collecting core vacuum collecting tube with high vacuum.

The production of the horizontal transversely-folded laminated heat pipe collecting core vacuum collecting tube includes the following production process: the inner glass thin blank tube of the collecting core is processed into a U-shaped or N-shaped bent glass tube by a lamp, and then U-shaped or N-shaped The tube head of the bent glass tube is flushed, burned, cleaned and dried, and the upper end is clamped and positioned to support the getter cartridge, and the heat absorbing film is laminated on the surface of the tube, and the horizontally transversely folded heat pipe is collected. The core insertion support is fixed to the radially inner wall of the cover glass tube and is led through the opening in the cover glass tube head. The horizontally horizontally folded and folded heat pipe heat collecting core support is fixed on the radial inner wall of the outer cover glass tube by being equipped with a clamping positioning support air getter elastic card, and then the other open end glass of the outer cover glass tube is welded and sealed. After that, the assembled horizontally and horizontally folded heat pipe collector core vacuum collecting tube is placed in a heating vacuum furnace, heated and evacuated, and then sealed by a laser glass welding machine through a sealing glass window. The opening on the cover of the glass tube and the horizontally transversely folded heat pipe are assembled from the heat collecting core, and the getter is evaporated, and then the phase change medium is set by the heat collecting core vacuum collecting tube in the horizontal horizontally folded and folded heat pipe. a phase change medium charging tube on the condensing heat release end, vacuuming the condensation heat release end cavity of the phase change medium, and then filling the phase change heat transfer medium with the horizontal transverse bending heat stacking heat collecting core vacuum heat collecting tube, glass The sealed phase change medium filling tube is welded, and the horizontal glass tube cavity of the outer cover is made into a horizontal vacuum bending laminated heat pipe collecting core vacuum collecting tube with high vacuum.

The production process of a horizontal transversely-folded heat-collecting heat collecting core vacuum heat collecting tube matched with a horizontal horizontally-folded heat-collecting heat collecting core vacuum heat collecting tube module, characterized in that: or horizontally horizontally bending and stacking heat pipe sets The hot core is connected to the condensing pipe head, and is inserted into the outer glass tube of the exhaust tail pipe on the other end of the sealing head, and is assembled by a clamping and positioning supporting the getter elastic card, and the horizontal transverse bending is laminated. The heat pipe collector core is fixed on the radial inner wall of the outer cover glass tube, the other open end glass of the outer cover glass tube is welded and sealed, and the outer cover glass tube is fixedly mounted on the glass lathe by the tooling clamp, and the outer cover of the glass lathe is mounted on the glass lathe. The glass tube rotates along the axis of the outer glass tube, and the arc-shaped heating head is opened to heat the glass tube of the outer cover, and the heating position is beyond the horizontally set bending position of the heat collecting core tube of the laminated heat pipe. After the flame is used to melt the outer cover glass tube, the manipulator at the glass tube of the fixed cover will pull the melted outer cover glass tube head away, and the fire head continues to heat, so that the outer cover glass tube is sealed to form a closed bottom surface, and the bottom surface of the pull seal is horizontally placed horizontally. The bent laminated heat pipe collector core has a certain distance. Adjust the position of the fire head so that the fire head always heats the bottom surface after the sealing, the glass tube at the bottom surface after the sealing is continuously melted, the bottom surface of the sealing is gradually thickened, and the bottom surface of the sealing is continuously horizontally bent to laminate the heat collecting tube of the heat pipe. Move in the direction of the head until the bottom surface of the melted seal is butted against the horizontal transversely folded heat pipe collector. The horizontally transversely folded and folded heat pipe collecting core nozzle is fused with the bottom of the sealing, the glass lathe is stopped, and the dip rod on the glass lathe is folded horizontally and horizontally, and the heat pipe collecting core tube center is pulled. The bottom of the sealing surface is penetrated into the horizontal transversely-folded laminated heat pipe collecting core nozzle, and the horizontally transversely folded laminated heat pipe collecting core nozzle and the glass at the bottom surface of the sealing are wound and pulled onto the cutting rod to be pulled out and cut off. . The fire head continues to be heated, and the perforated glass frit is retracted and melted to the horizontal transversely-folded laminated heat pipe collecting core nozzle, so that the horizontal transversely-folded laminated heat pipe collecting core and the glass frit on the bottom surface of the sealing are completely melted. Thereafter, the glass welding butt joint is provided with a heat pipe condensation end of the exhaust medium filling nozzle. Then, on the inner and outer annular glass heads, the mold is set, and the glass ring cavity is filled with air through the exhaust tail pipe at the tail of the outer glass tube, so that the sealing portion is bulged and shaped. Afterwards, the small fire heats the annular sealing glass welded pipe to be annealed, then closes the fire head and cools, and completes the glass welding sealing of the horizontal transversely folded heat pipe collecting heat pipe head and the outer glass tube head. After the upper exhaust station is evacuated, the glass is welded to seal the exhaust tail pipe. Evaporating the getter, and then vacuuming the phase-change medium condensing heat-dissipating end cavity by a phase change medium charging tube disposed on the horizontal heat-dissipating heat collecting core vacuum heat collecting tube phase change medium condensation heat releasing end Then, the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is used to make the horizontal glass tube lumen to be a high vacuum horizontal transverse bending. Stacked heat pipe collector core vacuum collector tube.

Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is inserted into the glass tube of the outer cover which is open at both ends, and the horizontally transversely folded and folded heat pipe set is assembled by the clamping and positioning supporting the getter cartridge. The hot core support is fixed on the radial inner wall of the outer cover glass tube, the other open end glass of the outer cover glass tube is welded and sealed, and the outer cover glass tube is fixedly mounted on the glass lathe through the tooling clamp, and the outer cover glass tube on the glass lathe Rotating along the axis of the glass tube of the outer cover, the arc-shaped heating head is opened, and the glass tube of the outer cover is heated, and the heating position is beyond the horizontally set bending position of the heat collecting core tube of the laminated heat pipe. After the flame is used to melt the outer cover glass tube, the manipulator at the glass tube of the fixed cover will pull the melted outer cover glass tube head away, and the fire head continues to heat, so that the outer cover glass tube is sealed to form a closed bottom surface, and the bottom surface of the pull seal is horizontally placed horizontally. The bent laminated heat pipe collector core has a certain distance. Adjust the position of the fire head so that the fire head always heats the bottom surface after the sealing, the glass tube at the bottom surface after the sealing is continuously melted, the bottom surface of the sealing is gradually thickened, and the bottom surface of the sealing is continuously horizontally bent to laminate the heat collecting tube of the heat pipe. Move in the direction of the head until the bottom surface of the melted seal is butted against the horizontal transversely folded heat pipe collector. The horizontally transversely folded and folded heat pipe collecting core nozzle is fused with the bottom of the sealing, the glass lathe is stopped, and the dip rod on the glass lathe is folded horizontally and horizontally, and the heat pipe collecting core tube center is pulled. The bottom of the sealing surface is penetrated into the horizontal transversely-folded laminated heat pipe collecting core nozzle, and the horizontally transversely folded laminated heat pipe collecting core nozzle and the glass at the bottom surface of the sealing are wound and pulled onto the cutting rod to be pulled out and cut off. . The fire head continues to be heated, and the perforated glass frit is retracted and melted to the horizontal transversely-folded laminated heat pipe collecting core nozzle, so that the horizontal transversely-folded laminated heat pipe collecting core and the glass frit on the bottom surface of the sealing are completely melted. Thereafter, the glass welding butt joint is provided with a heat pipe condensation end of the exhaust medium filling nozzle. Then, on the inner and outer annular glass heads, the mold is set, and the glass ring cavity is filled with air through the opening of the tail of the outer glass tube to make the sealing portion bulge and shape. Afterwards, the small fire heats the annular sealing glass welded pipe to be annealed, then closes the fire head and cools, and completes the glass welding sealing of the horizontal transversely folded heat pipe collecting heat pipe head and the outer glass tube head. The other open end glass of the outer cover glass tube is welded and welded to the welded tail pipe. After the upper exhaust station is evacuated, the glass is welded to seal the exhaust tail pipe. Evaporating the getter, and then vacuuming the phase-change medium condensing heat-dissipating end cavity by a phase change medium charging tube disposed on the horizontal heat-dissipating heat collecting core vacuum heat collecting tube phase change medium condensation heat releasing end Then, the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is used to make the horizontal glass tube lumen to be a high vacuum horizontal transverse bending. Stacked heat pipe collector core vacuum collector tube.

The production of the horizontal transversely-folded laminated heat pipe collecting core vacuum collecting tube includes the following production process: the inner glass thin blank tube of the collecting core is processed into a U-shaped or N-shaped bent glass tube by a lamp, and then U-shaped or N-shaped The tube head of the bent glass tube is flushed, burned, cleaned and dried, and the upper end is clamped and positioned to support the getter cartridge, and a heat absorbing film is composited on the surface of the tube. Firstly, the outer cover glass tube is sealed at one end and connected to the exhaust tail pipe, and the horizontal horizontally folded and folded heat pipe heat collecting core is inserted into the outer glass tube mouth, and the support is fixed on the radial inner wall of the outer cover glass tube. Then, at a set distance of the horizontally horizontally folded and folded heat pipe collecting core opening side and one end of the outer cover glass tube. The glass tube of the outer cover is fixed and fixed on the glass lathe by the tool clamping. The outer glass tube of the glass lathe rotates along the axis of the outer glass tube, the arc-shaped heating head is opened, the glass tube of the outer cover is heated, and the heating position exceeds the horizontal transverse bending. Stacked heat pipe collector core nozzle set position. After the flame is used to melt the outer glass tube, the manipulator at the glass tube of the fixed cover pulls the burnt glass tube head away, and the fire head continues to heat, so that the outer glass tube is sealed to form a closed bottom surface, and the bottom surface of the sealing surface is horizontally and horizontally folded. The curved laminated heat pipe collector core has a certain distance. Adjust the position of the fire head so that the fire head always heats the bottom surface after the sealing, the glass tube at the bottom surface after the sealing is continuously melted, the bottom surface of the sealing is gradually thickened, and the bottom surface of the sealing is continuously horizontally bent to laminate the heat collecting tube of the heat pipe. Move in the direction of the head until the bottom surface of the melted seal is butted against the horizontal transversely folded heat pipe collector. The horizontally transversely folded and folded heat pipe collecting core nozzle is fused with the bottom of the zipper, the glass lathe stops rotating, and the raking bar of the glass lathe is horizontally transversely bent and laminated to the bottom of the heat collecting core of the heat collecting core nozzle The utility model is inserted into the horizontal transversely-folded laminated heat pipe collecting core nozzle, and the glass of the horizontal transverse bending and stacking heat pipe collecting core nozzle and the bottom surface of the sealing sealing is wound on the material bar and pulled out and cut. The fire head continues to be heated, and the perforated glass frit is retracted and melted to the horizontal transversely-folded laminated heat pipe collecting core nozzle, so that the horizontal transversely-folded laminated heat pipe collecting core and the glass frit on the bottom surface of the sealing are completely melted. Thereafter, the glass welding butt joint is provided with a heat pipe condensation end of the exhaust medium filling nozzle. Then, on the inner and outer annular glass heads, the mold is set, and the glass ring cavity is filled with air through the exhaust tail pipe at the tail of the outer glass tube, so that the sealing portion is bulged and shaped. The small fire then heats the annular sealing glass welded nozzle for annealing. After that, the burner is turned off, cooled, and the sealing of the annular glass tube head is completed. After the exhaust station, the exhaust tail pipe is connected to the exhaust pipe, after vacuuming, the glass is welded to seal the exhaust tail pipe, and the getter is evaporated, and then the phase change is set by the heat collecting core vacuum collecting tube in the horizontal horizontally folded bending heat pipe. a phase change medium charging tube on the heat condensing end of the medium, vacuuming the condensation end of the phase change medium, and then charging the phase change heat transfer medium to the horizontal horizontally folded heat pipe collecting heat collecting tube vacuum collecting tube. The glass is welded to close the phase change medium filling tube, and the horizontal glass tube cavity of the outer cover is made into a horizontal vacuum bending laminated heat pipe collecting core vacuum collecting tube with high vacuum.

A clamping positioning supporting air-removing agent elastic card matched with a horizontal horizontally-folded laminated heat pipe collecting core vacuum heat collecting tube module, wherein: the clamping position is set at two ends of the horizontal horizontally-folded laminated heat pipe collecting core Supporting the getter cartridge, consisting of three parts: the elastic metal material card buckle, the elastic metal material card buckle and the getter. The upper and lower elastic metal material cards of the clamping and supporting elastic card are arranged on both sides of each of the two symmetrical pieces, and respectively have corresponding card slots and chucks. The card slot and the chuck on the elastic metal material card are at least one oblique card slot, and the card head with the linear elastic guide is inserted, and the guide of the chuck is inserted into the oblique card slot to generate deformation, when the chuck is After the guide is inserted into position, the rebound occurs, and the card slot and the card head are interlocked and locked. Or the card slot and the chuck on the card of the elastic metal material are provided with at least one linear card slot, and the card head of the corresponding arc-shaped elastic guide is inserted, and the arc-shaped guide of the card head is inserted into the card slot to generate straightening. Deformation, when the leader of the chuck is inserted into position, a rebound and arc shape occurs, and the card slot and the chuck are interlocked and locked. Or the card slot and the chuck on the card of the elastic metal material are provided with at least one arc-shaped card slot, and the card head of the corresponding guide head is press-inserted, and the straight guide head of the card head is inserted into the curved card slot to generate a curved shape. Deformation, when the leader of the chuck is inserted into position, the rebound occurs straightening, and the card slot and the card head are interlocked and locked.

The shape of the elastic metal material card corresponds to the shape of the horizontal transversely-folded heat-sinking heat-collecting core tube row, and can meet the requirements of the elastic clamping positioning of the horizontal horizontally-folded laminated heat pipe heat collecting core tube row. The two sides of the clamping and positioning elastic card are provided with elastic supporting cards supported on the radially inner wall of the glass tube of the outer cover. The elastic supporting cards are respectively disposed on the side of the upper and lower elastic metal material cards, and the elastic supporting card is elastic. The side of the metal material card is bent by a punching disc. The elastic force formed by the geometrical dimensions of the elastic support card satisfies the requirement that the horizontal transversely-folded laminated heat pipe heat collecting core is elastically supported on the radially inner wall of the outer cover glass tube. Wherein, at least the lower elastic metal material card is provided with an elastic lock card for holding and fixing the getter, and the elastic lock card is formed by elastic metal material card stamping and stretching.

The utility model relates to a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module, wherein a horizontal transversely-folded and folded heat-collecting heat collecting core has a heat absorbing film composited thereon, and the functional film constituting the heat absorbing film is a reflecting film and a absorbing film. a film or an antireflection film, wherein the reflective film is formed by magnetron sputtering, or the reflective film is formed by vacuum evaporation, or the reflective film is formed by electroless plating. An absorbing film, an anti-reflection film or a film of the same material. The reflective functional film of the horizontal transversely-folded laminated heat pipe collecting core is a full-tube discharge coating, and the absorption functional film and the anti-reverse functional film are single-sided coating of the tube row. The heat absorbing film is a magnetron sputtering film.

Or a high-temperature selective absorption functional film is a three-layer structure including a glass substrate, a highly reflective metal film layer, and an absorption film layer, and the high temperature selective absorption functional film is a composite high-reflection metal film coated on the outer surface of the glass substrate. a layer, a glass substrate coated with a highly reflective metal film layer, immersed in a solution of nickel sulfate and sodium hypophosphite for a certain period of time, so that a nickel-phosphorus alloy coating is formed on the surface of the medium-high temperature glass pressure tube, and then the tube is immersed After short-time etching in nitric acid, a high-temperature selective absorption functional film having a phosphorus content of 5% to 7% in the plating layer and having a micro-pit on the surface of the etched tube row is formed.

Or the high temperature selective absorption functional film is a functional film layer comprising a glass substrate, a highly reflective metal film layer of a metal material, and a three-layer structure combined with the carbon material absorption film layer. The structure of the high temperature selective absorption functional film is a glass substrate bottom layer, a metal material highly reflective metal excessive film layer, and a thermal decomposition treatment to form a carbon film layer surface layer with dense micropores. The bottom layer of the glass substrate is a tube material, and the high-reflection metal over-metal layer of the metal material is a metal film layer formed by vacuum evaporation, magnetron sputtering, or chemical reaction, and the high-temperature selective absorption functional film is thermally decomposed by the organic binder. Formed after treatment. The organic binder is made of a single material, or is made of one or more composite materials, or a binder is mixed with a light absorbing material to form a film layer, and a composite carbon film having a dense microporous structure on the outer surface formed by thermal decomposition sintering is formed. Layer surface layer.

The utility model relates to a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module, wherein the outer cover glass tube is a round tube, an elliptical tube or a rectangular tube. The inner surface of the light-incident surface of the outer cover glass tube is compounded with a light anti-reflection film, or the outer surface of the light-incident surface of the outer cover glass tube is compounded with a light anti-reflection film, or the inner and outer surfaces of the outer surface of the glass tube of the outer cover are composited. There is a light antireflection film. The outer cover glass tube is a full-tube transparent light tube, or the outer cover glass tube is a tube with a mirror surface that is half of the radial wall.

Beneficial effect

 Compared with the conventional all-glass vacuum solar collector tube, the cost of the all-glass vacuum solar collector tube collector module is under pressure, high-temperature heat collection, self-circulation, low cost, and the production process is not changed much. , anti-freeze insulation, safe and reliable issues. The device is reasonable in design and can be provided in various installation forms. The horizontal transverse bending and stacking heat pipe collecting core vacuum collecting tube which constitutes the module has good pressure resistance, good thermal expansion, contraction and expansion, good performance, resistance to thermal shock and impact. Fatigue, and realize the thermosiphon convection self-circulation of the heat collecting system, modular assembly, large unit effective heat collecting area, strong pressure bearing capacity, and can provide medium and high temperature steam to users, and medium and high temperature steam can be used for power generation. The system has good anti-freeze insulation performance. Therefore, the application field and the application of the invention are extensive.

DRAWINGS

 1 is a schematic longitudinal plan view of a first embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube.

2 is a schematic plan view showing a horizontal plan view of a first and a third embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube.

3 is a schematic view showing a longitudinal planing structure of a second embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube;

4 is a schematic cross-sectional view showing a second and fourth embodiments of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube.

FIG. 5 is a schematic plan view showing a longitudinal plan view of a third embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube; FIG.

Fig. 6 is a schematic longitudinal plan view showing a fourth embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube.

7 is a schematic longitudinal plan view of a first embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module;

FIG. 8 is a schematic cross-sectional view showing a second embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module.

9 is a schematic longitudinal plan view of a third embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module;

FIG. 10 is a schematic cross-sectional view showing a fourth embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module.

FIG. 11 is a schematic cross-sectional view showing a fifth embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module.

12 is a schematic plan view showing a sixth embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module.

FIG. 13 is a schematic cross-sectional view showing a fifth embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module.

14 is a schematic plan view showing a sixth embodiment of a horizontal transversely-folded laminated heat pipe collecting core vacuum heat collecting tube module.

15 is a schematic longitudinal plan view of an embodiment of a horizontal transversely-folded laminated heat pipe collector core vacuum heat collecting tube module longitudinal header box;

Fig. 16 is a schematic longitudinal plan view showing an embodiment of a horizontal transversely-folded laminated heat pipe collector core vacuum heat collecting tube module transverse header.

17 is a schematic longitudinal plan view of an embodiment of a horizontal transversely-folded laminated heat pipe collector core vacuum heat collecting tube module inclined header.

In the figure: 1 outer cover glass tube, 2 inner heat collecting tube, 3 heat absorption function selection film, 4 head air getter support elastic card, 5 condensation end glass tube, 6 phase change medium filling nozzle, 7 tail air getter support elastic card , 8 exhaust tail pipe, 9 air getter, 10 header box head, 11 header box shell head, 12 sealing rubber ring, 13 insulation seal ring, 14 insulation pipe sleeve, 15 top tailstock support rod, 16 connection lock Solid bolt, 17, vacuum collector bracket arm, 18 top tail bracket, 19 tail tray, 20 header inlet, 21 header outlet, 22 insulation, 23 suction cup, 24 heat transfer sleeve Tube, 25 vacuum collector tube insulation housing opening.

Claims (10)

1.  The utility model relates to a horizontal horizontally-folding and stacking heat pipe collecting core vacuum heat collecting tube module, which comprises a vacuum heat collecting tube, a top tight tailstock, a heat collecting and collecting heat box, a sealing ring and a heat collecting tube installation supporting frame, and the feature is: horizontal horizontal folding The curved laminated heat pipe collecting core vacuum heat collecting tube module comprises: a heat collecting and collecting heat box, a horizontal horizontal bending heat pipe collecting heat collecting core vacuum heat collecting tube, a heat collecting tube mounting supporting frame, and a heat collecting tube mounting supporting frame and a heat insulating set The heat-connecting box is connected in parallel with the top tight tailstock on the opposite frame; the heat-collecting heat-collecting box is a single-flow channel header, and the two ends of the single-flow channel header are respectively provided with a single medium inlet and outlet connecting pipe a head, a medium inlet connecting pipe head is disposed on a lower side of the end of the heat collecting header, a medium connecting connecting pipe head is disposed on an upper side of the heat collecting header; or both ends of the heat collecting and collecting heat box are respectively provided The two media arranged in the upper and lower sides are connected to the pipe head, and the heat collecting box is surrounded by the heat insulating layer and the outer casing; or the heat collecting and collecting heat box is a double-flow collecting and collecting box arranged on the upper and lower sides, and the two ends of the heat collecting box On the head, there are separate media inlet and outlet connections a head, wherein the inlet and outlet manifolds of the medium are connected to the flow passage on the lower side, the outlet header of the medium is connected to the flow passage on the upper side; or the heat collection header is a double flow passage arranged up and down The heat collecting header and the two ends of the heat collecting header are respectively provided with two medium inlet and outlet connecting pipe heads arranged at the upper and lower sides; or the collecting heat connecting box is a double flow collecting heat collecting unit arranged with the deflector arranged above and below The box and the deflector are arranged between the upper and lower headers, and are connected with the header partition and the connecting box opening wall; or the two ends of the collecting header are respectively provided with a single medium inlet and outlet connecting tube a head, wherein the inlet and outlet manifolds of the medium are connected to the flow passage on the lower side, the outlet header of the medium is connected to the flow passage on the upper side; or the collector is provided with a deflector The arranged two-channel collecting heat-collecting box has two sets of medium-input and out-connecting pipe heads arranged on the upper and lower sides of the heat collecting header; the heat collecting box is surrounded by the heat insulating layer and the outer casing;

   The horizontal horizontally-folded and folded heat-collecting heat-collecting core vacuum heat collecting tube is located on one side of the heat-insulating heat collecting box, or the heat-insulating heat collecting box is placed in the middle of the heat collecting tube installation supporting frame, and the horizontal horizontally-folded folding laminated heat-collecting heat collecting core vacuum set The heat pipes are symmetrically distributed on both sides of the heat-insulating heat collecting box; the horizontal horizontally-folded laminated heat pipe on the heat-insulating heat-collecting box is installed with the heat-collecting core vacuum heat collecting pipe, and the horizontal sealing device is matched with the sealing ring The heat-dissipating end of the heat-dissipating heat pipe of the heat-collecting core of the folded laminated heat pipe is connected, or the sealed heat-transfer casing of the heat-dissipating heat pipe of the horizontal heat-collecting heat pipe is installed on the heat-insulating heat-collecting header. Through the sealing ring matched with it, it is closely connected with the sealed heat transfer sleeve provided on the heat-insulating heat-collecting box to realize the indirect heating of the medium in the heat-insulating heat-collecting box; horizontal horizontally-folding and folding heat pipe set The hot core vacuum heat collecting tube is disposed on the parallel tight tailstock disposed on the parallel frame of the heat collecting tube mounting support frame and the heat insulating collector header box, and the horizontal horizontally folded and folded heat pipe collecting core vacuum heat collecting tube is mounted on the top tight seal. Collecting heat box Between the heat-collecting pipe installation support frame; the heat-insulating heat-collecting box horizontal installation arrangement, or the inclined installation arrangement, or the vertical installation arrangement, the horizontal horizontally-folded folded heat pipe collector core vacuum heat collecting tube horizontal transverse bending heat pipe The heat collecting core is close to the vertical angle of the sunlight;

   The horizontal horizontally-folded and folded heat pipe collecting core vacuum heat collecting tube comprises a cover glass tube, a horizontal horizontally-folded laminated heat pipe heat collecting core, a medium inlet and outlet pipe head glass sealing end cover, and a clamping positioning support air-removing agent elastic card. The horizontal horizontally-folded laminated heat pipe heat collecting core is a horizontal horizontally-folded laminated heat pipe heat collecting core tube row which is sequentially bent and bent back, arranged in the upper and lower layers, and distributed on the same plane, and the horizontal horizontally-folded folding laminated heat pipe set An outlet tube head of the hot core tube row is distributed on the upper side of the horizontal transversely-folded laminated heat pipe collecting core tube row, and is closed at one end, and the other end is a parallel straight tube, and is assembled by clamping. Supporting the elastic card, the horizontally-folded and folded heat-dissipating heat-collecting core tube row of the bent glass substrate is assembled and integrated into one body; the horizontal horizontally-folded and folded heat-collecting heat-collecting core tube row is composited with a reflective film and an absorbing film in this order. The function of the anti-reflection film is to absorb the surface of the film; then, the air-removing agent is assembled on the clamping and positioning support card to form a clamping and supporting the getter cartridge; the horizontal horizontally-folded laminated heat pipe heat collecting core is inserted in the Open at one end, another In the outer cover glass tube of the head, the exhaust glass tube is provided at one end of the outer cover glass tube; the backlight surface of the outer cover glass tube is a light tube, or a tube compounded with a mirror; the horizontal horizontally folded and folded heat pipe heat collecting core is assembled The utility model has a clamping positioning support air trap elastic card, and the horizontal transverse bending and folding heat pipe heat collecting core support is fixed on the radial inner wall of the outer cover glass tube, and the horizontally transversely bending and folding heat pipe collecting core is connected to the condensing pipe head. Through glass welding, it is packaged on the glass head of the same end of the glass tube of the outer cover, and is provided with a phase change medium condensation heat release end of the medium filling tube; the horizontally transversely folded heat pipe collector heat collecting core vacuum heat collecting tube is vacuumed and the glass is vacuumed. The exhaust tail pipe is separated by welding, and the getter is evaporated, and then the phase change medium is filled by the phase change medium filling tube disposed on the condensation heat release end of the horizontal heat pipe core heat collecting tube vacuum heat collecting tube The condensing heat release cavity is evacuated, and then the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is used to make the outer cover glass tube lumen high Level of vacuum tube collectors transversely bent laminated core vacuum tube;

   The phase change heat transfer medium of the horizontally transversely folded heat pipe collecting heat core vacuum heat collecting tube is under the action of the capillary film, and the phase change heat transfer medium is transported and distributed, and the liquid phase phase change heat transfer medium absorbs heat and vaporizes through the horizontal level. The transversely-folded laminated heat pipe heat collecting core pipe enters the condensation heat release end cavity of the phase change medium, and after the heat of the heated medium is released by the condensation heat release end of the phase change medium, the phase change heat transfer medium condenses into a liquid and is horizontally placed horizontally. Under the action of the capillary membrane provided on the inner wall of the heat-collecting core of the folded laminated heat pipe, the transmission distribution of the phase change heat transfer medium is completed, and the condensation evaporation heat transfer cycle of the phase change medium is formed; the heat collecting system passes through the cold water in the heat-collecting heat collecting box. , the density difference between the hot water in the heat collecting and heat collecting box, and the pressure generated by the height difference between the heat storage water tank and the horizontal horizontally-folded heat pipe collecting heat collecting core vacuum heat collecting tube module, thereby realizing the heated medium Thermosiphon convection is self-circulating; or a pump is installed on the system to achieve forced circulation of the system.
2.  The invention relates to a heat-insulating heat-collecting junction box which is matched with a horizontal transversely-folded laminated heat pipe collector core vacuum heat collecting tube module according to claim 1, characterized in that: the heat insulating material of the heat-insulating heat collecting box and the same side of the outer casing Or the tube walls of the opposite sides of the tube are provided with a horizontal horizontally-folded folded heat-collecting heat collecting core vacuum heat collecting tube into and out of the tube head; the heat collecting header tube hole is flat, or is concave, or a convex edge, or a concave rear valgus edge, or a concave edge of a concave back inner rim; the outer wall of the heat-insulating heat-collecting box is wrapped with a coaxial line coaxial with the opening thereof, and the heat-receiving heat collecting box wall and the outer casing are filled with The heat insulating material corresponds to the opening on the wall of the heat collecting and collecting heat box, and the outer casing and the heat insulating material are provided with an opening, and the outer casing is provided with a shell head corresponding to the heat collecting and collecting header, and the outer shell head is insulated The support ring is filled with a heat insulating material between the outer casing head and the heat-insulating heat collecting header; the outer shell corresponding to the heat-insulating support ring is provided with a lacing, and a frame connection opposite to the heat collecting pipe mounting support frame; a sealed connecting pipe unit is arranged on the pipe head;

   The heat-collecting heat-collecting box is a single-channel heat collecting header, and the two ends of the single-channel collecting heat-collecting box are respectively provided with a single medium inlet and outlet connecting pipe head, and the medium inlet connecting pipe head is set in the heat collecting unit. On the lower side of the end of the header, the medium outlet pipe head is arranged on the upper side of the heat collecting header; or on both ends of the heat collecting header, respectively, two medium inlet and outlet pipes arranged one above the other The head, around the heat collecting box, is wrapped with an insulating layer and an outer casing;

   Or the heat-collecting heat-collecting box is a double-channel heat collecting header arranged on the upper and lower sides, and the inlet and outlet pipes are connected to the pipe head at the end of the double-flow collecting header; the double-flow collecting header connects the pipe unit and other pipes by sealing or The two-channel collecting heat-collecting box sealing connection is provided on both ends of the heat collecting header, and a single medium inlet and outlet connecting pipe head is respectively arranged, wherein the medium inlet heat collecting header pipe head is connected with the lower side flow channel. The outlet header of the medium is connected with the flow channel on the upper side; or the heat collection header is a double-flow collector header box arranged on the upper and lower sides, and the ends of the heat collection header are respectively arranged on the upper and lower sides. The double medium enters and exits the connecting pipe head;

   Or the heat collecting header is a double-flow collecting manifold provided with a deflector arranged above and below, and the deflector is arranged between the upper and lower headers, and is connected with the header partition and the connecting box opening wall; or the heat collecting unit On both ends of the box, there are respectively a single medium inlet and outlet connection pipe head, wherein the medium inlet and the heat header of the medium are connected with the flow channel of the lower side, and the heat collecting header of the medium is connected with the tube head of the medium. The upper side of the flow channel is connected; or the heat collecting header is a double-flow collecting and collecting box arranged with the deflector arranged above and below, and the two ends of the collecting and connecting box are respectively provided with two mediums in and out The pipe head is connected; the heat collecting box is wrapped around the heat insulating layer and the outer casing.
3. A heat collecting tube mounting support frame matched with a horizontal horizontally-folded laminated heat pipe collector core vacuum heat collecting tube module according to claim 1, wherein the heat collecting tube mounting support frame comprises a heat-insulating heat collecting double-layer header box The "X" suspension support arm connection of the top end tail support support arm, the heat collecting tube support arm, the sling connection top end tail support support arm and the heat collecting tube support arm; the heat collecting tube installation support frame is one side The rectangular structure of the pipe is arranged, and the heat-insulating heat-collecting double-layer header is arranged as one side, and is arranged in parallel with the supporting tail-supporting arm of the opposite side as the opposite side, and the two collecting pipes support the connecting arms are parallel and opposite, and the two ends respectively are combined with the heat-insulating heat-collecting double-layer The joint box and the top tight tailstock support arm are connected at both ends to form a rectangular profile of the heat collecting tube mounting support frame, and the side of the "X" hanging support arm of the tensioning tail support support arm and the heat collecting tube support arm The two ends of the two ends are connected with the two ends of the heat-insulating heat collecting double-layer header box and the heat collecting tube supporting arm, and the "X" hanging support arm of the tail-clamping support arm and the heat collecting tube supporting arm are further connected. Both ends of the head, and the tailstock support The equalizers of the joint arms are connected to each other to form a hanging pull of the support arm of the top tight tailstock, and the intersection of the "X" suspension support arms is connected to form a heat collecting pipe installation support frame;

   Or connecting a hanging wall between the three points of the junction of the heat-insulating heat-collecting double-layer header, the top-tight tailstock support arm, and the "X" hanging support arm of the heat-collecting pipe mounting support frame, wherein the heat-insulating heat-collecting pair The cascading box and the intermediate hanging wall are connected to form a hanging wall of the "mi"-shaped top tailstock supporting the connecting arm on the top end of the tailstock supporting arm, and the spacing is equally divided and the intersecting points are connected together;

   Or between the three points of the intersection of the heat-insulating collector double-layer header, the top-tight tailstock support arm and the "X" suspension support arm of the heat collecting pipe installation support frame, an intermediate hanging wall is connected, and the heat collecting heat double A tank support arm is connected between the lower side of the stacking box and the heat collecting tube supporting arm, wherein the water tank supporting arm and the middle hanging wall are connected, and the spacing is equally divided on the supporting tail arm supporting arm, and the intersection is connected at Together with the "meter" shape, the tailstock supports the hanging wall of the arm;

   The heat collecting pipe is installed with a support frame or has a rear load bearing support, and the load bearing arm of the rear load bearing support is disposed at the same end of the heat insulating and heat collecting double layer header and the top end of the tail support support arm, and the rear load bearing support is provided with a lateral tension An "X" tensioning arm is provided between the arm or the rear load-bearing support; between the heat-insulating collector double-layer header and the top-tight tailstock support arm, the arm is tensioned by the "X" and connected at the appropriate position. Forming a support frame for the non-deformed heat collecting tube;

   Or the collector tube mounting support frame includes an insulated heat collecting double-layer header, a top-tight tailstock supporting arm, a heat collecting tube supporting arm, a hanging connecting top end tail supporting arm and a collecting tube supporting arm. The support arm is connected to the support; the heat collecting pipe installation support frame is a "day" shape structure on both sides of the pipe, and the heat-insulating heat-collecting double-layer header is used as the central axis, and is arranged in parallel with the support arm of the opposite tails as the opposite sides, two The strip heat pipe support arm is parallel and opposite ends, and the two ends are respectively connected with the two ends of the heat-insulating heat-collecting double-layer junction box and the top-loading tailstock support arm on both sides of the heat-insulating heat-collecting double-layer junction box to form a heat collecting tube installation support frame. "Day"-shaped structure outline, two ends of the two "X" suspension support arms on the side of the tail-cage support arm and the heat-collecting pipe support arm and the heat-insulating heat-collecting double-layer header and heat collecting tube The two ends of the support arm are connected at the joints of the two ends, and the two ends of the two "X" hanging support arms of the two tight tailstock support arms and the heat collecting pipe support arm are connected with the two ends of the tailstock. The equalizers of the support arms are connected to each other to form a suspension for the support arms of the two tight tailstocks , Two connected "X" crossing point associated suspension arm support, the composition of the heat collecting pipe is mounted a support frame;

   Or connecting a hanging wall between the six points of the junction of the heat-insulating heat-collecting double-layer header, the two-tailed tailstock support arm, and the "X" hanging support arm of the heat collecting pipe mounting support frame, wherein the heat collecting heat is connected The two sides of the double-deck header are connected with the middle hanging wall to form a two-meter-shaped top-end tailstock supporting the arm of the two arms. ;

   Or between the three points of the intersection of the heat-insulating collector double-layer header, the top-tight tailstock support arm and the "X" suspension support arm of the heat collecting pipe installation support frame, an intermediate hanging wall is connected, and the heat collecting heat double One or two tank support arms are connected between the lower side of the stacking box and the heat collecting tube supporting arm, wherein the water tank supporting arm and the middle hanging wall are connected, and the spacing is equally divided on the two tight tailstock supporting arms. Two "meter"-shaped tops that are connected together to support the hanging wall of the arm;

   The heat collecting pipe is installed with a supporting frame or has a rear load bearing support, and the load bearing arm of the rear load bearing is disposed at the same end of the heat insulating and heat collecting double-layer header and the two top tailstock supporting arms, and the rear bearing support is tensioned The arm, the heat-receiving heat-collecting double-layer header and the two-tailed tailstock support arm are connected by two "X" tensioning arms and connected at appropriate positions to form a non-deformed heat collecting tube mounting support frame.
4.  The horizontal transversely folded heat pipe collector core vacuum heat collecting tube module according to claim 1, wherein the top tight tailstock is a solar vacuum heat collecting tube tailstock, including a bracket and a thread of the bracket. The connecting nut is composed of a supporting bowl and a supporting rod. The shape of the supporting bowl is matched with the tail of the solar vacuum collecting tube, and the tail of the supporting bowl is connected with the reducing rod of the supporting rod, and the outer wall of the supporting rod is threaded and the supporting rod The threaded nut is mounted on the support rod, and the support bowl is integrally formed with the support rod or connected to the split sleeve; the support bowl and the support rod are separated, and the bottom of the support bowl is set with the support rod. The plug and the nut are mounted on the support rod, and the nut has a positioning edge which is matched with the support punching hole of the bracket and the tailstock; the nut is disposed concentric with the nut, and has a certain gap with the tail of the solar vacuum heat collecting tube, and the setting There is an insulated pipe sleeve corresponding to the end of the solar vacuum heat collecting tube supporting the steel card, a sealing ring is arranged between the opening of the heat insulating pipe sleeve and the solar vacuum heat collecting pipe; or the horizontal transverse bending and stacking heat pipe collecting heat of the supporting rod On the core or outer wall for positioning Multi-ribbed tube or multi-ribbed hole, the multi-ribbed tube is positioned by the corresponding opening on the support of the tailstock, and the multi-ribbed hole is positioned by the corresponding multi-edge tool; or the bracket is inserted at the top end of the water heater bracket On the opening of the seat support, the nut is mounted on the top of the bracket to support the tailstock support, or is mounted on the lower side of the support of the tailstock of the bracket, and the nut is mounted on the top of the bracket and the threaded section of the bracket above the support of the tailstock is above Corresponding to the nut, the nut is mounted on the support rod under the support of the tailstock, and the threaded section of the support rod corresponds to the nut below; or the support rod is equal in diameter or reduced in diameter, and the diameter of the upper section of the joint between the bracket and the bowl is equal to or Greater than the diameter of the lower section of the rod;

   Or the top end of the tailstock is a mounted solar vacuum heat collecting tube, and the thermal insulation tailstock is tightly mounted, including the heat insulating pipe sleeve hanging nut and the top tightening screw, and the outer wall of the heat insulating pipe sleeve mounting nut is provided with a mounting hook and a force. The supporting surface, at least one mounting hook is disposed on the upper part of the force supporting surface, and the internal thread of the heat insulating tube sleeve mounting nut is corresponding to the top tightening screw, and the heat insulating tube sleeve hanging nut is provided with the solar vacuum collecting tube tail end tube The wall has a certain gap of insulation pipe sleeve, and the sealing ring is arranged between the opening of the heat insulation pipe sleeve and the solar vacuum heat collecting pipe, and the outer wall of the top tightening screw is provided with an external thread corresponding to the hanging nut of the heat insulating pipe sleeve, and the top is tight The lower end of the screw is provided with a triggering tooth for screwing, the screwing trigger tooth is arranged on the inner wall of the lower end of the top screw, or on the outer wall of the lower end of the screw, and the upper end of the screw is provided with the mounting object. The tube hole is along the force supporting surface, and the tube hole hole is matched with the bottom surface of the solar vacuum heat collecting tube along the force supporting surface; the mounting hook of the heat insulating tube sleeve mounting nut is divided on the upper part and the lower part of the force supporting surface;

   Or the top end of the tailstock is a solar vacuum heat collecting tube that is tightly mounted with a thermal insulation tailstock assembly, including a threaded bracket, a threaded base, a heat insulating sleeve and a windshield, and the threaded bracket is composed of an externally threaded screw with a bowl The outer surface of the bowl is provided with a force tooth rib, or the threaded bracket is formed by a threaded nut with a bowl, the outer surface of the threaded nut is provided with a force tooth edge, and the threaded base is provided with a force tooth edge by the end The external threaded screw is formed, or the threaded base is composed of an internal thread nut, and the outer surface of the internal thread nut is provided with a force tooth edge; the threaded bracket is matched with the screw and nut displacement length on the threaded base; Concentrically set with the threaded brackets, corresponding to each other, in the diameter of the heat insulating sleeve, the outer surface of the heat insulating sleeve is respectively provided with a single layer of strip fins and double strip fins, and a single layer strip of the heat insulating sleeve The fins are matched with the groove of the double-layered fins of the other insulation sleeve, and the insulation sleeve has a certain gap with the tail of the solar vacuum collector tube, and the length of the insulation sleeve and the tail of the solar vacuum collector support the steel card installation position. Correspondingly, the upper opening of the insulation sleeve A sealing ring between the cartridge and the sun inner vacuum tube; screw base bracket is attached to the top tight food on tailstock support surface of the positioning convex hull, or positioning recesses.
5.  The invention relates to a production process of a horizontal transversely-folded heat pipe collector core vacuum heat collecting tube matched with a horizontal transversely-folded heat pipe collector core vacuum heat collecting tube module according to claim 1, characterized in that: horizontal horizontal The folding and stacking heat pipe collecting core vacuum heat collecting tube comprises a cover glass tube, a horizontal transverse bending and stacking heat pipe heat collecting core, a medium inlet and outlet pipe head glass sealing end cover, a clamping positioning support air getter elastic card, and a horizontal horizontal The heat-collecting core of the stacking heat-dissipating heat-collecting heat-collecting core tube row is a horizontal horizontally-folded heat-collecting heat-collecting core tube row which is sequentially bent and bent back, arranged in the immediate vicinity of the upper and lower layers, and distributed on the same plane. The connecting pipe head is distributed on the parallel straight pipe arranged at the upper end of the horizontal horizontally-folded folded heat pipe heat collecting core pipe row, and the bent glass substrate is horizontally placed by being equipped with a clamping positioning support air-trapping elastic card The folded laminated heat pipe collecting core tube row is assembled and integrated into one body, and the horizontal transversely-folded folding heat-collecting heat-collecting core tube row is combined with a functional endothermic film surface composed of a reflective film, an absorption film and an anti-reflection film; Horizontal horizontal folding The condensing tube head of the bent laminated heat pipe collecting core is sealed on the glass sealing end cover by glass welding to form a horizontal transversely-folded laminated heat pipe collecting core; the horizontal transverse bending and folding heat pipe collecting core is inserted It is installed in the outer glass tube with the exhaust tail pipe on the other end, and is equipped with a clamping and positioning supporting air-removing agent elastic card, and the horizontal horizontal bending and folding heat pipe collecting core is fixed on the outer glass tube. On the radially inner wall, the outer cover glass tube and the connecting end cover glass are welded and closed, and after the upper exhaust table is evacuated, the glass welding fuse seal separates the exhaust tail pipe, evaporates the getter, and then, is laminated by horizontally setting the bend. Heat pipe collecting heat core vacuum collecting tube phase change medium condensing heat release end phase change medium filling tube, vacuuming the phase change medium condensation heat releasing end cavity, then horizontally horizontally bending and folding heat pipe collecting heat collecting core vacuum set The heat pipe is filled with a phase change heat transfer medium, and the glass is welded to close the phase change medium charging tube, and the horizontal glass tube cavity is made into a horizontal vacuum bending heat pipe collecting heat collecting core vacuum collecting tube with a high vacuum;

   Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head, which is set on the same glass sealing end cover, and is made into a horizontal horizontally-folded laminated heat pipe heat collecting core assembly; The heat collecting core assembly is inserted into the outer glass tube of the exhaust tail pipe on the other end of the sealing head, and the air trap is assembled by the clamping position to support the getter elastic card, and the horizontal transverse bending and folding heat pipe collecting core support It is fixed on the radial inner wall of the outer cover glass tube, and the outer cover glass tube and the connecting end cover glass are welded and closed, and then the horizontally transversely folded and folded heat pipe collecting core is connected to the condensing tube head and the glass sealing end cover by glass welding. The packaged glass is welded; after the upper exhaust table is evacuated, the glass is welded and sealed to separate the exhaust tail pipe, and the getter is evaporated, and then, by setting the horizontal cross-folding and folding heat pipe, the heat collecting core vacuum collecting tube, the phase change medium, the condensation heat release The phase change medium filling tube on the end is used to evacuate the condensation heat release end cavity of the phase change medium, and then the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase Change Fill tube, the cover glass is made of a high vacuum level of the lumen transversely bent laminated core tube collectors vacuum tube;

   Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is sealed by glass welding on the glass sealing end cover to form a horizontal transversely-folded laminated heat pipe collecting core; The heat pipe heat collecting core is inserted into the outer glass tube which is open at one end and the other end is also opened, and is fixed by the horizontally transversely folded heat pipe heat collecting core support to the glass tube of the outer cover by being equipped with a clamp positioning and supporting air getter elastic card. On the inner wall, the connecting end cover of the horizontally horizontally folded and folded heat pipe heat collecting core is welded and closed to the corresponding opening glass of the outer cover glass tube, and the other open glass of the outer cover glass tube is welded to the sealing head and the welded tail pipe is drawn. After the upper exhaust table is evacuated, the glass tail is welded to separate the exhaust tail pipe, and the getter is evaporated, and then, the phase is set on the condensation heat release end of the phase change medium of the heat collecting core vacuum heat collecting tube of the horizontal horizontally folded heat pipe. Variable medium filling tube, vacuuming the condensation end of the phase change medium, and then charging the phase change heat transfer medium to the horizontally transversely folded heat pipe collecting core vacuum heat collecting tube, and the glass welding sealing phase change medium charging Pipe, casing glass is made of a high vacuum level of the lumen transversely bent laminated core tube collectors vacuum tube;

   Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head, which is set on the same glass sealing end cover, and is made into a horizontal horizontally-folded laminated heat pipe heat collecting core assembly; The heat collecting core is inserted into the glass tube of the outer cover which is open at one end and the other end is also opened. The horizontally transversely folded and folded heat pipe collecting core is fixed in the radial direction of the glass tube of the outer cover by being equipped with a clamping and positioning supporting air getter elastic card. On the inner wall, the connecting end cover of the horizontally horizontally folded and folded heat pipe heat collecting core is welded and closed to the corresponding opening glass of the outer cover glass tube, and then the horizontally transversely bent and laminated heat pipe collecting core is connected to the condensing pipe head by glass welding. The glass sealing end cover is packaged with glass for welding; the other open glass of the outer cover glass tube is welded to the sealing head and the welding tail pipe is drawn, and after the upper exhausting table is vacuumed, the glass welding is sealed to separate the exhaust tail pipe and evaporate a getter, and then, by a phase change medium charging tube disposed on the condensation end of the phase change medium heat transfer tube vacuum heat collecting tube phase change medium condensing heat release end, the phase change medium condensation heat release end cavity is evacuated, After the horizontally transversely folded heat pipe collector, the heat collecting core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is made into a horizontal glass tube cavity with a high vacuum horizontal transverse bending stack. Heat pipe collector core vacuum collector tube;

   Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is sealed by glass welding on the glass sealing end cover to form a horizontal transversely-folded laminated heat pipe collecting core; The heat pipe collecting core is inserted into the outer glass tube of the exhaust tail pipe at the other end, and the air trap is assembled by the clamping and positioning supporting the getter cartridge, and the horizontal transverse bending and folding heat pipe collecting core is fixed and fixed. On the radially inner wall of the cover glass tube, the connecting end cover of the horizontally-folded and folded heat pipe heat collecting core is contacted with the corresponding opening of the outer cover glass tube to align the glass welded seal, and the horizontally horizontally folded bending heat pipe which is assembled and positioned is assembled. The heat collecting core vacuum collecting tube assembly is placed in a heating vacuum furnace, heated and evacuated, and then passed through a laser glass welding machine, and the outer cover glass tube exhaust tail pipe glass is welded and sealed through the sealing glass window, and the getter is evaporated, and then The vacuum change end chamber of the phase change medium is evacuated by a phase change medium charging tube disposed on the condensation heat release end of the phase change medium heat collecting tube vacuum heat collecting tube of the horizontal horizontally folded heat collecting tube, After the horizontally transversely folded heat pipe collector, the heat collecting core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is made into a horizontal glass tube cavity with a high vacuum horizontal transverse bending stack. Heat pipe collector core vacuum collector tube;

   Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head, which is set on the same glass sealing end cover, and is made into a horizontal horizontally-folded laminated heat pipe heat collecting core assembly; The heat collecting core is inserted into the glass tube of the outer cover which is open at one end and the other end is also opened. The horizontally transversely folded and folded heat pipe collecting core is fixed in the radial direction of the glass tube of the outer cover by being equipped with a clamping and positioning supporting air getter elastic card. On the inner wall, the connecting end cover of the horizontally horizontally folded and folded heat pipe collecting core is welded and closed corresponding to the opening glass of the outer cover glass tube, and the horizontally horizontally folded and folded heat pipe collecting heat core vacuum collecting tube assembly which is assembled and positioned is placed and heated. In the vacuum furnace, heating and vacuuming, and then through the laser glass welding machine, through the sealing glass window, the horizontally horizontally folded and folded heat pipe collecting core of the condensing pipe head and the glass sealing end cover laser glass are welded and closed; Evaporating the getter, and then condensing and releasing the phase change medium by a phase change medium charging tube disposed on the condensing and releasing end of the horizontally-folded heat-collecting heat collecting core vacuum collecting tube phase change medium The cavity is evacuated, and then the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is used to make the outer glass tube lumen high vacuum level. Horizontally folded and laminated heat pipe collecting core vacuum collecting tube;

   The production of the horizontal transversely-folded laminated heat pipe collecting core vacuum collecting tube includes the following production process: the inner glass thin blank tube of the collecting core is processed into a U-shaped or N-shaped bent glass tube by a lamp, and then U-shaped or N-shaped The tube head of the bent glass tube is flushed, burned, cleaned and dried, and the upper end is clamped and positioned to support the getter cartridge, and the heat absorbing film is laminated on the surface of the tube, and the horizontally transversely folded heat pipe is collected. The core is inserted and supported by the clamping and supporting the getter cartridge to be fixed on the radial inner wall of the glass tube of the outer cover, and is welded and closed by connecting the end cover glass; firstly, the open end glass of the outer cover glass is welded to the sealing head, and processed by the mold. Forming a glass nozzle corresponding to the size of the condensing end of the horizontally-folded and folded heat-collecting heat collecting core; and inserting and receiving the outer glass tube at the same end of the horizontal heat-dissipating heat collecting core The inlet and outlet ports reserved on the end are pushed to the bottom end, and then the other open end of the outer cover glass tube is sealed and connected with the exhaust tail pipe, and then the horizontal transversely folded heat pipe collector in the outer cover glass tube is collected. Core condensation Push the end to the set position, weld the condensed end of the heat pipe collecting core of the horizontal horizontally-folded folded heat pipe, weld the sealing of the nozzle glass with the same end of the outer glass tube, and inflate and shape through the mold, anneal, close the fire head, cool, level The transversely-folded laminated heat pipe heat collecting core enters and exits the glass pipe head sealing completion; the upper exhausting station and the exhaust tail pipe are connected to the exhaust pipe, and after vacuuming, the glass welding seals off the exhaust tail pipe; the air-extinguishing agent is evaporated, and then, the setting is The horizontally-transformed laminated heat-collecting heat-collecting heat-collecting heat-collecting tube is a phase-change medium filling tube on the condensation heat-discharging end of the phase change medium, and the vacuum chamber of the phase-change medium is evacuated, and then the horizontal transverse bending is laminated. The heat pipe collecting core vacuum collecting tube is filled with phase change heat transfer medium, and the glass welding sealing phase change medium filling tube is made into a horizontal glass tube cavity with a high vacuum and a horizontal horizontally folded bending heat pipe collecting heat collecting core vacuum collecting tube.
6.  The invention relates to a production process of a horizontal transversely-folded heat pipe collector core vacuum heat collecting tube matched with a horizontal transversely-folded heat pipe collector core vacuum heat collecting tube module according to claim 1, characterized in that: horizontal horizontal The condensing tube head of the folded heat pipe collector core is inserted into one end of the opening, and the other end of the head is provided with a horizontal glass tube of the horizontally-folded folded heat pipe collecting core and the opening of the tube head, and The horizontally horizontally folded and folded heat pipe collecting core is taken out through the opening on the cover of the outer glass tube, and the horizontally transversely folded and folded heat pipe collecting core is assembled by the clamping and positioning supporting the getter elastic card. The support is fixed on the radially inner wall of the glass tube of the outer cover, the other open end glass of the outer cover glass tube is welded to the sealing head and the welded tail pipe is drawn, and then the glass is welded to close the opening on the glass tube head of the outer cover and The horizontal horizontally-folded and folded heat-collecting heat collecting core is taken out of the pipe head, and after the upper exhausting table is evacuated, the glass welding and sealing is separated to separate the exhaust tail pipe, and the getter is evaporated, and then, the stacked heat pipe set is set by horizontally horizontally bending. Hot core vacuum collector The phase change medium charging tube on the condensation heat release end of the phase change medium is used to evacuate the condensation heat release end cavity of the phase change medium, and then the phase change heat transfer is performed on the horizontal transversely folded heat pipe collector core vacuum heat collecting tube. Medium, glass welded closed phase change medium filling tube, made of horizontal glass tube cavity with high vacuum, horizontal transverse bending and stacking heat pipe collecting core vacuum collecting tube;

   Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is inserted into one end opening, and the other end of the sealing head is provided with a horizontally transversely folded heat pipe collecting heat collecting core to receive the opening of the pipe head Inside the tube, and horizontally horizontally bending and stacking the heat pipe, the heat collecting core is taken out through the opening on the cover of the outer glass tube, and the horizontally transversely folded heat pipe is assembled by being equipped with a clamping position to support the getter cartridge. The heat collecting core support is fixed on the radially inner wall of the glass tube of the outer cover; the horizontally horizontally folded and folded heat pipe collecting core is taken out from the pipe head, and is welded and sealed by the glass hole and the opening on the outer cover glass tube head; The other open end of the glass tube is sealed with a glass seal and the welded tail pipe is drawn. After the upper exhaust table is evacuated, the glass is welded and sealed to separate the exhaust tail pipe, and the getter is evaporated, and then set at the level. The transversely-transformed laminated heat pipe collects the heat-collecting core vacuum heat collecting tube, the phase change medium filling tube on the condensation heat releasing end, the vacuum chamber of the phase change medium condensation is evacuated, and then the horizontally transversely folded heat pipe is laminated. Collecting core vacuum collector tube charging phase Heat transfer medium, welding closed glass phase change media fill pipe, casing glass is made of a high vacuum level of the lumen transversely bent laminated core tube collectors vacuum tube;

   Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is inserted into one end opening, and the other end of the sealing head is provided with a horizontally transversely folded heat pipe collecting heat collecting core to receive the opening of the pipe head Inside the tube, the horizontally horizontally folded and folded heat pipe heat collecting core is taken out from the pipe head, and is led out through the opening on the cover of the outer glass tube, and the horizontally transversely bent and folded by the clamped positioning supporting the getter cartridge The heat pipe collector core is fixed on the radial inner wall of the outer cover glass tube, and then the other open end glass of the outer cover glass tube is welded and sealed, and then the assembled horizontally horizontally folded and folded heat pipe collector core vacuum set is assembled. The heat pipe is placed in a heating vacuum furnace, heated and evacuated, and then passed through a laser glass welding machine, a glass welded closed opening on the glass tube head of the outer cover, and a horizontally transversely folded heat pipe collecting core to take out the pipe head. Evaporating the getter, and then vacuuming the phase-change medium condensing heat-dissipating end cavity by a phase change medium charging tube disposed on the horizontal heat-dissipating heat collecting core vacuum heat collecting tube phase change medium condensation heat releasing end ,after that The horizontal horizontally-folded and folded heat-collecting heat-collecting core vacuum collecting tube is filled with the phase-change heat-transfer medium, and the glass-welded closed phase-change medium filling tube is used to form the horizontally-covered glass tube lumen with a high degree of vacuum. Hot core vacuum collecting tube;

   Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is inserted into one end opening, and the other end of the sealing head is provided with a horizontally transversely folded heat pipe collecting heat collecting core to receive the opening of the pipe head Inside the tube, the horizontally horizontally folded and folded heat pipe heat collecting core is taken out from the pipe head, and is led out through the opening on the cover of the outer glass tube, and the horizontally transversely bent and folded by the clamped positioning supporting the getter cartridge The heat pipe collector core is fixed on the radially inner wall of the glass tube of the outer cover, and is welded by the glass to weld the condensing pipe head of the horizontally transversely folded heat pipe heat collecting core and the opening glass on the outer glass tube head. Welding; the other open end glass of the outer cover glass tube is welded to the sealing head and the welded tail pipe is drawn, and then the horizontally stacked bending heat pipe collector core vacuum collecting tube is placed in a heating vacuum furnace and heated Vacuuming and exhausting, then passing through a laser glass welding machine, sealing the exhaust tail pipe on the glass tube head of the outer cover by glass welding, evaporating the getter, and then passing the heat collecting core vacuum collecting tube through the horizontal heat pipe Phase change medium The phase change medium filling tube on the hot end of the condensation is used to evacuate the condensation heat release end cavity of the phase change medium, and then the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, the glass The closed phase change medium filling tube is welded, and the horizontal glass tube cavity of the outer cover is made into a horizontal vacuum bending laminated heat pipe collecting core vacuum collecting tube with high vacuum;

   The production of the horizontal transversely-folded laminated heat pipe collecting core vacuum collecting tube includes the following production process: the inner glass thin blank tube of the collecting core is processed into a U-shaped or N-shaped bent glass tube by a lamp, and then U-shaped or N-shaped The tube head of the bent glass tube is flushed, burned, cleaned and dried, and the upper end is clamped and positioned to support the getter cartridge, and the heat absorbing film is laminated on the surface of the tube, and the horizontally transversely folded heat pipe is collected. The core insertion support is fixed on the radial inner wall of the outer cover glass tube and is led out through the opening on the outer cover glass tube head; the horizontally transversely folded heat pipe collector core support is supported by the clamped positioning supporting the getter cartridge It is fixed on the radial inner wall of the outer cover glass tube, and then the other open end glass of the outer cover glass tube is welded and sealed, and then the assembled horizontally horizontally folded and folded heat pipe collecting heat collecting core vacuum collecting tube is placed and heated. In the vacuum furnace, the vacuum is exhausted by vacuum, and then the laser glass welding machine is used to seal the opening on the glass tube head of the outer cover through the laser glass welding of the sealed glass window, and the horizontally transversely folded and folded heat pipe collecting core is taken out of the tube head. ,evaporation a getter, and then, by a phase change medium charging tube disposed on the condensation end of the phase change medium heat transfer tube vacuum heat collecting tube phase change medium condensing heat release end, the phase change medium condensation heat release end cavity is evacuated, Then, the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is used to form the horizontal glass tube cavity with a high vacuum horizontal transverse bending stack. Heat pipe collector core vacuum collector tube.
7.  The invention relates to a production process of a horizontal transversely-folded heat-collecting heat collecting core vacuum heat collecting tube which is matched with a horizontal horizontally-folded laminated heat pipe collecting core vacuum heat collecting tube module according to claim 1, which is characterized in that: The condensing pipe head of the transversely-folded laminated heat pipe collecting core is inserted into the outer glass tube of the exhaust tail pipe on the other end, and the air-removing agent elastic card is supported by the clamping position. The horizontal horizontally-folded laminated heat pipe heat collecting core support is fixed on the radial inner wall of the outer cover glass tube, the other open end glass of the outer cover glass tube is welded and sealed, and the outer cover glass tube is fixed and fixed on the glass lathe by the tool clamping. On the glass lathe, the outer cover glass tube rotates along the axis of the outer cover glass tube, the arc-shaped heating head is opened, and the outer cover glass tube is heated, and the heating position is beyond the horizontal horizontally-folded folding heat pipe collecting core tube setting position; After the outer cover glass tube is melted, the manipulator at the glass tube of the fixed cover will pull the tube head of the melted outer cover glass, and the fire head continues to heat, so that the outer cover glass tube is sealed to form a closed bottom surface, The bottom surface of the sealing surface is provided with a certain distance from the horizontally-folded and folded heat pipe collecting core tube; the position of the fire head is adjusted so that the fire head is always heated to the bottom surface after the sealing, and the glass tube at the bottom surface after the sealing is continuously melted, and the bottom surface is sealed. Gradually thickening, the bottom of the zipper is continuously moved toward the horizontally transversely folded heat pipe collecting core tube head until the bottom surface of the molten zipper is butted with the horizontal transversely folded heat pipe collecting core tube; The bent laminated heat pipe collector core nozzle is fused with the bottom of the zipper, the glass lathe stops, and the squeegee rod on the glass lathe is folded horizontally across the center of the heat collecting core tube head of the heat pipe, and is plunged from the bottom surface of the zipper. To the horizontal transversely-folded laminated heat pipe collector core nozzle, the horizontal transversely-folded laminated heat pipe collector core nozzle, and the glass at the bottom surface of the sealing seal are wound onto the material rod and pulled out and cut; the fire head continues to heat The perforated glass frit is retracted and fused to the horizontally transversely folded and folded heat pipe collecting core nozzle, so that the horizontal transversely folded and folded heat pipe collecting core and the glass frit on the bottom surface of the sealing are completely melted; after that, the glass welding is performed. Docking with exhaust The condensing end of the heat pipe filling the nozzle; afterwards, on the inner and outer annular glass heads, the mold is set, and the air is filled into the glass ring cavity through the exhaust tail pipe at the tail of the glass tube of the outer cover, so that the sealing portion is bulged and shaped; The small fire heats the annular sealing glass welded pipe mouth for annealing, then closes the fire head, cools, completes the glass welding sealing of the horizontal transverse bending and folding heat pipe collecting heat pipe head and the outer glass tube sealing head; after the upper exhausting station is vacuumed, Glass welding seals off the exhaust tail pipe; evaporates the getter, and then passes the phase change medium charging tube on the condensation heat release end of the phase change medium heat collecting core vacuum collecting tube of the horizontal horizontally folded heat collecting tube, and the phase change The medium condensing and releasing the end cavity is evacuated, and then the horizontally transversely folded heat pipe collecting heat collecting core vacuum collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium filling tube is used to form the outer cover glass tube lumen. Horizontally stacked and folded heat pipe collector core vacuum collecting tube for high vacuum;

   Or the horizontally and horizontally folded and folded heat pipe collecting core of the condensing pipe head is inserted into the glass tube of the outer cover which is open at both ends, and the horizontally transversely folded and folded heat pipe set is assembled by the clamping and positioning supporting the getter cartridge. The hot core support is fixed on the radial inner wall of the outer cover glass tube, the other open end glass of the outer cover glass tube is welded and sealed, and the outer cover glass tube is fixedly mounted on the glass lathe through the tooling clamp, and the outer cover glass tube on the glass lathe Rotating along the axis of the glass tube of the outer cover, the arc-shaped heating head is opened, and the glass tube of the outer cover is heated, and the heating position is beyond the horizontally set bending position of the heat collecting core tube of the laminated heat pipe; after the flame is used to melt the outer glass tube, the fixing is fixed. The manipulator at the glass tube of the outer cover pulls the glass tube head of the melted outer cover, and the fire head continues to heat, so that the outer glass tube is sealed to form a closed bottom surface, and the bottom surface of the sealing is horizontally horizontally bent and folded, and the heat pipe core of the heat pipe is provided. a certain distance; adjust the position of the fire head so that the fire head always heats the bottom surface after the sealing, the glass tube at the bottom surface after the sealing is continuously melted, the bottom surface of the sealing is gradually thickened, and the bottom surface of the sealing is gradually The horizontal direction transversely bending and folding heat pipe collecting heat pipe head direction moves until the molten sealing bottom surface and the horizontal transverse bending laminated heat pipe collecting core pipe joint are connected; the horizontally transversely bending and folding heat pipe collecting core The nozzle is fused with the bottom of the zipper, the glass lathe stops, and the smashing rod on the glass lathe is folded horizontally across the center of the heat collecting core tube of the heat pipe, and is immersed from the bottom surface of the zipper to the horizontal transverse bending cascading In the heat pipe core of the heat pipe, the horizontally transversely folded heat pipe collector core tube and the glass at the bottom surface of the pull seal are wound onto the material bar and pulled out and cut; the fire head continues to heat, and the glass frit is back. Shrinking, melting to the horizontal transversely-folded laminated heat pipe collector core nozzle, so that the horizontal transversely-folded laminated heat pipe collecting core and the glass frit on the bottom surface of the sealing are completely melted; then, the glass welding butt is provided with the exhaust medium charging The condensing end of the heat pipe of the nozzle; after that, on the inner and outer annular glass heads, the mold is set, and the glass ring cavity is filled with air through the opening of the tail of the outer glass tube to make the sealing portion bulge and shape; then the small fire heats the annular seal Glass welding The nozzle is annealed, then the fire head is closed, and the glass is welded and closed to complete the horizontal transverse bending and stacking heat pipe collecting heat pipe head and the outer glass tube sealing head; the other open end glass of the outer glass tube is welded and welded Welding exhaust tail pipe; after the upper exhaust table is vacuumed, the glass is welded to seal the exhaust tail pipe; the getter is evaporated, and then the phase change medium is condensed by the heat collecting core vacuum collecting tube disposed in the horizontal horizontally folded bending heat pipe The phase change medium filling tube on the heat releasing end vacuums the condensation end of the phase change medium, and then fills the phase change heat transfer medium with the horizontally transversely folded heat pipe collector core heat collecting tube, glass welding The phase change medium filling tube is closed, and the horizontal glass tube cavity of the outer cover is made into a horizontal vacuum bending laminated heat pipe collecting core vacuum collecting tube with high vacuum;

   The production of the horizontal transversely-folded laminated heat pipe collecting core vacuum collecting tube includes the following production process: the inner glass thin blank tube of the collecting core is processed into a U-shaped or N-shaped bent glass tube by a lamp, and then U-shaped or N-shaped The tube head of the bent glass tube is flushed, burned, cleaned and dried, and the upper end is clamped and positioned to support the getter cartridge, and the heat absorbing film is composited on the surface of the tube; firstly, the outer glass tube is sealed at one end and connected Exhaust tail pipe, insert horizontal horizontally folded and folded heat pipe heat collecting core into the outer glass pipe mouth, and support and fix it on the radial inner wall of the outer cover glass tube; then, the horizontally transversely folded heat pipe heat collecting core opening side and the outer cover The set distance of one end of the glass tube is fixed; the glass tube of the outer cover is fixed and fixed on the glass lathe by the tooling clamp, and the outer glass tube of the glass lathe rotates along the axis of the outer glass tube, and the arc-shaped heating head is opened to heat the outer cover glass. The heating position of the tube exceeds the horizontal transverse bending and stacking heat pipe collecting core nozzle setting position; after the flame is used to melt the outer glass tube, the robot at the glass tube of the fixed outer cover pulls the burnt glass tube head away, the fire The head continues to heat, so that the glass tube of the outer cover is sealed to form a closed bottom surface, and the bottom surface of the sealing cover is disposed at a certain distance from the horizontally transversely folded and folded heat pipe collecting core tube; the position of the fire head is adjusted so that the fire head is always heated to the bottom surface after the sealing, pulling After the sealing, the glass tube continues to be melted, the bottom surface of the sealing is gradually thickened, and the bottom surface of the sealing is continuously moved toward the horizontally transversely folded heat collecting tube head until the bottom surface of the molten sealing is horizontally folded. The curved laminated heat pipe collector core nozzles are butted together; the horizontally stacked and folded heat pipe collector core nozzles are fused together with the bottom of the zipper, the glass lathe stops rotating, and the glass lathe smashing bar is horizontally tiered and folded. The bottom surface of the heat-seal collecting core nozzle is inserted into the horizontal horizontally-folded laminated heat pipe collecting core nozzle, and the horizontal transversely-folded laminated heat pipe collecting core nozzle and the glass at the bottom surface of the sealing are wound The picking rod is pulled out and cut off; the fire head continues to heat, the perforated glass frit is retracted, and is fused to the horizontal transversely-folded laminated heat pipe collecting core nozzle to make the horizontal horizontally-folded folded heat pipe collecting core and the bottom sealing bottom surface The glass frit is completely melted; after that, the glass welded butt joint is provided with a heat pipe condensation end of the exhaust medium filling nozzle; then, on the inner and outer annular glass heads, the mold is set, and the exhaust tail pipe of the outer glass tube is passed to the glass ring. The cavity is filled with air to make the seal bulge and set; then the small fire heats the annular sealing glass welded pipe for annealing; then the fire head is closed, cooled, and the sealing of the annular glass pipe head is completed; then the exhaust pipe is exhausted The tail pipe is connected to the exhaust pipe, and after vacuuming, the glass is welded and sealed off the exhaust tail pipe, and the getter is evaporated, and then, the phase is set on the condensation heat release end of the phase change medium of the heat collecting core vacuum heat collecting tube of the horizontal heat pipe. The medium filling tube is filled with vacuum for the condensation end of the phase change medium, and then the horizontally transversely folded heat pipe collector core vacuum heat collecting tube is filled with the phase change heat transfer medium, and the glass welded closed phase change medium is charged. The tube is made into a horizontal glass tube lumen with a high vacuum horizontally horizontally folded and folded heat pipe collecting core vacuum collecting tube.
8.  A clamping position supporting air-removing agent elastic card matched with a horizontal horizontally-folded laminated heat pipe collecting core vacuum heat collecting tube module according to claim 1, 5, 6 or 7, characterized in that: The clamping and positioning support air-reducing elastic card at both ends of the heat-dissipating heat-collecting core of the folding and bending heat-dissipating layer is composed of a buckle of an elastic metal material card, a buckle of an elastic metal material card and a getter; the upper part of the clamping support elastic card is clamped The lower elastic metal material card adopts two mutually symmetrical sides of each piece, respectively corresponding with corresponding card slots and chucks; the card slot and the chuck on the elastic metal material card are at least one oblique card slot And the chuck with a linear elastic guide is inserted, the guide of the chuck is inserted into the oblique slot to deform, and when the guide of the chuck is inserted into position, the rebound occurs, and the card slot and the chuck are engaged with each other. Locking; or the card slot and the chuck on the card of the elastic metal material, is provided with at least one linear card slot, and the card head of the corresponding arc-shaped elastic guide is inserted, and the arc-shaped guide of the card head is inserted into the card slot to generate Straightening deformation, when the head of the chuck is inserted in place After the rebound and arc shape, the card slot and the card head are interlocked and locked; or the card slot and the card head on the elastic metal material card are at least one curved card slot and the corresponding head of the guide head Pressing and inserting, the straight guide of the chuck is inserted into the curved card slot to generate a curved deformation, and when the guide of the chuck is inserted into position, the rebound and straightening occur, and the card slot and the chuck are locked and locked with each other;

   The shape of the elastic metal material card corresponds to the shape of the horizontal transversely-folded laminated heat pipe collecting core tube row, and can meet the requirements of the elastic clamping positioning of the horizontal horizontally-folded laminated heat pipe collecting core tube row; the clamping positioning support On both sides of the elastic card, there are elastic support cards supported on the radially inner wall of the glass tube of the outer cover. The elastic support cards are respectively disposed on the side of the upper and lower elastic metal material cards, and the elastic support card is an elastic metal material card. The side edges are formed by bending and punching; the elastic force formed by the geometrical dimensions of the elastic support card satisfies the requirement that the horizontal transversely-folded laminated heat pipe collector core is elastically supported on the radially inner wall of the outer cover glass tube; wherein at least the lower elastic metal The material card is provided with an elastic lock card for holding and fixing a getter, and the elastic lock card is a stamping and drawing of an elastic metal material card.
9. The horizontal transversely-folded heat pipe heat collecting core vacuum heat collecting tube module according to claim 1, 5, 6 or 7, wherein the surface of the horizontally transversely folded and folded heat pipe collecting core is combined with suction. The thermal film and the functional film constituting the endothermic film are, in order, a reflective film, an absorbing film, and an anti-reflection film, wherein the reflective film is formed by magnetron sputtering, or the reflective film is formed by vacuum evaporation, or the reflective film is subjected to electroless plating. Film formation; absorption film, anti-reflection film or film layer of the same material; horizontal transverse bending and laminating heat pipe collector core reflective film is a full-tube discharge film, and its absorption functional film, anti-reverse function film is a tube row Single side coating; the heat absorbing film is a magnetron sputtering film;

   Or a high-temperature selective absorption functional film is a three-layer structure including a glass substrate, a highly reflective metal film layer, and an absorption film layer, and the high temperature selective absorption functional film is a composite high-reflection metal film coated on the outer surface of the glass substrate. a layer, a glass substrate coated with a highly reflective metal film layer, immersed in a solution of nickel sulfate and sodium hypophosphite for a certain period of time, so that a nickel-phosphorus alloy coating is formed on the surface of the medium-high temperature glass pressure tube, and then the tube is immersed After a short time etching in nitric acid, a high temperature selective absorption functional film having a phosphorus content of 5% to 7% in the plating layer and having a micro pit in the surface of the etched tube row is formed;

   Or the high temperature selective absorption functional film is a functional film layer comprising a glass substrate, a highly reflective metal film layer of a metal material, and a three-layer structure composited with the carbon material absorption film layer; the structure of the high temperature selective absorption functional film is glass in sequence. The bottom layer of the substrate, the high-reflective metal over-membrane layer of the metal material, and the surface layer of the carbon film layer which is distributed with the dense micropores after the thermal decomposition treatment; the bottom layer of the glass substrate is the tube material, and the metal material high-reflection metal over-membrane layer is vacuum steamed A metal film layer formed by plating, magnetron sputtering, or chemical reaction, a high temperature selective absorption functional film is formed by thermal decomposition of an organic binder; an organic binder is manufactured as a single material, or more than one type The composite material is manufactured, or the binder is mixed with the light absorbing material to form a film layer, and the outer surface formed by thermal decomposition sintering is distributed with a surface layer of a composite carbon film layer having a dense microporous structure.
10. The horizontal transversely-folded heat pipe heat collecting core vacuum heat collecting tube module according to claim 1, 5, 6 or 7, wherein the outer cover glass tube is a round tube, an elliptical tube or a rectangular tube; A light-reflecting film is composited on the inner surface of the light-incident surface of the tube, or a light-reflecting film is composited on the outer surface of the light-incident surface of the outer glass tube, or the inner and outer surfaces of the glass-coated surface of the outer cover glass are combined with light. The antireflection film; the outer cover glass tube is a transparent tube of the whole tube, or the outer cover glass tube is a tube with a mirror surface that is half of the radial wall.