CN108195082A - Heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction - Google Patents

Abstract

Heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction, by including heat-preservation heat-collection header, heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, thermal-collecting tube installation braced frame, braced frame, the pressing tailstock connection composition with respect on frame parallel with heat-preservation heat-collection header are installed with thermal-collecting tube is arranged in.Heat-preservation heat-collection header is horizontally mounted arrangement, heat collector tube core is laminated under the action of capillary film set by gravity or inner wall in the horizontal bending in longitudinal direction, it completes the transmission to phase-change heat transfer medium to be distributed, the phase-change heat transfer medium heat absorption vaporization of liquid form, forms the condensation evaporation heat transfer cycle of phase change medium.The height difference between heat collector tube core evacuated collector tube is laminated by the horizontal bending of the density contrast between hot water in the cold water in heat-preservation heat-collection header, with heat-preservation heat-collection header and storage heat-preservation heat-collection header and longitudinal direction for system, realizes the thermal siphon convection current self-loopa of heated medium；Or water pump is installed in system, realize the forced circulation of system.

Description

Heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction

Technical field

The present invention relates to a kind of solar thermal collector, heat collector tube core vacuum collection is laminated in specifically a kind of horizontal bending in longitudinal direction Heat pipe module.

Background technology

Solar thermal collector mainly has all glass vacuum heat collection tube of solar energy heat collector, the all-glass heat pipe vacuum sun at present Energy thermal-collecting tube heat collector, pipe row's formula heat pipe collector, metal plate type heat collector, ceramics plate type heat collector, slot type are high in focusing on The multiple types such as warm heat collector.

Pressure-bearing, all-glass heat pipe vacuum solar energy heat collection pipe heat collector be not or not all glass vacuum heat collection tube of solar energy heat collector It can realize high-temperature heat-gathering.Although metal plate type heat collector pressure-bearing, high temperature and high pressure steam cannot be provided, and film layer phase of absorbing heat When in exposed to the atmosphere, it is easy to be corroded by etchant gas ingredient in air, thermal efficiency attenuation is fast, the service life phase It is short.Ceramics plate type heat collector is although anticorrosive, heat absorption film layer is stablized, but it is unable to pressure-bearing, and collecting efficiency is low, heat-collecting temperature It is low, poor thermal insulation property, winter easy bursting by freezing.Existing slot type focuses on high temperature heat collector and consumes a large amount of non-ferrous metal, processing technology Complexity, manufacture cost remain high, and energy multiple conversions lead to inefficiency, and market application surface is narrow, and acceptance is low, it is difficult to push away Extensively.

And these traditional heat collectors are difficult to be adapted to harsh climate environment, and some winters are not because have heat preservation strip Part freeze proof can not be kept the temperature, collecting efficiency and its low, and slot type focuses on high temperature heat collector and engineering system due to cost Height, occupies floor area and space is big, extremely difficult with Integration of building, it is difficult to promote.

Even to this day, Chinese solar energy optical-thermal application field technology is although numerous, but there are still key technology bottleneck, the sun Energy collecting system does not solve pressure-bearing, high-temperature heat-gathering, self-loopa, low cost, freeze proof the problems such as keeping the temperature, is safe and reliable.

Also both up to the present, cost-effective all glass vacuum heat collection tube of solar energy heat collector technology and product, always There is no big breakthrough, substantially still in the hot-water field application of low temperature.Market is not solved more to carry solar thermal utilization The requirement as high temperature (steam) heat source gone out.

Invention content

The purpose of the present invention is to provide a kind of horizontal bendings in longitudinal direction to be laminated heat collector tube core evacuated collector tube module composition New and effective, high temperature, low cost, can the multi-field application such as pressure-bearing, freeze proof heat preservation heat collector, to solve above-mentioned background The problem of being proposed in technology.

Technical scheme is as follows：

Heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction, including evacuated collector tube, pressing tailstock, heat preservation Thermal collecting header, sealing ring, thermal-collecting tube installation braced frame, it is characterized in that：Heat collector tube core vacuum collection is laminated in the horizontal bending in longitudinal direction Heat pipe module, by including heat-preservation heat-collection header, heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, thermal-collecting tube installation branch Support frame frame and thermal-collecting tube installation braced frame is arranged in, the pressing tailstock connection on opposite frame parallel with heat-preservation heat-collection header Composition.Heat-preservation heat-collection header is single channel header, in the two ends of single channel header, is respectively equipped with single medium into and out of even Pipe joint, medium are set on the downside of the end of thermal collecting header into connecting pipe head, and medium goes out connecting pipe head set on the upper of thermal collecting header Side.Or in the two ends of heat-preservation heat-collection header, the double joint medium arranged up and down is respectively equipped with into and out of connecting pipe head, thermal collecting header Around, it is enclosed with insulating layer and shell.Or heat-preservation heat-collection header is the dual channel thermal collecting header arranged up and down, the two of thermal collecting header On end, be respectively equipped with single medium into and out of connecting pipe head, wherein, medium into thermal collecting header tube head and the runner of downside Connection, the runner connection for going out thermal collecting header tube head and upside of medium.Or heat-preservation heat-collection header is the double-current trace gather arranged up and down Hot header in the two ends of thermal collecting header, is respectively equipped with the double joint medium arranged up and down into and out of connecting pipe head.Or thermal collecting header The dual channel thermal collecting header arranged up and down to be equipped with air deflector, air deflector is set between upper and lower header, with channel baffle and header Trepanning tube wall connects.Or in the two ends of thermal collecting header, single medium is respectively equipped with into and out of connecting pipe head, wherein, medium It is connected into thermal collecting header tube head and the runner of downside, the runner connection for going out thermal collecting header tube head and upside of medium.Or thermal-arrest connection Case is the dual channel thermal collecting header arranged up and down equipped with air deflector, in the two ends of thermal collecting header, is respectively equipped with what is arranged up and down Double joint medium is into and out of connecting pipe head.Around thermal collecting header, it is enclosed with insulating layer and shell.

A side-lower or the heat preservation that heat collector tube core evacuated collector tube is located at heat-preservation heat-collection header is laminated in the horizontal bending in longitudinal direction Thermal collecting header is placed among thermal-collecting tube installation braced frame, and heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, symmetrically It is distributed in the down either side of heat-preservation heat-collection header.Heat collector tube core vacuum collection is laminated in the horizontal bending in longitudinal direction on heat-preservation heat-collection header Heat pipe installs pore, and by matched sealing ring, putting for heat collector tube core evacuated collector tube is laminated with the horizontal bending in longitudinal direction Hot junction head is connected.Or heat-preservation heat-collection header is equipped with the horizontal bending in installation longitudinal direction and heat collector tube core evacuated collector tube release end of heat is laminated The sealing heat transfer casing of head, by matched sealing ring, the sealing heat transfer casing being equipped with heat-preservation heat-collection header is close It is fitted and connected, realizes the indirectly heat to medium in heat-preservation heat-collection header.Heat collector tube core vacuum collection is laminated in the horizontal bending in longitudinal direction Heat pipe, will longitudinal direction horizontal stroke by the pressing tailstock being set on thermal-collecting tube installation braced frame opposite frame parallel with heat-preservation heat-collection header It puts bending and heat collector tube core evacuated collector tube is laminated, top tight sealing is installed on heat-preservation heat-collection header and thermal-collecting tube installation braced frame Between.Heat-preservation heat-collection header is horizontally mounted arrangement, makes the longitudinal direction that heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction horizontal It puts bending and heat collector tube core is laminated, with the irradiating angle of sunlight close to vertical.

Wherein, heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, including cover glass pipe, the horizontal bending in longitudinal direction Heat collector tube core, medium disengaging tube head glass sealing end cap, U-shaped longitudinal direction clamping position support bullet card, lateral clamping position is laminated Support getter bullet card, heat collector tube core is laminated to successively bend return, levels close to arrangement, distribution in the horizontal bending in longitudinal direction Heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction in the same plane, and the horizontal bending in longitudinal direction is laminated heat collector tube core pipe row's One picks out exothermic condensation tube head, is located at the upper end that heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, and tube head closing in lower end passes through The U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction is assemblied in, by bending glass baseplate longitudinal direction It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in horizontal bending.The horizontal bending in longitudinal direction is laminated on heat collector tube core pipe row surface It is compounded with the function heat absorption membrane tube face for being followed successively by reflectance coating, absorbing film, antireflective film composition.Later, in bending glass baseplate longitudinal direction Horizontal bending is laminated on thermal-arrest core pipe row, assembles lateral clamping position support getter bullet card.Later, lateral clamping will be equipped with The horizontal bending in longitudinal direction of positioning support getter bullet card is laminated collecting core and is plugged in one end open, the cover glass of other end end socket In pipe, one end of cover glass pipe is equipped with tailpipe.The shady face of cover glass pipe is light pipe or is to be compounded with reflective mirror Pipe.Heat collector tube core is laminated in the horizontal bending in longitudinal direction, and the U-shaped that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction longitudinally presss from both sides Positioning support bullet card is held, the horizontal bending in longitudinal direction is laminated heat collector tube core is supported and fixed in the inner radial wall of cover glass pipe, The horizontal bending stacking heat collector tube core in longitudinal direction picks out tube head, by glass solder, is encapsulated in cover glass pipe the same end glass On end socket, and the condensation release end of heat of the phase change medium equipped with medium filler line.Heat collector tube core vacuum is laminated to the horizontal bending in longitudinal direction Thermal-collecting tube vacuumizes rear glass solder closing separation tailpipe, evaporates getter, later, by being arranged on the horizontal bending in longitudinal direction The phase change medium filler line on heat collector tube core evacuated collector tube phase change medium condensation release end of heat is laminated, phase change medium condensation is put Hot junction cavity vacuumizes, and the horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass Glass welded closure phase change medium filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat pipe collection is laminated Hot core evacuated collector tube.

The phase-change heat transfer medium of heat collector tube core evacuated collector tube is laminated in gravity or the work of capillary film in the horizontal bending in longitudinal direction Under, phase-change heat transfer medium is transmitted and is distributed, the phase-change heat transfer medium heat absorption vaporization of liquid form passes through the horizontal bending layer in longitudinal direction Folded heat collector tube core pipe road enters phase change medium condensation release end of heat cavity, and release end of heat is condensed to heated medium by phase change medium After heat release, phase-change heat transfer medium is condensed into liquid, and in longitudinal direction, heat collector tube core is laminated in hair set by gravity or inner wall in horizontal bending Under the action of cell membrane, the distribution of the transmission to phase-change heat transfer medium is completed, forms the condensation evaporation heat transfer cycle of phase change medium.

Medium is connected by heat-preservation heat-collection header, and medium entrance is connected with parallel way and heat-preservation heat-collection header water inlet main pipe It connects, media outlet is connect with parallel way with heat-preservation heat-collection header main water outlet pipe.System by the cold water in heat-preservation heat-collection header, Heat collector tube core is laminated with the horizontal bending in longitudinal direction in density contrast and storage heat-preservation heat-collection header between hot water in heat-preservation heat-collection header Height difference between evacuated collector tube realizes the thermal siphon convection current self-loopa of heated medium.Or water pump is installed in system, it realizes The forced circulation of system.

The matched heat-preservation heat-collection header of heat collector tube core vacuum heat-collecting tube module is laminated in bending horizontal with a kind of longitudinal direction, It is characterized in：On the thermal insulation material of heat-preservation heat-collection header and the homonymy of shell or opposite sides tube wall, it is provided with the horizontal folding in inserting longitudinal direction The curved heat collector tube core evacuated collector tube that is laminated is into and out of the pore of medium tube head.Thermal collecting header pore for plane or equipped with recessed or The stretching edge of flanging or recessed rear in-flanges after convex or recessed.It is enclosed on heat-preservation heat-collection header wall and its trepanning coaxial line Shell, filled with thermal insulation material between heat-preservation heat-collection header wall and shell, corresponding to the trepanning on heat-preservation heat-collection header wall, shell With thermal insulation material be equipped with trepanning, shell be equipped with shell end socket it is corresponding with heat-preservation heat-collection header tube head, shell end socket or be every Hot support ring is filled with thermal insulation material between shell end socket and heat-preservation heat-collection header tube head.Shell corresponding with heat insulation support ring On lacing wire is installed, connected with the opposite frame of thermal-collecting tube installation braced frame.Heat-preservation heat-collection header tube head is equipped with sealing and connects Jointed tubular workpieces unit.

Heat-preservation heat-collection header is single channel thermal collecting header, in the two ends of single channel thermal collecting header, is respectively equipped with single For medium into and out of connecting pipe head, medium is set on the downside of the end of thermal collecting header into connecting pipe head, and medium goes out connecting pipe head and is set on collection The upside of hot header.Or in the two ends of heat-preservation heat-collection header, the double joint medium arranged up and down is respectively equipped with into and out of connecting tube Head around thermal collecting header, is enclosed with insulating layer and shell.

Or heat-preservation heat-collection header is the dual channel thermal collecting header arranged up and down, on dual channel thermal collecting header end be equipped with into Outlet pipe connecting pipe head.Dual channel thermal collecting header is close by being tightly connected pipe fitting unit and other pipe fittings or dual channel thermal collecting header In the two ends of envelope connection thermal collecting header, single medium is respectively equipped with into and out of connecting pipe head, wherein, medium joins into thermal-arrest Case tube head and the runner of downside connect, the runner connection for going out thermal collecting header tube head and upside of medium.Or heat-preservation heat-collection header is The dual channel thermal collecting header arranged up and down in the two ends of thermal collecting header, is respectively equipped with the double joint medium arranged up and down into and out of even Pipe joint.

Or thermal collecting header be equipped with air deflector up and down arrange dual channel thermal collecting header, air deflector be set on upper and lower header it Between, it is connect with channel baffle and header trepanning tube wall.Or in the two ends of thermal collecting header, be respectively equipped with single medium into and out of Connecting pipe head, wherein, medium is connected into thermal collecting header tube head and the runner of downside, and medium goes out thermal collecting header tube head and upside Runner connection.Or thermal collecting header is the dual channel thermal collecting header arranged up and down equipped with air deflector, in the two ends of thermal collecting header, The double joint medium arranged up and down is respectively equipped with into and out of connecting pipe head.Around thermal collecting header, it is enclosed with insulating layer and shell.

The matched thermal-collecting tube installation support of heat collector tube core vacuum heat-collecting tube module is laminated in bending horizontal with a kind of longitudinal direction Frame, it is characterized in that：Thermal-collecting tube installation braced frame includes heat-preservation heat-collection header, pressing tailstock support joint arm, thermal-collecting tube support Joint arm hangs " X " the hanging brace joint arm connection composition for drawing connection pressing tailstock support joint arm sum aggregate heat pipe standoff joint arm.Thermal-collecting tube is installed Braced frame is unilateral stringing rectangular configuration, and heat-preservation heat-collection header is as one side, with the pressing tailstock branch as opposite another side Support joint arm parallel arrangement, two thermal-collecting tubes support joint arms are parallel opposite, both ends respectively with heat-preservation heat-collection header and pressing tailstock branch The connection of joint arm both ends is supportted, forms the rectangular profile of thermal-collecting tube installation braced frame, hangs drawing connection pressing tailstock support joint arm sum aggregate The two ends of " X " hanging brace joint arm side of heat pipe standoff joint arm are combined with the both ends of heat-preservation heat-collection header sum aggregate heat pipe standoff joint arm The two ends for " X " hanging brace joint arm opposite side for drawing connection pressing tailstock support joint arm sum aggregate heat pipe standoff joint arm are hung in place's connection, with It is connected with each other in the equal branch of pressing tailstock support joint arm, forms the drawing of hanging to pressing tailstock support joint arm, connection " X " hanging brace connection The crosspoint of arm, composition thermal-collecting tube installation braced frame.

Or the friendship of the heat-preservation heat-collection header, pressing tailstock support joint arm, " X " hanging brace joint arm in thermal-collecting tube installation braced frame Between 3 points of crunode, wall is hung in connection one, wherein, heat-preservation heat-collection header hangs wall with centre and connects, and is formed in pressing tailstock support In joint arm, " rice " font pressing tailstock that spacing decile, crosspoint link together support joint arm hangs wall.

Or the friendship of the heat-preservation heat-collection header, pressing tailstock support joint arm, " X " hanging brace joint arm in thermal-collecting tube installation braced frame Between 3 points of crunode, wall is hung in one centre of connection, and one is connected between sum aggregate heat pipe standoff joint arm on the downside of heat-preservation heat-collection header Water tank supports joint arm, wherein, water tank support joint arm is hung wall with centre and is connected, and is formed in spacing etc. in pressing tailstock support joint arm Point, " rice " the font pressing tailstock support joint arm that crosspoint links together hangs wall.

Thermal-collecting tube is installed braced frame or is supported equipped with rear load-bearing, and the load-bearing joint arm of rear load-bearing support is arranged on heat-preservation heat-collection The same end of header and pressing tailstock support joint arm, is equipped between rear load-bearing support and laterally tenses between joint arm or rear load-bearing support Joint arm is tensed equipped with " X ".Between heat-preservation heat-collection header and pressing tailstock support joint arm, joint arm is tensed by " X ", in appropriate position Connection is put, forms indeformable thermal-collecting tube installation braced frame.

Or thermal-collecting tube installation braced frame includes heat-preservation heat-collection header, pressing tailstock supports joint arm, thermal-collecting tube supports joint arm, Hang " X " the hanging brace joint arm connection composition for drawing connection pressing tailstock support joint arm sum aggregate heat pipe standoff joint arm.Thermal-collecting tube installation support For both sides stringing, " day " shape structure, heat-preservation heat-collection header support frame as axis with the pressing tailstock as opposite both sides Joint arm is arranged in parallel, and two thermal-collecting tubes support joint arms are parallel opposite, both ends respectively with heat-preservation heat-collection header and heat-preservation heat-collection header The pressing tailstock support joint arm both ends connection of both sides, forms " day " shape structure outline of thermal-collecting tube installation braced frame, hangs drawing The two ends for connecting two " X " hanging brace joint arm sides of pressing tailstock support joint arm sum aggregate heat pipe standoff joint arm join with heat-preservation heat-collection Drawing connection two pressing tailstocks support joint arm sum aggregate heat pipe standoff joint arm is hung in the both ends junction connection of case sum aggregate heat pipe standoff joint arm Two " X " hanging brace joint arm opposite sides two ends, with two pressing tailstocks support joint arm equal branch on be connected with each other, formed to two The crosspoint hung drawing, connect two " X " hanging brace joint arms of pressing tailstock support joint arm, composition thermal-collecting tube installation braced frame.

Or the heat-preservation heat-collection header in thermal-collecting tube installation braced frame, two pressing tailstocks support joint arm, " X " hanging brace joint arm Between 6 points of crosspoint, wall is hung in connection one, wherein, both sides and the centre of heat-preservation heat-collection header are hung wall and are connected, and are formed in two tops Tight tailstock is supported in joint arm, and two " rice " the font pressing tailstocks support joint arm that spacing decile, crosspoint link together hangs wall.

Or the friendship of the heat-preservation heat-collection header, pressing tailstock support joint arm, " X " hanging brace joint arm in thermal-collecting tube installation braced frame Between 3 points of crunode, wall is hung in one centre of connection, and one is connected between sum aggregate heat pipe standoff joint arm on the downside of heat-preservation heat-collection header Or two water tank support joint arms, wherein, water tank support joint arm is hung wall with centre and connect, is formed between two pressing tailstocks are supported in joint arm Away from decile, two " rice " font pressing tailstocks that crosspoint links together support joint arm hangs wall.

Thermal-collecting tube is installed braced frame or is supported equipped with rear load-bearing, and the load-bearing joint arm of rear load-bearing support is arranged on heat-preservation heat-collection The same end of header and two pressing tailstocks support joint arm, is equipped between rear load-bearing support and tenses joint arm, heat-preservation heat-collection header and Liang Ding Between tight tailstock support joint arm, joint arm is tensed by two " X ", connection in place forms indeformable thermal-collecting tube installation support Frame.

Heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction, and pressing tailstock is a kind of evacuated solar Heat-collecting tube tail seat, the nut being threadedly coupled including bracket and with bracket, bracket are made of tray, pressure pin, the shape of tray Coordinate with evacuated solar collecting tube tail, the tail portion of tray is connect with pressure pin undergauge, has screw thread on one section of outer wall of pressure pin, with pressure pin spiral shell The nut of line cooperation is mounted on pressure pin, tray and pressure pin or is integrated or for split suit connection composition.Tray and pressure pin or For split, have on the bottom of tray and be set in plug together with pressure pin, nut is mounted on pressure pin, is had on nut and top of support The positioning edge that tight tailstock support punching coincide.Nut be equipped with nut it is concentric, have centainly with evacuated solar collecting tube tail portion Gap, identical heat-insulating cover corresponding with the evacuated solar collecting tube tail portion equipped with supporting steel card, the opening of heat-insulating cover, with Sealing shield ring is set between evacuated solar collecting tube.Or heat collector tube core wall or outer tube wall is laminated in the horizontal bending in longitudinal direction of pressure pin More rib pipes used for positioning or more rib holes are equipped with, more rib pipes are positioned by the upper corresponding trepanning of pressing tailstock support, more Rib hole is positioned by corresponding more rib tools.Or pressure pin is plugged in the trepanning of water heater support's pressing tailstock support, spiral shell Cap is installed on above the support of stent pressing tailstock or is installed below the support of stent pressing tailstock, and nut is installed on stent The pressure pin thread segment of pressing tailstock support above is corresponding with nut above, and it is following that nut is installed on the support of stent pressing tailstock Pressure pin thread segment is corresponding with nut below.Or pressure pin is isometrical or undergauge, pressure pin is equal to tray junction epimere diameter Or more than pressure pin hypomere diameter.

Or pressing tailstock is a kind of jacking and mounting thermal insulation tailstock for hanging solar vacuum heat-collecting pipe, and spiral shell is mounted including heat-insulating cover Female and fastening screw, the outer wall that heat-insulating cover mounts nut are equipped with installation hook and stress supporting surface, at least one installation For hook set on the top of stress supporting surface, heat-insulating cover mounts nut equipped with internal thread corresponding with fastening screw, insulating tube Hitching loading nut and being equipped with has the heat-insulating cover of certain interval with evacuated solar collecting tube tail end tube wall, the opening of heat-insulating cover with Sealing shield ring is equipped between evacuated solar collecting tube, the outer wall of fastening screw is corresponding outer equipped with nut is mounted with heat-insulating cover Screw thread, fastening screw lower end be equipped with for spinning pulling teeth, spinning pulling teeth be set on fastening screw lower end pore opening's edge inner wall on or On the outer wall of fastening screw lower end, the upper end of fastening screw is equipped with the pore opening's edge stress supporting surface of installation bearing thing, pipe Aperture is corresponding with evacuated solar collecting tube tail portion bottom surface along stress supporting surface.Heat-insulating cover mounts the installation hook point of nut Set on the upper and lower part of stress supporting surface.

Or pressing tailstock is a kind of pressing installed heat-preservation tailstock assembly of solar vacuum heat collecting tube, including screw thread bracket, screw thread Pedestal, heat-insulating cover and wind loop, screw thread bracket are made of the external threaded with tray, and the outer surface of tray, which is equipped with, puts forth effort Tip surface or screw thread bracket are made of the internal thread nut with tray, and the outer surface of internal thread nut, which is equipped with, puts forth effort tip surface, screw thread base Seat is puted forth effort that tip surface external threaded is formed or screw base is made of internal thread nut, the appearance of internal thread nut by end band Face, which is equipped with, puts forth effort tip surface.Screw thread bracket matches with screw rod, the nut shift length in screw base.Heat-insulating cover and screw thread support Seat suit with one heart, corresponds, in heat-insulating cover diametrically, the outer surface of heat-insulating cover be respectively equipped with individual layer strip fin and Double-deck strip fin, the individual layer strip fin of a heat-insulating cover and the groove of the double-deck strip fin of another heat-insulating cover are inserted Dress matching, heat-insulating cover have certain interval, heat-insulating cover length and evacuated solar collecting tube tail with evacuated solar collecting tube tail portion Portion's supporting steel card installation site is corresponding, has Sealing shield ring inserting between the upper opening and evacuated solar collecting tube of heat-insulating cover In it.Screw base is installed on water heater support's pressing tailstock support upper surface positioning convex closure or location dimples.

The horizontal bending layer in the matched longitudinal direction of heat collector tube core vacuum heat-collecting tube module is laminated in bending horizontal with a kind of longitudinal direction The production technology of folded heat collector tube core evacuated collector tube, it is characterized in that：Heat collector tube core vacuum heat-collecting is laminated in the horizontal bending in longitudinal direction Pipe, including cover glass pipe, heat collector tube core is laminated in the horizontal bending in longitudinal direction, medium passes in and out tube head glass sealing end cap, clamping is fixed Position support getter bullet card, its horizontal bending in longitudinal direction be laminated heat collector tube core for successively bend return, levels close to arrangement, point Heat collector tube core pipe row is laminated in the horizontal bending in the longitudinal direction of cloth in the same plane, and heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction The condensation tube head that picks out be distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, pass through dress The U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction is fitted over, bending glass baseplate longitudinal direction is horizontal It puts bending and heat collector tube core pipe row's assembling positioning is laminated integrally.Collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction U-shaped longitudinal direction clamping position support bullet card, by bending glass baseplate, longitudinally the row's assembling positioning of heat collector tube core pipe is laminated in horizontal bending Integrally.Clamping position support getter bullet card is equipped with, longitudinally heat collector tube core is laminated in horizontal bending by bending glass baseplate Pipe row's assembling positioning is integral, and the horizontal bending in longitudinal direction is laminated to be compounded on heat collector tube core pipe row surface and is followed successively by reflectance coating, inhales The function heat absorption membrane tube face of winder, antireflective film composition.The horizontal bending stacking heat collector tube core in longitudinal direction picks out condensation tube head, passes through Glass solder is encapsulated on glass sealing end cap, the horizontal bending in longitudinal direction is made, heat collector tube core is laminated.It will the horizontal bending layer in longitudinal direction Folded heat collector tube core is plugged in one end open, and other end end socket is equipped in the cover glass pipe of tailpipe, by being equipped with Clamping position supports getter bullet card, and the horizontal bending stacking heat collector tube core in longitudinal direction is supported and fixed on to the radial direction of cover glass pipe On inner wall, cover glass pipe and the closing of connection end cap glass solder, after upper exhaust station vacuumizes, glass solder sealing separation exhaust Tail pipe evaporates getter, later, cold by being arranged on the horizontal bending stacking heat collector tube core evacuated collector tube phase change medium in longitudinal direction Phase change medium filler line on solidifying release end of heat vacuumizes phase change medium condensation release end of heat cavity, later to the horizontal bending in longitudinal direction Heat collector tube core evacuated collector tube filling phase-change heat transfer medium is laminated, outer cover is made in glass solder closing phase change medium filler line Heat collector tube core evacuated collector tube is laminated for the horizontal bending in longitudinal direction of high vacuum in glass tube tube chamber.

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be sleeved on same glass sealing end cap, The horizontal bending in longitudinal direction is made, heat collector tube core assembly is laminated.Heat collector tube core assembly is laminated in the horizontal bending in longitudinal direction and is plugged in one end Opening, other end end socket are equipped in the cover glass pipe of tailpipe, and the horizontal bending in longitudinal direction is laminated heat collector tube core pipe row's It picks out condensation tube head and is distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, pass through assembling In longitudinal direction, the U-shaped longitudinal direction clamping position support bullet card of collecting core both sides is laminated in horizontal bending, and bending glass baseplate is longitudinally horizontal It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in bending.The U of collecting core both sides is laminated by being assemblied in the horizontal bending in longitudinal direction Shape longitudinal direction clamping position support bullet card, by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling is positioned to One.Getter bullet card is supported by being equipped with clamping position, the horizontal bending in longitudinal direction is laminated heat collector tube core is supported and fixed on In the inner radial wall of cover glass pipe, cover glass pipe and the closing of connection end cap glass solder, will be vertical later by glass solder The condensation tube head that picks out that heat collector tube core is laminated to horizontal bending is welded with glass sealing-in end cap packaged glass.Upper exhaust station vacuumizes Afterwards, glass solder sealing separation tailpipe, evaporates getter, later, heat pipe collection is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on hot core evacuated collector tube phase change medium condensation release end of heat takes out phase change medium condensation release end of heat cavity The horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing in vacuum Phase change medium filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube core vacuum collection is laminated Heat pipe.

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, glass sealing is encapsulated in by glass solder On end cap, the horizontal bending in longitudinal direction is made, heat collector tube core is laminated.Heat collector tube core is laminated in the horizontal bending in longitudinal direction and is plugged in one end It is open, in the cover glass pipe that the other end is equally open, the horizontal bending stacking heat collector tube core pipe row's in longitudinal direction picks out condenser pipe Head is distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, horizontal by being assemblied in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of collecting core both sides is laminated in bending, and by bending glass baseplate, longitudinally heat is laminated in horizontal bending The row's assembling positioning of pipe thermal-arrest core pipe is integral.The U-shaped that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction longitudinally clamps Positioning support bullet card, by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral.Pass through Clamping position support getter bullet card is equipped with, the horizontal bending in longitudinal direction is laminated heat collector tube core is supported and fixed on cover glass pipe Inner radial wall on, the connection end cap of heat collector tube core and cover glass pipe corresponding opening glass solder is laminated in the horizontal bending in longitudinal direction Closing, another open glass sealing welding end socket of cover glass pipe simultaneously draws welding tailpipe, after upper exhaust station vacuumizes, Glass solder sealing separation tailpipe, evaporates getter, later, heat collector tube core is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on evacuated collector tube phase change medium condensation release end of heat is taken out phase change medium condensation release end of heat cavity true The horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase in sky Become medium filler line, the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum is made, heat collector tube core vacuum heat-collecting is laminated Pipe.

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be sleeved on same glass sealing end cap, The horizontal bending in longitudinal direction is made, heat collector tube core assembly is laminated.The horizontal bending stacking heat collector tube core in longitudinal direction is plugged in one end to open Mouthful, in the cover glass pipe that the other end is equally open, the horizontal bending stacking heat collector tube core pipe row's in longitudinal direction picks out condensation tube head The axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction is distributed in, by being assemblied in the horizontal folding in longitudinal direction The curved U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated, by bending glass baseplate, longitudinally heat pipe is laminated in horizontal bending The row's assembling positioning of thermal-arrest core pipe is integral.The U-shaped longitudinal direction clamping that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction is determined Position support bullet card, by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral.Pass through dress Getter bullet card is supported equipped with clamping position, the horizontal bending in longitudinal direction is laminated heat collector tube core is supported and fixed on cover glass pipe In inner radial wall, the connection end cap of heat collector tube core and cover glass pipe corresponding opening glass solder seal is laminated in the horizontal bending in longitudinal direction It closes, later by glass solder, the condensation tube head that picks out that the horizontal bending in longitudinal direction is laminated to heat collector tube core is sealed with glass sealing-in end cap Glaze welds.Another open glass sealing welding end socket of cover glass pipe simultaneously draws welding tailpipe, and upper exhaust station is taken out After vacuum, glass solder sealing separation tailpipe evaporates getter, later, heat is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on pipe collecting core evacuated collector tube phase change medium condensation release end of heat, release end of heat chamber is condensed to phase change medium Body vacuumizes, and the horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder Phase change medium filler line is closed, it is true that the horizontal bending stacking heat collector tube core in longitudinal direction that cover glass pipe tube chamber is high vacuum is made Empty set heat pipe.

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, glass sealing is encapsulated in by glass solder On end cap, the horizontal bending in longitudinal direction is made, heat collector tube core is laminated.Heat collector tube core is laminated in the horizontal bending in longitudinal direction and is plugged in one end Opening, other end end socket are equipped in the cover glass pipe of tailpipe, and connecing for heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction Go out to condense tube head and be distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, by being assemblied in The U-shaped longitudinal direction clamping position support bullet card of collecting core both sides is laminated in the horizontal bending in longitudinal direction, by the longitudinal horizontal folding of bending glass baseplate Curved stacking heat collector tube core pipe row assembling positioning is integral.The U-shaped of collecting core both sides is laminated by being assemblied in the horizontal bending in longitudinal direction Longitudinal clamping position supports bullet card, and by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling is positioned to one Body.Getter bullet card is supported by being equipped with clamping position, the horizontal bending stacking heat collector tube core in longitudinal direction is supported and fixed on outer In the inner radial wall of cover glass tube, the horizontal bending in longitudinal direction is laminated to the connection end cap of heat collector tube core, it is corresponding with cover glass pipe Heat collector tube core evacuated collector tube group is laminated in opening contact alignment glass solder closing, the horizontal bending in longitudinal direction that assembling is had good positioning Part is placed in heating, vacuum stove, heats vacuumizing and exhausting, external through seal glass window then by laser glass bonding machine Cover glass tube tailpipe glass solder is closed, and evaporates getter, later, heat pipe collection is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on hot core evacuated collector tube phase change medium condensation release end of heat takes out phase change medium condensation release end of heat cavity The horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing in vacuum Phase change medium filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube core vacuum collection is laminated Heat pipe.

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be sleeved on same glass sealing end cap, The horizontal bending in longitudinal direction is made, heat collector tube core assembly is laminated.The horizontal bending stacking heat collector tube core in longitudinal direction is plugged in one end to open Mouthful, in the cover glass pipe that the other end is equally open, the horizontal bending stacking heat collector tube core pipe row's in longitudinal direction picks out condensation tube head The axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction is distributed in, by being assemblied in the horizontal folding in longitudinal direction The curved U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated, by bending glass baseplate, longitudinally heat pipe is laminated in horizontal bending The row's assembling positioning of thermal-arrest core pipe is integral.The U-shaped longitudinal direction clamping that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction is determined Position support bullet card, by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral.Pass through dress Getter bullet card is supported equipped with clamping position, the horizontal bending in longitudinal direction is laminated heat collector tube core is supported and fixed on cover glass pipe In inner radial wall, the connection end cap of heat collector tube core and cover glass pipe corresponding opening glass solder seal is laminated in the horizontal bending in longitudinal direction It closes, heat collector tube core vacuum heat-collecting tube assembly is laminated in the horizontal bending in the longitudinal direction that assembling is had good positioning, and is placed in heating, vacuum stove, adds Then by laser glass bonding machine, heat collector tube is laminated through seal glass window in the horizontal bending in longitudinal direction by hot vacuumizing and exhausting Core picks out condensation tube head and glass sealing-in end cap laser glass welded closure.Getter is evaporated, later, by being arranged on longitudinal horizontal stroke The phase change medium filler line that bending is laminated on heat collector tube core evacuated collector tube phase change medium condensation release end of heat is put, to phase change medium Condensation release end of heat cavity vacuumizes, and heat collector tube core evacuated collector tube filling phase-change heat transfer is laminated to the horizontal bending in longitudinal direction later and is situated between Matter, glass solder closing phase change medium filler line are made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and are laminated Heat collector tube core evacuated collector tube.

It makes the horizontal bending in longitudinal direction and heat collector tube core evacuated collector tube is laminated including technique is produced by below：The interior glass of collecting core The thin shell of glass is processed into bending laminated glass pipe by lamp work, flush to the tube head of bending laminated glass pipe later, burning mouth, Cleaning, drying, upper both ends clamping position support getter bullet card, and in the surface recombination absorption film of pipe, the horizontal bending in longitudinal direction is laminated The condensation tube head that picks out of heat collector tube core pipe row is distributed in the upper end arrangement that the horizontal bending stacking heat collector tube core pipe in longitudinal direction is arranged Axis straight tube, the U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports bullet card, by bending Longitudinally heat collector tube core pipe row's assembling positioning is laminated integrally in horizontal bending to glass baseplate.By being assemblied in the horizontal bending layer in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of folded collecting core both sides, by bending glass baseplate, longitudinally heat collector tube is laminated in horizontal bending Core pipe row's assembling positioning is integral.The horizontal bending in longitudinal direction is laminated heat collector tube core to be inserted into, and is cooled down by clamping position support Agent bullet card is supported and fixed in the inner radial wall of cover glass pipe, is closed by connection end cap glass solder.First by cover glass By mold heat is laminated with the horizontal bending in longitudinal direction into equipped with import and export in its machining and shaping by the openend glass solder end socket of pipe The corresponding glass nozzle of pipe collecting core condensation end size.The inlet/outlet pipe of heat collector tube core the same end will be laminated in the horizontal bending in longitudinal direction Mouthful, it is inserted into the inlet and outlet nozzle reserved on cover glass pipe end and shifts bottom end onto, later, external another openend of cover glass tube End socket simultaneously makes connection tailpipe, and then, heat collector tube core condensation end is laminated in the horizontal bending in longitudinal direction in external cover glass tube Heat collector tube core condensation end, the pipe with the same end opening of cover glass pipe is laminated to the horizontal bending in longitudinal direction to setting position in pusher Mouth glass solder sealing, and pass through mold and inflate shaping, duration and degree of heating is closed in annealing, is cooled down, and heat collector tube is laminated in the horizontal bending in longitudinal direction Core disengaging glass tube head sealing is completed.Upper exhaust station, tailpipe connection exhaust tube, vacuumizes rear glass solder sealed-off exhaust tail Pipe.Getter is evaporated, later, the condensation of heat collector tube core evacuated collector tube phase change medium is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on release end of heat vacuumizes phase change medium condensation release end of heat cavity, later to the horizontal bending layer in longitudinal direction Outer cover glass is made in folded heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase change medium filler line Heat collector tube core evacuated collector tube is laminated for the horizontal bending in longitudinal direction of high vacuum in glass pipe tube chamber.

The horizontal bending layer in the matched longitudinal direction of heat collector tube core vacuum heat-collecting tube module is laminated in bending horizontal with a kind of longitudinal direction The production technology of folded heat collector tube core evacuated collector tube, it is characterized in that：It is cold that picking out for heat collector tube core is laminated in the horizontal bending in longitudinal direction Solidifying tube head, is plugged in one end open, and other end end socket is equipped with the horizontal bending stacking heat collector tube core in longitudinal direction and picks out tube head trepanning Cover glass pipe in, and heat collector tube core be laminated in the horizontal bending in longitudinal direction pick out tube head and pass through opening on cover glass channel closure Hole exports, and the condensation tube head that picks out that heat collector tube core pipe row is laminated in longitudinal horizontal bending is distributed in the horizontal bending stacking heat pipe in longitudinal direction The U-shaped longitudinal direction of collecting core both sides is laminated by being assemblied in the horizontal bending in longitudinal direction for the axis straight tube of the upper end arrangement of thermal-arrest core pipe row Clamping position supports bullet card, and by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral. The U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports bullet card, by bending glass baseplate It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in the horizontal bending in longitudinal direction.Getter bullet is supported by being equipped with clamping position The horizontal bending in longitudinal direction is laminated heat collector tube core and is supported and fixed in the inner radial wall of cover glass pipe, by cover glass pipe by card The welding of another openend glass head seal end socket and draw welding tailpipe, the cover glass channel closure of glass solder closing later On trepanning and the horizontal bending in longitudinal direction heat collector tube core be laminated pick out tube head, after upper exhaust station vacuumizes, glass solder sealing point From tailpipe, getter is evaporated, later, heat collector tube core evacuated collector tube phase transformation is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on medium condensation release end of heat vacuumizes phase change medium condensation release end of heat cavity, later to longitudinal horizontal stroke It puts bending and heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase change medium filler line, system is laminated Heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction into cover glass pipe tube chamber for high vacuum.

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be plugged in one end open, other end end socket The horizontal bending stacking heat collector tube core in longitudinal direction is equipped with to pick out in the cover glass pipe of tube head trepanning, and will the horizontal bending layer in longitudinal direction Folded heat collector tube core picks out tube head and is exported by the trepanning on cover glass channel closure, and heat collector tube core is laminated in the horizontal bending in longitudinal direction The condensation tube head that picks out of pipe row is distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, leads to It crosses and is assemblied in the U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction, bending glass baseplate is indulged It is integral that the row's assembling positioning of heat collector tube core pipe is laminated to horizontal bending.Collecting core two is laminated by being assemblied in the horizontal bending in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of side, by bending glass baseplate, longitudinally the row's assembling of heat collector tube core pipe is laminated in horizontal bending Positioning is integral.Getter bullet card is supported by being equipped with clamping position, the support of heat collector tube core is laminated in the horizontal bending in longitudinal direction It is fixed in the inner radial wall of cover glass pipe.Heat collector tube core is laminated in the horizontal bending in longitudinal direction and picks out tube head, is welded by glass It connects to weld with the trepanning on cover glass channel closure and seal.By another openend glass head seal welding end socket of cover glass pipe simultaneously Welding tailpipe is drawn, after upper exhaust station vacuumizes, glass solder sealing separation tailpipe evaporates getter, later, leads to The phase change medium being arranged on the horizontal bending stacking heat collector tube core evacuated collector tube phase change medium condensation release end of heat in longitudinal direction is crossed to fill Note pipe vacuumizes phase change medium condensation release end of heat cavity, heat collector tube core vacuum heat-collecting is laminated to the horizontal bending in longitudinal direction later Pipe fills phase-change heat transfer medium, and cover glass pipe tube chamber is made as high vacuum in glass solder closing phase change medium filler line Heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction.

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be plugged in one end open, other end end socket The horizontal bending stacking heat collector tube core in longitudinal direction is equipped with to pick out in the cover glass pipe of tube head trepanning, and will the horizontal bending layer in longitudinal direction Folded heat collector tube core picks out tube head, is exported by the trepanning on cover glass channel closure, and heat collector tube is laminated in the horizontal bending in longitudinal direction The condensation tube head that picks out of core pipe row is distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, The U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports bullet card, by bending glass baseplate It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in the horizontal bending in longitudinal direction.Collecting core is laminated by being assemblied in the horizontal bending in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of both sides, by bending glass baseplate, longitudinally heat collector tube core pipe row's group is laminated in horizontal bending It is integral to set position.Getter bullet card is supported by being equipped with clamping position, heat collector tube core branch is laminated in the horizontal bending in longitudinal direction Support is fixed in the inner radial wall of cover glass pipe, is later sealed another openend glass solder of cover glass pipe, later It will assemble what is had good positioning, heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, is placed in heating, vacuum stove, and heating is taken out true Idle discharge gas, then by laser glass bonding machine, glass solder closes the horizontal folding of trepanning and longitudinal direction on cover glass channel closure Curved stacking heat collector tube core picks out tube head, evaporates getter, later, heat collector tube core is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on evacuated collector tube phase change medium condensation release end of heat is taken out phase change medium condensation release end of heat cavity true The horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase in sky Become medium filler line, the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum is made, heat collector tube core vacuum heat-collecting is laminated Pipe.

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be plugged in one end open, other end end socket The horizontal bending stacking heat collector tube core in longitudinal direction is equipped with to pick out in the cover glass pipe of tube head trepanning, and will the horizontal bending layer in longitudinal direction Folded heat collector tube core picks out tube head, is exported by the trepanning on cover glass channel closure, and heat collector tube is laminated in the horizontal bending in longitudinal direction The condensation tube head that picks out of core pipe row is distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, The U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports bullet card, by bending glass baseplate It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in the horizontal bending in longitudinal direction.Collecting core is laminated by being assemblied in the horizontal bending in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of both sides, by bending glass baseplate, longitudinally heat collector tube core pipe row's group is laminated in horizontal bending It is integral to set position.Getter bullet card is supported by being equipped with clamping position, heat collector tube core branch is laminated in the horizontal bending in longitudinal direction Support is fixed in the inner radial wall of cover glass pipe, and by glass solder, the horizontal bending in longitudinal direction is laminated connecing for heat collector tube core Go out to condense tube head to weld with the glass panel with holes sealing on cover glass channel closure.Another openend glass of cover glass pipe is melted Soldering and sealing connects end socket and draws welding tailpipe, and the horizontal bending in longitudinal direction is laminated heat collector tube core evacuated collector tube later, is placed in In heating, vacuum stove, vacuumizing and exhausting is heated, then passes through laser glass bonding machine, glass solder sealed-off cover glass channel closure On tailpipe, evaporate getter, later, heat collector tube core evacuated collector tube phase be laminated by being arranged on the horizontal bending in longitudinal direction Become the phase change medium filler line on medium condensation release end of heat, phase change medium condensation release end of heat cavity is vacuumized, later to longitudinal direction Heat collector tube core evacuated collector tube filling phase-change heat transfer medium is laminated in horizontal bending, and glass solder closes phase change medium filler line, The horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum is made, heat collector tube core evacuated collector tube is laminated.

It makes the horizontal bending in longitudinal direction and heat collector tube core evacuated collector tube is laminated including technique is produced by below：The interior glass of collecting core The thin shell of glass is processed into bending laminated glass pipe by lamp work, flush to the tube head of bending laminated glass pipe later, burning mouth, Cleaning, drying, upper both ends clamping position support getter bullet card, will the horizontal bending layer in longitudinal direction in the surface recombination absorption film of pipe Folded heat collector tube core insertion is supported and fixed in the inner radial wall of cover glass pipe, is led by the trepanning on cover glass channel closure Go out.The condensation tube head that picks out that heat collector tube core pipe row is laminated in longitudinal horizontal bending is distributed in the horizontal bending stacking heat collector tube in longitudinal direction The axis straight tube of the upper end arrangement of core pipe row, the U-shaped that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction longitudinally clamp Positioning support bullet card, by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral.Pass through The U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction is assemblied in, by bending glass baseplate longitudinal direction It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in horizontal bending.Getter bullet card is supported by being equipped with clamping position, it will The horizontal bending in longitudinal direction is laminated heat collector tube core and is supported and fixed in the inner radial wall of cover glass pipe, later by cover glass pipe Another openend glass solder sealing will assemble what is had good positioning later, and heat collector tube core vacuum heat-collecting is laminated in the horizontal bending in longitudinal direction Pipe, is placed in heating, vacuum stove, vacuumizing and exhausting is heated, then by laser glass bonding machine, through seal glass window laser The horizontal bending of trepanning and longitudinal direction on glass solder closing cover glass channel closure is laminated heat collector tube core and picks out tube head, and evaporation disappears Gas agent later, is laminated by being arranged on the horizontal bending in longitudinal direction on heat collector tube core evacuated collector tube phase change medium condensation release end of heat Phase change medium filler line, phase change medium condensation release end of heat cavity is vacuumized, heat pipe collection is laminated to the horizontal bending in longitudinal direction later Hot core evacuated collector tube fills phase-change heat transfer medium, and cover glass pipe tube chamber is made in glass solder closing phase change medium filler line Heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction for high vacuum.

The horizontal bending layer in the matched longitudinal direction of heat collector tube core vacuum heat-collecting tube module is laminated in bending horizontal with a kind of longitudinal direction The production technology of folded heat collector tube core evacuated collector tube, it is characterized in that：It is cold that picking out for heat collector tube core is laminated in the horizontal bending in longitudinal direction Solidifying tube head is plugged in one end open, and other end end socket is equipped in the cover glass pipe of tailpipe, and the horizontal bending in longitudinal direction is laminated The condensation tube head that picks out of heat collector tube core pipe row is distributed in the upper end arrangement that the horizontal bending stacking heat collector tube core pipe in longitudinal direction is arranged Axis straight tube, the U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports bullet card, by bending Longitudinally heat collector tube core pipe row's assembling positioning is laminated integrally in horizontal bending to glass baseplate.By being assemblied in the horizontal bending layer in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of folded collecting core both sides, by bending glass baseplate, longitudinally heat collector tube is laminated in horizontal bending Core pipe row's assembling positioning is integral.Getter bullet card is supported by being equipped with clamping position, heat pipe is laminated in the horizontal bending in longitudinal direction Collecting core is supported and fixed in the inner radial wall of cover glass pipe, and another openend glass solder of cover glass pipe is sealed, Cover glass pipe is fixed on by tooling clamping on glass work lathe, the cover glass pipe on glass work lathe is along cover glass Pipe axis rotation, arc row's shape heating duration and degree of heating are opened, and heating enclosure glass tube, beyond longitudinal direction, heat pipe is laminated in horizontal bending to heating location Collecting core nozzle setting position.Flame is treated by after cover glass pipe scorification, the manipulator at stationary housings glass nozzle will be burnt Molten cover glass tube head pulls away, and duration and degree of heating continues to heat, and makes cover glass pipe that envelope be drawn to form closing bottom surface, draws back cover identity distance from vertical Heat collector tube core pipe mouth is laminated to horizontal bending and is equipped with certain distance.Duration and degree of heating position is adjusted, duration and degree of heating is made to heat always and draws what is be honored as a queen Bottom surface draws glass tube at the bottom surface being honored as a queen to continue, by scorification, back cover face to be drawn gradually to thicken, and draws back cover face constantly to the horizontal folding in longitudinal direction Curved stacking heat collector tube core pipe head direction movement, until heat collector tube core pipe is laminated in the drawing back cover face of melting and the horizontal bending in longitudinal direction Mouth docking is got up.Treat that heat collector tube core pipe mouth is laminated with back cover face is drawn to fuse together in the horizontal bending in longitudinal direction, glass work lathe stalling, Heat collector tube core pipe head center is laminated in horizontal bending to charge bar of seizing on glass work lathe along longitudinal direction, and longitudinal horizontal stroke is insinuated into from back cover face is drawn It puts bending to be laminated in heat collector tube core pipe mouth, the glass at heat collector tube core pipe mouth and drawing back cover face is laminated in the horizontal bending in longitudinal direction Glass, is wound into seize and pulls out and cut off on charge bar.Duration and degree of heating continues to heat, and porose frit retraction is molten to the horizontal bending in longitudinal direction It is laminated on heat collector tube core pipe mouth, makes the horizontal bending in longitudinal direction that heat collector tube core be laminated with drawing the complete scorification of frit in back cover face. Later, glass weldering is vented the condensation end of heat pipe of medium filling nozzle to being equipped with.Later, on inside-and-outside ring glass end socket, suit Mold is filled with air to glass ring intracavitary by the tailpipe of cover glass pipe tail portion, sealing part is made to heave and shape.Later Small fire heating ring packing glass solder nozzle is annealed, and is closed duration and degree of heating later, is cooled down, and completes the horizontal bending in longitudinal direction and heat is laminated Pipe collecting core tube head and the glass solder of cover glass channel closure are closed.After upper exhaust station vacuumizes, glass solder sealed-off exhaust Tail pipe.Getter is evaporated, it is later, cold by being arranged on the horizontal bending stacking heat collector tube core evacuated collector tube phase change medium in longitudinal direction Phase change medium filler line on solidifying release end of heat vacuumizes phase change medium condensation release end of heat cavity, later to the horizontal bending in longitudinal direction Heat collector tube core evacuated collector tube filling phase-change heat transfer medium is laminated, outer cover is made in glass solder closing phase change medium filler line Heat collector tube core evacuated collector tube is laminated for the horizontal bending in longitudinal direction of high vacuum in glass tube tube chamber.

Or the cover glass pipe for picking out condensation tube head, being plugged in both ends open of heat collector tube core is laminated in the horizontal bending in longitudinal direction Interior, the condensation tube head that picks out that heat collector tube core pipe row is laminated in longitudinal horizontal bending is distributed in the horizontal bending stacking heat collector tube in longitudinal direction The axis straight tube of the upper end arrangement of core pipe row, the U-shaped that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction longitudinally clamp Positioning support bullet card, by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral.Pass through The U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction is assemblied in, by bending glass baseplate longitudinal direction It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in horizontal bending.Getter bullet card is supported by being equipped with clamping position, it will The horizontal bending in longitudinal direction is laminated heat collector tube core and is supported and fixed in the inner radial wall of cover glass pipe, by the another of cover glass pipe Cover glass pipe is fixed on by tooling clamping on glass work lathe, on glass work lathe by openend glass solder sealing Cover glass pipe is opened along cover glass pipe axis rotation, arc row's shape heating duration and degree of heating, and heating enclosure glass tube, heating location exceeds Heat collector tube core pipe mouth setting position is laminated in the horizontal bending in longitudinal direction.Flame is treated by after cover glass pipe scorification, stationary housings glass Manipulator at glass nozzle pulls away the cover glass tube head of scorification, and duration and degree of heating continues to heat, and makes cover glass pipe that envelope be drawn to form envelope Bottom surface is closed, draws back cover identity distance that heat collector tube core pipe mouth is laminated equipped with a certain distance from from the horizontal bending in longitudinal direction.Duration and degree of heating position is adjusted, is made Duration and degree of heating heats the bottom surface drawn and be honored as a queen always, and glass tube at the bottom surface being honored as a queen is drawn to continue, by scorification, back cover face to be drawn gradually to thicken, draws envelope Constantly the movement of heat collector tube core pipe head direction is laminated to the horizontal bending in longitudinal direction in bottom surface, until the drawing back cover face of melting and longitudinal direction are horizontal Bending is laminated the docking of heat collector tube core pipe mouth and gets up.Treat that heat collector tube core pipe mouth is laminated with back cover face is drawn to fuse in the horizontal bending in longitudinal direction Together, glass work lathe stalls, and heat collector tube core pipe head center is laminated in horizontal bending to the charge bar of seizing on glass work lathe along longitudinal direction, from Back cover face is drawn to be insinuated into the horizontal bending in longitudinal direction to be laminated in heat collector tube core pipe mouth, heat collector tube core pipe is laminated in the horizontal bending in longitudinal direction Mouthful and draw glass at back cover face, be wound into seize and pull out and cut off on charge bar.Duration and degree of heating continues to heat, porose frit retraction, It is molten to the horizontal bending in longitudinal direction to be laminated on heat collector tube core pipe mouth, makes the horizontal bending in longitudinal direction that heat collector tube core be laminated with drawing back cover face The complete scorification of frit.Later, glass weldering is vented the condensation end of heat pipe of medium filling nozzle to being equipped with.Later, in inner and outer ring On shape glass end socket, mold is set with, air is filled with to glass ring intracavitary by the opening of cover glass pipe tail portion, rouses sealing part It rises and shapes.The ring packing glass solder nozzle of small fire heating later is annealed, and is closed duration and degree of heating later, is cooled down, completes longitudinal direction Heat collector tube core pipe head is laminated in horizontal bending and the glass solder of cover glass channel closure is closed.Another by cover glass pipe opens Mouth end glass head seal welds and draws welding tailpipe.After upper exhaust station vacuumizes, glass solder sealed-off tailpipe.Evaporation Later, heat collector tube core evacuated collector tube phase change medium condensation release end of heat is laminated by being arranged on the horizontal bending in longitudinal direction in getter On phase change medium filler line, phase change medium condensation release end of heat cavity is vacuumized, heat pipe is laminated to the horizontal bending in longitudinal direction later Collecting core evacuated collector tube fills phase-change heat transfer medium, and cover glass pipe pipe is made in glass solder closing phase change medium filler line Heat collector tube core evacuated collector tube is laminated for the horizontal bending in longitudinal direction of high vacuum in chamber.

It makes the horizontal bending in longitudinal direction and heat collector tube core evacuated collector tube is laminated including technique is produced by below：The interior glass of collecting core The thin shell of glass is processed into bending laminated glass pipe by lamp work, flush to the tube head of bending laminated glass pipe later, burning mouth, Cleaning, drying.The condensation tube head that picks out that heat collector tube core pipe row is laminated in longitudinal horizontal bending is distributed in the horizontal bending stacking in longitudinal direction The U-shaped of collecting core both sides is laminated by being assemblied in the horizontal bending in longitudinal direction for the axis straight tube of the upper end arrangement of heat collector tube core pipe row Longitudinal clamping position supports bullet card, and by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling is positioned to one Body.The U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports bullet card, by bending glass base Longitudinally heat collector tube core pipe row's assembling positioning is laminated integrally in horizontal bending to material.Upper both ends clamping position supports getter bullet card, In the surface recombination absorption film of pipe.First by cover glass pipe one end end socket and tailpipe is connected, the horizontal bending in longitudinal direction is laminated Heat collector tube core is inserted into cover glass nozzle, is supported and fixed in the inner radial wall of cover glass pipe.It is horizontal in longitudinal direction later Bending is laminated on the setpoint distance of heat collector tube core open side and cover glass pipe one end.Cover glass pipe is clamped by tooling It is fixed on glass work lathe, the cover glass pipe on glass work lathe heats fire along cover glass pipe axis rotation, arc row's shape Head is opened, heating enclosure glass tube, and beyond longitudinal direction, heat collector tube core pipe mouth setting position is laminated in horizontal bending to heating location.Treat fire For flame by after cover glass pipe scorification, the manipulator at stationary housings glass nozzle pulls away the glass tube head of scorification, duration and degree of heating after Continuous heating makes cover glass pipe that envelope be drawn to form closing bottom surface, draws back cover identity distance that heat collector tube core pipe is laminated from the horizontal bending in longitudinal direction Mouth is equipped with certain distance.Adjust duration and degree of heating position, duration and degree of heating made to heat the bottom surface drawn and be honored as a queen always, draw at the bottom surface being honored as a queen glass tube after Continuous by scorification, drawing back cover face gradually thickeies, and draws back cover face that heat collector tube core pipe head direction constantly is laminated to the horizontal bending in longitudinal direction and moves It is dynamic, it is docked until heat collector tube core pipe mouth is laminated with the horizontal bending in longitudinal direction in the drawing back cover face of melting.Treat the horizontal bending in longitudinal direction Heat collector tube core pipe mouth is laminated with back cover face is drawn to fuse together, glass work lathe stops operating, and the charge bar edge of seizing of glass work lathe is indulged The drawing back cover face at heat collector tube core pipe mouth center is laminated to horizontal bending, is insinuated into the horizontal bending in longitudinal direction and heat collector tube core pipe is laminated In mouthful, heat collector tube core pipe mouth is laminated in the horizontal bending in longitudinal direction and the glass at back cover face is drawn to be wound into seize and pull out and cut on charge bar It is disconnected.Duration and degree of heating continues to heat, and porose frit retraction is molten to the horizontal bending in longitudinal direction and is laminated on heat collector tube core pipe mouth, makes to indulge Heat collector tube core is laminated with drawing the complete scorification of frit in back cover face to horizontal bending.Later, glass weldering is situated between to being equipped with exhaust The condensation end of heat pipe of matter filling nozzle.Later, on inside-and-outside ring glass end socket, mold is set with, passes through cover glass pipe tail portion Tailpipe is filled with air to glass ring intracavitary, and sealing part is made to heave and shape.The ring packing glass solder of small fire heating later Nozzle is annealed.Duration and degree of heating is closed later, is cooled down, and completes the pressurizing window of ring glass tube head.Upper exhaust station later, exhaust tail Pipe connects exhaust tube, vacuumizes rear glass solder sealed-off tailpipe, evaporates getter, later, horizontal by being arranged on longitudinal direction The phase change medium filler line on heat collector tube core evacuated collector tube phase change medium condensation release end of heat is laminated in bending, cold to phase change medium Solidifying release end of heat cavity vacuumizes, and heat collector tube core evacuated collector tube filling phase-change heat transfer is laminated to the horizontal bending in longitudinal direction later and is situated between Matter, glass solder closing phase change medium filler line are made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and are laminated Heat collector tube core evacuated collector tube.

8. a kind of be laminated heat collector tube core evacuated collector tube with a kind of horizontal bending in longitudinal direction of claim 1,5,6 or 7 The matched clamping position support getter bullet card of module, it is characterized in that：Set on longitudinal direction, heat collector tube core two is laminated in horizontal bending The U-shaped longitudinal direction clamping position support bullet card of side, is U-shaped elastic metallic channel steel corresponding with collecting core length and height, U-shaped is elastic Metal channel steel, which is equipped with, clasps the protrusion that collecting core both sides bending concave point is laminated in the horizontal bending in longitudinal direction.It is horizontal to be mounted at least longitudinal direction The clamping position support getter bullet card at collecting core both ends is laminated in bending, by buckle, elastic metallic on elastic metallic material card Buckle and getter three parts composition under material cards.The upper and lower elastic metallic material card of U-shaped longitudinal direction clamping position support bullet card Piece using the mutually symmetrical with every a piece of both sides of two panels, is respectively equipped with mutual corresponding card slot and clamp.Elastic metallic material card The card slot and clamp of on piece are at least one oblique card slot, are inserted with the clamp pressure with linear type elasticity top guide, the top guide of clamp It is inserted into oblique card slot and generates deformation, sprung back after the top guide of clamp inserts in place, realize card slot and the mutual snap lock of clamp. Or card slot and clamp on elastic metallic material card, to be equipped at least one straight line card slot, led with corresponding arc elastic The clamp pressure of head is inserted, and the arc top guide of clamp is inserted into card slot generation and straightens deformation, when clamp top guide inserting in place after occur back Bullet becomes arc, realizes card slot and the mutual snap lock of clamp.Or card slot and clamp on elastic metallic material card, for be equipped with to Arc-shaped slot one few is inserted with the clamp pressure of corresponding top guide, and the straight top guide of clamp, which is inserted into arc-shaped slot and generates, becomes arc shape Become, rebound, which occurs, after the top guide of clamp inserts in place straightens, and realizes card slot and the mutual snap lock of clamp.

The shape of elastic metallic material card bending stacking heat collector tube core pipe row's shape horizontal with longitudinal direction is corresponding, and can be full The horizontal bending in longitudinal direction is laminated the requirement that the resilient clamp of heat collector tube core pipe row positions in foot.U-shaped longitudinal direction clamping position support bullet On the both sides of card, equipped with the resilient support card being supported on cover glass caliber inward wall, the setting in the same direction respectively of resilient support card On upper and lower elastic metallic material card one side, resilient support card passes through punching disk for the side of elastic metallic material card Roll forming.The elastic force that the geometric dimension of resilient support card is formed meets the horizontal bending in longitudinal direction and heat collector tube core elasticity branch is laminated It supports in the requirement on cover glass caliber inward wall.Wherein, it at least descends on elastic metallic material card, cools down equipped with gripping The Elastic locking fastener of agent, Elastic locking fastener are elastic metallic material card punching stretch forming.

Heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction, and heat pipe collection is laminated in the horizontal bending in longitudinal direction Hot core is connect with exothermic condensation end pipe head.

The horizontal bending in longitudinal direction is laminated on the surface of heat collector tube core and is compounded with absorption film, forms the functional membrane of absorption film successively For reflectance coating, absorbing film, antireflective film, wherein, reflectance coating is formed a film by magnetron sputtering or reflectance coating is formed a film by vacuum evaporation, Or reflectance coating is formed a film by chemical plating.Absorbing film, antireflective film or the film layer for same material.Heat pipe is laminated in the horizontal bending in longitudinal direction The reflection function film of collecting core arranges plated film for full pipe, and absorption function film, anti-reflection functional membrane arrange unilateral plated film for pipe.Absorption film is Magnetron sputtering film.

Or high temperature resistant selective absorbing functional membrane is to include glass baseplate, high reflecting metal film layer, absorbing membranous layer three-layered node Structure, high temperature resistant selective absorbing functional membrane are in the outer surface of glass baseplate, coat compound high reflecting metal film layer, and coating is multiple Closing has the glass baseplate of high reflecting metal film layer, is immersed in certain time in nickel sulfate and sodium hypophosphite solution, makes high temperature glass Then pipe row is immersed in nitric acid after etching in short-term by the coating of pressure-bearing pipe Surface Creation nickel-phosphorus alloy, formed phosphorous in coating For amount between 5%-7%, the pipe row surface after etching is covered with the high temperature resistant selective absorbing functional membrane in small hole.

Or high temperature resistant selective absorbing functional membrane is to include glass baseplate, metal material high reflecting metal film layer and carbon materials Expect the functional film layer of the compound three-decker of absorbing membranous layer.The structure of high temperature resistant selective absorbing functional membrane is followed successively by glass baseplate Bottom, the excessive film layer of metal material high reflecting metal and forms after thermal decomposition process the carbon film layer table of dense micro-hole is distributed with Layer.Glass baseplate bottom is tubing, and the excessive film layer of metal material high reflecting metal is by vacuum evaporation, magnetron sputtering or changes The metallic diaphragm of reaction generation is learned, high temperature resistant selective absorbing functional membrane is formed for organic bond after thermal decomposition process.Have Machine adhesive is homogenous material manufacture or is that more than one composite material manufactures or adhesive mixes shape with light absorbing material The compound carbon film layer surface layer of dense micro-hole structure is distributed in film forming layer, the outer surface through thermal decomposition sintering generation.

Heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction, and cover glass pipe is pipe, ellipse Pipe or rectangular tube.The appearance of light anti-reflection film or cover glass pipe side to light is compounded on the side to light inner surface of cover glass pipe It is compounded on face in the inner and outer surfaces of light anti-reflection film or cover glass pipe side to light and is compounded with light anti-reflection film.Cover glass pipe Tube wall to manage transparent light pipe entirely or cover glass pipe is radial direction half is compounded with the pipe of reflective mirror.

The beneficial effects of the invention are as follows：

In the case where cost increases few, production technology variation less compared with conventional all glass vacuum heat collection tube of solar energy, Successfully solve all glass vacuum heat collection tube of solar energy heat collecting module pressure-bearing, high-temperature heat-gathering, self-loopa, low cost, it is freeze proof heat preservation, The problems such as safe and reliable.Present apparatus reasonable design, it is possible to provide plurality of installation forms, the horizontal bending in longitudinal direction for organizing cost module are laminated Heat collector tube core evacuated collector tube, good pressure-resistant performance, flexible free performance of expanding with heat and contract with cold is good, heat resistanceheat resistant cold shock, and endurance is simultaneously real The thermal siphon convection current self-loopa of collecting system is showed, modularization assembling, the effective collector area of unit is big, bearing capacity is strong, can be right User provides high temperature steam, and high temperature steam can be applied to generate electricity.System anti-freezing and heat-insulating performance is good.Therefore, it is of the invention Application field and widely used.

Description of the drawings

Fig. 1 is 0 degree of vertical plane knot of the first embodiment that heat collector tube core evacuated collector tube is laminated in a kind of horizontal bending in longitudinal direction Structure schematic diagram.

Fig. 2 is the horizontal plane for first, second embodiment that heat collector tube core evacuated collector tube is laminated in a kind of horizontal bending in longitudinal direction Structure diagram.

Fig. 3 is 90 degree of vertical plane knots of the first embodiment that heat collector tube core evacuated collector tube is laminated in a kind of horizontal bending in longitudinal direction Structure schematic diagram.

Fig. 4 is 0 degree of vertical plane knot of the second embodiment that heat collector tube core evacuated collector tube is laminated in a kind of horizontal bending in longitudinal direction Structure schematic diagram.

Fig. 5 is 90 degree of vertical plane knots of the second embodiment that heat collector tube core evacuated collector tube is laminated in a kind of horizontal bending in longitudinal direction Structure schematic diagram

Fig. 6 is the vertical plane structural representation that heat collector tube core vacuum heat-collecting tube module first embodiment is laminated in a kind of horizontal bending in longitudinal direction Figure.

Fig. 7 is the vertical plane knot for the second embodiment that heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction Structure schematic diagram

Fig. 8 is the vertical plane structural representation that heat collector tube core vacuum heat-collecting tube module 3rd embodiment is laminated in a kind of horizontal bending in longitudinal direction Figure.

Fig. 9 is the vertical plane knot for the fourth embodiment that heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction Structure schematic diagram

In figure：1 phase change medium filling nozzle, 2 heat pipe exothermic condensation pipes, 3 horizontal getter support bullet cards, 4 longitudinal support bullet cards, 5 Cover glass pipe, thermal-collecting tube in 6,7 phase change mediums, 8 getters, 9 exhaust nozzles, 10 absorption films, 11 tail support box, 12 thermal insulation materials, 13 headers, 14 suckers, 15 sealing rubber rings, 16 heat preservation header casings, 17 vacuum heat-collecting pipe holder joint arms, 18 thermal insulation seal rings, 19 Pressing tailstock heat preservation tray, 20 pressing tailstock pressure pins, 21 heat preservation block casings, 22 air deflectors, 23 partition boards, 24 header water inlet pipes Mouth, 25 header effluent pipe mouths.

Claims (10)

1. heat collector tube core vacuum heat-collecting tube module is laminated in a kind of horizontal bending in longitudinal direction, including evacuated collector tube, pressing tailstock, guarantor Warm thermal collecting header, sealing ring, thermal-collecting tube installation braced frame, it is characterized in that：Heat collector tube core vacuum is laminated in the horizontal bending in longitudinal direction Thermal-arrest tube module, by including heat-preservation heat-collection header, heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, thermal-collecting tube is installed Braced frame and thermal-collecting tube installation braced frame is arranged in, the pressing tailstock on opposite frame parallel with heat-preservation heat-collection header connects Connect composition；Heat-preservation heat-collection header is single channel header, in the two ends of single channel header, be respectively equipped with single medium into and out of Connecting pipe head, medium are set on the downside of the end of thermal collecting header into connecting pipe head, and medium goes out connecting pipe head set on thermal collecting header Upside；Or in the two ends of heat-preservation heat-collection header, the double joint medium arranged up and down is respectively equipped with into and out of connecting pipe head, thermal-arrest joins Around case, it is enclosed with insulating layer and shell；Or heat-preservation heat-collection header is the dual channel thermal collecting header arranged up and down, thermal collecting header In two ends, be respectively equipped with single medium into and out of connecting pipe head, wherein, medium into thermal collecting header tube head and the stream of downside Road connects, the runner connection for going out thermal collecting header tube head and upside of medium；Or heat-preservation heat-collection header is the dual channel arranged up and down Thermal collecting header in the two ends of thermal collecting header, is respectively equipped with the double joint medium arranged up and down into and out of connecting pipe head；Or thermal-arrest connection Case is the dual channel thermal collecting header arranged up and down equipped with air deflector, and air deflector is set between upper and lower header, with channel baffle and connection Case trepanning tube wall connects；Or in the two ends of thermal collecting header, single medium is respectively equipped with into and out of connecting pipe head, wherein, medium Connected into thermal collecting header tube head and the runner of downside, medium go out thermal collecting header tube head and the runner of upside connects；Or thermal-arrest Header is the dual channel thermal collecting header arranged up and down equipped with air deflector, in the two ends of thermal collecting header, is respectively equipped with and arranges up and down Double joint medium into and out of connecting pipe head；Around thermal collecting header, it is enclosed with insulating layer and shell；

A side-lower or heat-preservation heat-collection that heat collector tube core evacuated collector tube is located at heat-preservation heat-collection header is laminated in the horizontal bending in longitudinal direction Header is placed among thermal-collecting tube installation braced frame, and heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, symmetrical In the down either side of heat-preservation heat-collection header；Heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction on heat-preservation heat-collection header Pore is installed, by matched sealing ring, the release end of heat of heat collector tube core evacuated collector tube is laminated with the horizontal bending in longitudinal direction Head is connected；Or heat-preservation heat-collection header is equipped with the horizontal bending in installation longitudinal direction and heat collector tube core evacuated collector tube heat release end is laminated Sealing heat transfer casing, by matched sealing ring, the sealing heat transfer casing being equipped with heat-preservation heat-collection header fits closely Connection, realizes the indirectly heat to medium in heat-preservation heat-collection header；Heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction It, will the horizontal folding in longitudinal direction by the pressing tailstock being set on thermal-collecting tube installation braced frame opposite frame parallel with heat-preservation heat-collection header It is curved stacking heat collector tube core evacuated collector tube, top tight sealing be installed on heat-preservation heat-collection header and thermal-collecting tube installation braced frame it Between；Heat-preservation heat-collection header is horizontally mounted arrangement, makes the longitudinal direction that heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction horizontal Heat collector tube core is laminated in bending, with the irradiating angle of sunlight close to vertical；

Wherein, heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, is laminated including cover glass pipe, the horizontal bending in longitudinal direction Heat collector tube core, medium disengaging tube head glass sealing end cap, U-shaped longitudinal direction clamping position support bullet card, lateral clamping position support Getter bullet card, it is same close to arranging, being distributed in successively bend return, levels that heat collector tube core is laminated in the horizontal bending in longitudinal direction Heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction in one plane, and the horizontal bending in longitudinal direction is laminated one that heat collector tube core pipe is arranged and connects Go out exothermic condensation tube head, be located at the upper end that heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, tube head closing in lower end passes through assembling In longitudinal direction, the U-shaped longitudinal direction clamping position support bullet card of collecting core both sides is laminated in horizontal bending, and bending glass baseplate is longitudinally horizontal It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in bending；The horizontal bending in longitudinal direction is laminated compound on heat collector tube core pipe row surface The function heat absorption membrane tube face formed by reflectance coating, absorbing film, antireflective film is followed successively by；Later, it is longitudinally horizontal in bending glass baseplate Bending is laminated on thermal-arrest core pipe row, assembles lateral clamping position support getter bullet card；Later, lateral clamping position will be equipped with It supports the horizontal bending in longitudinal direction of getter bullet card that collecting core is laminated and is plugged in one end open, the cover glass pipe of other end end socket Interior, one end of cover glass pipe is equipped with tailpipe；The shady face of cover glass pipe is light pipe or is to be compounded with reflective mirror Pipe；Heat collector tube core is laminated in the horizontal bending in longitudinal direction, and the U-shaped that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction longitudinally presss from both sides Positioning support bullet card is held, the horizontal bending in longitudinal direction is laminated heat collector tube core is supported and fixed in the inner radial wall of cover glass pipe, The horizontal bending stacking heat collector tube core in longitudinal direction picks out tube head, by glass solder, is encapsulated in cover glass pipe the same end glass On end socket, and the condensation release end of heat of the phase change medium equipped with medium filler line；Heat collector tube core vacuum is laminated to the horizontal bending in longitudinal direction Thermal-collecting tube vacuumizes rear glass solder closing separation tailpipe, evaporates getter, later, by being arranged on the horizontal bending in longitudinal direction The phase change medium filler line on heat collector tube core evacuated collector tube phase change medium condensation release end of heat is laminated, phase change medium condensation is put Hot junction cavity vacuumizes, and the horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass Glass welded closure phase change medium filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat pipe collection is laminated Hot core evacuated collector tube；

The phase-change heat transfer medium of heat collector tube core evacuated collector tube is laminated under the action of gravity or capillary film in the horizontal bending in longitudinal direction, Phase-change heat transfer medium is transmitted and is distributed, heat is laminated by the horizontal bending in longitudinal direction in the phase-change heat transfer medium heat absorption vaporization of liquid form Pipe collecting core pipeline enters phase change medium condensation release end of heat cavity, and release end of heat is condensed to heated medium heat release by phase change medium Afterwards, phase-change heat transfer medium is condensed into liquid, and in longitudinal direction, heat collector tube core is laminated in capillary film set by gravity or inner wall in horizontal bending Under the action of, the distribution of the transmission to phase-change heat transfer medium is completed, forms the condensation evaporation heat transfer cycle of phase change medium；

Medium is connected by heat-preservation heat-collection header, and medium entrance is connect with parallel way with heat-preservation heat-collection header water inlet main pipe, is situated between Matter outlet is connect with parallel way with heat-preservation heat-collection header main water outlet pipe；System is by the cold water in heat-preservation heat-collection header, with guarantor Heat collector tube core vacuum is laminated with the horizontal bending in longitudinal direction in density contrast and storage heat-preservation heat-collection header in warm thermal collecting header between hot water Height difference between thermal-collecting tube realizes the thermal siphon convection current self-loopa of heated medium；Or water pump is installed in system, realize system Forced circulation.

2. a kind of bending horizontal with longitudinal direction a kind of described in claim 1 is laminated heat collector tube core vacuum heat-collecting tube module and matches Heat-preservation heat-collection header, it is characterized in that：On the thermal insulation material of heat-preservation heat-collection header and the homonymy of shell or opposite sides tube wall, open There is the horizontal bending in inserting longitudinal direction that heat collector tube core evacuated collector tube is laminated into and out of the pore of medium tube head；Thermal collecting header pore is Plane or the stretching edge equipped with recessed or convex or recessed rear flanging or recessed rear in-flanges；It is enclosed on heat-preservation heat-collection header wall With the shell of its trepanning coaxial line, filled with thermal insulation material between heat-preservation heat-collection header wall and shell, join corresponding to heat-preservation heat-collection Trepanning on tank wall, shell are equipped with trepanning with thermal insulation material, and shell is equipped with shell end socket and heat-preservation heat-collection header tube head pair Should, shell end socket or for heat insulation support ring is filled with thermal insulation material between shell end socket and heat-preservation heat-collection header tube head；With every Lacing wire is installed on the corresponding shell of hot support ring, the frame opposite with thermal-collecting tube installation braced frame connects；Heat-preservation heat-collection joins Case tube head, which is equipped with, is tightly connected pipe fitting unit；

Heat-preservation heat-collection header is single channel thermal collecting header, in the two ends of single channel thermal collecting header, is respectively equipped with single medium Into and out of connecting pipe head, medium is set on the downside of the end of thermal collecting header into connecting pipe head, and medium goes out connecting pipe head and joins set on thermal-arrest The upside of case；Or in the two ends of heat-preservation heat-collection header, the double joint medium arranged up and down is respectively equipped with into and out of connecting pipe head, is collected Around hot header, it is enclosed with insulating layer and shell；

Or heat-preservation heat-collection header is the dual channel thermal collecting header arranged up and down, and Inlet and outlet water is equipped on dual channel thermal collecting header end Pipe connected pipe head；Dual channel thermal collecting header is connected by being tightly connected pipe fitting unit with other pipe fittings or the sealing of dual channel thermal collecting header Connect in the two ends of thermal collecting header, be respectively equipped with single medium into and out of connecting pipe head, wherein, medium into collecting header tube Head is connect with the runner of downside, the runner connection for going out thermal collecting header tube head and upside of medium；Or heat-preservation heat-collection header is upper and lower The dual channel thermal collecting header of arrangement in the two ends of thermal collecting header, is respectively equipped with the double joint medium arranged up and down into and out of connecting tube Head；

Or thermal collecting header is the dual channel thermal collecting header arranged up and down equipped with air deflector, air deflector is set between upper and lower header, with Channel baffle is connected with header trepanning tube wall；Or in the two ends of thermal collecting header, single medium is respectively equipped with into and out of connecting tube Head, wherein, medium is connected into thermal collecting header tube head and the runner of downside, and medium goes out thermal collecting header tube head and the runner of upside Connection；Or thermal collecting header is the dual channel thermal collecting header arranged up and down equipped with air deflector, in the two ends of thermal collecting header, is set respectively There is the double joint medium arranged up and down into and out of connecting pipe head；Around thermal collecting header, it is enclosed with insulating layer and shell.

It is matched that 3. heat collector tube core vacuum heat-collecting tube module is laminated in a kind of bending horizontal with longitudinal direction a kind of described in claim 1 Thermal-collecting tube installs braced frame, it is characterized in that：Thermal-collecting tube installation braced frame includes heat-preservation heat-collection header, pressing tailstock support connection Arm, hangs " X " hanging brace joint arm connection group for drawing connection pressing tailstock support joint arm sum aggregate heat pipe standoff joint arm at thermal-collecting tube support joint arm Into；Thermal-collecting tube installation braced frame is unilateral stringing rectangular configuration, and heat-preservation heat-collection header is as one side, and as opposite another side Pressing tailstock support joint arm parallel arrangement, two thermal-collecting tubes support joint arms are parallel opposite, both ends respectively with heat-preservation heat-collection header It is connected with pressing tailstock support joint arm both ends, forms the rectangular profile of thermal-collecting tube installation braced frame, hang drawing connection pressing tailstock The two ends and heat-preservation heat-collection header sum aggregate heat pipe standoff for supporting " X " hanging brace joint arm side of joint arm sum aggregate heat pipe standoff joint arm join The both ends junction connection of arm hangs and draws " X " hanging brace joint arm of connection pressing tailstock support joint arm sum aggregate heat pipe standoff joint arm another It is connected with each other in the two ends of side, with the equal branch of pressing tailstock support joint arm, is formed and drawing is hung to pressing tailstock support joint arm, Connect the crosspoint of " X " hanging brace joint arm, composition thermal-collecting tube installation braced frame；

Or the crosspoint of the heat-preservation heat-collection header in thermal-collecting tube installation braced frame, pressing tailstock support joint arm, " X " hanging brace joint arm Between 3 points, wall is hung in connection one, wherein, heat-preservation heat-collection header hangs wall with centre and connects, and is formed in pressing tailstock support joint arm On, " rice " font pressing tailstock that spacing decile, crosspoint link together support joint arm hangs wall；

Or the crosspoint of the heat-preservation heat-collection header in thermal-collecting tube installation braced frame, pressing tailstock support joint arm, " X " hanging brace joint arm Between 3 points, wall is hung in one centre of connection, and a water tank is connected between sum aggregate heat pipe standoff joint arm on the downside of heat-preservation heat-collection header Joint arm is supported, wherein, water tank support joint arm is hung wall with centre and is connected, and is formed in spacing decile in pressing tailstock support joint arm, hands over " rice " the font pressing tailstock support joint arm that crunode links together hangs wall；

Thermal-collecting tube is installed braced frame or is supported equipped with rear load-bearing, and the load-bearing joint arm of rear load-bearing support is arranged on heat-preservation heat-collection header With the same end of pressing tailstock support joint arm, it is equipped between laterally tension joint arm or rear load-bearing support and is equipped between rear load-bearing support " X " tenses joint arm；Between heat-preservation heat-collection header and pressing tailstock support joint arm, joint arm, company in place are tensed by " X " It connects, forms indeformable thermal-collecting tube installation braced frame；

Or thermal-collecting tube installation braced frame includes heat-preservation heat-collection header, pressing tailstock support joint arm, thermal-collecting tube support joint arm, hangs drawing Connect " X " the hanging brace joint arm connection composition of pressing tailstock support joint arm sum aggregate heat pipe standoff joint arm；Thermal-collecting tube installs braced frame For both sides stringing, " day " shape structure, heat-preservation heat-collection header support joint arm as axis with the pressing tailstock as opposite both sides Parallel arrangement, two thermal-collecting tubes support joint arms are parallel opposite, both ends respectively with heat-preservation heat-collection header and heat-preservation heat-collection header both sides Pressing tailstock support joint arm both ends connection, form thermal-collecting tube installation braced frame falls " day " shape structure outline, hangs drawing connection Two ends and the heat-preservation heat-collection header of two " X " hanging brace joint arm sides of pressing tailstock support joint arm sum aggregate heat pipe standoff joint arm and The both ends junction connection of thermal-collecting tube support joint arm hangs and draws the two of connection two pressing tailstocks support joint arm sum aggregate heat pipe standoff joint arm It is connected with each other in the two ends of " X " hanging brace joint arm opposite side, with the equal branch of two pressing tailstocks support joint arm, is formed and held out against to two The crosspoint hung drawing, connect two " X " hanging brace joint arms of tailstock support joint arm, composition thermal-collecting tube installation braced frame；

Or the heat-preservation heat-collection header in thermal-collecting tube installation braced frame, two pressing tailstocks support joint arm, the intersection of " X " hanging brace joint arm Between six points of point, wall is hung in connection one, wherein, both sides and the centre of heat-preservation heat-collection header are hung wall and are connected, and are formed in two and hold out against tail In seat supports joint arm, two " rice " font pressing tailstocks that spacing decile, crosspoint link together support joint arm hangs wall；

Or the crosspoint of the heat-preservation heat-collection header in thermal-collecting tube installation braced frame, pressing tailstock support joint arm, " X " hanging brace joint arm Between 3 points, wall is hung in one centre of connection, and one or two is connected between sum aggregate heat pipe standoff joint arm on the downside of heat-preservation heat-collection header Water tank supports joint arm, wherein, water tank support joint arm is hung wall with centre and is connected, and is formed in spacing etc. in two pressing tailstocks support joint arm Point, two " rice " the font pressing tailstocks support joint arm that crosspoint links together hangs wall；

Thermal-collecting tube is installed braced frame or is supported equipped with rear load-bearing, and the load-bearing joint arm of rear load-bearing support is arranged on heat-preservation heat-collection header With the same end of two pressing tailstocks support joint arm, it is equipped between rear load-bearing support and tenses joint arm, heat-preservation heat-collection header and two holds out against tail Between seat supports joint arm, joint arm is tensed by two " X ", connection in place forms indeformable thermal-collecting tube installation support frame Frame.

4. heat collector tube core vacuum heat-collecting tube module, feature is laminated in the horizontal bending in a kind of longitudinal direction according to claim 1 It is：Pressing tailstock be a kind of Footstock of solar vacuum heat collection tube, the nut being threadedly coupled including bracket and with bracket, bracket It is made of tray, pressure pin, shape and the evacuated solar collecting tube tail of tray coordinate, and the tail portion of tray is connect with pressure pin undergauge, is held in the palm Have screw thread on one section of outer wall of bar, be mounted on pressure pin with the nut of pressure pin thread fitting, tray and pressure pin be integrated or for point Body suit connection composition；Tray and pressure pin are split, have on the bottom of tray and are set in plug together, nut peace with pressure pin There is the positioning edge coincideing with the support punching of stent pressing tailstock on pressure pin, on nut；Nut be equipped with nut it is concentric, There is certain interval with evacuated solar collecting tube tail portion, identical guarantor corresponding with the evacuated solar collecting tube tail portion equipped with supporting steel card Warm pipe sleeve, the opening of heat-insulating cover, is set with Sealing shield ring between evacuated solar collecting tube；Or the horizontal folding in longitudinal direction of pressure pin Curved stacking heat collector tube core wall or outer tube wall are equipped with more rib pipes used for positioning or more rib holes, and more rib pipes pass through pressing tailstock Corresponding trepanning positioning, more rib holes are positioned by corresponding more rib tools in support；Or pressure pin is plugged in water heater In the trepanning of stent pressing tailstock support, nut, which is installed on above the support of stent pressing tailstock or is installed on stent, holds out against tail Below seat supports, nut is installed on stent pressing tailstock and supports pressure pin thread segment above corresponding with nut above, nut Being installed on stent pressing tailstock supports following pressure pin thread segment corresponding with nut below；Or pressure pin is isometrical or undergauge, Pressure pin is equal to or more than pressure pin hypomere diameter with tray junction epimere diameter；

Or pressing tailstock be a kind of jacking and mounting thermal insulation tailstock for hanging solar vacuum heat-collecting pipe, including heat-insulating cover mount nut and Fastening screw, the outer wall that heat-insulating cover mounts nut are equipped with installation hook and stress supporting surface, at least one installation hook Set on the top of stress supporting surface, heat-insulating cover mounts nut equipped with internal thread corresponding with fastening screw, and insulating tube is hitched Loading nut is equipped with the heat-insulating cover for having certain interval with evacuated solar collecting tube tail end tube wall, the opening and the sun of heat-insulating cover It is equipped with Sealing shield ring between evacuated collector tube, the outer wall of fastening screw is equipped with mounts the corresponding outer spiral shell of nut with heat-insulating cover Line, fastening screw lower end are equipped with the pulling teeth for spinning, and spinning pulling teeth is set on the pore opening's edge inner wall of fastening screw lower end or sets In on the outer wall of fastening screw lower end, the upper end of fastening screw is equipped with the pore opening's edge stress supporting surface of installation bearing thing, pore Opening's edge stress supporting surface is corresponding with evacuated solar collecting tube tail portion bottom surface；The installation hook that heat-insulating cover mounts nut sets up separately In the upper and lower part of stress supporting surface；

Or pressing tailstock be a kind of pressing installed heat-preservation tailstock assembly of solar vacuum heat collecting tube, including screw thread bracket, screw base, Heat-insulating cover and wind loop, screw thread bracket are made of the external threaded with tray, and the outer surface of tray, which is equipped with, puts forth effort tip surface, Or screw thread bracket is made of the internal thread nut with tray, the outer surface of internal thread nut, which is equipped with, puts forth effort tip surface, screw base by End band puts forth effort tip surface external threaded composition or screw base is made of internal thread nut, and the outer surface of internal thread nut is set There is power tip surface；Screw thread bracket matches with screw rod, the nut shift length in screw base；Heat-insulating cover and screw thread bracket are same The heart is set with, and is corresponded, in heat-insulating cover diametrically, the outer surface of heat-insulating cover is respectively equipped with individual layer strip fin and bilayer Strip fin, the groove inserting of the individual layer strip fin of a heat-insulating cover and the double-deck strip fin of another heat-insulating cover Match, heat-insulating cover has certain interval, heat-insulating cover length and evacuated solar collecting tube tail portion branch with evacuated solar collecting tube tail portion It is corresponding to support steel card installation site, has Sealing shield ring to insert it between the upper opening and evacuated solar collecting tube of heat-insulating cover It is interior；Screw base is installed on water heater support's pressing tailstock support upper surface positioning convex closure or location dimples.

It is matched that 5. heat collector tube core vacuum heat-collecting tube module is laminated in a kind of bending horizontal with longitudinal direction a kind of described in claim 1 The production technology of heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, it is characterized in that：Heat pipe is laminated in the horizontal bending in longitudinal direction Heat collector tube core, medium disengaging tube head glass envelope is laminated including cover glass pipe, the horizontal bending in longitudinal direction in collecting core evacuated collector tube Connect end cap, heat collector tube core is laminated to successively bend return, up and down in clamping position support getter bullet card, its horizontal bending in longitudinal direction Heat collector tube core pipe row is laminated close to arrangement, the horizontal bending in the longitudinal direction of distribution in the same plane in layer, and the horizontal bending in longitudinal direction is laminated The condensation tube head that picks out of heat collector tube core pipe row is distributed in the upper end arrangement that the horizontal bending stacking heat collector tube core pipe in longitudinal direction is arranged Axis straight tube, the U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports bullet card, by bending Longitudinally heat collector tube core pipe row's assembling positioning is laminated integrally in horizontal bending to glass baseplate；By being assemblied in the horizontal bending layer in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of folded collecting core both sides, by bending glass baseplate, longitudinally heat collector tube is laminated in horizontal bending Core pipe row's assembling positioning is integral；Clamping position support getter bullet card is equipped with, by the longitudinally horizontal bending of bending glass baseplate It is integral that the row's assembling positioning of heat collector tube core pipe is laminated, the horizontal bending in longitudinal direction be laminated on heat collector tube core pipe row surface be compounded with according to The secondary function heat absorption membrane tube face formed for reflectance coating, absorbing film, antireflective film；Picking out for heat collector tube core is laminated in the horizontal bending in longitudinal direction Tube head is condensed, is encapsulated on glass sealing end cap by glass solder, the horizontal bending in longitudinal direction is made, heat collector tube core is laminated；It will be vertical Heat collector tube core is laminated to horizontal bending and is plugged in one end open, other end end socket is equipped with the cover glass pipe of tailpipe It is interior, getter bullet card is supported by being equipped with clamping position, the horizontal bending stacking heat collector tube core in longitudinal direction is supported and fixed on outer In the inner radial wall of cover glass tube, cover glass pipe and the closing of connection end cap glass solder, after upper exhaust station vacuumizes, glass weldering Sealing separation tailpipe is connect, evaporates getter, later, heat collector tube core vacuum collection is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on heat pipe phase change medium condensation release end of heat vacuumizes phase change medium condensation release end of heat cavity, later The horizontal bending in longitudinal direction is laminated heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase change medium fills Note pipe is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube core evacuated collector tube is laminated；

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be sleeved on same glass sealing end cap, be made Heat collector tube core assembly is laminated in the horizontal bending in longitudinal direction；The horizontal bending stacking heat collector tube core assembly in longitudinal direction is plugged in one end to open Mouthful, other end end socket is equipped in the cover glass pipe of tailpipe, and connecing for heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction Go out to condense tube head and be distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, by being assemblied in The U-shaped longitudinal direction clamping position support bullet card of collecting core both sides is laminated in the horizontal bending in longitudinal direction, by the longitudinal horizontal folding of bending glass baseplate Curved stacking heat collector tube core pipe row assembling positioning is integral；The U-shaped of collecting core both sides is laminated by being assemblied in the horizontal bending in longitudinal direction Longitudinal clamping position supports bullet card, and by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling is positioned to one Body；Getter bullet card is supported by being equipped with clamping position, the horizontal bending stacking heat collector tube core in longitudinal direction is supported and fixed on outer In the inner radial wall of cover glass tube, cover glass pipe and the closing of connection end cap glass solder, will longitudinal directions later by glass solder The condensation tube head that picks out that heat collector tube core is laminated in horizontal bending is welded with glass sealing-in end cap packaged glass；Upper exhaust station vacuumizes Afterwards, glass solder sealing separation tailpipe, evaporates getter, later, heat pipe collection is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on hot core evacuated collector tube phase change medium condensation release end of heat takes out phase change medium condensation release end of heat cavity The horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing in vacuum Phase change medium filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube core vacuum collection is laminated Heat pipe；

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, glass sealing end cap is encapsulated in by glass solder On, the horizontal bending in longitudinal direction is made, heat collector tube core is laminated；Heat collector tube core is laminated in the horizontal bending in longitudinal direction and is plugged in one end open, In the cover glass pipe that the other end is equally open, the condensation tube head that picks out that heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction is distributed In longitudinal direction, the axis straight tube of the upper end arrangement of heat collector tube core pipe row is laminated in horizontal bending, by being assemblied in the horizontal bending layer in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of folded collecting core both sides, by bending glass baseplate, longitudinally heat collector tube is laminated in horizontal bending Core pipe row's assembling positioning is integral；The U-shaped longitudinal direction clamping position branch of collecting core both sides is laminated by being assemblied in the horizontal bending in longitudinal direction Bullet card is supportted, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral by bending glass baseplate；By being equipped with Clamping position supports getter bullet card, and the horizontal bending stacking heat collector tube core in longitudinal direction is supported and fixed on to the radial direction of cover glass pipe On inner wall, the connection end cap of heat collector tube core is laminated in the horizontal bending in longitudinal direction and cover glass pipe corresponding opening glass solder is closed, Another open glass sealing welding end socket of cover glass pipe simultaneously draws welding tailpipe, after upper exhaust station vacuumizes, glass Welding sealing separation tailpipe, evaporates getter, later, heat collector tube core vacuum is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on thermal-collecting tube phase change medium condensation release end of heat vacuumizes phase change medium condensation release end of heat cavity, it The horizontal bending in longitudinal direction is laminated afterwards heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase change medium Filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube core evacuated collector tube is laminated；

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be sleeved on same glass sealing end cap, be made Heat collector tube core assembly is laminated in the horizontal bending in longitudinal direction；Heat collector tube core is laminated in the horizontal bending in longitudinal direction and is plugged in one end open, separately In the cover glass pipe that one end is equally open, the condensation tube head that picks out that heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction is distributed in The axis straight tube of the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, is laminated by being assemblied in the horizontal bending in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of collecting core both sides, by bending glass baseplate, longitudinally heat collector tube core is laminated in horizontal bending Pipe row's assembling positioning is integral；The U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports Bullet card, by bending glass baseplate, longitudinally heat collector tube core pipe row's assembling positioning is laminated integrally in horizontal bending；By being equipped with folder Positioning support getter bullet card is held, the diameter that the horizontal bending stacking heat collector tube core in longitudinal direction is supported and fixed on cover glass pipe is inside On wall, the connection end cap of heat collector tube core is laminated in the horizontal bending in longitudinal direction and cover glass pipe corresponding opening glass solder is closed, it Afterwards by glass solder, picking out for heat collector tube core is laminated in the horizontal bending in longitudinal direction and condenses tube head and glass sealing-in end cap packaged glass Welding；Another open glass sealing welding end socket of cover glass pipe simultaneously draws welding tailpipe, after upper exhaust station vacuumizes, Glass solder sealing separation tailpipe, evaporates getter, later, heat collector tube core is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on evacuated collector tube phase change medium condensation release end of heat is taken out phase change medium condensation release end of heat cavity true The horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase in sky Become medium filler line, the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum is made, heat collector tube core vacuum heat-collecting is laminated Pipe；

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, glass sealing end cap is encapsulated in by glass solder On, the horizontal bending in longitudinal direction is made, heat collector tube core is laminated；Heat collector tube core is laminated in the horizontal bending in longitudinal direction and is plugged in one end open, Other end end socket is equipped in the cover glass pipe of tailpipe, and the horizontal bending stacking heat collector tube core pipe row's in longitudinal direction picks out condensation Tube head is distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, by being assemblied in longitudinal horizontal stroke The U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in bending is put, longitudinally horizontal bending is laminated by bending glass baseplate The row's assembling positioning of heat collector tube core pipe is integral；The U-shaped that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction longitudinally presss from both sides Positioning support bullet card is held, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral by bending glass baseplate；It is logical It crosses and is equipped with clamping position support getter bullet card, the horizontal bending in longitudinal direction is laminated heat collector tube core is supported and fixed on cover glass In the inner radial wall of pipe, the horizontal bending in longitudinal direction is laminated to the connection end cap of heat collector tube core, is connect with cover glass pipe corresponding opening Alignment glass solder closing is touched, heat collector tube core vacuum heat-collecting tube assembly is laminated in the horizontal bending in longitudinal direction that assembling is had good positioning, and puts In in heating, vacuum stove, vacuumizing and exhausting is heated, then by laser glass bonding machine, through seal glass window to cover glass Pipe tailpipe glass solder is closed, and evaporates getter, later, true by being arranged on the horizontal bending stacking heat collector tube core in longitudinal direction Phase change medium filler line on empty set heat pipe phase change medium condensation release end of heat vacuumizes phase change medium condensation release end of heat cavity, The horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase transformation is situated between Matter filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube core evacuated collector tube is laminated；

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be sleeved on same glass sealing end cap, be made Heat collector tube core assembly is laminated in the horizontal bending in longitudinal direction；Heat collector tube core is laminated in the horizontal bending in longitudinal direction and is plugged in one end open, separately In the cover glass pipe that one end is equally open, the condensation tube head that picks out that heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction is distributed in The axis straight tube of the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, is laminated by being assemblied in the horizontal bending in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of collecting core both sides, by bending glass baseplate, longitudinally heat collector tube core is laminated in horizontal bending Pipe row's assembling positioning is integral；The U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports Bullet card, by bending glass baseplate, longitudinally heat collector tube core pipe row's assembling positioning is laminated integrally in horizontal bending；By being equipped with folder Positioning support getter bullet card is held, the diameter that the horizontal bending stacking heat collector tube core in longitudinal direction is supported and fixed on cover glass pipe is inside On wall, the connection end cap of heat collector tube core is laminated in the horizontal bending in longitudinal direction and cover glass pipe corresponding opening glass solder is closed, will It assembles the horizontal bending in the longitudinal direction having good positioning and heat collector tube core vacuum heat-collecting tube assembly is laminated, be placed in heating, vacuum stove, heating is taken out It is vacuum-evacuated, then by laser glass bonding machine, heat collector tube core is laminated in the horizontal bending in longitudinal direction through seal glass window Pick out condensation tube head and glass sealing-in end cap laser glass welded closure；Getter is evaporated, later, by being arranged on the horizontal folding in longitudinal direction The curved phase change medium filler line being laminated on heat collector tube core evacuated collector tube phase change medium condensation release end of heat, condenses phase change medium Release end of heat cavity vacuumizes, and the horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, Glass solder closes phase change medium filler line, the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum is made, heat pipe is laminated Collecting core evacuated collector tube；

It makes the horizontal bending in longitudinal direction and heat collector tube core evacuated collector tube is laminated including technique is produced by below：The interior glass of collecting core is thin Shell is processed into bending laminated glass pipe by lamp work, it is flush to the tube head of bending laminated glass pipe later, burn mouth, cleaning, Drying, upper both ends clamping position support getter bullet card, and in the surface recombination absorption film of pipe, heat pipe collection is laminated in the horizontal bending in longitudinal direction The axis for picking out the upper end arrangement that condensation tube head is distributed in the horizontal bending stacking heat collector tube core pipe row in longitudinal direction of hot core pipe row is straight Pipe, the U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports bullet card, by bending glass base Longitudinally heat collector tube core pipe row's assembling positioning is laminated integrally in horizontal bending to material；Thermal-arrest is laminated by being assemblied in the horizontal bending in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of core both sides, by bending glass baseplate, longitudinally heat collector tube core pipe row is laminated in horizontal bending Assembling positioning is integral；The horizontal bending in longitudinal direction is laminated heat collector tube core to be inserted into, and getter bullet card is supported by clamping position It is supported and fixed in the inner radial wall of cover glass pipe, is closed by connection end cap glass solder；First opening cover glass pipe By mold heat collector tube is laminated with the horizontal bending in longitudinal direction into equipped with import and export in its machining and shaping by mouth end glass solder end socket The corresponding glass nozzle of core condensation end size；The inlet and outlet nozzle of heat collector tube core the same end will be laminated in the horizontal bending in longitudinal direction, insert Enter in the inlet and outlet nozzle reserved on cover glass pipe end and shift bottom end onto, later, external another openend end socket of cover glass tube And connection tailpipe is made, then, heat collector tube core condensation end pusher is laminated in the horizontal bending in longitudinal direction in external cover glass tube To setting position, heat collector tube core condensation end, the nozzle glass with the same end opening of cover glass pipe are laminated to the horizontal bending in longitudinal direction Duration and degree of heating, cooling are closed in glass solder up, and inflate shaping by mold, annealing, the horizontal bending in longitudinal direction be laminated heat collector tube core into Go out the sealing of glass tube head to complete；Upper exhaust station, tailpipe connection exhaust tube, vacuumizes rear glass solder sealed-off tailpipe； Getter is evaporated, later, is put by being arranged on the horizontal bending stacking heat collector tube core evacuated collector tube phase change medium condensation in longitudinal direction Phase change medium filler line on hot junction vacuumizes phase change medium condensation release end of heat cavity, the horizontal bending in longitudinal direction is laminated later Heat collector tube core evacuated collector tube fills phase-change heat transfer medium, and cover glass is made in glass solder closing phase change medium filler line Heat collector tube core evacuated collector tube is laminated for the horizontal bending in longitudinal direction of high vacuum in pipe tube chamber.

It is matched that 6. heat collector tube core vacuum heat-collecting tube module is laminated in a kind of bending horizontal with longitudinal direction a kind of described in claim 1 The production technology of heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, it is characterized in that：Heat pipe is laminated in the horizontal bending in longitudinal direction Collecting core picks out condensation tube head, is plugged in one end open, and other end end socket is equipped with the horizontal bending in longitudinal direction and heat collector tube is laminated Core is picked out in the cover glass pipe of tube head trepanning, and the horizontal bending stacking heat collector tube core in longitudinal direction is picked out tube head and passes through outer cover glass Trepanning export on glass channel closure, the condensation tube head that picks out that heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction are distributed in longitudinal horizontal stroke The axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in bending is put, collecting core is laminated by being assemblied in the horizontal bending in longitudinal direction The U-shaped longitudinal direction clamping position support bullet card of both sides, by bending glass baseplate, longitudinally heat collector tube core pipe row's group is laminated in horizontal bending It is integral to set position；The U-shaped longitudinal direction clamping position that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction supports bullet card, will Longitudinally heat collector tube core pipe row's assembling positioning is laminated integrally in horizontal bending to bending glass baseplate；By being equipped with clamping position branch Getter bullet card is supportted, the horizontal bending in longitudinal direction is laminated heat collector tube core is supported and fixed in the inner radial wall of cover glass pipe, will Another openend glass head seal welding end socket of cover glass pipe simultaneously draws welding tailpipe, the outer cover of glass solder closing later The horizontal bending of trepanning and longitudinal direction on glass channel closure is laminated heat collector tube core and picks out tube head, after upper exhaust station vacuumizes, glass Welding sealing separation tailpipe, evaporates getter, later, heat collector tube core vacuum is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on thermal-collecting tube phase change medium condensation release end of heat vacuumizes phase change medium condensation release end of heat cavity, it The horizontal bending in longitudinal direction is laminated afterwards heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase change medium Filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube core evacuated collector tube is laminated；

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be plugged in one end open, set in other end end socket There is the horizontal bending in longitudinal direction that heat collector tube core is laminated to pick out in the cover glass pipe of tube head trepanning, and heat is laminated in the horizontal bending in longitudinal direction Pipe collecting core picks out tube head and is exported by the trepanning on cover glass channel closure, and heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction The condensation tube head that picks out be distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, pass through dress The U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction is fitted over, bending glass baseplate longitudinal direction is horizontal It puts bending and heat collector tube core pipe row's assembling positioning is laminated integrally；Collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction U-shaped longitudinal direction clamping position support bullet card, by bending glass baseplate, longitudinally the row's assembling positioning of heat collector tube core pipe is laminated in horizontal bending Integrally；Getter bullet card is supported by being equipped with clamping position, the horizontal bending in longitudinal direction is laminated the support of heat collector tube core fixes In the inner radial wall of outer cover glass tube；Heat collector tube core is laminated in the horizontal bending in longitudinal direction and picks out tube head, by glass solder with Trepanning welding sealing on cover glass channel closure；Another openend glass head seal of cover glass pipe is welded into end socket and is drawn Tailpipe is welded, after upper exhaust station vacuumizes, glass solder sealing separation tailpipe evaporates getter, later, by setting It puts and the phase change medium filler line on heat collector tube core evacuated collector tube phase change medium condensation release end of heat is laminated in the horizontal bending in longitudinal direction, Phase change medium condensation release end of heat cavity is vacuumized, the filling of heat collector tube core evacuated collector tube is laminated to the horizontal bending in longitudinal direction later Phase-change heat transfer medium, glass solder closing phase change medium filler line, the longitudinal direction that cover glass pipe tube chamber is made as high vacuum are horizontal It puts bending and heat collector tube core evacuated collector tube is laminated；

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be plugged in one end open, set in other end end socket There is the horizontal bending in longitudinal direction that heat collector tube core is laminated to pick out in the cover glass pipe of tube head trepanning, and heat is laminated in the horizontal bending in longitudinal direction Pipe collecting core picks out tube head, is exported by the trepanning on cover glass channel closure, and heat collector tube core pipe is laminated in the horizontal bending in longitudinal direction The condensation tube head that picks out of row is distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, passes through The U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction is assemblied in, by bending glass baseplate longitudinal direction It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in horizontal bending；Collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction U-shaped longitudinal direction clamping position support bullet card, by bending glass baseplate, longitudinally that the row's assembling of heat collector tube core pipe is laminated is fixed for horizontal bending Position is integral；Getter bullet card is supported by being equipped with clamping position, it is solid that the horizontal bending in longitudinal direction is laminated the support of heat collector tube core It is scheduled in the inner radial wall of cover glass pipe, later seals another openend glass solder of cover glass pipe, it later will dress With what is had good positioning, heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, is placed in heating, vacuum stove, heats the row of vacuumizing Gas, then by laser glass bonding machine, glass solder closes the horizontal bending layer of trepanning and longitudinal direction on cover glass channel closure Folded heat collector tube core picks out tube head, evaporates getter, later, heat collector tube core vacuum is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on thermal-collecting tube phase change medium condensation release end of heat vacuumizes phase change medium condensation release end of heat cavity, it The horizontal bending in longitudinal direction is laminated afterwards heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase change medium Filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube core evacuated collector tube is laminated；

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be plugged in one end open, set in other end end socket There is the horizontal bending in longitudinal direction that heat collector tube core is laminated to pick out in the cover glass pipe of tube head trepanning, and heat is laminated in the horizontal bending in longitudinal direction Pipe collecting core picks out tube head, is exported by the trepanning on cover glass channel closure, and heat collector tube core pipe is laminated in the horizontal bending in longitudinal direction The condensation tube head that picks out of row is distributed in the axis straight tube that the upper end arrangement of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction, passes through The U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction is assemblied in, by bending glass baseplate longitudinal direction It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in horizontal bending；Collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction U-shaped longitudinal direction clamping position support bullet card, by bending glass baseplate, longitudinally that the row's assembling of heat collector tube core pipe is laminated is fixed for horizontal bending Position is integral；Getter bullet card is supported by being equipped with clamping position, it is solid that the horizontal bending in longitudinal direction is laminated the support of heat collector tube core It is scheduled in the inner radial wall of cover glass pipe, by glass solder, it is cold that picking out for heat collector tube core is laminated in the horizontal bending in longitudinal direction Solidifying tube head is welded with the glass panel with holes sealing on cover glass channel closure；Another openend glass head seal of cover glass pipe is welded It connects end socket and draws welding tailpipe, heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction later, is placed in heating In vacuum drying oven, vacuumizing and exhausting is heated, then by laser glass bonding machine, on glass solder sealed-off cover glass channel closure Tailpipe evaporates getter, later, heat collector tube core evacuated collector tube phase transformation Jie is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on matter condensation release end of heat vacuumizes phase change medium condensation release end of heat cavity, horizontal to longitudinal direction later Heat collector tube core evacuated collector tube filling phase-change heat transfer medium is laminated in bending, and glass solder closing phase change medium filler line is made Heat collector tube core evacuated collector tube is laminated for the horizontal bending in longitudinal direction of high vacuum in cover glass pipe tube chamber；

It makes the horizontal bending in longitudinal direction and heat collector tube core evacuated collector tube is laminated including technique is produced by below：The interior glass of collecting core is thin Shell is processed into bending laminated glass pipe by lamp work, it is flush to the tube head of bending laminated glass pipe later, burn mouth, cleaning, Drying, upper both ends clamping position support getter bullet card, and in the surface recombination absorption film of pipe, the horizontal bending in longitudinal direction is laminated heat pipe Collecting core insertion is supported and fixed in the inner radial wall of cover glass pipe, is exported by the trepanning on cover glass channel closure；It is vertical The condensation tube head that picks out that heat collector tube core pipe row is laminated to horizontal bending is distributed in the horizontal bending stacking heat collector tube core pipe in longitudinal direction The U-shaped longitudinal direction clamping position of collecting core both sides is laminated by being assemblied in the horizontal bending in longitudinal direction for the axis straight tube of the upper end arrangement of row Bullet card is supported, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral by bending glass baseplate；Pass through assembling In longitudinal direction, the U-shaped longitudinal direction clamping position support bullet card of collecting core both sides is laminated in horizontal bending, and bending glass baseplate is longitudinally horizontal It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in bending；Getter bullet card is supported by being equipped with clamping position, it will longitudinal direction Horizontal bending is laminated heat collector tube core and is supported and fixed in the inner radial wall of cover glass pipe, later by the another of cover glass pipe Openend glass solder sealing will assemble what is had good positioning later, and heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, puts In in heating, vacuum stove, vacuumizing and exhausting is heated, then by laser glass bonding machine, is welded through seal glass window laser glass It connects the horizontal bending stacking heat collector tube core of the trepanning on closed cover glass channel closure and longitudinal direction and picks out tube head, evaporate getter, Later, the phase transformation being laminated on heat collector tube core evacuated collector tube phase change medium condensation release end of heat by being arranged on the horizontal bending in longitudinal direction Medium filler line vacuumizes phase change medium condensation release end of heat cavity, and it is true that heat collector tube core is laminated to the horizontal bending in longitudinal direction later Empty set heat pipe fills phase-change heat transfer medium, and cover glass pipe tube chamber is made as height in glass solder closing phase change medium filler line Heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction of vacuum.

It is matched that 7. heat collector tube core vacuum heat-collecting tube module is laminated in a kind of bending horizontal with longitudinal direction a kind of described in claim 1 The production technology of heat collector tube core evacuated collector tube is laminated in the horizontal bending in longitudinal direction, it is characterized in that：Heat pipe is laminated in the horizontal bending in longitudinal direction Collecting core picks out condensation tube head, is plugged in one end open, and other end end socket is equipped in the cover glass pipe of tailpipe, is indulged The condensation tube head that picks out that heat collector tube core pipe row is laminated to horizontal bending is distributed in the horizontal bending stacking heat collector tube core pipe in longitudinal direction The U-shaped longitudinal direction clamping position of collecting core both sides is laminated by being assemblied in the horizontal bending in longitudinal direction for the axis straight tube of the upper end arrangement of row Bullet card is supported, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral by bending glass baseplate；Pass through assembling In longitudinal direction, the U-shaped longitudinal direction clamping position support bullet card of collecting core both sides is laminated in horizontal bending, and bending glass baseplate is longitudinally horizontal It is integral that the row's assembling positioning of heat collector tube core pipe is laminated in bending；Getter bullet card is supported by being equipped with clamping position, it will longitudinal direction Horizontal bending is laminated heat collector tube core and is supported and fixed in the inner radial wall of cover glass pipe, by another opening of cover glass pipe Glass solder sealing is held, cover glass pipe is fixed on by tooling clamping on glass work lathe, the outer cover on glass work lathe Glass tube is opened along cover glass pipe axis rotation, arc row's shape heating duration and degree of heating, and heating enclosure glass tube, heating location is beyond longitudinal direction Heat collector tube core pipe mouth setting position is laminated in horizontal bending；Flame is treated by after cover glass pipe scorification, stationary housings glass tube Manipulator at mouthful pulls away the cover glass tube head of scorification, and duration and degree of heating continues to heat, and makes cover glass pipe that envelope be drawn to form closing bottom Face draws back cover identity distance that heat collector tube core pipe mouth is laminated equipped with a certain distance from from the horizontal bending in longitudinal direction；Duration and degree of heating position is adjusted, makes duration and degree of heating Always the bottom surface being honored as a queen is drawn in heating, and glass tube at the bottom surface being honored as a queen is drawn to continue, by scorification, back cover face to be drawn gradually to thicken, draws back cover face The movement of heat collector tube core pipe head direction constantly is laminated to the horizontal bending in longitudinal direction, until the drawing back cover face of melting and the horizontal bending in longitudinal direction The docking of heat collector tube core pipe mouth is laminated to get up；Treat that heat collector tube core pipe mouth is laminated with drawing the fusion of back cover face one in the horizontal bending in longitudinal direction It rises, glass work lathe stalling, heat collector tube core pipe head center is laminated in horizontal bending to the charge bar of seizing on glass work lathe along longitudinal direction, is sealed from drawing Bottom surface is insinuated into the horizontal bending in longitudinal direction and is laminated in heat collector tube core pipe mouth, and heat collector tube core pipe mouth is laminated in the horizontal bending in longitudinal direction, And glass at back cover face is drawn, it is wound into seize and pulls out and cut off on charge bar；Duration and degree of heating continues to heat, and porose frit retraction melts Melt to the horizontal bending in longitudinal direction and be laminated on heat collector tube core pipe mouth, make the horizontal bending in longitudinal direction that heat collector tube core be laminated with drawing back cover face The complete scorification of frit；Later, glass weldering is vented the condensation end of heat pipe of medium filling nozzle to being equipped with；Later, in inside-and-outside ring On glass end socket, mold is set with, air is filled with to glass ring intracavitary by the tailpipe of cover glass pipe tail portion, makes sealing part It heaves and shapes；The ring packing glass solder nozzle of small fire heating later is annealed, and is closed duration and degree of heating later, is cooled down, and is completed vertical Heat collector tube core pipe head is laminated to horizontal bending and the glass solder of cover glass channel closure is closed；After upper exhaust station vacuumizes, Glass solder sealed-off tailpipe；Getter is evaporated, later, heat collector tube core vacuum is laminated by being arranged on the horizontal bending in longitudinal direction Phase change medium filler line on thermal-collecting tube phase change medium condensation release end of heat vacuumizes phase change medium condensation release end of heat cavity, it The horizontal bending in longitudinal direction is laminated afterwards heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass solder closing phase change medium Filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube core evacuated collector tube is laminated；

Or the horizontal bending in longitudinal direction be laminated heat collector tube core pick out condensation tube head, be plugged in the cover glass pipe of both ends open, The condensation tube head that picks out that heat collector tube core pipe row is laminated in longitudinal horizontal bending is distributed in the horizontal bending stacking heat collector tube core in longitudinal direction The axis straight tube of the upper end arrangement of pipe row, by being assemblied in the U-shaped of the horizontal bending stacking collecting core both sides in longitudinal direction, longitudinally clamping is fixed Position support bullet card, by bending glass baseplate, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral；Pass through dress The U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction is fitted over, bending glass baseplate longitudinal direction is horizontal It puts bending and heat collector tube core pipe row's assembling positioning is laminated integrally；Getter bullet card is supported by being equipped with clamping position, it will be vertical Heat collector tube core is laminated to horizontal bending to be supported and fixed in the inner radial wall of cover glass pipe, another by cover glass pipe opens Cover glass pipe is fixed on by tooling clamping on glass work lathe by mouth end glass solder sealing, outer on glass work lathe Cover glass tube is opened along cover glass pipe axis rotation, arc row's shape heating duration and degree of heating, and heating enclosure glass tube, heating location is beyond vertical Heat collector tube core pipe mouth setting position is laminated to horizontal bending；Flame is treated by after cover glass pipe scorification, stationary housings glass Manipulator at nozzle pulls away the cover glass tube head of scorification, and duration and degree of heating continues to heat, and makes cover glass pipe that envelope be drawn to form closing Bottom surface draws back cover identity distance that heat collector tube core pipe mouth is laminated equipped with a certain distance from from the horizontal bending in longitudinal direction；Duration and degree of heating position is adjusted, makes fire Always the bottom surface being honored as a queen is drawn in heating to head, and glass tube at the bottom surface being honored as a queen is drawn to continue, by scorification, back cover face to be drawn gradually to thicken, draws back cover Constantly the movement of heat collector tube core pipe head direction is laminated to the horizontal bending in longitudinal direction in face, until the drawing back cover face of melting and the horizontal folding in longitudinal direction Curved stacking heat collector tube core pipe mouth docking is got up；Treat that heat collector tube core pipe mouth is laminated with the fusion of back cover face is drawn to exist in the horizontal bending in longitudinal direction Together, glass work lathe stalls, and heat collector tube core pipe head center is laminated in horizontal bending to the charge bar of seizing on glass work lathe along longitudinal direction, from drawing Back cover face is insinuated into the horizontal bending in longitudinal direction and is laminated in heat collector tube core pipe mouth, and heat collector tube core pipe is laminated in the horizontal bending in longitudinal direction Mouthful and draw glass at back cover face, be wound into seize and pull out and cut off on charge bar；Duration and degree of heating continues to heat, porose frit retraction, It is molten to the horizontal bending in longitudinal direction to be laminated on heat collector tube core pipe mouth, makes the horizontal bending in longitudinal direction that heat collector tube core be laminated with drawing back cover face The complete scorification of frit；Later, glass weldering is vented the condensation end of heat pipe of medium filling nozzle to being equipped with；Later, in inner and outer ring On shape glass end socket, mold is set with, air is filled with to glass ring intracavitary by the opening of cover glass pipe tail portion, rouses sealing part It rises and shapes；The ring packing glass solder nozzle of small fire heating later is annealed, and is closed duration and degree of heating later, is cooled down, completes longitudinal direction Heat collector tube core pipe head is laminated in horizontal bending and the glass solder of cover glass channel closure is closed；Another by cover glass pipe opens Mouth end glass head seal welds and draws welding tailpipe；After upper exhaust station vacuumizes, glass solder sealed-off tailpipe；Evaporation Later, heat collector tube core evacuated collector tube phase change medium condensation release end of heat is laminated by being arranged on the horizontal bending in longitudinal direction in getter On phase change medium filler line, phase change medium condensation release end of heat cavity is vacuumized, heat pipe is laminated to the horizontal bending in longitudinal direction later Collecting core evacuated collector tube fills phase-change heat transfer medium, and cover glass pipe pipe is made in glass solder closing phase change medium filler line Heat collector tube core evacuated collector tube is laminated for the horizontal bending in longitudinal direction of high vacuum in chamber；

It makes the horizontal bending in longitudinal direction and heat collector tube core evacuated collector tube is laminated including technique is produced by below：The interior glass of collecting core is thin Shell is processed into bending laminated glass pipe by lamp work, it is flush to the tube head of bending laminated glass pipe later, burn mouth, cleaning, Drying；The condensation tube head that picks out that heat collector tube core pipe row is laminated in longitudinal horizontal bending is distributed in the horizontal bending stacking heat pipe collection in longitudinal direction The axis straight tube of the upper end arrangement of hot core pipe row, the U-shaped that collecting core both sides are laminated by being assemblied in the horizontal bending in longitudinal direction longitudinally press from both sides Positioning support bullet card is held, longitudinally horizontal bending stacking heat collector tube core pipe row's assembling positioning is integral by bending glass baseplate；It is logical It crosses and is assemblied in the U-shaped longitudinal direction clamping position support bullet card that collecting core both sides are laminated in the horizontal bending in longitudinal direction, bending glass baseplate is indulged It is integral that the row's assembling positioning of heat collector tube core pipe is laminated to horizontal bending；Upper both ends clamping position supports getter bullet card, in pipe Surface recombination absorption film；First by cover glass pipe one end end socket and tailpipe is connected, heat pipe is laminated in the horizontal bending in longitudinal direction Collecting core is inserted into cover glass nozzle, is supported and fixed in the inner radial wall of cover glass pipe；Later in the horizontal bending in longitudinal direction It is laminated on the setpoint distance of heat collector tube core open side and cover glass pipe one end；Cover glass pipe by tooling is clamped and is installed It is fixed on glass work lathe, the cover glass pipe on glass work lathe is opened along cover glass pipe axis rotation, arc row's shape heating duration and degree of heating It opens, heating enclosure glass tube, beyond longitudinal direction, heat collector tube core pipe mouth setting position is laminated in horizontal bending to heating location；Treat that flame will After cover glass pipe scorification, the manipulator at stationary housings glass nozzle pulls away the glass tube head of scorification, and duration and degree of heating continues to add Heat makes cover glass pipe that envelope be drawn to form closing bottom surface, draws back cover identity distance that heat collector tube core pipe mouth is laminated from the horizontal bending in longitudinal direction and sets There is certain distance；Duration and degree of heating position is adjusted, duration and degree of heating is made to heat the bottom surface drawn and be honored as a queen always, glass tube at the bottom surface being honored as a queen is drawn to continue quilt Scorification draws back cover face gradually to thicken, and draws back cover face that the movement of heat collector tube core pipe head direction constantly is laminated to the horizontal bending in longitudinal direction, directly Heat collector tube core pipe mouth is laminated with the horizontal bending in longitudinal direction to the drawing back cover face of melting to dock；Treat that heat is laminated in the horizontal bending in longitudinal direction With back cover face is drawn to fuse together, glass work lathe stops operating pipe collecting core nozzle, glass work lathe to seize charge bar horizontal along longitudinal direction The drawing back cover face at heat collector tube core pipe mouth center is laminated in bending, is insinuated into the horizontal bending in longitudinal direction and is laminated in heat collector tube core pipe mouth, The glass that the horizontal bending in longitudinal direction is laminated at heat collector tube core pipe mouth and drawing back cover face is wound into seize and pulls out and cuts off on charge bar；Fire Head continues to heat, and porose frit retraction is molten to the horizontal bending in longitudinal direction and is laminated on heat collector tube core pipe mouth, makes longitudinal direction horizontal Heat collector tube core is laminated with drawing the complete scorification of frit in back cover face in bending；Later, glass weldering is to being equipped with exhaust medium filling The condensation end of heat pipe of mouth；Later, on inside-and-outside ring glass end socket, mold is set with, passes through the exhaust tail of cover glass pipe tail portion Pipe is filled with air to glass ring intracavitary, and sealing part is made to heave and shape；Later small fire heat ring packing glass solder nozzle into Row annealing；Duration and degree of heating is closed later, is cooled down, and completes the pressurizing window of ring glass tube head；Upper exhaust station later, tailpipe connection Exhaust tube vacuumizes rear glass solder sealed-off tailpipe, evaporates getter, later, by being arranged on the horizontal bending layer in longitudinal direction Phase change medium filler line on folded heat collector tube core evacuated collector tube phase change medium condensation release end of heat, heat release is condensed to phase change medium End cavity vacuumizes, and the horizontal bending in longitudinal direction is laminated later heat collector tube core evacuated collector tube filling phase-change heat transfer medium, glass Welded closure phase change medium filler line is made the horizontal bending in longitudinal direction that cover glass pipe tube chamber is high vacuum and heat collector tube is laminated Core evacuated collector tube.

8. a kind of be laminated heat collector tube core vacuum heat-collecting tube module with a kind of horizontal bending in longitudinal direction of claim 1,5,6 or 7 Matched clamping position supports getter bullet card, it is characterized in that：Set on longitudinal direction, the U of heat collector tube core both sides is laminated in horizontal bending Shape longitudinal direction clamping position support bullet card, for U-shaped elastic metallic channel steel corresponding with collecting core length and height, U-shaped elastic metallic Channel steel, which is equipped with, clasps the protrusion that collecting core both sides bending concave point is laminated in the horizontal bending in longitudinal direction；It is mounted at least the horizontal bending in longitudinal direction The clamping position support getter bullet card at collecting core both ends is laminated, by buckle, elastic metallic material on elastic metallic material card Buckle and getter three parts composition under card；The upper and lower elastic metallic material card of U-shaped longitudinal direction clamping position support bullet card, Using the mutually symmetrical with every a piece of both sides of two panels, it is respectively equipped with mutual corresponding card slot and clamp；Elastic metallic material card On card slot and clamp, be at least one oblique card slot, with linear type elasticity top guide clamp pressure insert, the top guide of clamp is inserted Enter oblique card slot and generate deformation, sprung back after the top guide of clamp inserts in place, realize card slot and the mutual snap lock of clamp；Or Card slot and clamp on elastic metallic material card, to be equipped at least one straight line card slot, with corresponding arc elastic top guide Clamp pressure insert, the arc top guide of clamp is inserted into card slot generation and straightens deformation, when clamp top guide inserting in place after spring back Become arc, realize card slot and the mutual snap lock of clamp；Or card slot and clamp on elastic metallic material card, to be equipped at least The arc-shaped slot of one is inserted with the clamp pressure of corresponding top guide, and the straight top guide of clamp, which is inserted into arc-shaped slot and generates, becomes arc deformation, Rebound occurs after the top guide of clamp inserts in place to straighten, realizes card slot and the mutual snap lock of clamp；

It is corresponding that the shape of elastic metallic material card and the horizontal bending in longitudinal direction are laminated heat collector tube core pipe row's shape, and can meet pair The requirement of the resilient clamp positioning of heat collector tube core pipe row is laminated in the horizontal bending in longitudinal direction；U-shaped longitudinal direction clamping position support bullet card On both sides, equipped with the resilient support card being supported on cover glass caliber inward wall, resilient support card is set in the same direction respectively On upper and lower elastic metallic material card one side, resilient support card is curved for the side of elastic metallic material card by punching disk Type；The elastic force that is formed of geometric dimension of resilient support card, meet the horizontal bending in longitudinal direction be laminated heat collector tube core resilient support in Requirement on cover glass caliber inward wall；Wherein, it at least descends on elastic metallic material card, equipped with gripping getter Elastic locking fastener, Elastic locking fastener are elastic metallic material card punching stretch forming.

9. heat collector tube core vacuum heat-collecting tube module is laminated in the horizontal bending in a kind of longitudinal direction according to claim 1,5,6 or 7, It is characterized in that：The horizontal bending in longitudinal direction is laminated heat collector tube core and is connect with exothermic condensation end pipe head；

The horizontal bending in longitudinal direction is laminated on the surface of heat collector tube core and is compounded with absorption film, and the functional membrane for forming absorption film is followed successively by instead Film, absorbing film, antireflective film are penetrated, wherein, reflectance coating is formed a film by magnetron sputtering or reflectance coating is formed a film by vacuum evaporation or anti- Film is penetrated to form a film by chemical plating；Absorbing film, antireflective film or the film layer for same material；Heat collector tube is laminated in the horizontal bending in longitudinal direction The reflection function film of core arranges plated film for full pipe, and absorption function film, anti-reflection functional membrane arrange unilateral plated film for pipe；Absorption film is magnetic control Sputtered film；

Or high temperature resistant selective absorbing functional membrane is to include glass baseplate, high reflecting metal film layer, absorbing membranous layer three-decker, it is resistance to High-temperature selective absorption function film is in the outer surface of glass baseplate, coats compound high reflecting metal film layer, coating is compounded with The glass baseplate of high reflecting metal film layer is immersed in certain time in nickel sulfate and sodium hypophosphite solution, makes high temperature glass pressure-bearing Pipe surface generates the coating of nickel-phosphorus alloy, and then pipe row is immersed in nitric acid after etching in short-term, forms phosphorus content in coating and exists Between 5%-7%, the pipe row surface after etching is covered with the high temperature resistant selective absorbing functional membrane in small hole；

Or high temperature resistant selective absorbing functional membrane is to include glass baseplate, metal material high reflecting metal film layer, inhaled with carbon material The functional film layer of the compound three-decker of winder layer；The structure of high temperature resistant selective absorbing functional membrane is followed successively by glass baseplate bottom Layer, the excessive film layer of metal material high reflecting metal and forms after thermal decomposition process the carbon film layer surface layer of dense micro-hole is distributed with； Glass baseplate bottom is tubing, and the excessive film layer of metal material high reflecting metal is anti-by vacuum evaporation, magnetron sputtering or chemistry The metallic diaphragm that should be generated, high temperature resistant selective absorbing functional membrane are formed for organic bond after thermal decomposition process；It is organic viscous Mixture is homogenous material manufacture or is that more than one composite material manufactures or adhesive is mixed to form film with light absorbing material The compound carbon film layer surface layer of dense micro-hole structure is distributed in layer, the outer surface through thermal decomposition sintering generation.

10. heat collector tube core vacuum heat-collecting pipe die is laminated in the horizontal bending in a kind of longitudinal direction according to claim 1,5,6 or 7 Block, it is characterized in that：Cover glass pipe is pipe, elliptical tube or rectangular tube；It is compounded on the side to light inner surface of cover glass pipe The inside and outside of light anti-reflection film or cover glass pipe side to light is compounded on the outer surface of light anti-reflection film or cover glass pipe side to light Light anti-reflection film is compounded on surface；The pipe that cover glass Guan Weiquan manages transparent light pipe or cover glass pipe is radial direction half Wall is compounded with the pipe of reflective mirror.