CN201992869U

CN201992869U - Trough type solar heat collector and heat collecting tube

Info

Publication number: CN201992869U
Application number: CN2011200020670U
Authority: CN
Inventors: 刘盛里
Original assignee: Individual
Current assignee: Individual
Priority date: 2010-01-11
Filing date: 2011-01-06
Publication date: 2011-09-28
Anticipated expiration: 2021-01-06
Also published as: CN102052772B; CN102052772A

Abstract

The utility model provides a trough type solar heat collector and a heat collecting tube in solar heat collecting equipment. The heat collector comprises driving mechanisms, the heat collecting tube, a motor, brackets and light reflecting materials, wherein, more than two groups of driving mechanisms are connected and mounted on the brackets in parallel; the light reflecting materials are mounted on a light reflecting material bracket; the light reflecting material bracket is connected with an arc-shaped track to form a light reflecting groove; a sunlight sensor is mounted at the center of the light reflecting groove; a wind power sensor is mounted at the top end of the light reflecting groove; the sunlight sensor and the wind power sensor are both connected with a PLC (programmable logic controller) through data lines; the heat collecting tube is mounted on a focusing line of the light reflecting groove through a heat collecting tube bracket; the brackets are divided into high brackets and low brackets and respectively fixedly support the upper ends and the lower ends of the driving mechanisms; and the motor mounted at the high bracket at the farthest end of the heat collector is connected with the PLC. The heat collector has the advantages of simple and steady structure, high heat collection efficiency, low manufacturing cost and no oil (steam) leakage, and is convenient to maintain.

Description

Trough type solar heat-collector and thermal-collecting tube

Technical field

The utility model belongs to technical field of solar utilization technique, is specifically related to the trough type solar heat-collector that a kind of focal line is the axle center.

Background technology

For a long time, people are just making great efforts research and utilization solar energy always.The solar energy that the earth received accounts for about 2 part per billion of whole energy of sending on sun surface, and these energy are equivalent to ten thousand times of the 3-4 of global required gross energy, are inexhaustible.Therefore just have various solar thermal collectors to begin to be born as far back as 20 beginnings of the century, wherein comparatively representative is exactly that US publication is: the patent document of US1683266.It discloses a kind of solar thermal collector, and this heat collector can reach the purpose of thermal-arrest substantially, but its rotation track and tooth bar separately design therefore complex structure; Drive to drive worm and gear that tooth bar rotates have only one promptly one support stress point, connect therefore that soundness is poor, the dynamics balance was also poor when driven by motor was rotated; As adopt the supporting construction more than two groups to drive, then the driving of each group worm and gear all needs to drive with a motor, must bring the control difficulty; And the shell of this heat collector is very huge, so production cost is high and inconvenient maintenance, and its reflective groove is semicircle simultaneously, and therefore the reflection luminous energy that can utilize is also few.

Along with development of science and technology, people constantly research and develop, and have occurred various forms of solar thermal collectors so far.The thermal-collecting tube of heat collector commonly used all adopts swivel joint now, when heat collector is worked, because thermal-collecting tube is subjected to high temperature action, therefore can make the swivel joint at two ends expand outwardly, thereby produce leakage of oil (steam) phenomenon.In numerous modes of middle high-temp solar heat collector, because trough type solar heat-collector can focus on sunlight on the line, produce the high temperature more than 800 degrees centigrade, it is simple in structure, has obtained using widely.But because it is bulky, windage is also big, and the structure of respective strengths can cause the required power of tracking also big, so follow the tracks of driving force based on hydraulic pressure, hydraulic system must cause cost to increase problems such as maintenance cost height.Secondly the thermal-collecting tube of this groove type solar moves with condenser groove, must cause the loss of the connection pipe fitting on it, and these solar thermal collectors require the high increase that must cause production cost to the rigidity of the structure of stretching frame, and occur the appearance of the problems such as instability, track displacement of hydraulic system easily.And the thermal-collecting tube of this heat collector is to be fixed on the reflective groove, when reflective groove rotates, thermal-collecting tube also rotates together, so the support top of thermal-collecting tube can keep off luminous energy set place of reflecting at reflective groove, so this part a plurality of direction converges and the energy that comes can not effectively be utilized.For example Chinese publication number is: the patent document of CN282865621A, it discloses a kind of heat collector that is used for the solar power plant, this heat collector has mainly solved the technical problem that existing heat collector bears the mechanical load difference when having gathered existing heat collector plurality of advantages, but this heat collector also exists many technical disadvantages.At first the reflective groove of this heat collector drives shell and thermal-collecting tube by a motor and rotates, and its enclosure volume is huge, therefore needs power very strong just passable, and it is few and inhomogeneous to support stress point when rotating, and stability is very poor.Secondly the thermal-collecting tube of this heat collector is fixed on the reflective groove by support, this support is vertical the connection with thermal-collecting tube, therefore this support top and thermal-collecting tube proximity have been blocked the light of reflective groove from a plurality of reflections, and the zone that this is blocked is high-temperature area just, and the thermal-collecting tube length ordinary circumstance that this section is blocked reaches 20cm to 50cm, therefore the heat energy in this section high-temperature region is wasted, and can not utilize the photo-thermal that is reflected to greatest extent.Therefore this heat collector enclosure volume is huge, poor stability when entire equipment is rotated, and power demand is big, and production cost is high and assemble, safeguard very inconvenient.

The utility model content

The purpose of this utility model is to overcome above-mentioned technical problem, provides that a kind of structure is firm, the trough type solar heat-collector and the thermal-collecting tube of thermal-collecting tube utilization rate height, (steam) cheap for manufacturing cost and easy to maintenance, oil-proof.

The technical scheme that the utility model is adopted for achieving the above object is:

A kind of trough type solar heat-collector, comprise driving mechanism, thermal-collecting tube, motor, support and reflectorized material, two groups of above parallel connections of driving mechanism are rack-mount, on the described reflectorized material support reflectorized material is housed, the reflectorized material support connects the reflective groove of formation with arc track, reflective groove center is installed solar sensor, and wind sensor is installed on the top, and this solar sensor all is connected with the PLC controller by data wire with wind sensor; Described thermal-collecting tube is installed on the focal line of reflective groove by the thermal-collecting tube support, described support is divided into high trestle and low trestle and difference fixed support driving mechanism two ends up and down, wherein on the high trestle of termination motor is installed, motor is connected with the PLC controller, it is characterized in that: connect by master link between every group of driving mechanism; Described every group of driving mechanism is made of worm gear reducer, worm screw, universal joint, reflective groove, and the turning cylinder of motor is provided with connecting rod, and this connecting rod connects the worm gear reducer of each group driving mechanism, and the worm gear reducer both sides connect worm screw by universal joint; Worm screw be located in the gripping arm and with arc track on corresponding cooperation of worm-gear toothing, described arc track passes gripping arm and is positioned at the worm screw top; Described gripping arm is located in the groove of cantilever tip and by screw rod and is fixed on the support; Block bearing and rigid bearing also are housed in the described gripping arm, and described block bearing is located between worm screw and the arc track, and rigid bearing is located at arc track top and corresponding with the position of block bearing; Described thermal-collecting tube support is fixed on the reflective groove, and this thermal-collecting tube support is hook-shaped.

The support of thermal-collecting tube described in the utility model upper end horizontal segment is the telescope support of the flat length of adjustable water saving, and the lower end be for can regulating the telescope support of vertical length, and between the upper end of this thermal-collecting tube support and the thermal-collecting tube for being slidingly matched; Described arc track is that the focal line with reflective surface is the axle center.

Block bearing and rigid bearing in each gripping arm described in the utility model all are fixed in the gripping arm.

The utility model also provides a kind of solar energy straight-through vacuum heat collecting tube, comprise metal inner pipe, glass outer tube, alloy flange, annular ripple dish, absorbent ring and ceramic ring, it is characterized in that: described alloy flange adopts the coefficient of thermal expansion metal material close with the glass outer tube, the pipe thickness of described glass outer tube two ends is greater than interlude thickness, welding alloy flange on the tube wall of glass outer tube two ends; Metal inner pipe is enclosed within the glass outer tube, two ends between described metal inner pipe and the glass outer tube is with absorbent ring and ceramic ring successively, the metal inner pipe two ends also is with the annular ripple dish, alloy flange welding on the outer shroud of this annular ripple dish and the glass outer tube, interior ring and metal inner pipe welding also are provided with ring flange on the outermost end of described metal inner pipe two ends.

Above-mentioned annular ripple dish is a stainless steel material, and the width of ripple is at 3.0～28.0mm, and crest height is between 2.0～20.0mm, and the annular ripple disc thickness is: 0.3～1.5mm.

Above-mentioned metal inner pipe adopts the high-thermal conductive metal material to make and the selective absorption plated film of its outer surface, and it is metal ion or metal oxide that this selectivity absorbs plated film, as titanium oxide, black chromium, black cobalt, tri-iron tetroxide, alundum (Al, aluminium nitride etc.; The absorbent ring is with the netted material moulded section of stainless steel, and the oxidation absorbing material is housed in the absorbent ring.

Above-mentioned described alloy flange is provided with number row circular hole, and this alloy flange adopts the coefficient of thermal expansion material close with the glass outer tube; When the effect of circular hole is the thicker glass heats soft heat state of glass outer tube two ends and the alloy flange form the sealing by fusing riveted joint.

The beneficial effects of the utility model are:

1, thereby the utility model increases universal joint on motor rotation axis can be together in series much organizing worm screw according to actual needs, realize the rotation synchronously of many groups of reflective grooves and adopted four supports and worm screw to cooperate one group of reflective groove of composition with arc track at least, four worm screws of motor direct-drive drive arc track and rotate in the same way simultaneously, be equivalent to arc track like this and be subjected to four strong points supports at least, on support, increase simultaneously gripping arm, therefore stability is better and rotate more steadily, and adopts such structure not need to use huge shell or support to make production cost reduce and be more prone to and safeguards.

2, cantilever tip of the present utility model groove is set and block bearing is set between groove and worm screw and rigid bearing with arc track be fixed in the face rotate can not occur rocking, phenomenons such as displacement, therefore firm effect had greatly improved than former heat collector.

3, the thermal-collecting tube support of the utility model thermal-collecting tube adopts hook-shaped, therefore can not block the reverberation of high-temperature area, thus the peaked thermal-collecting tube heat absorption rate that utilized.

4, thereby thermal-collecting tube of the present utility model does not rotate so does not need rotary valve to solve leakage of oil (steam) phenomenon of existing heat collector.

Description of drawings

Fig. 1, be overall structure schematic diagram of the present utility model

Fig. 2, be Fig. 1 side view

Fig. 3, be gripping arm place partial assembled structure enlarged diagram

Fig. 4, thermal-collecting tube structural representation

Fig. 5, thermal-collecting tube be a termination part section structural representation wherein

Fig. 6, alloy flange structural representation

Fig. 7, annular ripple dish structural representation

Among the figure: the 1-thermal-collecting tube; The 2-motor; 3-reflectorized material support; The 4-arc track; The 5-solar sensor; The 6-wind sensor; 7-PCL controller; 8-thermal-collecting tube support; The 9-high trestle; The 10-connecting rod; The 11-worm gear reducer; The 12-worm screw; The 13-universal joint; The 14-gripping arm; The 15-groove; The 16-screw rod; The 17-block bearing; The 18-rigid bearing; The 19-metal inner pipe; 20-glass outer tube; 21-alloy flange; 22-annular ripple dish; 23-absorbent ring; The 24-ceramic ring; The 25-ring flange; The 26-low trestle; The 27-reflectorized material, the 28-master link.

The specific embodiment

Below in conjunction with accompanying drawing the technical solution of the utility model is described further, but protection domain of the present utility model is not limited in this embodiment.

As shown in Figure 1, 2: a kind of trough type solar heat-collector comprises driving mechanism, thermal-collecting tube 1, motor 2, support and reflectorized material 27.Two groups of above parallel connections of driving mechanism are rack-mount, and reflectorized material support 3 connects the reflective groove of formation with arc track 4, reflectorized material 27 is housed on the reflectorized material support 3.Described reflective groove center is equipped with solar sensor 5, and the top is equipped with wind sensor 6, and this solar sensor 5 all is connected with PLC controller 7 by data wire with wind sensor 6.Described thermal-collecting tube 1 is installed on the focal line of reflective groove by thermal-collecting tube support 8.Aforementioned brackets is divided into high trestle 9 and low trestle 26 and fixed support driving mechanism upper/lower terminal respectively, on the high trestle 9 of wherein termination motor 2 is installed, and motor 2 adopts data wires to be connected with PLC controller 7.Connect by master link 28 between described every group of driving mechanism.Described every group of driving mechanism is made of worm gear reducer 11, worm screw 12, universal joint 13, arc track 4, the turning cylinder of motor 2 is provided with connecting rod 10, this connecting rod 10 connects the worm gear reducer 11 of each group driving mechanism, and these worm gear reducer 11 both sides connect worm screw 12 by universal joint 13; Worm screw 12 be located in the gripping arm 14 and with arc track 4 on corresponding cooperation of worm-gear toothing, described arc track 4 passes gripping arm 14 and is positioned at worm screw 12 tops; Described gripping arm 14 is located in the groove 15 of cantilever tip, and is fixed on the support by screw rod 16.Block bearing 17 and rigid bearing 18 also are housed in the described gripping arm 14, and wherein block bearing 17 is located between worm screw 12 and the arc track 4, and rigid bearing 18 is located at arc track 4 tops and corresponding with the position of block bearing 17.Described thermal-collecting tube support 8 is fixed on the reflective groove, and these thermal-collecting tube 8 supports are hook-shaped.

As shown in Figure 3: between gripping arm 14 and arc track 4, establish two block bearings 17, the bearing fixing of block bearing 17 is on support, the last gravity that can bear arc track 4 like this makes worm screw 12 cooperate more flexible with the worm-gear toothing of arc track 4, and can avoid making worm screw 12 can not drive the problem generation of arc track, secondly above arc track 4, also establish two rigid bearings 18 respectively with block bearing 17 corresponding positions because of the self gravitation of arc track 4; So fixedly arc track 4, produce accident generations such as displacement thereby make it can not shift out track when rotating, and increase the stability of whole driving mechanism.

Because whole device is connecting rod 10 to be set on the motor rotation axis several driving mechanisms are together in series, and on the reduction box of each driving mechanism, universal joint is set, by the worm steering in the universal joint adjustment driving mechanism, thereby make entire equipment rotation direction unanimity, therefore adopt the gripping arm structure to make that the structure of whole driving mechanism is firm simultaneously, solved in the past a motor and can not drive several driving mechanisms technical problem of stable rotation in the same way simultaneously.

Aforesaid thermal-collecting tube support 8 lower ends are installed in reflective groove center, and upper end suit thermal-collecting tube 1 also is slidingly matched with thermal-collecting tube, and this thermal-collecting tube 1 is positioned on the focal line of reflective groove.Because thermal-collecting tube support 8 is hook-shaped, like this can be so that the reverberation of high-temperature region is avoided stopping in the upper end, maximum is utilized thermal-collecting tube.Secondly thermal-collecting tube support 8 upper end horizontal segments be for can regulate the expansion bracket of cross-directional length, and the lower end be for can regulate the expansion bracket of vertical direction, so conveniently use and the position of adjustment thermal-collecting tube 1 when installing.

Operation principle of the present utility model with method of operating is: at first with the arc track more than two groups with the reflectorized material support parallel installation combine and form reflective groove, thermal-collecting tube is installed on the thermal-collecting tube support forms heat collector again.This moment according to high and low support and in conjunction with date, latitude regulate reflective groove towards.When heat collector is worked, day tracking transducer and wind sensor are transferred to the PLC controller with its signal of collecting separately, controller turns round according to the direct drive motors of importing of data and drives the worm screw rotation, and drives the purpose that reflective groove rotation reaches tracking daylight.As strong storm, the signal that the PLC controller can provide by wind sensor rotates to the windage angle with smallest with reflective groove, thereby increases the stability of heat collector.

Shown in Fig. 4～7: the solar energy straight-through vacuum heat collecting tube, comprise metal inner pipe 19, glass outer tube 20, alloy flange 21, annular ripple dish 22, absorbent ring 23 and ceramic ring 24, described alloy flange 21 adopts the close metal material of coefficient of thermal expansions and glass outer tube 20, the pipe thickness of described glass outer tube 20 two ends is greater than interlude thickness, welding alloy flange 21 on the tube wall of the thickening of glass outer tube 20 two ends; Metal inner pipe 19 is enclosed within the glass outer tube 20, two ends between described metal inner pipe 19 and the glass outer tube 20 is with absorbent ring 23 and ceramic ring 24 successively, metal inner pipe 19 two ends also are with annular ripple dish 22, alloy flange 21 welding on the outer shroud of this annular ripple dish 22 and the glass outer tube 20, interior ring and metal inner pipe 28 welding also are provided with ring flange 25 on the described metal inner pipe 19 two ends outermost end.

Above-mentioned annular ripple dish 22 is stainless steel materials, and the width of ripple is at 3.0～28.0mm, and crest height is between 2.0～20.0mm, and the annular ripple disc thickness is: 0.3～1.5mm.

Above-mentioned metal inner pipe 19 adopts the high-thermal conductive metal materials to make and the selective absorption plated film of its outer surface, and preferably metal ion or metal oxide are as titanium oxide, black chromium, black cobalt, tri-iron tetroxide, alundum (Al, aluminium nitride etc.; The absorbent ring is with the netted material moulded section of stainless steel, and the oxidation absorbing material is housed in the absorbent ring.

Above-mentioned described alloy flange 21 is provided with number row circular hole, and this alloy flange adopts the coefficient of thermal expansion material close with outer tube; The effect of circular hole is to make the glass of glass outer tube two ends thickening form sealing by fusing with the alloy flange when heating soft heat state to rivet.

The preparation method of the straight-through vacuum heat collecting tube in the utility model is:

1., the annular ripple dish makes, and at first selects stainless steel, the width with ripple is being controlled between the 3.0-28.0mm then, between the crest height 2.0-20.0mm, between the material thickness 0.3-1.5mm, last punch forming, annealing.

2., to adopt material be the stainless steel material of SUS304,321,316L to metal inner pipe, caliber between 30-70mm, surperficial alignment, car, mill back are cleaned, electroplate selective absorbing film, as titanium oxide, black chromium, black cobalt, tri-iron tetroxide, alundum (Al, aluminium nitride etc.

3., the absorbent ring is with after the stainless steel netted material moulded section, enclose the oxidation absorbing material again and make.

4., with a bit of glass tubule of welding after the thermoplastic perforate on the titaniferous quartz glass outer tube.

5., 4. after titaniferous quartz glass outer tube is processed into design length in above-mentioned steps, clean, air-dry, pipe fittings outside on the termination, being inserted in (promptly with the object of glass outer tube) with material, embed the alloy flange that processes outside between pipe fittings and the glass outer tube, cover is gone up clock constant temperature electric heating plate again, after carrying out the time constant-temperature heating, the moulding internal mold will be heated to the outer tube alloy flange of soft heat state, annex pushes the outer mold forming of end moulding simultaneously, after the typing, the glass outer tube is taken out, so just with the welding of alloy flange in glass outer tube termination, use the same method again other end machine-shaping.

6., on the metal inner pipe two ends, set up ceramic ring, absorbent ring, put the glass outer tube that step is made in 5. then, put the annular ripple dish in two ends again, the outer shroud of annular ripple dish and the alloy flange of glass outer tube are welded, interior ring and metal inner pipe welding; Wherein ceramic ring have the heat that intercepts in the vacuum tube annular ripple dish by the termination to scatter and disappear and fixedly the position of outer glass pipe and interior metal tube act on; Residual air oxidation after the absorbent ring can will vacuumize absorbs.

7., the thermal-collecting tube after the moulding taken out makes vacuum, after hot melt takes off the glass tubule, eliminate the pipe navel.

8., at last internal stress is eliminated in the whole tempering of the thermal-collecting tube of machine-shaping.

Claims

1. solar energy straight-through vacuum heat collecting tube, comprise metal inner pipe (19), glass outer tube (20), alloy flange (21), annular ripple dish (22), absorbent ring (23) and ceramic ring (24), it is characterized in that: described alloy flange (21) adopts coefficient of thermal expansion and the close metal material of glass outer tube (20), the pipe thickness of described glass outer tube (20) two ends is greater than interlude thickness, welding alloy flange (21) on the tube wall of glass outer tube (20) two ends; Metal inner pipe (19) is enclosed within the glass outer tube (20), two ends between described metal inner pipe (19) and the glass outer tube (20) is with absorbent ring (23) and ceramic ring (24) successively, metal inner pipe (19) two ends also is with annular ripple dish (22), alloy flange (21) welding on the outer shroud of this annular ripple dish (22) and the glass outer tube (20), interior ring and metal inner pipe (19) welding also are provided with ring flange (25) on the outermost end of described metal inner pipe (19) two ends.

2. solar energy straight-through vacuum heat collecting tube according to claim 1 is characterized in that: described alloy flange (21) is provided with number row circular hole.

3. solar energy straight-through vacuum heat collecting tube according to claim 1, it is characterized in that: described annular ripple dish (22) is a stainless steel material, and the width of ripple is at 3.0～28.0mm, and crest height is between 2.0～20.0mm, and the annular ripple disc thickness is: 0.3～1.5mm.

4. solar energy straight-through vacuum heat collecting tube according to claim 1 is characterized in that: metal inner pipe (19) adopts the high-thermal conductive metal material to make and the selective absorption plated film of its outer surface.

5. solar energy straight-through vacuum heat collecting tube according to claim 4 is characterized in that it is metal ion or metal oxide that described selectivity absorbs plated film.

6. solar energy straight-through vacuum heat collecting tube according to claim 1 is characterized in that: absorbent ring (23) is that the absorbent ring is equipped with the oxidation absorbing material in (23) with the netted material moulded section of stainless steel.

7. trough type solar heat-collector, comprise the thermal-collecting tube described in driving mechanism, the claim 1 (1), motor (2), support and reflectorized material (27), two groups of above parallel connections of driving mechanism are rack-mount, reflectorized material (27) is housed on the described reflectorized material support (3), reflectorized material support (3) connects the reflective groove of formation with arc track (4), reflective groove center is installed solar sensor (5), wind sensor (6) is installed on the top, and this solar sensor (5) all is connected with PLC controller (7) by data wire with wind sensor (6); Described thermal-collecting tube (1) is installed on the focal line of reflective groove by thermal-collecting tube support (8), described support is divided into high trestle (9) and low trestle (26) and difference fixed support driving mechanism two ends up and down, the high trestle (9) of wherein termination is gone up motor (2) is installed, motor (2) is connected with PLC controller (7), it is characterized in that: connect by master link (28) between every group of driving mechanism; Described every group of driving mechanism is made of worm gear reducer (11), worm screw (12), universal joint (13), reflective groove, the turning cylinder of motor (2) is provided with connecting rod (10), this connecting rod (10) connects the worm gear reducer (11) of each group driving mechanism, and worm gear reducer (11) both sides connect worm screw (12) by universal joint (13); Worm screw (12) be located in the gripping arm (14) and with arc track (4) on corresponding cooperation of worm-gear toothing, described arc track (4) passes gripping arm (14) and is positioned at worm screw (12) top; Described gripping arm (14) is located in the groove (15) of cantilever tip and is fixed on the support by screw rod (16); Block bearing (17) and rigid bearing (18) also are housed in the described gripping arm (14), described block bearing (17) is located between worm screw (12) and the arc track (4), and rigid bearing (18) is located at arc track (4) top and corresponding with the position of block bearing (17); Described thermal-collecting tube support (8) is fixed on the reflective groove, and this thermal-collecting tube support (8) is hook-shaped.

8. trough type solar heat-collector according to claim 7, it is characterized in that: described thermal-collecting tube support (8) upper end horizontal segment is the telescope support of the flat length of adjustable water saving, the lower end be for can regulating the telescope support of vertical length, and between the upper end of this thermal-collecting tube support (8) and the thermal-collecting tube (1) for being slidingly matched.

9. trough type solar heat-collector according to claim 7 is characterized in that: described arc track (4) is that the focal line with reflective surface is the axle center.

10. trough type solar heat-collector according to claim 7 is characterized in that: block bearing (17) and rigid bearing (18) in described each gripping arm (14) all are fixed in the gripping arm (14).