CN114811968A - Pressure-bearing series heat collector of solar glass vacuum heat collecting tube - Google Patents

Abstract

The invention relates to the technical field of solar energy application, in particular to a pressure-bearing series heat collector of a solar glass evacuated collector tube, which comprises a shell, a protective component and a fixed component, wherein the fixed component comprises a fixed plate, a transverse telescopic rod, a transverse protective pad, a vertical telescopic rod and a vertical protective pad; when installing the heat collector, let horizontal protection earlier fill up horizontal migration in the casing, horizontal telescopic link is compressed this moment, later let vertical protection fill up vertical migration in the casing, vertical telescopic link is compressed this moment, put into horizontal protection with the heat collector and fill up, clearance department between vertical protection pad and the fixed plate, let horizontal protection fill up and vertical protection fill up and move towards the original position, thereby make horizontal protection fill up and vertical protection fill up and fix the heat collector, only need to move horizontal protection pad and vertical protection when dismantling and fill up and can take out the heat collector, through the quick assembly disassembly to the heat collector, thereby the dismouting step has been simplified, and then be convenient for maintain or change the heat collector.

Description

Pressure-bearing series heat collector of solar glass vacuum heat collecting tube

Technical Field

The invention relates to the technical field of solar energy application, in particular to a pressure-bearing series heat collector of a solar glass vacuum heat collecting pipe.

Background

Solar energy is widely applied to the life of people as a clean and renewable environment-friendly energy source, and the solar glass evacuated collector tube is adopted to collect solar energy in the prior art.

The existing solar glass evacuated collector tubes are connected in a parallel mode, and the number of neutralization nodes of cold and hot media is large, so that heat loss is large, a heat absorption assembly is formed in a series connection mode, the media are always in a heat superposition state in a medium pipeline, heat exchange nodes can be reduced, and heat efficiency is greatly improved.

When the solar glass evacuated collector tube pressure-bearing series collector is installed, the solar glass evacuated collector tube pressure-bearing series collector is fixed by bolts, and the solar glass evacuated collector tube pressure-bearing series collector can be disassembled and assembled only by screwing or unscrewing the bolts one by one, so that the disassembling and assembling steps are complicated, and the solar glass evacuated collector tube pressure-bearing series collector is inconvenient to maintain.

Disclosure of Invention

The invention aims to provide a pressure-bearing series collector of a solar glass evacuated collector tube, which solves the technical problems that the pressure-bearing series collector of the solar glass evacuated collector tube is fixed by bolts when being installed, and the solar glass evacuated collector tube can be disassembled and assembled only by screwing or unscrewing the bolts one by one, so that the disassembling and assembling steps are more complicated, and the solar glass evacuated collector tube is inconvenient to maintain.

In order to achieve the purpose, the invention provides a pressure-bearing series collector of a solar glass vacuum heat collecting tube, which comprises a shell, a protection component and a fixing component, wherein the shell is provided with a plurality of grooves; the fixed subassembly includes fixed plate, horizontal telescopic link, horizontal protection pad, vertical telescopic link and vertical protection pad, fixed plate fixed mounting be in the inboard of casing, horizontal telescopic link fixed mounting be in the inboard of casing, horizontal protection pad with horizontal telescopic link fixed connection, and be located horizontal telescopic link is kept away from the one end of casing, vertical telescopic link fixed mounting be in the inboard of casing, vertical protection pad with vertical telescopic link fixed connection, and be located vertical telescopic link is kept away from the one end of casing.

The fixing assembly further comprises a transverse spring and a vertical spring, two sides of the transverse spring are respectively and fixedly connected with the shell and the transverse protection pad, and the transverse spring is sleeved on the outer side of the transverse telescopic rod; the two sides of the vertical spring are respectively fixedly connected with the shell and the vertical protective cushion, and the vertical spring sleeve is arranged on the outer side of the vertical telescopic rod.

The fixing assembly further comprises a handle and a pull handle, and the handle is fixedly arranged on the transverse protective pad; the handle is fixedly arranged on the vertical protective pad.

The shell is provided with a through hole, and the through hole is located on the lower surface of the shell and penetrates through the shell.

The solar glass evacuated collector tube pressure-bearing series collector further comprises an adjusting assembly, and the adjusting assembly is located on the outer side of the shell.

The adjusting assembly comprises a movable block, a rotating shaft, a motor and a control part, wherein the movable block is fixedly arranged on the lower surface of the shell; the rotating shaft is fixedly arranged on the inner side of the movable block; the output end of the motor is connected with the rotating shaft and is positioned on one side of the rotating shaft, which is far away from the movable block.

The control component comprises a controller and an angle detection sensor, and the controller is connected with the motor and fixedly installed on the outer side of the shell; the angle detection sensor is connected with the controller and fixedly installed on the outer side of the shell.

When the heat collector is installed, the handle is held and moved by hands firstly, so that the transverse protection pad moves transversely in the shell, the transverse telescopic rod is compressed at the moment, then the handle is held and pulled, so that the vertical protection pad moves vertically in the shell, the vertical telescopic rod is compressed at the moment, the heat collector is placed in a gap between the transverse protection pad, the vertical protection pad and the fixing plate, the handle and the handle are loosened, under the self-recovery action of the transverse spring and the vertical spring, the transverse protection pad and the vertical protection pad move towards the original position, so that the transverse protection pad and the vertical protection pad fix the heat collector, and the heat collector can be taken out only by moving the handle and the handle when the heat collector is disassembled, through the quick assembly disassembly to the heat collector to simplified the dismouting step, and then be convenient for maintain or change the heat collector.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is an overall configuration diagram of the first embodiment of the present invention.

Fig. 2 is a schematic view of the connection between the lateral expansion bar and the lateral protection pad according to the first embodiment of the present invention.

Fig. 3 is a schematic view of the connection of the vertical telescopic rod and the vertical protection pad according to the first embodiment of the present invention.

Fig. 4 is an overall configuration diagram of the second embodiment of the present invention.

In the figure: 101-shell, 102-protective component, 103-fixed component, 104-fixed plate, 105-transverse telescopic rod, 106-transverse protective pad, 107-vertical telescopic rod, 108-vertical protective pad, 109-transverse spring, 110-vertical spring, 111-handle, 112-handle, 113-guide rail, 114-slide block, 115-protective cover, 116-through hole, 201-adjusting component, 202-movable block, 203-rotating shaft, 204-motor, 205-connecting telescopic rod, 206-hydraulic cylinder, 207-base, 208-control component, 209-controller and 210-angle detection sensor.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, and the embodiments described below with reference to the accompanying drawings are exemplary and intended to be illustrative of the present invention and should not be construed as limiting the present invention.

The first embodiment:

referring to fig. 1 to 3, wherein fig. 1 is a schematic view of an overall structure of a pressure-bearing series collector of a solar glass evacuated collector tube, fig. 2 is a schematic view of a connection between a transverse expansion link 105 and a transverse protection pad 106, and fig. 3 is a schematic view of a connection between a vertical expansion link 107 and a vertical protection pad 108, the invention provides a pressure-bearing series collector of a solar glass evacuated collector tube, which comprises a housing 101, a protection component 102 and a fixing component 103; the fixing assembly 103 comprises a fixing plate 104, a transverse telescopic rod 105, a transverse protection pad 106, a vertical telescopic rod 107, a vertical protection pad 108, a transverse spring 109, a vertical spring 110, a handle 111 and a handle 112, the protection assembly 102 comprises a guide rail 113, a sliding block 114 and a protection cover 115, and the shell 101 is provided with a through hole 116;

in this embodiment, the interior of the housing 101 is hollow so as to facilitate the placement of the heat collector in the housing 101, the housing 101 has a through hole 116 so as to discharge impurities such as dust in the housing 101, and the fixing member 103 is installed in the housing 101 so as to fix the heat collector.

Wherein, the fixing plate 104 is fixedly installed at the inner side of the casing 101, the transverse expansion link 105 is fixedly installed at the inner side of the casing 101, the transverse protection pad 106 is fixedly connected with the transverse expansion link 105 and is located at one end of the transverse expansion link 105 far away from the casing 101, the vertical expansion link 107 is fixedly installed at the inner side of the casing 101, the vertical protection pad 108 is fixedly connected with the vertical expansion link 107 and is located at one end of the vertical expansion link 107 far away from the casing 101, the fixing plate 104 is L-shaped, the transverse protection pad 106 and the vertical protection pad 108 are made of flexible soft materials, so that the heat collector is not damaged when the heat collector is fixed, and by the expansion and contraction of the transverse expansion link 105, the transverse protection pad 106 can transversely move in the casing 101 and can be driven by the expansion and contraction of the vertical expansion link 107, thereby allowing vertical movement of the vertical protective pad 108 within the housing 101.

Secondly, two sides of the transverse spring 109 are respectively fixedly connected with the shell 101 and the transverse protection pad 106, and the transverse spring 109 is sleeved on the outer side of the transverse telescopic rod 105; two sides of the vertical spring 110 are respectively and fixedly connected with the housing 101 and the vertical protection pad 108, the vertical spring 110 is sleeved on the outer side of the vertical expansion link 107, when the transverse telescopic rod 105 is extended and contracted, the transverse spring 109 follows the transverse telescopic rod 105 to extend and contract, because the transverse spring 109 has a self-restoring function, the transverse spring 109 can drive the transverse protection pad 106 to move towards the direction of restoring to the original position, so as to absorb and buffer the transverse movement of the transverse protection pad 106, when the vertical telescopic rod 107 is extended and contracted, the vertical spring 110 is extended and contracted along with the vertical telescopic rod 107, because the vertical spring 110 has a self-restoring function, the vertical spring 110 can drive the vertical protection pad 108 to move towards the direction of restoring to the original position, and further, the vertical movement of the vertical protection pad 108 can be damped and buffered.

Meanwhile, the handle 111 is fixedly mounted on the transverse protection pad 106; the handle 112 is fixedly installed on the vertical protection pad 108, the handle 111 is held by hand and the handle 111 is moved, so that the horizontal protection pad 106 can move horizontally in the housing 101, and the handle 112 is held by hand and the handle 112 is pulled, so that the vertical protection pad 108 moves vertically in the housing 101.

In addition, the guide rail 113 is fixedly installed on the outer side of the housing 101; the sliding block 114 is connected with the guide rail 113 in a sliding manner and is positioned on one side of the guide rail 113 away from the shell 101; protective cover 115 with slider 114 fixed connection, and be located slider 114 keeps away from one side of guide rail 113, the spout has on the guide rail 113, slider 114 is in lateral sliding in the spout of guide rail 113 to can drive protective cover 115 carries out lateral sliding, and then makes protective cover 115 can dismouting is carried out on the casing 101, through right protective cover 115's dismouting, thereby can cover when using protective cover 115 is to the heat collector in the casing 101 protects, opens when installing the heat collector protective cover 115 so that installation in the casing 101, protective cover 115's material is the clear glass material, thereby makes protective cover 115 can not exert an influence to the heat collection effect of the heat collector in the casing 101.

Finally, the housing 101 has a through hole 116, the through hole 116 is located on the lower surface of the housing 101 and penetrates through the housing 101, and the circular through holes 116 are uniformly distributed in the housing 101, so that impurities such as dust accumulated in the housing 101 are discharged to the outside of the housing 101.

When the solar glass evacuated collector tube pressure-bearing series collector of the embodiment is used, when the collector is installed, the handle 111 is firstly held by a hand and the handle 111 is moved, so that the transverse protection pad 106 moves transversely in the housing 101, at the same time, the transverse expansion rod 105 is compressed, then the handle 112 is held by a hand and the handle 112 is pulled, so that the vertical protection pad 108 moves vertically in the housing 101, at the same time, the vertical expansion rod 107 is compressed, the collector is placed in a gap between the transverse protection pad 106 and the vertical protection pad 108 and the fixing plate 104, the handle 111 and the handle 112 are released, under the self-recovery action of the transverse spring 109 and the vertical spring 110, the transverse protection pad 106 and the vertical protection pad 108 move towards a protection home position, so that the transverse protection pad 106 and the vertical protection pad 108 fix the collector, when the heat collector is disassembled, the heat collector can be taken out only by moving the handle 111 and the handle 112, and the heat collector is quickly disassembled and assembled, so that the disassembling and assembling steps are simplified, and the heat collector is convenient to maintain or replace.

The second embodiment:

on the basis of the first embodiment, please refer to fig. 4, fig. 4 is a schematic structural view of an adjusting assembly 201 of a pressure-bearing series collector of a solar glass evacuated collector tube according to a second embodiment, the invention provides a pressure-bearing series collector of a solar glass evacuated collector tube, which further comprises an adjusting assembly 201, wherein the adjusting assembly 201 comprises a movable block 202, a rotating shaft 203, a motor 204, a connecting telescopic rod 205, a hydraulic cylinder 206, a base 207 and a control part 208, and the control part 208 comprises a controller 209 and an angle detection sensor 210.

In this embodiment, the adjusting assembly 201 is located below the housing 101, so as to adjust the height and angle of the housing 101, and thus the height and angle of the heat collector.

Wherein, the movable block 202 is fixedly mounted on the lower surface of the housing 101; the rotating shaft 203 is fixedly arranged on the inner side of the movable block 202; the output of motor 204 with pivot 203 is connected, and is located pivot 203 is kept away from one side of movable block 202, the inside hollow structure that is of movable block 202, pivot 203 fixed mounting be in the movable block 202, the power of the output of motor 204 can drive pivot 203 rotates, thereby makes the movable block 202 rotates, and then makes casing 101 rotates, through casing 101 rotates and drives heat collector in the casing 101 rotates, thereby the angle of adjustable heat collector.

Secondly, the connecting telescopic rod 205 is fixedly installed on the lower surface of the motor 204; the output end of the hydraulic cylinder 206 is connected with the connecting telescopic rod 205 and is positioned on the lower surface of the connecting telescopic rod 205; the base 207 is fixedly installed on the lower surface of the hydraulic cylinder 206, and the hydraulic cylinder 206 is supported by the base 207, so that the output end of the hydraulic cylinder 206 drives the connecting telescopic rod 205 to stretch and retract, the motor 204 moves up and down, the shell 101 is driven to move up and down by the up and down movement of the motor 204, the heat collector moves up and down, and the height of the heat collector can be adjusted.

Meanwhile, the control component 208 comprises a controller 209 and an angle detection sensor 210, wherein the controller 209 is connected with the motor 204 and is fixedly installed on the outer side of the housing 101; the angle detection sensor 210 with the controller 209 is connected to fixed mounting be in the outside of casing 101, the model of controller 209 is DVP20SX211T, the model of angle detection sensor 210 is SCA60C unipolar inclination sensor, through the illumination angle of solar energy is detected to angle detection sensor 210, and transmits the testing result to controller 209, thereby makes the controller 209 is steerable the motor 204 moves, through the operation of motor 204, thereby makes pivot 203 rotates, and then the angle of adjustable heat collector.

When the solar glass evacuated collector tube pressure-bearing series collector of the embodiment is used, the power output by the output end of the hydraulic cylinder 206 drives the connecting telescopic rod 205 to stretch, so that the motor 204 moves up and down, the shell 101 moves up and down, the height of the collector can be adjusted, the angle detection sensor 210 detects the illumination angle of solar energy and transmits a detection result to the controller 209, the controller 209 can control the motor 204 to operate, and the rotating shaft 203 rotates through the operation of the motor 204, so that the shell 101 rotates, and the angle of the collector can be adjusted.

While the above disclosure describes one or more preferred embodiments of the present invention, it is not intended to limit the scope of the claims to such embodiments, and one skilled in the art will understand that all or a portion of the processes performed in the above embodiments may be practiced without departing from the spirit and scope of the claims.

Claims (7)

1. A pressure-bearing series heat collector of a solar glass vacuum heat collecting tube comprises a shell and a protective component, wherein the protective component is arranged at the outer side of the shell,

the device also comprises a fixing component;

the fixed subassembly includes fixed plate, horizontal telescopic link, horizontal protection pad, vertical telescopic link and vertical protection pad, fixed plate fixed mounting be in the inboard of casing, horizontal telescopic link fixed mounting be in the inboard of casing, horizontal protection pad with horizontal telescopic link fixed connection, and be located horizontal telescopic link is kept away from the one end of casing, vertical telescopic link fixed mounting be in the inboard of casing, vertical protection pad with vertical telescopic link fixed connection, and be located vertical telescopic link is kept away from the one end of casing.

2. The pressure-bearing series collector of the solar glass vacuum heat collecting tube of claim 1,

the fixing assembly further comprises a transverse spring and a vertical spring, two sides of the transverse spring are respectively fixedly connected with the shell and the transverse protection pad, and the transverse spring is sleeved on the outer side of the transverse telescopic rod; the two sides of the vertical spring are respectively fixedly connected with the shell and the vertical protective cushion, and the vertical spring sleeve is arranged on the outer side of the vertical telescopic rod.

3. The pressure-bearing series collector of the solar glass vacuum heat collecting tube of claim 1,

the fixing assembly further comprises a handle and a pull handle, and the handle is fixedly arranged on the transverse protective pad; the handle is fixedly arranged on the vertical protective pad.

4. The pressure-bearing series collector of the solar glass vacuum heat collecting tube of claim 1,

the shell is provided with a through hole, and the through hole is positioned on the lower surface of the shell and penetrates through the shell.

5. The pressure-bearing series collector of the solar glass vacuum heat collecting tube of claim 1,

the solar glass evacuated collector tube pressure-bearing series collector further comprises an adjusting component, and the adjusting component is located on the outer side of the shell.

6. The pressure-bearing series collector of a solar glass evacuated collector tube according to claim 5,

the adjusting assembly comprises a movable block, a rotating shaft, a motor and a control part, and the movable block is fixedly arranged on the lower surface of the shell; the rotating shaft is fixedly arranged on the inner side of the movable block; the output end of the motor is connected with the rotating shaft and is positioned on one side of the rotating shaft, which is far away from the movable block.

7. The pressure-bearing series collector of the solar glass evacuated collector tube of claim 6,

the control component comprises a controller and an angle detection sensor, and the controller is connected with the motor and fixedly arranged on the outer side of the shell; the angle detection sensor is connected with the controller and is fixedly installed on the outer side of the shell.

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