CN108308085A - A kind of solar energy temperature control aquaculture workshop - Google Patents

Abstract

The invention discloses a solar temperature-controlled aquaculture workshop, the structure of which comprises an adjustment device, a side window, a side door, a control panel, a main door, an aquaculture workshop, an exhaust fan, an adjustable roof, and a solar panel. The adjustment device is installed on Inside the upper half of the aquaculture workshop, the side of the main door is flexibly connected to the inside of the front end of the aquaculture workshop, and the exhaust fan is installed at the front end of the aquaculture workshop and above the main door. The invention is an adjustment device for a solar temperature-controlled aquaculture workshop. The device can adjust the angle of the solar panels, and the solar panels can be adjusted according to the angle of the sun, which can improve the absorption and utilization of solar energy by the device. At the same time, the roof of the equipment can also be opened, which can increase the ventilation and ventilation of the equipment. The internal lighting improves the practical value of the equipment.

Description

A solar temperature-controlled aquaculture workshop

technical field

The invention relates to a solar temperature-controlled aquaculture workshop, which belongs to the field of solar temperature-controlled aquaculture workshops.

Background technique

The sun refers to the thermal radiation energy of the sun, which is mainly manifested in what is often called the sun's rays. In modern times, it is generally used to generate electricity or provide energy for water heaters. Since the birth of life on the earth, it mainly survives with the thermal radiation energy provided by the sun. With fossil fuels decreasing day by day, solar energy has become an important part of the energy used by human beings and has been continuously developed. There are two ways to use solar energy: photothermal conversion and photoelectric conversion. Solar power is a new type of renewable energy.

The solar panels in the existing solar temperature-controlled aquaculture workshop can only be fixed at one angle, which can only absorb solar energy for a period of time, which reduces the utilization efficiency of energy and the use value of equipment.

Contents of the invention

In view of the deficiencies in the existing technology, the purpose of the present invention is to provide a solar temperature-controlled aquaculture workshop to solve the imperfection of the existing technology. The solar panels in the existing solar temperature-controlled aquaculture workshop can only be fixed at one angle, and the It can only absorb solar energy for a period of time, reducing energy utilization efficiency and reducing the use value of equipment.

In order to achieve the above object, the present invention is achieved through the following technical solutions: a solar temperature-controlled aquaculture workshop, the structure of which includes an adjustment device, a side window, a side door, a control panel, a main door, an aquaculture workshop, an exhaust fan, The roof and solar panels can be adjusted. The adjustment device is installed inside the upper half of the aquaculture workshop. The side of the main door is movably connected to the inside of the front end of the aquaculture workshop. The exhaust fan is installed Above the door, the side windows are arranged at the same interval from left to right on both sides of the aquaculture workshop. The bottom of the adjustable roof is fixedly connected to the top of the aquaculture workshop and connected to the top of the adjustment device. The top of the middle end of the aquaculture workshop is vertically connected, the back of the control panel is fixedly connected to the front side of the right half of the aquaculture workshop, and the side doors are installed on both sides of the aquaculture workshop; the adjustment device consists of a left adjustment device, a connection device, and a right adjustment device , a lifting device, and a linkage device; the right side of the left adjustment device is meshed with the left side of the connecting device, the right end of the connecting device is fixedly connected to the left end of the right adjustment device, and the left side of the lifting device is connected to the right side of the linkage device. , the connecting device is located at the bottom of the left half of the lifting device and the right half of the linkage device.

Further, the left adjustment device is composed of a gear plate, an inclined frame, an adjustment bolt, a fixed block, an adjustment wheel, a transmission belt, a transmission gear plate, a motor, a linkage gear, a top transmission plate, a rotating shaft, a second transmission belt, a transmission disk, and a tension belt. composition.

Further, the rear side of the right end of the motor meshes with the front side of the outer ring of the transmission gear plate, and the transmission gear plate is connected to the linkage gear, the gear plate, and the adjustment wheel through the transmission belt, and the back of the adjustment wheel is connected to the top of the fixed block. Vertically connected, the bottom of the fixed block is welded to the top of the left end of the inclined frame, the top of the adjustment bolt penetrates the inclined frame and is connected to the inside of the fixed block, and the two ends of the tension belt are respectively connected to the rear end side of the transmission disc and the front end side of the linkage gear. The front end side of the transmission disc is connected to the side of the rotating shaft through the second transmission belt, and the rotating shaft is installed inside the bottom end of the top driving plate.

Further, the connecting device is composed of a transmission gear rod, a connecting gear plate, a supporting chassis, a tension rod, a left and right moving rod, a transfer transmission block, an outer wheel, a second tension rod, and a second tension belt.

Further, the rear side of the right end of the transmission gear rod meshes with the front side of the outer ring of the connecting gear disc, the rear side of the left end of the transmission gear rod meshes with the front side of the outer ring of the gear disc, and the two ends of the second tension band are respectively connected To connect the side of the front end of the gear plate and the side of the outer wheel, the outer wheel is installed on the top of the support chassis, the interior of the transfer transmission block is vertically connected to the front end of the geometric center of the outer wheel, one end of the second tension rod is fixedly connected to the left end of the transfer transmission block, and the other One end is connected to the left end of the left and right moving rod, one end of the tension rod is fixed on the left side of the middle end of the support chassis, and the other end is connected to the right side of the bottom end of the second tension rod.

Further, the right adjusting device consists of a fixed pulley, an intermediate connecting wheel, a bottom plate, an arc-shaped transmission block, a push rod, a tension rope, an L-shaped transmission frame, a gear cylinder, a transmission gear, a driving belt, a chassis, a second rotating shaft, a second Composed of two top drive plates.

Further, the back of the tension rope is vertically connected to the inside of the middle end of the L-shaped transmission frame, the left end of the fixed pulley is welded to the right end of the left and right moving rod, one end of the tension rope is connected to the interior of the fixed pulley, and the other end is fixed to the interior of the middle connecting wheel , the bottom end of the L-shaped transmission frame is slidingly connected to the inside of the bottom plate, the top side of the L-shaped transmission frame is meshed with the bottom side of the arc-shaped transmission block, and the top side of the arc-shaped transmission block is in transmission connection with the side of the transmission gear. The side of the transmission gear meshes with the front side of the gear cylinder, and the gear cylinder is connected to the chassis and the second rotating shaft through the driving belt. The second rotating shaft is installed inside the bottom end of the second top transmission plate, and the chassis is installed at the top of the ram.

Further, the lifting device is composed of a connecting frame, an intermediate wheel, a lifting transmission frame, a connecting belt, a driving motor, a connecting gear plate, a first lifting buffer top frame, a rack, a moving wheel, a right fixed track, and an angle adjustment plate , the rear side of the left end of the drive motor meshes with the front side of the outer ring of the connecting gear plate, the front side of the connecting gear plate is connected to the front side of the intermediate wheel through the connecting belt, and the bottom end of the intermediate wheel is connected to the top of the connecting frame Welding, the rear side of the bottom of the connecting frame is flexibly connected to the interior of the lifting transmission frame, the right half of the lifting transmission frame is fixedly connected to the bottom of the rack, and the upper and lower ends of the rack are equipped with moving wheels on the back, and the moving wheels The side is movably connected to the inside of the right fixed track, the left end of the first lifting buffer top frame is vertically connected to the front side of the rack top, and the top of the first lifting buffer top frame is fixedly connected to the bottom right end of the angle adjustment plate.

Further, the linkage device is composed of a left fixed track, a second rack, a second lifting buffer top frame, a second moving wheel, an intermediate transmission gear, a fulcrum wheel, and a T-shaped frame. The upper and lower ends of the second rack are The back is equipped with a second moving wheel, the side of the second moving wheel is movably connected with the inside of the left fixed track, the right side of the left fixed track is connected to the left side of the rack through the middle transmission gear, and the second lifting The right end of the buffer top frame is vertically connected to the front side of the top of the second rack, the top of the second lifting buffer top frame is fixedly connected to the bottom of the left end of the angle adjustment plate, and the two sides of the bottom end of the T-shaped frame are respectively connected to the top left of the right fixed rail. Side and the right side of the top of the left fixed track, the top of the T-shaped frame is equipped with a fulcrum wheel, and the top side of the fulcrum wheel is fixedly connected with the bottom of the middle end of the angle adjustment plate.

Further, the motor can generate driving torque as a power source.

Beneficial effect

In the solar temperature-controlled aquaculture workshop of the present invention, we need to use the drive motor to generate the drive torque as the power source. The drive motor can drive the intermediate runner to rotate through the transmission between the connecting belt and the connecting gear plate, and the intermediate runner passes through the connecting frame. Control the lifting transmission frame to go up and down, so as to drive the rack and the moving wheel to rise and fall, and the rack drives the second rack and the second moving wheel through the middle transmission gear, so that the rack and the second rack will be in different states , when the rack goes up, the second rack will go down, and when the rack goes down, the second rack will go up, the fulcrum wheel is located in the middle of the angle adjustment plate, and the angle adjustment plate rotates around the fulcrum wheel, so that we can well Adjust the angle of the angle adjustment plate, thereby changing the angle of the solar panel, improving the absorption and utilization of solar energy by the device. The motor can drive the transmission gear plate to rotate, and then drive the gear plate, the adjustment wheel, and the linkage gear to rotate through the transmission belt. The linkage gear passes through the first The transmission between the transmission belt, the transmission disc and the tension belt controls the rotating shaft, thereby adjusting the angle of the top transmission plate. The gear disc drives the outer wheel to rotate through the transmission gear rod, the connecting gear disc, and the second tension belt, and the outer wheel drives the second wheel through the transfer transmission block. When the tension rod rotates, the second tension rod can pull the left and right moving rods to move, and then pull the middle connecting wheel and the L-shaped transmission frame to move through the tension rope. The driving belt drives the chassis and the second shaft to rotate, and the rotation of the second shaft can control the angle adjustment of the second top transmission plate, thereby opening the roof, increasing the ventilation and internal lighting of the equipment, and improving the practical value of the equipment.

The invention relates to an adjustment device for a solar temperature-controlled aquaculture workshop, the device can adjust the angle of the solar electric panel, and the solar electric panel can be adjusted according to the sun's irradiation angle, so that the absorption and utilization of solar energy by the device can be improved At the same time, the roof of the equipment can also be opened, which can increase the ventilation of the equipment and the internal light, and improve the practical value of the equipment.

Description of drawings

Other characteristics, objects and advantages of the present invention will become more apparent by reading the detailed description of non-limiting embodiments made with reference to the following drawings:

Fig. 1 is a structural schematic diagram of a solar temperature-controlled aquaculture workshop of the present invention.

Fig. 2 is a structural schematic diagram of the regulating device of the present invention.

Fig. 3 is a schematic structural diagram of the refinement of the adjusting device of the present invention.

Fig. 4 is a structural schematic diagram of the working state of the adjusting device of the present invention.

In the picture: adjustment device-1, side window-2, side door-3, control panel-4, main door-5, aquaculture workshop-6, exhaust fan-7, adjustable roof-8, solar panel-9 , left adjustment device-11, connection device-12, right adjustment device-13, lifting device-14, linkage device-15, gear plate-111, inclined frame-112, adjustment bolt-113, fixed block-114, adjustment wheel -115, transmission belt-116, transmission gear plate-117, motor-118, linkage gear-119, top transmission plate-1110, rotating shaft-1111, second transmission belt-1112, transmission disc-1113, tension belt-1114, transmission gear Rod-121, connecting gear plate-122, support chassis-123, tension rod-124, left and right moving rod-125, transfer transmission block-126, outer wheel-127, second tension rod-128, second tension belt-129 , fixed pulley-131, intermediate connecting wheel-132, bottom plate-133, arc transmission block-134, ejector rod-135, tension rope-136, L-shaped transmission frame-137, gear cylinder-138, transmission gear-139, Driving belt-1310, chassis-1311, second rotating shaft-1312, second top transmission plate-1313, connecting frame-141, intermediate runner-142, lifting transmission frame-143, connecting belt-144, drive motor-145, Connecting gear plate-146, first lifting buffer top frame-147, rack-148, moving wheel-149, right fixed track-1410, angle adjustment plate-1411, left fixed track-151, second rack-152, The second lifting buffer top frame-153, the second moving wheel-154, the intermediate transmission gear-155, the fulcrum wheel-156, the T-shaped frame-157.

Detailed ways

In order to make the technical means, creative features, goals and effects achieved by the present invention easy to understand, the present invention will be further described below in conjunction with specific embodiments.

Please refer to Fig. 1-Fig. 4, the present invention provides a kind of technical solution of solar temperature control aquaculture workshop: its structure includes adjusting device 1, side window 2, side door 3, control panel 4, main door 5, aquaculture workshop 6, row Air fan 7, adjustable roof 8, solar panel 9, the adjustment device 1 is installed inside the upper half of the aquaculture workshop 6, the side of the main door 5 is flexibly connected to the inside of the front end of the aquaculture workshop 6, and the exhaust fan 7 is installed on the front end of the aquaculture workshop 6 and is arranged above the main door 5. The side windows 2 are arranged at the same interval from left to right on both sides of the aquaculture workshop 6. The bottom of the adjustable roof 8 is connected to the top of the aquaculture workshop 6. Fixedly connected and connected to the top of the adjustment device 1, the bottom of the solar panel 9 is vertically connected to the top of the middle end of the aquaculture workshop 6, the back of the control panel 4 is fixedly connected to the front side of the right half of the aquaculture workshop 6, and the side door 3 Installed on both sides of the aquaculture workshop 6; the adjusting device 1 is composed of a left adjusting device 11, a connecting device 12, a right adjusting device 13, a lifting device 14, and a linkage device 15; the right side of the left adjusting device 11 is connected to the connecting device 12 The left side is meshed, the right end of the connecting device 12 is fixedly connected to the left end of the right adjustment device 13, the left side of the lifting device 14 is connected to the right side of the linkage device 15, and the connecting device 12 is located at the left half of the lifting device 14 and the right side of the linkage device 15. Linkage device 15 right half end bottoms, described left adjustment device 11 is made of gear plate 111, inclined frame 112, adjustment bolt 113, fixed block 114, adjustment wheel 115, transmission belt 116, transmission gear plate 117, motor 118, linkage gear 119, top Transmission plate 1110, rotating shaft 1111, second transmission belt 1112, transmission disc 1113, tension belt 1114 are formed, and described motor 118 right end rear side is meshed with transmission gear plate 117 outer ring front side, and described transmission gear plate 117 is connected with transmission belt 116 by transmission belt 116. The linkage gear 119, the gear plate 111, and the adjustment wheel 115 are connected by transmission. The back of the adjustment wheel 115 is vertically connected to the inside of the top of the fixed block 114. The bottom of the fixed block 114 is welded to the top of the left end of the inclined frame 112. The top of the adjustment bolt 113 Through the inclined frame 112 and connected to the inside of the fixed block 114, the two ends of the tension belt 1114 are respectively connected to the rear end side of the transmission disc 1113 and the front end side of the linkage gear 119, and the front end side of the transmission disc 1113 passes through the second transmission belt 1112 and the side of the rotating shaft 1111 Carry out transmission connection, described rotating shaft 1111 is installed inside the bottom end of top transmission plate 1110, and described connecting device 12 is made up of transmission gear rod 121, connecting gear plate 122, support chassis 123, tension rod 124, left and right moving rod 125, relay transmission block 126, outer wheel 127, second tension rod 128, and second tension band 129. The rear side of the right end of the transmission gear rod 121 is meshed with the front side of the outer ring of the connecting gear plate 122. The rear side of the left end of the transmission gear rod 121 is connected to the The front side of the outer ring of the gear plate 111 is meshed, and the two ends of the second tension band 129 are connected to the connecting ring respectively. Connect the side of the front end of the gear plate 122 and the side of the outer wheel 127, the outer wheel 127 is installed on the top of the support chassis 123, the interior of the transfer transmission block 126 is vertically connected with the front end of the geometric center of the outer wheel 127, and one end of the second tension rod 128 is connected to the transfer transmission The left end of the block 126 is fixedly connected, and the other end is connected to the left end of the left and right moving rod 125. One end of the tension rod 124 is fixed on the left side of the middle end of the support chassis 123, and the other end is connected to the right side of the bottom end of the second tension rod 128. The adjusting device 13 is composed of a fixed pulley 131, an intermediate connecting wheel 132, a base plate 133, an arc transmission block 134, a push rod 135, a tension rope 136, an L-shaped transmission frame 137, a gear cylinder 138, a transmission gear 139, a driving belt 1310, and a chassis 1311 , the second rotating shaft 1312, and the second top transmission plate 1313. The back of the tension rope 136 is vertically connected to the inside of the middle end of the L-shaped transmission frame 137. The left end of the fixed pulley 131 is welded to the right end of the left and right moving rod 125. The tension rope One end of 136 is connected to the inside of the fixed pulley 131, and the other end is fixed to the inside of the intermediate connecting wheel 132. The bottom end of the L-shaped transmission frame 137 is slidably connected to the inside of the bottom plate 133, and the top side of the L-shaped transmission frame 137 is connected to the arc-shaped transmission block 134. The side of the bottom end is meshed, the top side of the arc-shaped transmission block 134 is in transmission connection with the side of the transmission gear 139, the side of the transmission gear 139 is meshed with the front side of the gear cylinder 138, and the gear cylinder 138 is connected to the chassis through the driving belt 1310 1311, the second rotating shaft 1312 is connected by transmission, the second rotating shaft 1312 is installed inside the bottom end of the second top transmission plate 1313, the chassis 1311 is installed on the top of the push rod 135, the lifting device 14 is composed of the connecting frame 141, the middle Runner 142, lifting transmission frame 143, connecting belt 144, driving motor 145, connecting gear plate 146, the first lifting buffer top frame 147, rack 148, moving wheel 149, right fixed track 1410, angle adjustment plate 1411 are formed, all The rear side of the left end of the drive motor 145 meshes with the front side of the outer ring of the connecting gear plate 146, and the front side of the connecting gear plate 146 is connected to the front side of the intermediate wheel 142 through the connecting belt 144. The bottom of the intermediate wheel 142 Welded with the top of the connecting frame 141, the bottom rear side of the connecting frame 141 is flexibly connected to the inside of the lifting transmission frame 143, the right half of the lifting transmission frame 143 is fixedly connected to the bottom end of the rack 148, and the upper and lower ends of the rack 148 The back is equipped with a moving wheel 149, the side of the moving wheel 149 is movably connected with the right fixed rail 1410, the left end of the first lifting buffer top frame 147 is vertically connected with the front side of the top of the rack 148, and the first lifting buffer top frame 147 top is fixedly connected with the bottom right end of angle adjustment plate 1411, and described linkage device 15 is made up of left fixed track 151, second rack 152, second lifting buffer top frame 153, second moving wheel 154, intermediate transmission gear 155, fulcrum wheel 156, T-shaped frame 1 57, the upper and lower ends of the second rack 152 are equipped with a second moving wheel 154 on the back, the side of the second moving wheel 154 is movably connected with the left fixed track 151, and the right side of the left fixed track 151 passes through the middle The transmission gear 155 is connected to the left side of the rack 148. The right end of the second lifting buffer top frame 153 is vertically connected to the front side of the top of the second rack 152. The top of the second lifting buffer top frame 153 is connected to the angle adjustment plate. The bottom of the left end of 1411 is fixedly connected, the two sides of the bottom of the T-shaped frame 157 are respectively connected to the left side of the top of the right fixed rail 1410 and the right side of the top of the left fixed rail 151, and the top of the T-shaped frame 157 is equipped with a fulcrum wheel 156. The top side of the fulcrum wheel 156 is fixedly connected to the bottom of the middle end of the angle adjustment plate 1411, and the motor 118 can generate a driving torque as a power source.

The solar panel 9 mentioned in this patent is a device that directly or indirectly converts solar radiation energy into electrical energy through the photoelectric effect or photochemical effect by absorbing sunlight. The main material of most solar panels is "silicon", but due to the The cost is so great that it cannot be widely and commonly used in large quantities.

When in use, we need to use the drive motor 145 to generate a drive torque as a power source. The drive motor 145 can drive the intermediate runner 142 to rotate through the transmission between the connecting belt 144 and the connecting gear plate 146, and the intermediate runner 142 passes through the connecting frame. 141 controls the lifting transmission frame 143 to lift, thereby driving the rising and falling of the rack 148 and the moving wheel 149, the rack 148 drives the lifting of the second rack 152 and the second moving wheel 154 through the intermediate transmission gear 155, so that the rack 148 and the second moving wheel 154 are lifted. The second rack 152 will be in a different state. When the rack 148 rises, the second rack 152 will descend. When the rack 148 descends, the second rack 152 will rise. The fulcrum wheel 156 is located in the middle of the angle adjustment plate 1411 , the angle adjustment plate 1411 rotates around the fulcrum wheel 156, so that we can well adjust the angle of the angle adjustment plate 1411, thereby changing the angle of the solar panel 9, improving the absorption and utilization of solar energy by the device, and the motor 118 can drive the transmission gear The disc 117 rotates, and then drives the gear disc 111, the adjusting wheel 115, and the interlocking gear 119 to rotate through the transmission belt 116, and the interlocking gear 119 controls the rotating shaft 1111 through the transmission between the second transmission belt 1112, the transmission disc 1113, and the tension belt 1114, thereby adjusting the top transmission. The angle of the plate 1110, the gear plate 111 drives the outer wheel 127 to rotate through the transmission gear rod 121, the connecting gear plate 122, and the second tension belt 129, and the outer wheel 127 drives the second tension rod 128 to rotate through the transfer transmission block 126, and the second tension rod 128 can Pull the left and right moving rods 125 to move, then pull the middle connecting wheel 132 and the L-shaped transmission frame 137 to move through the pull rope 136, the L-shaped transmission frame 137 is driven to rotate by the arc transmission block 134, the gear cylinder 138 rotates with it, and the gear cylinder 138 passes through The driving belt 1310 drives the chassis 1311 and the second shaft 1312 to rotate, and the rotation of the second shaft 1312 can control the angle adjustment of the second top transmission plate 1313, thereby opening the roof, increasing the ventilation and internal lighting of the equipment, and improving the practical value of the equipment .

The problem solved by the present invention is that the existing technology is not perfect. The solar panels in the existing solar temperature-controlled aquaculture workshop can only be fixed at an angle, which can only absorb solar energy for a period of time, reducing the utilization efficiency of energy and reducing the use of equipment. value, the present invention can adjust the angle of the solar panel through the combination of the above components, and the solar panel can be adjusted according to the angle of the sun, so that the absorption and utilization of solar energy by the device can be improved, and the equipment The roof can also be opened, which can increase the ventilation of the equipment and the internal light, and improve the practical value of the equipment.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described above. For those skilled in the art, it is obvious that the present invention is not limited to the details of the above-mentioned exemplary embodiments, and without departing from the spirit or fundamentals of the present invention. The present invention can be implemented in other specific forms without any specific features. Accordingly, the embodiments should be regarded in all points of view as exemplary and not restrictive, the scope of the invention being defined by the appended claims rather than the foregoing description, and it is therefore intended that the scope of the invention be defined by the appended claims rather than by the foregoing description. All changes within the meaning and range of equivalents of the elements are embraced in the present invention. Any reference sign in a claim should not be construed as limiting the claim concerned.

In addition, it should be understood that although this specification is described according to implementation modes, not each implementation mode only contains an independent technical solution, and this description in the specification is only for clarity, and those skilled in the art should take the specification as a whole , the technical solutions in the various embodiments can also be properly combined to form other implementations that can be understood by those skilled in the art.

Claims (9)

1. a kind of solar energy temperature control aquaculture workshop, structure includes regulating device (1), side window (2), side door (3), control plane Plate (4), main door (5), aquaculture workshop (6), exhaust fan (7), adjustable roof (8), solar energy electroplax (9), feature exists In：

The regulating device (1) is mounted on inside aquaculture workshop (6) upper half end, main door (5) side and aquaculture The internal activity connection of workshop (6) front end, the exhaust fan (7) are mounted on aquaculture workshop (6) front end and in main doors (5) Side, the side window (2) are from left to right spaced identical be arranged in order in aquaculture workshop (6) both sides, the adjustable roof (8) It is fixedly connected and is connected at the top of regulating device (1), solar energy electroplax (9) bottom at the top of bottom and aquaculture workshop (6) Portion and vertical connection at the top of aquaculture workshop (6) middle-end, control panel (4) back and aquaculture workshop (6) right half End front side is fixedly connected, and the side door (3) is mounted on aquaculture workshop (6) both sides；

The regulating device (1) by left regulating device (11), attachment device (12), right regulating device (13), lifting gear (14), Linkage (15) forms；

Left regulating device (11) right end side is meshed with attachment device (12) left end side, and the attachment device (12) is right End is fixedly connected with right regulating device (13) left end, is driven with linkage (15) right side on the left of the lifting gear (14) Connection, the attachment device (12) are set to lifting gear (14) Zuo Banduan and the right half end bottom of linkage (15).

2. a kind of solar energy temperature control aquaculture workshop according to claim 1, it is characterised in that：The left regulating device (11) by toothed disc (111), oblique frame (112), regulation cock (113), fixed block (114), regulating wheel (115), transmission belt (116), Driving cog wheel disc (117), motor (118), linkage gear (119), top driver plate (1110), shaft (1111), the second transmission Band (1112), drive plate (1113), pull strap (1114) composition.

3. a kind of solar energy temperature control aquaculture workshop according to claim 2, it is characterised in that：The motor (118) It is meshed on front side of right end trailing flank and driving cog wheel disc (117) outer ring, the driving cog wheel disc (117) passes through transmission belt (116) It is sequentially connected with linkage gear (119), toothed disc (111), regulating wheel (115), regulating wheel (115) back and fixation The internal vertical connection of block (114) top, fixed block (114) bottom are welded at the top of oblique frame (112) left end, the regulation cock (113) top is connected to fixed block (114) inside through oblique frame (112), and pull strap (1114) both ends are connected respectively to biography Moving plate (1113) rear end side and linkage gear (119) front end side, drive plate (1113) the front end side are passed by second Dynamic band (1112) is sequentially connected with shaft (1111) side, and the shaft (1111) is mounted on top driver plate (1110) bottom End is internal.

4. a kind of solar energy temperature control aquaculture workshop according to claim 1, it is characterised in that：The attachment device (12) by transmission gear bar (121), tooth connection wheel disc (122), support underframe (123), stayed mast (124), move left and right bar (125), transfer drive block (126), foreign steamer (127), the second stayed mast (128), the second pull strap (129) composition.

5. a kind of solar energy temperature control aquaculture workshop according to claim 4, it is characterised in that：The transmission gear bar (121) it is meshed on front side of right end trailing flank and tooth connection wheel disc (122) outer ring, transmission gear bar (121) the left end trailing flank It is meshed with toothed disc (111) outer ring front side, the second pull strap (129) both ends are connected respectively to tooth connection wheel disc (122) Front end side and foreign steamer (127) side, the foreign steamer (127) are mounted on support underframe (123) top, the transfer drive block (126) internal and foreign steamer (127) geometric center front end vertical connection, described second stayed mast (128) one end and transfer drive block (126) left end is fixedly connected, and the other end, which is connected to, moves left and right bar (125) left end, and branch is fixed in described stayed mast (124) one end It supports on the left of chassis (123) middle-end, the other end is connected on the right side of the second stayed mast (128) bottom end.

6. a kind of solar energy temperature control aquaculture workshop according to claim 1, it is characterised in that：The right regulating device (13) by fixed pulley (131), intermediate fifth wheel (132), bottom plate (133), arc drive block (134), mandril (135), pulling force rope (136), L-shaped gear frame (137), gear cylinder (138), transmission gear (139), main belt (1310), chassis (1311), second turn Axis (1312), the second top driver plate (1313) composition.

7. a kind of solar energy temperature control aquaculture workshop according to claim 6, it is characterised in that：The pulling force rope (136) back is connect with L-shaped gear frame (137) middle-end internal vertical, fixed pulley (131) left end and moves left and right bar (125) right end welds, and described pulling force rope (136) one end is connected to fixed pulley (131) inside, and the other end is fixed on intermediate fifth wheel (132) internal, L-shaped gear frame (137) bottom end is connect with bottom plate (133) internal slide, L-shaped gear frame (137) top End side surface is meshed with arc drive block (134) bottom end side, arc drive block (134) the top side and transmission gear (139) side is sequentially connected, and transmission gear (139) side is meshed with gear cylinder (138) front end side, the tooth Wheel cylinder (138) is sequentially connected by main belt (1310) and chassis (1311), the second shaft (1312), second shaft (1312) it is mounted on second top driver plate (1313) bottom inner portion, the chassis (1311) is mounted on mandril (135) top.

8. a kind of solar energy temperature control aquaculture workshop according to claim 1, it is characterised in that：The lifting gear (14) by link (141), middle runner (142), lifting and driving frame (143), connect band (144), driving motor (145), connection Toothed disc (146), the first lifting buffering upper frame (147), rack (148), movable pulley (149), right trapped orbit (1410), angle Adjustable plate (1411) forms, and is meshed on front side of driving motor (145) the left end trailing flank and tooth connection wheel disc (146) outer ring, Tooth connection wheel disc (146) the front end side is sequentially connected by connect band (144) and middle runner (142) front end side, Middle runner (142) bottom end is welded at the top of link (141), and link (141) the bottom rear end side is passed with lifting Dynamic frame (143) internal activity connection, right half end of the lifting and driving frame (143) are fixedly connected with rack (148) bottom end, the tooth Item (148) upper and lower ends back is equipped with movable pulley (149), and movable pulley (149) side is internal with right trapped orbit (1410) Flexible connection, the first lifting buffering upper frame (147) left end and leading flank vertical connection at the top of rack (148), described first Lifting buffering upper frame (147) top is fixedly connected with angle adjustment plate (1411) right end bottom.

9. a kind of solar energy temperature control aquaculture workshop according to claim 1, it is characterised in that：The linkage (15) by left trapped orbit (151), the second rack (152), second lifting buffering upper frame (153), the second movable pulley (154), in Between transmission gear (155), fulcrum wheel (156), T shapes frame (157) composition, the second rack (152) upper and lower ends back is equipped with Second movable pulley (154), the second movable pulley (154) side are connect with left trapped orbit (151) internal activity, described left solid Orbit determination road (151) right side is sequentially connected by intermediate drive gear (155) and rack (148) left side, and described second Leading flank vertical connection at the top of lifting buffering upper frame (153) right end and the second rack (152), the second lifting buffering upper frame (153) top is fixedly connected with angle adjustment plate (1411) left end bottom, and T shapes frame (157) the bottom end both sides are connected respectively to For right trapped orbit (1410) top left hand on the right side of left trapped orbit (151) top, T shapes frame (157) top is equipped with fulcrum It takes turns (156), fulcrum wheel (156) top side face is fixedly connected with angle adjustment plate (1411) middle-end bottom.