CN114421873B - Moisture-proof device for solar cell panel packaged by solar component - Google Patents

Abstract

The invention relates to a solar cell panel moisture-proof device, in particular to a solar cell panel moisture-proof device for packaging a solar module. The solar module packaging solar panel damp-proof device can effectively prevent moisture from permeating into a solar panel, and prevent the short circuit and other problems from occurring. A damp-proof device for a solar cell panel packaged by a solar component comprises a guide rail, a sliding plate, a first rotating rod, a placing plate, a clamping plate and the like; control and all slidingtype in two guide rails and be equipped with the sliding plate, control between two sliding plate front sides the rotary type and be equipped with first bull stick, the first bull stick left and right sides all is equipped with places the board, places the equal slidingtype in board lower part and is equipped with splint. First bull stick rearward movement makes the contact block no longer receive the extrusion of promotion frame, at this moment, solar cell panel rotates thereupon downwards and draws in, and shelters from the frame and just covers on solar cell panel after rotating forward to shelter from rain to it, avoid solar cell panel inside to wet.

Description

Moisture-proof device for solar cell panel packaged by solar component

Technical Field

The invention relates to a solar cell panel moisture-proof device, in particular to a solar cell panel moisture-proof device for packaging a solar module.

Background

The solar cell panel is also called a solar cell module or a photovoltaic module and is formed by packaging and combining a plurality of solar cells, the solar cell panel is used for absorbing light energy and converting the light energy into electric energy, and the solar cell panel is a core part of a solar power generation system.

Solar cell panel generally installs in the open air, for better receipt sunshine, in case sunshine is sheltered from, there is not any shelter from thing in solar cell panel the place ahead generally, this rainwater can directly fall on solar cell panel when just leading to the rainy day, make solar cell panel moist, simultaneously, the moisture of environment after the rain is great, although present solar cell panel all has certain waterproof function, but moisture also permeates in solar cell panel's the battery storage easily, perhaps permeate the in-line of connecting on the solar cell panel, cause the problem influence solar cell panel such as short circuit to use.

Therefore, the moisture-proof device for the solar cell panel packaged by the solar module can effectively prevent moisture from permeating into the solar cell panel and avoid the problems of short circuit and the like.

Disclosure of Invention

In order to overcome in the rainy day, solar cell panel is moist, and in moisture infiltration solar cell panel, cause the shortcoming that short circuit scheduling problem influences solar cell panel and uses, the technical problem who solves: the solar module packaging solar panel damp-proof device can effectively avoid water from permeating into a solar panel, and avoid the short circuit and other problems.

The invention is implemented by the following technical approaches: the utility model provides a be used for solar module encapsulation solar cell panel dampproof device, including the guide rail, the sliding plate, first bull stick, place the board, splint, the lead screw, solar cell panel, promote subassembly and dampproofing subassembly, it is equipped with the sliding plate to control all slidingtype in two guide rails, the rotary type is equipped with first bull stick between two sliding plate front sides about, the first bull stick left and right sides all is equipped with places the board, it is equipped with splint to control two equal slidingtypes in board lower part of placing, it is equipped with the lead screw to control two equal rotary types in board rear side of placing, control two splint all pass through threaded connection with the lead screw of homonymy, two place and placed solar cell panel between board and two splint, still including promoting subassembly and dampproofing subassembly, be equipped with between guide rail and the first bull stick and be used for promoting solar cell panel pivoted promotion subassembly, it is used for preventing that solar cell panel from weing to control between two guide rail rear sides.

As a further preferred scheme, the pushing assembly comprises a connecting plate, a pushing frame and contact blocks, two connecting plates are arranged between the bottoms of the left guide rail and the right guide rail, the pushing frame is arranged between the middle parts of the two connecting plates, and the contact blocks are arranged on the left side and the right side of the middle part of the first rotating rod.

As a further preferred scheme, the moisture-proof assembly comprises a fixing plate, a second rotating rod and a shielding frame, the fixing plate is arranged on the rear side of each of the left guide rail and the right guide rail, the second rotating rod is rotatably arranged between the left fixing plate and the right fixing plate, and the shielding frame is arranged on the second rotating rod.

As a further preferred scheme, the telescopic mechanism further comprises a telescopic assembly used for providing power for the forward and backward movement of the first rotating rod, the telescopic assembly comprises a supporting plate, an electric push rod and a connecting block, the supporting plate is arranged in the middle of the connecting plate on the front side, the electric push rod is arranged on the upper portion of the supporting plate, the connecting block is arranged at the extending end of the electric push rod, and the upper portion of the connecting block is rotatably connected with the first rotating rod.

As further preferred scheme, still including being used for making second bull stick pivoted runner assembly automatically, the runner assembly is including the deflector, the slide bar, fixed cover, first spring, diaphragm and wedge type piece, it all is equipped with the deflector to control two fixed plate outsides, the equal slidingtype in deflector lower part is equipped with the slide bar, the second bull stick left and right sides all is equipped with fixed cover, it all is connected with the fixed cover slidingtype of homonymy to control two slide bars, first spring has all been cup jointed between the deflector of controlling two slide bars and homonymy, control two slide bar outer ends and all be equipped with the diaphragm, control two diaphragm front sides and all be equipped with wedge type piece.

As further preferred scheme, still including the heating element who is used for drying solar cell panel surface moisture, heating element is including box, apron and heating rod, and the left and right sides all is equipped with the box between two connecting plates, and two box tops all slidingtype about are equipped with the apron, and the left and right sides all is equipped with the heating rod in the box.

As further preferred scheme, still including being used for the automatic translation subassembly of opening the apron, the translation subassembly is including the guide bar, the right angle board, second spring and strip template, control two box front sides and all be equipped with the guide bar, control the equal slidingtype of two guide bar left and right sides and be equipped with the right angle board, control the equal and cover connection with the homonymy of right angle board rear side, all around having connect the second spring between the guide bar of right angle board and homonymy, control two sliding plate front sides and all be equipped with the strip template, control two strip templates and all contact with two right angle boards of homonymy with the rebound.

As a further preferable scheme, the bottom of the shielding frame is provided with a transparent acrylic plate.

As a further preferable scheme, the bottom of the screw rod is provided with a handle.

Compared with the prior art, the invention has the following advantages:

1. first bull stick rearward movement makes the contact block no longer receive the extrusion of promotion frame, at this moment, solar cell panel rotates thereupon downwards and draws in, and shelters from the frame and just covers on solar cell panel after rotating forward to shelter from rain to it, avoid solar cell panel inside to wet.

2. Shortening or lengthening the extension end of the electric push rod can enable the first rotating rod to move forwards or backwards, so that rotation is provided for the first rotating rod to move forwards and backwards, and manual pushing is not needed.

3. The sliding plate moves backwards to be in contact with the wedge-shaped block, so that the sliding rod slides backwards, and the fixing sleeve drives the shielding frame to rotate forwards to cover the solar panel.

4. The sliding plate slides backwards to enable the right-angle plate to drive the cover plate to slide backwards to be opened, at the moment, the heating rod can heat the solar cell panel, and therefore moisture on the surface of the solar cell panel is dried.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

Fig. 3 is a perspective view of the pushing assembly of the present invention.

Fig. 4 is a perspective view of the moisture barrier assembly of the present invention.

Fig. 5 is a perspective view of the telescopic assembly of the present invention.

Fig. 6 is a schematic perspective view of the rotating assembly of the present invention.

Fig. 7 is a schematic perspective view of the heating assembly of the present invention.

Fig. 8 is a schematic perspective view of a portion of a heating assembly according to the present invention.

Fig. 9 is a perspective view of the translation assembly of the present invention.

Wherein: 1-guide rail, 2-sliding plate, 3-first rotating rod, 4-placing plate, 5-clamping plate, 6-screw rod, 61-solar panel, 7-pushing assembly, 71-connecting plate, 72-pushing frame, 73-contact block, 8-moisture-proof assembly, 81-fixing plate, 82-second rotating rod, 83-shielding frame, 9-telescopic assembly, 91-supporting plate, 92-electric push rod, 93-connecting block, 10-rotating assembly, 101-guide plate, 102-sliding rod, 103-fixing sleeve, 104-first spring, 105-transverse plate, 106-wedge-shaped block, 11-heating assembly, 111-box body, 112-cover plate, 113-heating rod, 12-translating assembly, 121-guide rod, 122-right-angle plate, 123-second spring and 124-shaping plate.

Detailed Description

The invention is further described in the following examples, which are intended to illustrate, unless otherwise explicitly stated or limited, terms such as: the arrangement, mounting, connection should be understood broadly, for example, they may be fixed connections, detachable connections, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

The utility model provides a be used for solar module to encapsulate solar cell panel dampproof device, as shown in fig. 1-4, including guide rail 1, the sliding plate 2, first bull stick 3, place board 4, splint 5, the lead screw 6, solar cell panel 61, promote subassembly 7 and dampproofing subassembly 8, it is equipped with sliding plate 2 to all slidingtype in two guide rails 1 about, the rotary type is equipped with first bull stick 3 between two sliding plate 2 front sides about, first bull stick 3 left and right sides all is equipped with places board 4, it is equipped with splint 5 to place the equal slidingtype of board 4 lower part about two, it is equipped with lead screw 6 to place the equal rotary type of board 4 rear side about two, it all is equipped with the handle to control two lead screw 6 bottoms of lead screw 6 of two splint 5 all with the homonymy about, two place and place solar cell panel 61 between board 4 and two splint 5 for two, be equipped with between guide rail 1 and the first bull stick 3 and promote subassembly 7, it can promote solar cell panel 61 to rotate to promote subassembly 7, it is equipped with dampproofing subassembly 8 to control between two guide rail 1 rear sides, dampproofing subassembly 8 can prevent that solar cell panel 61 from weing.

As shown in fig. 1 and 3, the pushing assembly 7 includes a connecting plate 71, a pushing frame 72 and a contact block 73, two connecting plates 71 are welded between the bottoms of the left and right guide rails 1, the middle portions of the two connecting plates 71 are fixedly connected with the pushing frame 72 through bolts, the left and right sides of the middle portion of the first rotating rod 3 are connected with the contact block 73 in a key manner, and the left and right contact blocks 73 are in contact with the pushing frame 72.

As shown in fig. 1 and 4, the moisture-proof assembly 8 includes a fixing plate 81, a second rotating rod 82 and a shielding frame 83, the fixing plate 81 is welded to the rear sides of the left and right guide rails 1, the second rotating rod 82 is rotatably disposed between the left and right fixing plates 81, the shielding frame 83 is disposed on the second rotating rod 82, and the bottom of the shielding frame 83 is provided with a transparent acrylic plate.

When the device is used, a worker drives the screw rod 6 to rotate through the handle, the screw rod 6 rotates to drive the clamping plate 5 to slide downwards to not clamp the solar cell panel 61, then, the worker can take the whole solar cell panel 61 off from the placing plate 4 and the clamping plate 5 to carry out maintenance, maintenance and replacement, after the maintenance is finished, the worker puts the solar cell panel 61 back between the clamping plate 5 and the placing plate 4 again, after the placement is finished, the worker drives the screw rod 6 to rotate reversely through the handle, the handle drives the screw rod 6 to rotate reversely to drive the clamping plate 5 to slide upwards to be matched with the placing plate 4 to clamp the solar cell panel 61, when raining, the worker can push the first rotating rod 3 to move backwards, the first rotating rod 3 moves backwards to drive the sliding plate 2 to slide backwards on the guide rail 1, the first rotating rod 3 moves backwards and simultaneously drives the contact block 73 to move backwards, and the contact block 73 moves backwards, under the action of the solar cell panel 61, the solar cell panel 61 rotates downwards to further drive the placing plate 4, the clamping plate 5 and the screw rod 6 to rotate downwards, the first rotating rod 3 also rotates when moving backwards, when the first rotating rod 3 drives the contact block 73 to move backwards to be separated from the pushing frame 72, at the moment, the solar cell panel 61 rotates downwards to be in a horizontal state, at the moment, a worker pushes the shielding frame 83 to rotate forwards by 180 degrees, the shielding frame 83 rotates forwards to drive the second rotating rod 82 to rotate on the fixed plate 81, the shielding frame 83 rotates forwards by 180 degrees to just cover the solar cell panel 61 in the horizontal state, so that rain is shielded for the solar cell panel 61, the internal moisture of the solar cell panel 61 is avoided, short circuit is avoided, and meanwhile, the worker can also check the condition of the solar cell panel 61 through the transparent acrylic plate, when the weather is fine, the worker pushes the shielding frame 83 to rotate backwards by 180 degrees, the second rotating rod 82 rotates backwards and resets, the shielding frame 83 rotates backwards by 180 degrees and then does not cover the solar cell panel 61, at this time, the worker pushes the first rotating rod 3 to move forwards, the first rotating rod 3 moves forwards to drive the sliding plate 2 to slide forwards on the guide rail 1, the first rotating rod 3 moves forwards and simultaneously drives the contact block 73 to move forwards, when the contact block 73 moves forwards to be in contact with the pushing frame 72, the contact block 73 continues to move forwards and is extruded by the pushing frame 72 to rotate downwards, the contact block 73 rotates downwards to drive the first rotating rod 3 to rotate, the first rotating rod 3 rotates to drive the placing plate 4 to rotate upwards, the placing plate 4 rotates upwards to drive the solar cell panel 61 to rotate upwards through the clamping plate 5 to reset, the solar cell panel 61 rotates upwards and then is in an inclined state, and solar energy can be better absorbed.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 5, the telescopic assembly 9 is further included, the telescopic assembly 9 can provide power for the first rotating rod 3 to move back and forth, the telescopic assembly 9 includes a supporting plate 91, an electric push rod 92 and a connecting block 93, the supporting plate 91 is welded in the middle of the connecting plate 71 on the front side, the electric push rod 92 is arranged on the upper portion of the supporting plate 91, the connecting block 93 is connected to the extending end of the electric push rod 92, and the upper portion of the connecting block 93 is rotatably connected with the first rotating rod 3.

When using the device, when raining, staff control electric putter 92's extension end shortens, electric putter 92's extension end shortens and drives connecting block 93 rearward movement, connecting block 93 rearward movement drives first bull stick 3 rearward movement, and then make solar cell panel 61 rotate to the horizontality downwards, when fine on the same day, staff control electric putter 92's extension end extension, connecting block 93 drives first bull stick 3 forward movement thereupon, and then make solar cell panel 61 upwards rotate and reset, so, can provide the rotation for 3 back-and-forth movements of first bull stick, no longer need through artifical promotion.

As shown in fig. 1 and 6, the sliding device further comprises a rotating assembly 10, the rotating assembly 10 can automatically rotate the second rotating rod 82, the rotating assembly 10 comprises a guide plate 101, sliding rods 102, fixing sleeves 103, first springs 104, transverse plates 105 and wedge-shaped blocks 106, the guide plate 101 is welded on the outer sides of the left fixing plate 81 and the right fixing plate 81, the sliding rods 102 are arranged on the lower portion of the guide plate 101 in a sliding manner, the fixing sleeves 103 are arranged on the left side and the right side of the second rotating rod 82, the left sliding rod 102 and the right sliding rod 102 are connected with the fixing sleeves 103 on the same side in a sliding manner, the first springs 104 are sleeved between the left sliding rod 102 and the guide plate 101 on the same side, the transverse plates 105 are welded on the outer ends of the left sliding rod 102 and the right sliding rod 102, the wedge-shaped blocks 106 are fixedly connected to the front sides of the left transverse plates 105 and the right sliding plates 2 through bolts, and the left sliding plates 2 are in backward sliding contact with the wedge-shaped blocks 106 on the same side.

When the device is used, the sliding plate 2 slides backwards to be in contact with the wedge-shaped blocks 106, the sliding plate 2 slides backwards continuously to extrude the left and right wedge-shaped blocks 106 to move backwards, the left and right wedge-shaped blocks 106 move backwards to drive the sliding rods 102 to slide backwards through the transverse plate 105, the first spring 104 deforms, the left and right sliding rods 102 slide backwards and simultaneously drive the fixing sleeve 103 to rotate, the fixing sleeve 103 rotates to drive the second rotating rod 82 to rotate, the shielding frame 83 rotates forwards to cover the solar panel 61, when the sliding plate 2 moves forwards, the sliding rods 102 slide backwards and reset oppositely under the reset action of the first spring 104, the sliding rods 102 slide oppositely to drive the fixing sleeve 103 to rotate reversely, the second rotating rod 82 drives the shielding frame 83 to rotate backwards to open, and therefore, the shielding frame 83 can automatically rotate forwards to cover the solar panel 61 after the sliding plate 2 moves backwards.

As shown in fig. 1, 7 and 8, the solar drying device further comprises a heating assembly 11, the heating assembly 11 can dry moisture on the surface of the solar panel 61, the heating assembly 11 comprises a box body 111, a cover plate 112 and heating rods 113, the box body 111 is fixedly connected to the left side and the right side of the two connecting plates 71 through bolts, the cover plate 112 is arranged at the top of the box body 111 in a sliding mode, and the heating rods 113 are arranged on the left side and the right side of the box body 111.

As shown in fig. 1 and 9, still including translation subassembly 12, translation subassembly 12 can open apron 112 automatically, translation subassembly 12 is including guide bar 121, rectangular plate 122, second spring 123 and strip type board 124, guide bar 121 has all been welded to two box 111 front sides about, the equal slidingtype of guide bar 121 left and right sides is equipped with rectangular plate 122, left and right sides rectangular plate 122 rear side all is connected with the apron 112 of homonymy, all around having connect second spring 123 between rectangular plate 122 and the guide bar 121 of homonymy, it has strip type board 124 all to weld two sliding plate 2 front sides about, it all contacts with two rectangular plates 122 of homonymy all to control two strip type boards 124 backward movement.

When the device is used, the sliding plate 2 slides backwards to drive the strip-shaped plate 124 to move backwards, when the strip-shaped plate 124 moves backwards to be in contact with the right-angle plate 122, the strip-shaped plate 124 continues to move backwards to drive the right-angle plate 122 to slide backwards, the second spring 123 deforms, the right-angle plate 122 slides backwards to drive the cover plate 112 to slide backwards to open, at this time, the heating rod 113 is started to heat the solar panel 61, so that moisture on the surface of the solar panel 61 is dried, when the sliding plate 2 slides forwards, the strip-shaped plate 124 moves forwards, at this time, under the reset action of the second spring 123, the right-angle plate 122 drives the cover plate 112 to slide forwards to close, so that the heating rod 113 in the box body 111 is protected, the heating rod 113 is prevented from being damaged, and the heating rod 113 is closed, and thus, the solar panel 61 can be heated and dried automatically after being folded.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.

Claims (7)

1. A damp-proof device for packaging a solar panel by a solar assembly comprises guide rails (1), sliding plates (2), first rotating rods (3), placing plates (4), clamping plates (5), screw rods (6) and solar panels (61), wherein the sliding plates (2) are arranged in the left and right guide rails (1) in a sliding mode, the first rotating rods (3) are arranged between the front sides of the left and right sliding plates (2) in a rotating mode, the placing plates (4) are arranged on the left and right sides of the first rotating rods (3), the clamping plates (5) are arranged on the lower portions of the left and right placing plates (4) in a sliding mode, the screw rods (6) are arranged on the rear sides of the left and right placing plates (4) in a rotating mode, the left and right clamping plates (5) are connected with the screw rods (6) on the same side through threads, the solar panels (61) are placed between the two placing plates (4) and the two clamping plates (5), and is characterized by further comprising pushing assemblies (7) and damp-proof assemblies (8), the pushing assemblies (7) for pushing the solar panels (61) to rotate are arranged between the guide rails (1) and the damp-proof assemblies (8) arranged on the left and right rotating rods (3); the moisture-proof assembly (8) comprises a fixed plate (81), a second rotating rod (82) and a shielding frame (83), the fixed plate (81) is arranged at the rear side of each of the left guide rail and the right guide rail (1), the second rotating rod (82) is rotatably arranged between the left fixed plate and the right fixed plate (81), and the shielding frame (83) is arranged on the second rotating rod (82); the automatic rotating device is characterized by further comprising a rotating assembly (10) used for automatically rotating the second rotating rod (82), wherein the rotating assembly (10) comprises guide plates (101), sliding rods (102), fixing sleeves (103), first springs (104), transverse plates (105) and wedge-shaped blocks (106), the guide plates (101) are arranged on the outer sides of the left fixing plate (81) and the right fixing plate (81), the sliding rods (102) are arranged on the lower portions of the guide plates (101) in a sliding mode, the fixing sleeves (103) are arranged on the left side and the right side of the second rotating rod (82), the left sliding rod (102) and the right sliding rod (102) are connected with the fixing sleeves (103) on the same side in a sliding mode, the first springs (104) are sleeved between the left sliding rod (102) and the guide plates (101) on the same side, transverse plates (105) are arranged at the outer ends of the left sliding rod (102) and the right sliding rod (102), and wedge-shaped blocks (106) are arranged on the front sides of the left transverse plates (105); when the sliding plate (2) slides backwards to be in contact with the wedge-shaped blocks (106), the sliding plate (2) slides backwards continuously to extrude the left wedge-shaped block (106) and the right wedge-shaped block (106) to move backwards, the left wedge-shaped block (106) and the right wedge-shaped block (106) move backwards to drive the sliding rods (102) to slide backwards through the transverse plate (105), the first spring (104) deforms, the left sliding rod (102) and the right sliding rod (102) slide backwards and simultaneously drive the fixing sleeve (103) to rotate, the fixing sleeve (103) rotates to drive the second rotating rod (82) to rotate, the shielding frame (83) further rotates forwards to cover the solar cell panel (61), when the sliding plate (2) moves forwards, the sliding rods (102) slide backwards along with the sliding rods under the resetting effect of the first spring (104), and the sliding rods (102) slide backwards to drive the fixing sleeve (103) to rotate backwards.

2. The damp-proof device for the solar cell panel packaged by the solar component is characterized in that the pushing component (7) comprises a connecting plate (71), a pushing frame (72) and a contact block (73), two connecting plates (71) are arranged between the bottoms of the left guide rail and the right guide rail (1), the pushing frame (72) is arranged between the middle parts of the two connecting plates (71), and the contact blocks (73) are arranged on the left side and the right side of the middle part of the first rotating rod (3).

3. The solar cell panel moisture-proof device for packaging the solar cell panel by the solar module is characterized by further comprising a telescopic assembly (9) used for providing power for the front and back movement of the first rotating rod (3), wherein the telescopic assembly (9) comprises a supporting plate (91), an electric push rod (92) and a connecting block (93), the supporting plate (91) is arranged in the middle of a connecting plate (71) on the front side, the electric push rod (92) is arranged on the upper portion of the supporting plate (91), the connecting block (93) is arranged at the extending end of the electric push rod (92), and the upper portion of the connecting block (93) is rotatably connected with the first rotating rod (3).

4. The solar panel moisture-proof device for packaging the solar panel by the solar module is characterized by further comprising a heating module (11) for drying moisture on the surface of the solar panel (61), wherein the heating module (11) comprises a box body (111), a cover plate (112) and a heating rod (113), the box body (111) is arranged on the left side and the right side between the two connecting plates (71), the cover plate (112) is arranged on the tops of the left box body and the right box body (111) in a sliding mode, and the heating rod (113) is arranged on the left side and the right side in the box body (111).

5. The solar cell panel moisture-proof device for packaging the solar cell panel by the solar module is characterized by further comprising a translation assembly (12) for automatically opening the cover plate (112), wherein the translation assembly (12) comprises guide rods (121), right-angle plates (122), second springs (123) and strip-shaped plates (124), the guide rods (121) are arranged on the front sides of the left box body (111) and the right box body (111), the right-angle plates (122) are arranged on the left side and the right side of the left guide rod (121) in a sliding mode, the rear sides of the right-angle plates (122) on the left side and the right side are connected with the cover plate (112) on the same side, the second springs (123) are wound between the right-angle plates (122) and the guide rods (121) on the same side, and the strip-shaped plates (124) are arranged on the front sides of the left sliding plate (2) and the right sliding plate.

6. The moisture barrier for the solar module encapsulated solar panel as claimed in claim 1, wherein the bottom of the shielding frame (83) is provided with a transparent acrylic plate.

7. The moisture-proof device for the solar cell panel packaged by the solar component as claimed in claim 1, wherein the bottom of the screw rod (6) is provided with a handle.

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