CN113594298A

CN113594298A - Prevent excessive photovoltaic flange frame kludge that leaks of glue

Info

Publication number: CN113594298A
Application number: CN202110852363.8A
Authority: CN
Inventors: 詹求君
Original assignee: Individual
Current assignee: Zhejiang Ming'an Chaoju Intelligent Technology Co ltd
Priority date: 2021-07-27
Filing date: 2021-07-27
Publication date: 2021-11-02
Anticipated expiration: 2041-07-27
Also published as: CN113594298B

Abstract

The invention relates to the field of photovoltaic panel assembly, in particular to a photovoltaic panel frame assembling machine for preventing glue from overflowing and leaking, which comprises a four-corner base, a slotted placing pile, a special-shaped supporting portal frame, a special-shaped connecting block, a slotted sliding rail frame and the like; the top of the four-corner base is connected with a slotted placing pile, the top of the four-corner base is connected with two pairs of special-shaped supporting portal frames, the special-shaped supporting portal frames are connected with special-shaped connecting blocks, and slotted slide rail frames are connected between the four special-shaped connecting blocks. Through consolidating the balladeur train, consolidate the balladeur train and can consolidate the equipment at photovoltaic board frame all around, consolidate the balladeur train simultaneously and can prevent that the equipment from spilling over at photovoltaic board unnecessary glue on frame all around to can improve the quality of the photovoltaic board of equipment, reach the effect that can prevent effectively that the equipment from spilling over at photovoltaic board unnecessary glue on frame all around.

Description

Prevent excessive photovoltaic flange frame kludge that leaks of glue

Technical Field

The invention relates to the field of photovoltaic panel assembly, in particular to a photovoltaic panel frame assembling machine capable of preventing glue from overflowing and leaking.

Background

Solar power generation is a new renewable energy technology, and with the continuous development of photovoltaic technology, solar cell products as semiconductor devices for converting solar energy into electric energy are rapidly developed, solar energy is utilized through photovoltaic panels placed on photovoltaic supports in the existing market, power generation can be used for transportation vehicles, urban illumination and other aspects by utilizing the photovoltaic panels, pollution cannot be generated, operation is reliable, stability is good, and therefore the photovoltaic panels are widely applied.

The frame is usually required to be assembled around the photovoltaic panel before the photovoltaic panel is installed on the photovoltaic support, so that the strength of the solar cell module is enhanced, the service life of the photovoltaic panel is prolonged, the frame can only be assembled on one side of the photovoltaic panel in the prior art, the angle of the photovoltaic panel is required to be adjusted in each assembling process, glue on the frame is easy to overflow in the installation process, and the existing installation method is difficult to avoid the overflow of the glue in the installation process, so that the finished product effect is poor.

Disclosure of Invention

Therefore, it is necessary to solve the above problems and provide a photovoltaic panel frame assembling machine capable of automatically assembling four frames around a photovoltaic panel at the same time to improve the working efficiency and effectively prevent the excessive glue assembled on the frames around the photovoltaic panel from overflowing, so as to solve the problem that the frames cannot be installed around the photovoltaic panel and the glue is difficult to overflow.

The technical implementation scheme of the invention is as follows: the utility model provides a prevent photovoltaic flange frame kludge of glue overflow hourglass, including the four corners base, the stake is placed in the fluting, the heterotypic portal that supports, abnormal shape connecting block, the fluting slide rail frame, push down reciprocal crowded gluey mechanism, closing mechanism all around, rotatory equipment mechanism and strengthening mechanism, the stake is placed in the fluting in the hookup of four corners base top, the hookup of four corners base top has two pairs of abnormal shape to support the portal, the abnormal shape supports and has linked up the abnormal shape connecting block on the portal, the hookup has the fluting slide rail frame jointly between the four abnormal shape connecting blocks, be provided with four pairs of spouts on the fluting slide rail frame, push down reciprocal crowded gluey mechanism and locate on the fluting slide rail frame, closing mechanism locates to push down reciprocal crowded gluey mechanism all around, rotatory equipment mechanism locates to open slot and places on the stake, strengthening mechanism locates to open slot and places on the stake.

Optionally, the downward-pressing reciprocating glue extruding mechanism comprises a special-shaped slotting frame, slotting blocks, electric push rods, a special-shaped wedge frame, triangular wedge blocks, a first slotting slide rod, a second slotting slide rod, a first return spring, a sliding base, a rubber glue barrel, an extruding rod and a second return spring, wherein the top of the slotting slide rail frame is connected with two pairs of slotting blocks, the special-shaped slotting frame is connected between one pair of slotting blocks, a pair of electric push rods are arranged on the special-shaped slotting frame, the special-shaped wedge frame is connected between the two electric push rods, the first slotting slide rod is connected on one pair of slotting blocks in a sliding mode, the second slotting slide rod is connected on the other pair of slotting blocks in a sliding mode, the triangular wedge blocks are connected on the first slotting slide rod and the second slotting slide rod in a sliding mode, the triangular wedge blocks are in contact with the special-shaped wedge frame, the first slotting slide rod and the second slotting slide rod are connected with the first return spring between the slotting blocks, the four pairs of sliding bases are connected on the slotting slide rail frame in a sliding mode, the sliding base is connected with rubber barrels, two pairs of rubber barrels are in limit fit with the corresponding first slotting slide bars, the other two pairs of rubber barrels are in limit fit with the corresponding second slotting slide bars, the rubber barrels are connected with extrusion rods in a sliding mode, the extrusion rods are in sliding fit with the slotting slide rail frames, and second reset springs are connected between the extrusion rods and the sliding base.

Optionally, the peripheral closing mechanism comprises a first countersunk shaft, a thickened gear, a second countersunk shaft, a drive plate, a first gear, a first rack and a second rack, the first countersunk shaft is rotatably connected to the special-shaped perforated frame, the thickened gear is connected to the first countersunk shaft, the second countersunk shaft is rotatably connected to the special-shaped perforated frame, one end of the second countersunk shaft is connected with the drive plate, the bottom end of the first countersunk shaft is also provided with the drive plate, the two drive plates are in mutual contact and match, the other end of the second countersunk shaft is connected with the first gear, the top of the special-shaped wedge-shaped frame is connected with the first rack, the first rack is connected to the rotary assembling mechanism, the first rack is meshed with the thickened gear, the first rack is arranged in a staggered mode, the second rack is connected to the rotary assembling mechanism, the second rack is meshed with the thickened gear, and the second rack is arranged in a staggered mode.

Optionally, the rotary assembling mechanism comprises a third rack, a first special-shaped slide rail frame, a second special-shaped slide rail frame and a fourth rack, the slotting and placing pile comprises a first rotating shaft, a second gear, a slotting swing frame, wedge-shaped clamping blocks and a first stretching spring, wherein two pairs of rack frames III are connected to the slotting and placing pile in a linkage mode, a pair of special-shaped slide rail frames I are connected to the slotting and placing pile in a sliding mode, a pair of special-shaped slide rail frames II are connected to the slotting and placing pile in a sliding mode, a rack frame II is connected to the special-shaped slide rail frames II in a linkage mode, two pairs of rack frames IV are connected to the slotting and placing pile in a linkage mode, the special-shaped slide rail frames I and the special-shaped slide rail frames II are connected with the rotating shaft I in a rotating mode, the second gear is connected to the rotating shaft I in a linkage mode, the slotting swing frame is connected to the rotating shaft I in a sliding mode, the wedge-shaped clamping blocks are connected to the slotting swing frame in a sliding mode, and the first stretching spring is connected between the wedge-shaped clamping blocks and the slotting swing frame.

Optionally, the reinforcing mechanism comprises a chute strip, a reinforcing sliding frame and a third return spring, the two pairs of chute strips are connected to the slotted placing pile in a linkage mode, the reinforcing sliding frame is connected to the chute strips in a sliding mode, and the third return spring is connected between the reinforcing sliding frame and the chute strips.

Optionally, the device also comprises a pushing mechanism, the pushing mechanism is arranged on the special-shaped support portal frame, the pushing mechanism comprises an N-shaped slotting frame, a blanking plate, a push plate, a second extension spring, a fourth return spring, fixed blocks, a second rotating shaft, a third gear, a second rack and a third rack, the special-shaped support portal frame is connected with the N-shaped slotting frame in a coupling manner, the N-shaped slotting frame is connected with the blanking plate in a sliding manner, the blanking plate is contacted with the slotting oscillating frame and is contacted with the wedge-shaped fixture block, the special-shaped connection block is connected with the push plate in a sliding manner, the push plate is contacted with the blanking plate, a pair of second extension springs are connected between the push plate and the special-shaped connection block, a pair of fourth return springs are connected between the blanking plate and the N-shaped slotting frame, a pair of fixed blocks are fixedly connected on the N-shaped slotting frame, a second rotating shaft is connected between the fixed blocks in a common rotating manner, the second rotating shaft is connected with the third gear in a coupling manner, and the bottom of the blanking plate is connected with the second rack, the second rack is meshed with the third gear, the first special-shaped slide rail frame and the second special-shaped slide rail frame are connected with the third rack, and the third rack is meshed with the third gear.

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

through the cooperation that the bucket was glued to fluting slide rail frame, stripper bar and rubber, the fluting slide rail frame can promote the stripper bar towards the direction motion of keeping away from heterotypic support portal for the stripper bar is glued the bucket to rubber and is extruded, thereby makes the glue in the rubber gluey bucket extrude to the frame recess on the fluting swing span, and the follow-up equipment work of being convenient for has reached and can extrude glue to the effect on the frame automatically.

Through the cooperation of rack three and wedge fixture block and device above, the frame card on the fluting swing span is lived to the wedge fixture block, and rack three can drive second gear and device above that and rotate 90, and the quadruple frame that glues afterwards can be closely laminated all around with the photovoltaic board that the stake was placed in the fluting, has reached the effect that can assemble the quadruple frame simultaneously around the photovoltaic board automatically.

Through consolidating the balladeur train, consolidate the balladeur train and can consolidate the equipment at photovoltaic board frame all around, consolidate the balladeur train simultaneously and can prevent that the equipment from spilling over at photovoltaic board unnecessary glue on frame all around to can improve the quality of the photovoltaic board of equipment, reach the effect that can prevent effectively that the equipment from spilling over at photovoltaic board unnecessary glue on frame all around.

Drawings

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

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a schematic view of a first partial structure of the downward reciprocating glue-extruding mechanism according to the present invention.

FIG. 5 is a schematic view of a second partial structure of the downward reciprocating glue-extruding mechanism of the present invention.

Fig. 6 is a schematic perspective view of a portion of the peripheral closing mechanism of the present invention.

Fig. 7 is an enlarged perspective view of the present invention a.

FIG. 8 is a schematic view of a first partially assembled component of the rotational assembly mechanism of the present invention.

FIG. 9 is a schematic view of a second partial structure of the rotational assembly mechanism of the present invention.

Fig. 10 is a perspective view of the reinforcing mechanism of the present invention.

Fig. 11 is a schematic view of a first partially assembled body structure of the pushing mechanism of the present invention.

Fig. 12 is a schematic view of a second partial body structure of the pushing mechanism of the present invention.

The parts are labeled as follows: 1: four corners base, 2: pile placement in a groove, 3: heterotypic support portal, 4: abnormal shape connecting block, 5: slotted slide rail frame, 6: push down reciprocal crowded gluey mechanism, 61: special-shaped perforated frame, 6101: grooving block, 62: electric putter, 63: special-shaped wedge frame, 64: triangular wedge block, 66: slotted slide bar one, 67: a second slotted slide bar, 68: first return spring, 69: slide base, 610: rubber barrel, 611: squeeze lever, 612: second return spring, 7: four-side closing mechanism, 71: countersunk shaft one, 72: thickened gear, 73: countersunk shaft two, 74: a dial, 75: first gear, 76: first rack, 77: first rack, 78: rack two, 8: rotation assembly mechanism, 81: rack three, 82: first special-shaped slide rail frame, 83: a second special-shaped slide rail frame, 84: rack four, 85: first rotating shaft, 86: second gear, 87: slotted swing frame, 88: wedge-shaped fixture block, 89: first tension spring, 9: reinforcing mechanism, 91: chute bar, 92: reinforcing carriage, 93: third return spring, 10: pushing equipment, 101: n-slotted frame, 102: blanking plate, 103: push plate, 104: second tension spring, 105: fourth return spring, 106: fixed block, 107: rotating shaft II, 108: third gear, 109: second rack, 110: and a third rack.

Detailed Description

The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, and the specific connection mode of each part adopts the conventional means of mature bolts, rivets, welding, sticking and the like in the prior art, and the detailed description is not repeated.

Example 1

A photovoltaic plate frame assembling machine for preventing glue from overflowing and leaking comprises a four-corner base 1, a slotted placing pile 2, a special-shaped supporting portal 3, special-shaped connecting blocks 4, a slotted slide rail frame 5, a downward pressing reciprocating glue extruding mechanism 6, a peripheral closing mechanism 7, a rotary assembling mechanism 8 and a reinforcing mechanism 9, wherein the top of the four-corner base 1 is connected with the slotted placing pile 2, the top of the four-corner base 1 is connected with two pairs of special-shaped supporting portal 3, the special-shaped connecting blocks 4 are connected on the special-shaped supporting portal 3, the slotted slide rail frame 5 is connected between the four special-shaped connecting blocks 4, the slotted slide rail frame 5 is provided with four pairs of chutes, the downward pressing reciprocating glue extruding mechanism 6 is arranged on the slotted slide rail frame 5, the downward pressing reciprocating glue extruding mechanism 6 is used for extruding glue to a frame, the peripheral closing mechanism 7 is arranged on the downward pressing reciprocating glue extruding mechanism 6, the rotary assembling mechanism 8 is arranged on the slotted placing pile 2, rotatory equipment mechanism 8 is used for assembling four frames simultaneously around the photovoltaic board, and on strengthening mechanism 9 located the fluting and placed stake 2, strengthening mechanism 9 was used for strengthening the frame of equipment around the photovoltaic board.

The downward-pressing reciprocating glue-extruding mechanism 6 comprises a special-shaped slotted frame 61, slotted blocks 6101, electric push rods 62, a special-shaped wedge frame 63, a triangular wedge block 64, a slotted slide rod I66, a slotted slide rod II 67, a first return spring 68, a sliding base 69, a rubber glue bucket 610, an extruding rod 611 and a second return spring 612, wherein the top of the slotted slide rail frame 5 is connected with two pairs of slotted blocks 6101, the special-shaped slotted frame 61 is jointly connected between the pair of slotted blocks 6101, the pair of electric push rods 62 are installed on the special-shaped slotted frame 61, the electric push rods 62 are used for driving the special-shaped wedge frame 63 and the upper device thereof to reciprocate up and down, the special-shaped wedge frame 63 is jointly connected between the two electric push rods 62, the special-shaped wedge frame 63 is used for pushing the triangular wedge block 64 and the upper device thereof to move around, the slotted slide rod I66 is connected on the pair of slotted blocks 6101, under the action of the slotted slide rod I66, wherein, two pairs of rubber barrels 610 and devices thereon can move, the other pair of slotting slide bars 6101 can move in a sliding way, under the action of the slotting slide bar 67, the other two pairs of rubber barrels 610 and devices thereon can move, the slotting slide bar 66 and the slotting slide bar 67 are both connected with a triangular wedge block 64, the triangular wedge block 64 is contacted with a special wedge frame 63, a first reset spring 68 is connected between the slotting slide bar 66 and the slotting slide bar 67 and the slotting block 6101, the first reset spring 68 is used for driving the slotting slide bar 66 and the slotting slide bar 67 to reset, the slotting slide rail frame 5 is connected with four pairs of sliding bases 69 in a sliding way, the sliding bases 69 are connected with the rubber barrels 610 in a connecting way, wherein, the two pairs of rubber barrels 610 are in limit matching with the corresponding slotting slide bar one 66, the other two pairs of rubber barrels 610 are in limit matching with the corresponding slotting slide bar two 67, the rubber barrels 610 are connected with an extrusion rod 611 in a sliding way, the squeezing rod 611 is used for squeezing the rubber barrel 610, the squeezing rod 611 is in sliding fit with the slotted slide rail frame 5, a second return spring 612 is connected between the squeezing rod 611 and the sliding base 69, and the second return spring 612 is used for driving the squeezing rod 611 to return.

The periphery closing mechanism 7 comprises a first countersunk shaft 71, a thickened gear 72, a second countersunk shaft 73, a drive plate 74, a first gear 75, a first rack 76, a first rack 77 and a second rack 78, the first countersunk shaft 71 is rotatably connected to the special-shaped open-hole frame 61, the thickened gear 72 is connected to the first countersunk shaft 71, the thickened gear 72 is used for driving the first rack 77, the second rack 78 and the devices on the rack to move towards the direction of mutual approaching, the second countersunk shaft 73 is rotatably connected to the special-shaped open-hole frame 61, one end of the second countersunk shaft 73 is connected with the drive plate 74, the drive plate 74 is also arranged at the bottom end of the first countersunk shaft 71, the two drive plates 74 are in mutual contact and match, the first countersunk shaft 71 and the devices on the first drive plate 74 can be reversed through mutual matching, the other end of the second countersunk shaft 73 is connected with the first gear 75, the top of the special-shaped wedge frame 63 is connected with the first rack 76, and the first rack 76 is used for driving the first gear 75 and the devices on the first drive plate to rotate forwards, the rotary assembling mechanism 8 is connected with a pair of rack frames 77, the rack frames 77 are meshed with the thickened gears 72, the two rack frames 77 are arranged in a staggered mode, the rotary assembling mechanism 8 is connected with a pair of rack frames 78, the rack frames 78 are meshed with the thickened gears 72, and the two rack frames 78 are arranged in a staggered mode.

The rotating and assembling mechanism 8 comprises a rack frame three 81, a special-shaped slide rail frame one 82, a special-shaped slide rail frame two 83, a rack frame four 84, a rotating shaft one 85, a second gear 86, a slotted swing frame 87, a wedge-shaped fixture block 88 and a first tension spring 89, wherein two pairs of rack frame three 81 are connected to the slotted placing pile 2, the rack frame three 81 is used for driving the second gear 86 and the upper device thereof to rotate 90 degrees, the slotted placing pile 2 is slidably connected with a pair of special-shaped slide rail frame one 82, the special-shaped slide rail frame one 82 is used for pushing the reinforcing carriage 92 to move towards the direction close to the slotted placing pile 2, the rack frame one 77 is connected to the special-shaped slide rail frame one 82, the pair of special-shaped slide rail frame two 83 is slidably connected to the slotted placing pile 2, the rack frame two 78 is connected to the special-shaped slide rail frame two 83, the two pairs of rack frame four 84 is connected to the slotted placing pile 2, the rotating shaft one 85 is connected to the special-shaped slide rail frame one 82 and the special-shaped slide rail frame two 83 in a rotating mode, the first rotating shaft 85 is connected with a second gear 86, the first rotating shaft 85 is connected with a slotted swing frame 87, the slotted swing frame 87 is connected with a wedge-shaped clamping block 88 in a sliding mode, the wedge-shaped clamping block 88 is used for clamping a frame on the slotted swing frame 87, a first extension spring 89 is connected between the wedge-shaped clamping block 88 and the slotted swing frame 87, and the first extension spring 89 is used for driving the wedge-shaped clamping block 88 to move upwards.

Reinforcing mechanism 9 is including spout strip 91, reinforcement balladeur train 92 and third reset spring 93, and the fluting is placed the two pairs of spout strips 91 of hookup on stake 2, and the spout strip 91 goes up the sliding connection and is reinforced balladeur train 92, and reinforcement balladeur train 92 is used for preventing to assemble and spills over in unnecessary glue on the photovoltaic board frame all around, is connected with third reset spring 93 between reinforcement balladeur train 92 and the spout strip 91, and third reset spring 93 is used for driving and reinforces balladeur train 92 and resets.

Firstly, the photovoltaic panel to be assembled is placed at the top of the slotted placing pile 2 manually, the photovoltaic panel placed on the slotted placing pile 2 is straightened, the electric push rod 62 is manually controlled to extend, so that the special-shaped wedge frame 63 and the device on the special-shaped wedge frame 63 move downwards, the special-shaped wedge frame 63 can push the triangular wedge block 64 and the device on the triangular wedge block to move towards the periphery, the first return spring 68 can be compressed, under the action of the slotted slide rod I66, the two pairs of rubber buckets 610 and the device on the rubber buckets 610 can move, under the action of the slotted slide rod II 67, the other two pairs of rubber buckets 610 and the device on the rubber buckets 610 can move, the slotted slide rail frame 5 can push the extrusion rod 611 to move in the direction far away from the special-shaped support portal frame 3, and the second return spring 612 can be compressed accordingly, the extrusion rod 611 extrudes the rubber barrel 610, so that the glue in the rubber barrel 610 is extruded to the frame groove on the slotted swing frame 87, the subsequent assembly work is facilitated, and the effect of automatically extruding the glue to the frame is achieved.

Then the electric push rod 62 is controlled to contract manually, the special-shaped wedge-shaped frame 63 and the devices thereon are reset, the slotted slide bar one 66 is reset under the reset action of the two first reset springs 68, the slotted slide bar two 67 is reset under the reset action of the other two first reset springs 68, the rubber barrel 610 is reset, and the extrusion rod 611 is reset under the reset action of the second reset spring 612.

Then the electric push rod 62 is controlled to continuously contract manually, so that the special-shaped wedge-shaped frame 63 and the device on the special-shaped wedge-shaped frame move upwards, the first rack 76 can drive the first gear 75 and the device on the special-shaped wedge-shaped frame to rotate forwards, the countersunk head shaft I71 and the device on the countersunk head shaft I can rotate backwards through the mutual matching of the two drive plates 74, the thickened gear 72 can drive the rack frame I77 and the device on the rack frame I to move towards the direction of mutual approaching, the thickened gear 72 can drive the rack frame II 78 and the device on the rack frame II to move towards the direction of mutual approaching, the wedge-shaped fixture block 88 can be separated from the blanking plate 102 in the process, the blanking plate 102 can not limit the wedge-shaped fixture block 88 any more, the first tension spring 89 in the compression state can reset accordingly, the wedge-shaped fixture block 88 moves upwards, the wedge-shaped fixture block 88 can clamp the frame on the slotted swing frame 87, the second gear 86 can be contacted with the rack frame III 81, the rack frame III 81 can drive the second gear 86 and the device on the rack frame III to rotate 90 degrees, the four-side frame that is stained with glue afterwards can place the photovoltaic board on stake 2 with the fluting and closely laminate all around, has reached and can assemble the four-side frame effect all around at the photovoltaic board simultaneously automatically.

Then the electric push rod 62 is manually controlled to reset the special-shaped wedge-shaped frame 63 and the device thereon, the first rack 76 can drive the first gear 75 and the device thereon to reverse, the countersunk head shaft I71 and the device thereon can rotate clockwise through the mutual matching of the two drive plates 74, the thickened gear 72 can drive the rack frame I77 and the rack frame II 78 and the device thereon to reset, the rack frame III 81 can drive the second gear 86 and the device thereon to reset, the blanking plate 102 can extrude the wedge-shaped fixture block 88 to reset, and the first extension spring 89 can be stretched accordingly.

In the process that the special-shaped sliding rail frame 82 and the devices on the special-shaped sliding rail frame 82 move towards the direction close to each other, the special-shaped sliding rail frame 82 can push the reinforcing sliding frame 92 to move towards the direction close to the groove for placing the pile 2, the third reset spring 93 can be compressed accordingly, the reinforcing sliding frame 92 can reinforce the frame assembled on the periphery of the photovoltaic panel, meanwhile, the reinforcing sliding frame 92 can prevent redundant glue assembled on the frame on the periphery of the photovoltaic panel from overflowing, the quality of the assembled photovoltaic panel can be improved, and the effect that the redundant glue assembled on the frame on the periphery of the photovoltaic panel can be effectively prevented from overflowing is achieved.

During the return of the first profile rail 82 and the device thereon, the reinforcement carriage 92 is then returned by the return action of the third return spring 93.

Example 2

On the basis of the embodiment 1, as shown in fig. 11 to 12, the frame-pushing device further includes a material-pushing mechanism 10, the material-pushing mechanism 10 is disposed on the special-shaped supporting gantry 3, the material-pushing mechanism 10 is used for pushing out the frame, the material-pushing mechanism 10 includes an N-shaped slotting machine 101, a material-dropping plate 102, a pushing plate 103, a second extension spring 104, a fourth return spring 105, a fixing block 106, a second rotating shaft 107, a third gear 108, a second rack 109 and a third rack 110, the N-shaped slotting machine 101 is coupled to the special-shaped supporting gantry 3, the material-dropping plate 102 is slidably coupled to the N-shaped slotting machine 101, the material-dropping plate 102 is in contact with the slotting oscillating frame 87, the material-dropping plate 102 is in contact with the wedge-shaped fixture block 88, the pushing plate 103 is slidably coupled to the special-shaped connecting block 4, the pushing plate 103 is in contact with the material-dropping plate 102, a pair of second extension springs 104 is coupled between the pushing plate 103 and the special-shaped connecting block 4, by the cooperation of the pushing plate 103 and the second extension springs 104, the frame on the blanking plate 102 can be always clamped by the push plate 103, a pair of fourth return springs 105 is connected between the blanking plate 102 and the N-shaped slotting frame 101, a pair of fixing blocks 106 is fixedly connected to the N-shaped slotting frame 101, a second rotating shaft 107 is connected between the fixing blocks 106 in a co-rotating manner, a third gear 108 is connected to the second rotating shaft 107, the third gear 108 is used for driving a second rack 109 and a device thereon to move in a direction close to the special-shaped supporting gantry 3, a second rack 109 is connected to the bottom of the blanking plate 102, the second rack 109 is meshed with the third gear 108, third racks 110 are connected to the first special-shaped sliding rail frame 82 and the second special-shaped sliding rail frame 83, the third racks 110 are used for driving the third gear 108 and a device thereon to rotate, and the third racks 110 are meshed with the third gear 108.

In the process that the first special-shaped slide rail frame 82, the second special-shaped slide rail frame 83 and the devices on the special-shaped slide rail frame drive the direction close to the slotted placing pile 2, the third rack 110 drives the third gear 108 and the devices on the third gear 108 to rotate, the third gear 108 drives the second rack 109 and the devices on the second rack to move close to the special-shaped supporting portal 3, the fourth return spring 105 is compressed, one frame on the blanking plate 102 falls onto the N-shaped slotted frame 101, the third rack 110 drives the second rack 109 and the devices on the second rack to return through the cooperation of the push plate 103 and the second extension spring 104, the push plate 103 can always clamp the frame on the blanking plate 102, the third rack 110 drives the second rack 109 and the devices on the second rack to return through the third gear 108 in the process that the first special-shaped slide rail frame 82, the second special-shaped slide rail frame 83 and the devices on the second rack to return, the fourth return spring 105 returns along with the second rack, and the blanking plate 102 pushes one frame on the N-shaped slotted frame 101 to the same split slotted swinging frame 87, prepare for the equipment next time to improve work efficiency, reached the effect that can push out the frame automatically, take out the photovoltaic board that assembles through other equipment afterwards, manual control electric putter 62 is closed at last, and the frame can be assembled for photovoltaic board all around to repeated above-mentioned operation in succession.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a prevent photovoltaic flange frame kludge of glue overflow hourglass which characterized by: comprises a four-corner base (1), a slotting placement pile (2), a special-shaped support portal frame (3), a special-shaped connecting block (4), a slotting slide rail frame (5), a downward pressing reciprocating glue extruding mechanism (6), a peripheral closing mechanism (7), a rotary assembling mechanism (8) and a reinforcing mechanism (9), wherein the top of the four-corner base (1) is connected with the slotting placement pile (2), the top of the four-corner base (1) is connected with two pairs of special-shaped support portal frames (3), the special-shaped support portal frame (3) is connected with the special-shaped connecting block (4), the four special-shaped connecting blocks (4) are connected with the slotting slide rail frame (5) together, the slotting slide rail frame (5) is provided with four pairs of chutes, the downward pressing reciprocating glue extruding mechanism (6) is arranged on the slotting slide rail frame (5), the peripheral closing mechanism (7) is arranged on the downward pressing reciprocating glue extruding mechanism (6), the rotary assembling mechanism (8) is arranged on the slotting placement pile (2), the reinforcing mechanism (9) is arranged on the slotted placing pile (2).

2. The photovoltaic panel frame assembling machine for preventing glue from overflowing and leaking according to claim 1, wherein: the downward-pressing reciprocating glue extruding mechanism (6) comprises a special-shaped slotted frame (61), slotted blocks (6101), electric push rods (62), a special-shaped wedge frame (63), a triangular wedge block (64), a slotted slide rod I (66), a slotted slide rod II (67), a first return spring (68), a sliding base (69), a rubber glue barrel (610), an extrusion rod (611) and a second return spring (612), wherein the top of the slotted slide rail frame (5) is connected with two split slotted blocks (6101), the special-shaped slotted frame (61) is connected between one split slotted block (6101), a pair of electric push rods (62) is arranged on the special-shaped slotted frame (61), the special-shaped wedge frame (63) is connected between the two electric push rods (62), the slotted block I (66) is connected with the sliding mode on one split slotted block (6101), the slotted block II (67) is connected with the sliding mode on the other split slotted block (6101), triangular wedge blocks (64) are connected on the first slotting slide bar (66) and the second slotting slide bar (67), the triangular wedge blocks (64) are contacted with the special-shaped wedge frame (63), a first reset spring (68) is connected between the first slotting slide bar (66) and the second slotting slide bar (67) and the slotting block (6101), four pairs of sliding bases (69) are connected on the slotting slide rail frame (5) in a sliding way, rubber barrels (610) are connected on the sliding bases (69), the two pairs of rubber barrels (610) are in limit fit with the corresponding slotted slide bars I (66), the other two pairs of rubber barrels (610) are in limit fit with the corresponding slotted slide bars II (67), the rubber barrels (610) are connected with the extrusion rods (611) in a sliding mode, the extrusion rods (611) are in sliding fit with the slotted slide rail frames (5), and the second return springs (612) are connected between the extrusion rods (611) and the sliding bases (69).

3. The photovoltaic panel frame assembling machine for preventing glue from overflowing and leaking according to claim 2, wherein: the periphery closing mechanism (7) comprises a first countersunk head shaft (71), a thickened gear (72), a second countersunk head shaft (73), a driving plate (74), a first gear (75), a first rack (76), a first rack frame (77) and a second rack frame (78), the special-shaped open hole frame (61) is rotatably connected with the first countersunk head shaft (71), the thickened gear (72) is connected on the first countersunk head shaft (71), the second countersunk head shaft (73) is rotatably connected on the special-shaped open hole frame (61), one end of the second countersunk head shaft (73) is connected with the driving plate (74), the driving plate (74) is also arranged at the bottom end of the first countersunk head shaft (71), the two driving plates (74) are in mutual contact and match, the other end of the second countersunk head shaft (73) is connected with the first gear (75), the top of the special-shaped wedge frame (63) is connected with the first rack frame (76), a pair of first rack frame (77) is rotatably assembled on the mechanism (8), and the first rack frame (77) is meshed with the thickened gear (72), the two rack frames I (77) are arranged in a staggered mode, the rotary assembling mechanism (8) is connected with a pair of rack frames II (78), the rack frames II (78) are meshed with the thickened gears (72), and the two rack frames II (78) are arranged in a staggered mode.

4. The photovoltaic panel frame assembling machine for preventing glue from overflowing and leaking according to claim 3, wherein: the rotary assembling mechanism (8) comprises a rack frame III (81), a special-shaped slide rail frame I (82), a special-shaped slide rail frame II (83), a rack frame IV (84), a rotating shaft I (85), a second gear (86), a slotting swing frame (87), a wedge-shaped fixture block (88) and a first tension spring (89), two pairs of rack frame III (81) are connected on a slotting placing pile (2), a pair of special-shaped slide rail frame I (82) is connected on the slotting placing pile (2) in a sliding mode, a rack frame I (77) is connected on the special-shaped slide rail frame I (82), a pair of special-shaped slide rail frame II (83) is connected on the slotting placing pile (2) in a sliding mode, a rack frame II (78) is connected on the special-shaped slide rail frame II (83), two pairs of rack frame IV (84) are connected on the slotting placing pile (2), and a pair of rotating shafts I (85) are connected on the special-shaped slide rail frame I (82) and the special-shaped slide rail frame II (83) in a rotating mode, the second gear (86) is connected to the first rotating shaft (85), the slotting swing frame (87) is connected to the first rotating shaft (85), the wedge-shaped clamping block (88) is connected to the slotting swing frame (87) in a sliding mode, and the first stretching spring (89) is connected between the wedge-shaped clamping block (88) and the slotting swing frame (87).

5. The photovoltaic panel frame assembling machine for preventing glue from overflowing and leaking according to claim 4, wherein: the reinforcing mechanism (9) comprises a sliding groove strip (91), a reinforcing sliding frame (92) and a third reset spring (93), two pairs of sliding groove strips (91) are connected to the slotted placing pile (2) in a linkage mode, the sliding groove strips (91) are connected with the reinforcing sliding frame (92) in a sliding mode, and the third reset spring (93) is connected between the reinforcing sliding frame (92) and the sliding groove strips (91).

6. The photovoltaic panel frame assembling machine for preventing glue from overflowing and leaking according to claim 5, wherein: the special-shaped support frame is characterized by further comprising a pushing mechanism (10), the pushing mechanism (10) is arranged on the special-shaped support frame (3), the pushing mechanism (10) comprises an N-shaped slotting frame (101), a blanking plate (102), a push plate (103), a second extension spring (104), a fourth reset spring (105), a fixed block (106), a second rotating shaft (107), a third gear (108), a second rack (109) and a third rack (110), the N-shaped slotting frame (101) is connected to the special-shaped support frame (3) in a linkage mode, the blanking plate (102) is connected to the N-shaped slotting frame (101) in a sliding mode, the blanking plate (102) is in contact with the slotting swing frame (87), the blanking plate (102) is in contact with the wedge-shaped clamping block (88), the push plate (103) is connected to the special-shaped connecting block (4) in a sliding mode, the push plate (103) is in contact with the blanking plate (102), and a pair of second extension springs (104) is connected between the push plate (103) and the special-shaped connecting block (4), a pair of fourth reset springs (105) is connected between the blanking plate (102) and the N-shaped slotting frame (101), a pair of fixing blocks (106) are fixedly connected to the N-shaped slotting frame (101), a second rotating shaft (107) is connected between the fixing blocks (106) in a rotating mode, a third gear (108) is connected to the second rotating shaft (107), a second rack (109) is connected to the bottom of the blanking plate (102), the second rack (109) is meshed with the third gear (108), third racks (110) are connected to the first special-shaped sliding rail frame (82) and the second special-shaped sliding rail frame (83), and the third racks (110) are meshed with the third gear (108).