CN114700995B

CN114700995B - Laminated photovoltaic equipment electronic component manufacturing device

Info

Publication number: CN114700995B
Application number: CN202210105050.0A
Authority: CN
Inventors: 张凤鸣; 王伟; 路忠林; 马丁·格林
Original assignee: Xuzhou Rituo Photovoltaic Technology Co ltd
Current assignee: Xuzhou Rituo Photovoltaic Technology Co ltd
Priority date: 2022-01-28
Filing date: 2022-01-28
Publication date: 2022-11-18
Anticipated expiration: 2042-01-28
Also published as: CN114700995A

Abstract

The invention relates to a manufacturing device, in particular to a manufacturing device for an electronic component of a laminated photovoltaic device. The invention provides a laminated photovoltaic equipment electronic component manufacturing device which is fast and convenient in material taking. The utility model provides a range upon range of type photovoltaic equipment electronic components manufacturing installation, is including first support frame, fixed frame, first mount, first slide bar etc. and the top of first support frame is connected with fixed frame, and the rear side at fixed frame top is connected with first mount, and the top slidingtype of first mount is run through there is first slide bar. After the first blade cuts the long-strip-shaped laminated body, the cut laminated body block falls on the second support frame, and at the moment, a worker only needs to take the cut laminated body block away from the second support frame, so that the laminated body block can be conveniently and quickly taken away.

Description

Laminated photovoltaic equipment electronic component manufacturing device

Technical Field

The invention relates to a manufacturing device, in particular to a manufacturing device for an electronic component of a laminated photovoltaic device.

Background

The laminated electronic component is usually used in photovoltaic equipment, and the laminated electronic component is manufactured by coating a rag ceramic film on a long-strip laminated body to form the long-strip laminated body, then cutting the long-strip laminated body into a required size to obtain a laminated body block, and then performing a subsequent forming process on the laminated body block.

According to patent granted publication No. CN208245962U, a micro electronic component cutting device comprises a base and a bottom cover, wherein a supporting plate is fixedly connected to the top of the base, a cutting box is fixedly connected to both sides of the top of the supporting plate through a supporting column, a motor is fixedly connected to the top of an inner cavity of the cutting box, lead screws are rotatably connected to the top of the inner cavity of the cutting box and the left and right sides of the motor through rotating blocks, cutting seats are respectively connected to the outer surfaces of the two lead screws through threaded blocks, a cutting head is fixedly connected to the bottom of the cutting seat, a first gear is fixedly connected to the bottom of an output shaft of the motor, a second gear is fixedly connected to the outer surfaces of the two lead screws and the upper side of the cutting seats, one side of the second gear is meshed with one side of the first gear, although the electronic component is placed on a working plate, the electronic component is fixed by the elasticity of a spring, the cutting seat is moved downwards by the motor to cut the electronic component, the cutting seat is moved downwards to cut the electronic component, the pressing rod needs to be manually again after the electronic component is cut, and the electronic component can be taken out from the working plate, so that the labor intensity of the working plate is low and the labor intensity of workers is increased, and the labor intensity of the workers is inconvenient and the workers is increased.

In order to solve the problems existing in the prior art, it is necessary to design a device for manufacturing electronic components of a laminated photovoltaic device, so as to achieve the effect of taking materials quickly and conveniently.

Disclosure of Invention

In order to overcome the defect that the electronic components cannot be taken out quickly after being cut by the conventional electronic component manufacturing device, the invention has the technical problems that: the laminated photovoltaic equipment electronic component manufacturing device is quick and convenient in material taking.

The technical implementation scheme of the invention is as follows: the utility model provides a range upon range of type photovoltaic equipment electronic components manufacturing installation, including first support frame, fixed frame, first mount, first slide bar, first blade, first spring, the second support frame, feed mechanism, clamping mechanism and pushing mechanism, be connected with fixed frame between the top of the first support frame of front and back both sides, the rear side at fixed frame top is connected with first mount, the top slidingtype of first mount has run through first slide bar, the bottom of first slide bar is connected with first blade, be connected with two first springs between first blade and the first mount, two first spring housing are on first slide bar, the rear side of fixed frame bottom is connected with the second support frame, the inside front side of fixed frame is equipped with feed mechanism, the left and right sides of fixed frame all is equipped with clamping mechanism, the left side at fixed frame top is equipped with pushing mechanism.

Further, feed mechanism is including guide bar, first carriage, second slide bar and second spring, and the inside right side of fixed frame is connected with the guide bar, and the movable type of the preceding side of fixed frame inside is connected with first carriage, and first carriage runs through two walls of the left and right sides of fixed frame, and the bottom slidingtype of first carriage has run through the second slide bar, is connected with the second spring between second slide bar and the first carriage, and the second spring housing is on the second slide bar.

Further, clamping mechanism is including the rhombus post, press from both sides tight piece, the third spring, dial movable block and extrusion frame, the equal slidingtype penetration of two walls has the rhombus post about fixed frame rear side, one side that two rhombus posts are close to each other all is connected with tight piece of clamp, all be connected with the third spring between two tight pieces of clamp and the fixed frame, two third springs overlap respectively on two rhombus posts, one side that two rhombus posts kept away from each other all is connected with dials the movable block, two are dialled movable block bilateral symmetry, the back wall right side and the bottom left side of first carriage all are connected with the extrusion frame, two extrusion frames are dialled movable block contact cooperation with two respectively.

Further, the mechanism pushes down including dead lever, second carriage, fourth spring and holding down plate, and the left side at fixed frame top is connected with two dead levers, and symmetrical formula setting around two dead levers are, and slidingtype is connected with the second carriage between two dead levers, is connected with two fourth springs between second carriage and the fixed frame, and two fourth springs overlap respectively on two dead levers, and the right side of second carriage bottom is connected with the holding down plate, holding down plate and the cooperation of pressing from both sides tight piece contact.

Further, still including actuating mechanism, actuating mechanism is including the second mount, the cylinder, the third mount, the fifth spring, contact plate and button, the rear side of fixed frame is connected with the third mount, be connected with on the inner wall of third mount rear side and install the button, the inner wall of third mount rear side is connected with two fifth springs, two fifth spring bilateral symmetry, the button is located between two fifth springs, be connected with the contact plate between the front side of two fifth springs, the right side of fixed frame bottom is connected with two second mounts, two second mounts are the setting of longitudinal symmetry formula, install the cylinder between the right side of two second mounts, the telescopic link of cylinder is connected at the right downside of second carriage rear wall, cylinder and button electric connection.

Further, still including cutting mechanism, cutting mechanism is including fixed block, two-way threaded rod, slider and second blade, and the rear side of fixed frame bottom is connected with three fixed block, and the rotary type runs through two-way threaded rod between the three fixed block, and two sliders are all connected with through threaded connection in the left and right sides of two-way threaded rod, and two sliders are the setting of longitudinal symmetry formula, and two sliders all slidingtype run through the bottom of fixed frame, and the top of two sliders all is connected with the second blade.

Further, still including collecting the mechanism, collect the mechanism including the link, collect the frame, the fourth mount, the third slide bar, sixth spring and promotion frame, the upper portion of the first support frame rear side of rear side is connected with the link, the rear side of link is connected with the collection frame, it is located the below of second support frame to collect the frame, the right side at third mount top is connected with the fourth mount, the movable type that slides before the inside of fourth mount runs through there is the third slide bar, be connected with the sixth spring between third slide bar and the fourth mount, sixth spring housing is on the third slide bar, the left side of third slide bar is connected with the promotion frame, it is located the top of second support frame to promote the frame.

Further, still including drive mechanism, drive mechanism is including the fifth mount, the dwang, one-way gear, the straight-teeth gear, first rack and second rack, the top rear side of right side extrusion frame is connected with first rack, the rear side of fixed frame right wall is connected with the fifth mount, the rear side rotation formula of fifth mount has run through the dwang, the left side of dwang is connected with one-way gear, first rack and one-way gear meshing, the left side of dwang is connected with the straight-teeth gear, the straight-teeth gear is located one-way gear's left side, the right side of first slide bar is connected with the second rack, second rack and straight-teeth gear meshing.

Furthermore, still including stoving mechanism, stoving mechanism is including heat transfer blanket and heating wire, and one side that two clamp tight pieces kept away from each other all is connected with the heat transfer blanket, and two heating wires are all installed to one side that two heat transfer blankets kept away from each other, and two adjacent heating wires are symmetrical formula setting from beginning to end.

The invention has the following beneficial effects: 1. after the first blade cuts the long-strip-shaped laminated body, the cut laminated body block falls on the second support frame, and at the moment, a worker only needs to take the cut laminated body block away from the second support frame, so that the laminated body block can be conveniently and quickly taken away.

2. After the laminated body blocks are cut off, the pushing frame is pushed leftwards through the third sliding rod, the laminated body blocks are pushed leftwards by the pushing frame, then the laminated body blocks can fall downwards onto the collecting frame, and therefore rapid centralized collection can be conducted on the laminated body blocks, and convenience is brought to workers.

3. Through using the cylinder as drive power, can make the second slide bar automatic with rectangular shape laminate backward promotion to this need not the manpower and can make rectangular shape laminate automatic backward movement, the effectual consumption that reduces the manpower.

4. By opening the heating wire, heat emitted by the heating wire can be transferred into the strip-shaped laminated body through the two heat transfer blankets and the two clamping blocks, so that moisture in the cloth ceramic membrane in the strip-shaped laminated body can be controlled to be dry, and the laminated body block can conveniently perform subsequent electronic component manufacturing procedures.

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 perspective view of the feeding mechanism of the present invention.

Fig. 5 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 6 is a partial cross-sectional view of the clamping mechanism of the present invention.

Fig. 7 is a schematic perspective view of the pressing mechanism of the present invention.

Fig. 8 is a schematic perspective view of the driving mechanism of the present invention.

Fig. 9 is a partial perspective view of the driving mechanism of the present invention.

Fig. 10 is a schematic perspective view of a first cutting mechanism according to the present invention.

Fig. 11 is a schematic perspective view of a second cutting mechanism according to the present invention.

Fig. 12 is a schematic perspective view of the collecting mechanism of the present invention.

FIG. 13 is an enlarged view of the present invention at A.

Fig. 14 is a schematic perspective view of a first transmission mechanism of the present invention.

Fig. 15 is a schematic perspective view of a second transmission mechanism of the present invention.

Fig. 16 is a schematic perspective view of the drying mechanism of the present invention.

Wherein: 1-a first support frame, 2-a fixed frame, 3-a first fixed frame, 4-a first sliding rod, 5-a first blade, 6-a first spring, 61-a second support frame, 7-a feeding mechanism, 71-a guide rod, 72-a first sliding frame, 73-a second sliding rod, 74-a second spring, 8-a clamping mechanism, 81-a diamond column, 82-a clamping block, 83-a third spring, 84-a toggle block, 85-a squeezing frame, 9-a pressing mechanism, 91-a fixed rod, 92-a second sliding frame, 93-a fourth spring, 94-a pressing plate, 10-a driving mechanism, 101-a second fixed frame, 102-an air cylinder, 103-a third fixing frame, 104-a fifth spring, 105-a contact plate, 106-a button, 11-a cutting mechanism, 111-a fixing block, 112-a bidirectional threaded rod, 113-a slider, 114-a second blade, 12-a collecting mechanism, 121-a connecting frame, 122-a collecting frame, 123-a fourth fixing frame, 124-a third sliding rod, 125-a sixth spring, 126-a pushing frame, 13-a transmission mechanism, 131-a fifth fixing frame, 132-a rotating rod, 133-a one-way gear, 134-a straight gear, 135-a first rack, 136-a second rack, 14-a drying mechanism, 141-a heat transfer blanket and 142-a heating wire.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, and the like used herein to indicate orientation are merely for the location of the illustrated structure in the corresponding figures. The serial numbers of the parts are themselves numbered herein, for example: first, second, etc. are used only to distinguish the described objects, and do not have any sequential or technical meaning. The application states that: the connection and coupling, unless otherwise indicated, include both direct and indirect connections (couplings).

Detailed description of the preferred embodiment 1

A laminated photovoltaic equipment electronic component manufacturing device is disclosed, please see FIGS. 1-7, which comprises a first support frame 1, a fixed frame 2, a first fixing frame 3, a first sliding rod 4, a first blade 5, a first spring 6, a second support frame 61, a feeding mechanism 7, a clamping mechanism 8 and a pressing mechanism 9, wherein the fixed frame 2 is connected between the tops of the first support frames 1 on the front side and the rear side in a welding mode, the rear side of the top of the fixed frame 2 is connected with the first fixing frame 3, the first sliding rod 4 penetrates through the top of the first fixing frame 3 in a sliding mode, the bottom of the first sliding rod 4 is connected with the first blade 5 in a welding mode, two first springs 6 are connected between the first blade 5 and the first fixing frame 3, the two first springs 6 are sleeved on the first sliding rod 4, the rear side of the bottom of the fixed frame 2 is connected with the second support frame 61 in a welding mode, the feeding mechanism 7 is arranged on the front side inside of the fixed frame 2, the clamping mechanism 8 is arranged on the left side of the top of the fixed frame 2, and the pressing mechanism 9 is arranged on the left side of the top of the fixed frame 2.

Referring to fig. 1, 4, 5 and 6, the feeding mechanism 7 includes a guide rod 71, a first sliding frame 72, a second sliding rod 73 and a second spring 74, the guide rod 71 is connected to the right side of the inside of the fixed frame 2 by welding, the first sliding frame 72 is connected to the front side of the inside of the fixed frame 2 in a sliding manner, the first sliding frame 72 penetrates through the left and right walls of the fixed frame 2, the second sliding rod 73 penetrates through the bottom of the first sliding frame 72 in a sliding manner, the second spring 74 is connected between the second sliding rod 73 and the first sliding frame 72, and the second spring 74 is sleeved on the second sliding rod 73.

Referring to fig. 1, 5 and 6, the clamping mechanism 8 includes a diamond column 81, a clamping block 82, a third spring 83, a shifting block 84 and an extruding frame 85, the diamond column 81 is slidably penetrated through the left and right walls of the rear side of the fixed frame 2, the clamping block 82 is connected to one side of the two diamond columns 81 close to each other by welding, the third spring 83 is connected between the two clamping blocks 82 and the fixed frame 2, the two third springs 83 are respectively sleeved on the two diamond columns 81, the shifting block 84 is connected to one side of the two diamond columns 81 far away from each other by welding, the two shifting blocks 84 are bilaterally symmetrical, the extruding frames 85 are respectively connected to the right side and the left side of the bottom of the rear wall of the first sliding frame 72, and the two extruding frames 85 are respectively in contact fit with the two shifting blocks 84.

Please look at fig. 1 and fig. 7, the pressing mechanism 9 includes two fixing rods 91, a second carriage 92, a fourth spring 93 and a lower pressing plate 94, the left side of the top of the fixing frame 2 is connected with the two fixing rods 91, the two fixing rods 91 are symmetrically arranged in a front-back manner, the second carriage 92 is slidably connected between the two fixing rods 91, a handle is disposed on the left side of the second carriage 92, the second carriage 92 is conveniently pulled upwards by a worker, the two fourth springs 93 are connected between the second carriage 92 and the fixing frame 2, the two fourth springs 93 are respectively sleeved on the two fixing rods 91, the lower pressing plate 94 is connected to the right side of the bottom of the second carriage 92 in a welding manner, and the lower pressing plate 94 is in contact fit with the clamping block 82.

Initially, the third spring 83 is in a stretched state, firstly, the worker pulls the second carriage 92 upward, the fourth spring 93 is stretched, the second carriage 92 drives the lower pressing plate 94 to move upward, then the elongated laminated body to be cut is placed between the two clamping blocks 82, the elongated laminated body is located at the inner bottom of the fixed frame 2, then the second carriage 92 is released, the fourth spring 93 is reset, then the fourth spring 93 drives the lower pressing plate 94 to move downward through the second carriage 92 to reset, the lower pressing plate 94 presses the elongated laminated body between the two clamping blocks 82 downward, because the elongated laminated body is coated with the ceramic film during the manufacture of the elongated laminated body, the elongated laminated body and the coated ceramic film are pressed downward by the lower pressing plate 94, so that the elongated laminated body can be attached to the ceramic film, then after the elongated laminated body is pressed downward, the whole of the elongated laminated body is extended to the left and right sides, so that the laminated body is in contact with the two clamping blocks 82, the two clamping blocks 82 clamp the elongated laminated body, then, when the worker pushes the first carriage 72 backward, the two carriages 84 move toward the direction of the two elongated laminated bodies 82 away from the diamond-shaped laminated body 82, then the two springs 82 are moved toward the diamond-shaped pushing blocks 82, the two springs 83 are moved away from the diamond-shaped laminated body, then the diamond-shaped laminated body is released, the two springs 82, the diamond-shaped laminated body is moved toward the diamond-shaped laminated body 82, and the diamond-shaped laminated body is moved toward the diamond-shaped laminated body 82, and the diamond-shaped laminated body is pressed by the two springs 84, and the two springs 83, and then the diamond-shaped laminated body is moved toward the diamond-shaped laminated body 82, thus, under the action of the continuous backward movement of the first carriage 72, the first carriage 72 drives the second sliding rod 73 to move backward through the second spring 74, the first carriage 72 drives the two extrusion frames 85 to move backward, meanwhile, the second spring 74 is reset, then the second spring 74 drives the second sliding rod 73 to move backward and reset, the second sliding rod 73 subsequently pushes the elongated laminate backward for a certain distance, then the second sliding rod 73 continuously pushes the elongated laminate backward, after the elongated laminate moves to a proper cutting length, the first carriage 72 is stopped to move, the operator further pulls the first sliding rod 4 downward, the first sliding rod 4 drives the first blade 5 to move downward, the first spring 6 is stretched, the first blade 5 subsequently cuts the elongated laminate, then the operator releases the first sliding rod 4, the first spring 6 is reset, then the first spring 6 drives the first blade 5 and the first sliding rod 4 to move upward to reset, at the same time, the cut-off upper block is a block, then the second sliding rod 61 is pulled again to cut off the elongated laminate, then the second sliding rod 73 is pulled downward, the second sliding rod 73 subsequently pulls the elongated laminate 5 to cut off the first sliding rod 73, then the elongated laminate is pulled downward, the first sliding rod 73, the second sliding rod 73 is pulled again, then the worker loosens the first sliding rod 4 again, the first spring 6 resets, then the first spring 6 drives the first blade 5 and the first sliding rod 4 to move upwards to reset, and then the cut laminated body blocks are taken away, so that the operation is repeated to cut the strip-shaped laminated body, after the strip-shaped laminated body is completely cut, the first sliding frame 72 is pulled forwards to reset, the first sliding frame 72 drives the second spring 74, the second sliding rod 73 and the two extrusion frames 85 to move forwards to reset, under the action of continuous forward movement of the two extrusion frames 85, the two extrusion frames 85 respectively extrude the two shifting blocks 84 in the approaching direction, the two shifting blocks 84 respectively drive the two clamping blocks 82 to move in the approaching direction through the two diamond-shaped columns 81, and the third spring 83 stretches, so that the strip-shaped laminated body block can be cut into laminated body blocks, and the laminated body blocks can be successfully subjected to the subsequent electronic component manufacturing process.

Detailed description of the preferred embodiment 2

On the basis of embodiment 1, please see fig. 1, fig. 8, and fig. 9, the driving mechanism 10 further includes a driving mechanism 10, the driving mechanism 10 includes a second fixing frame 101, a cylinder 102, a third fixing frame 103, a fifth spring 104, a contact plate 105, and a button 106, the rear side of the fixing frame 2 is connected to the third fixing frame 103 by a welding method, the inner wall of the rear side of the third fixing frame 103 is connected to the button 106, the inner wall of the rear side of the third fixing frame 103 is connected to two fifth springs 104, the two fifth springs 104 are bilaterally symmetric, the button 106 is located between the two fifth springs 104, the contact plate 105 is connected between the front sides of the two fifth springs 104, the right side of the bottom of the fixing frame 2 is connected to the two second fixing frames 101 by a welding method, the two second fixing frames 101 are arranged in a front-back symmetric manner, the cylinder 102 is installed between the right sides of the two second fixing frames 101, an expansion rod of the cylinder 102 is connected to the lower right side of the rear wall of the second sliding frame 92, and the cylinder 102 is electrically connected to the button 106.

Referring to fig. 1 and 16, the drying device 14 further includes a drying mechanism 14, the drying mechanism 14 includes a heat transfer blanket 141 and two heating wires 142, the heat transfer blanket 141 is connected to the side of the two clamping blocks 82 away from each other, the two heating wires 142 are installed on the side of the two heat transfer blankets 141 away from each other, the two adjacent heating wires 142 are symmetrically arranged in the front-back direction, the heating wires 142 emit heat when the heating wires 142 are activated, and the heat is transferred to the elongated laminate through the two heat transfer blankets 141 and the two clamping blocks 82, so that the elongated laminate can be heated and dried, and moisture in the elongated laminate can be dried.

Before the elongated laminated body is cut, the heating wire 142 can be turned on, heat emitted by the heating wire 142 can be respectively transferred to the two clamping blocks 82 through the two heat transfer blankets 141, and finally the heat can be uniformly transferred into the elongated laminated body through the two clamping blocks 82, so that moisture in the ceramic-coated membranes in the elongated laminated body can be controlled to be dry, and subsequent electronic component manufacturing procedures can be conveniently carried out on the laminated body blocks, when the elongated laminated body is not required to be heated, the heating wire 142 is turned off, then when the elongated laminated body is required to be cut, the air cylinder 102 is started to shrink, the telescopic rod of the air cylinder 102 drives the second spring 74, the second sliding rod 73 and the two extrusion frames 85 to move backwards through the first sliding frame 72, the second spring 74 is compressed, then the two extrusion frames 85 do not extrude the two poking blocks 84 in the approaching direction, and the third spring 83 is reset, then the third spring 83 drives the two clamping blocks 82 to move away from each other, the two clamping blocks 82 respectively drive the two shifting blocks 84 to move away from each other through the two diamond-shaped columns 81, simultaneously the two clamping blocks 82 loosen the elongated laminated body after moving away from each other, so that under the action of continuous backward movement of the first sliding frame 72, the first sliding frame 72 drives the second sliding rod 73 to move backward through the second spring 74, the first sliding frame 72 drives the two squeezing frames 85 to move backward along with the first sliding frame 72, simultaneously the second spring 74 resets, then the second spring 74 drives the second sliding rod 73 to move backward and reset, the second sliding rod 73 pushes the elongated laminated body backward for a distance along with the elongated laminated body, thereafter the second sliding rod 73 continuously pushes the elongated laminated body backward, when the elongated laminated body touches the contact plate 105 after moving backward, the elongated laminate pushes the contact plate 105 backwards, the fifth spring 104 compresses, the contact plate 105 contacts with the button 106, the button 106 starts the cylinder 102 to extend, the telescopic rod of the cylinder 102 drives the second spring 74 and the second sliding rod 73 and the two squeezing frames 85 to move forwards through the first sliding frame 72, at the same time, after the cylinder 102 extends, the fifth spring 104 resets, the fifth spring 104 drives the contact plate 105 to move forwards to reset, the contact plate 105 drives the elongated laminate forwards for a certain distance, then under the action of continuous forward movement of the two squeezing frames 85, the two squeezing frames 85 respectively squeeze the two toggle blocks 84 in the approaching direction, the two toggle blocks 84 respectively drive the two clamping blocks 82 to move in the approaching direction through the two diamond-shaped columns 81, so that the two clamping blocks 82 clamp the elongated laminate again, then the operator cuts the elongated laminate, after the elongated laminate is cut, the laminate is cut out, the laminate is taken out by the second supporting frame 61, the operation is repeated, so that the elongated laminate can be cut continuously, and the elongated laminate can be automatically cut into the length of the elongated laminate without using the cylinder 102 precisely.

Detailed description of preferred embodiment 3

On the basis of embodiment 2, please look at fig. 1, fig. 2, fig. 10 and fig. 11, the apparatus further includes a cutting mechanism 11, the cutting mechanism 11 includes a fixing block 111, a bidirectional threaded rod 112, a sliding block 113 and a second blade 114, the rear side of the bottom of the fixing frame 2 is connected with the three fixing blocks 111 by a welding method, the bidirectional threaded rod 112 rotatably penetrates between the three fixing blocks 111, the two sliding blocks 113 are connected to the left and right sides of the bidirectional threaded rod 112 by threads, the two sliding blocks 113 are symmetrically arranged in the front-back direction, the two sliding blocks 113 both slidably penetrate through the bottom of the fixing frame 2, the tops of the two sliding blocks 113 are connected with the second blade 114 by a welding method, by rotating the bidirectional threaded rod 112, the bidirectional threaded rod 112 respectively drives the two second blades 114 to move in a direction away from each other by the two sliding blocks 113, so as to adjust a distance between the two second blades 114, so that the elongated laminate is cut by the two second blades 114 after moving backwards, thereby achieving an effect of controlling a width of the elongated laminate.

When the elongated laminate is cut, a worker can rotate the bidirectional threaded rod 112, under the effect of threaded matching of the bidirectional threaded rod 112 and the two sliders 113, the bidirectional threaded rod 112 can respectively drive the two second blades 114 to move towards the approaching direction through the two sliders 113, when the two second blades 114 need to move towards the departing direction, the bidirectional threaded rod 112 is rotated reversely, the bidirectional threaded rod 112 respectively drives the two second blades 114 to move towards the departing direction through the two sliders 113, the two blades are adjusted to the proper positions through the operation, after the positions of the two blades are adjusted, the distance between the two blades is the width of the elongated laminate, and in the process that the elongated laminate moves backwards, the elongated laminate can be in contact with the two blades, the width of the elongated laminate can be cut into the distance between the two blades by the two blades, so that the width of the elongated laminate can be controlled.

Detailed description of preferred embodiments 4

On the basis of embodiment 3, please see fig. 1, 12 and 13, the collecting device 12 further includes a collecting mechanism 12, the collecting mechanism 12 includes a connecting frame 121, a collecting frame 122, a fourth fixing frame 123, a third sliding rod 124, a sixth spring 125 and a pushing frame 126, the upper portion of the rear side of the first supporting frame 1 at the rear side is connected with the connecting frame 121 through a welding manner, the rear side of the connecting frame 121 is connected with the collecting frame 122 through a bolt, the collecting frame 122 is located below the second supporting frame 61, the right side of the top of the third fixing frame 103 is connected with the fourth fixing frame 123 through a welding manner, the front side of the inside of the fourth fixing frame 123 is movably penetrated with the third sliding rod 124, the sixth spring 125 is connected between the third sliding rod 124 and the fourth fixing frame 123, the sixth spring 125 is sleeved on the third sliding rod 124, the left side of the third sliding rod 124 is connected with the pushing frame 126, and the pushing frame 126 is located above the second supporting frame 61.

When the laminated blocks are cut, the worker pushes the third sliding rod 124 to the left, the sixth spring 125 is stretched, the third sliding rod 124 drives the pushing rack 126 to move to the left, then the pushing rack 126 contacts the laminated blocks and pushes the laminated blocks to the left, the laminated blocks drop down from the second support frame 61, the laminated blocks drop down on the collecting frame 122, then the third sliding rod 124 is released, the sixth spring 125 is reset, the sixth spring 125 drives the pushing rack 126 to reset to the right through the third sliding rod 124, and therefore the operations can be repeated to collect the laminated blocks each time a new laminated block is cut, and therefore the laminated blocks can be collected in a concentrated manner.

Best mode for carrying out the invention

On the basis of embodiment 4, please see fig. 1, fig. 14, and fig. 15, further including a transmission mechanism 13, where the transmission mechanism 13 includes a fifth fixing frame 131, a rotation rod 132, a one-way gear 133, a spur gear 134, a first rack 135 and a second rack 136, the top rear side of the right side extrusion frame 85 is connected with the first rack 135, the rear side of the right wall of the fixing frame 2 is connected with the fifth fixing frame 131 through a welding manner, the rear side of the fifth fixing frame 131 rotatably penetrates through the rotation rod 132, the left side of the rotation rod 132 is connected with the one-way gear 133, the first rack 135 is engaged with the one-way gear 133, the left side of the rotation rod 132 is connected with the spur gear 134, the spur gear 134 is located at the left side of the one-way gear 133, the right side of the first sliding rod 4 is connected with the second rack 136, and the second rack 136 is engaged with the spur gear 134.

In the initial state, the first rack 135 and the one-way gear 133 are in a non-meshed state, when the first sliding frame 72 moves backwards, the first sliding frame 72 will drive the second spring 74, the second sliding rod 73 and the two squeezing frames 85 to move backwards, the right squeezing frame 85 will drive the first rack 135 to move backwards, then the second sliding rod 73 will push the elongated laminated body to move backwards, meanwhile, during the process that the first rack 135 continuously moves backwards, the first rack 135 will contact with the one-way gear 133, the first rack 135 will mesh with the one-way gear 133, because the one-way gear 133 is a one-way rotation reason, the one-way gear 133 will rotate after the first rack 135 moves backwards, but the one-way gear 133 will not drive the rotating rod 132 to rotate, when the second sliding rod 73 pushes the elongated laminated body backwards to a proper position, and the second sliding rod 73 moves forwards, the first sliding frame 72 will drive the second spring 74 and the second sliding rod 73 as well as the two squeezing frames 85 to move forward, the right squeezing frame 85 will drive the first rack 135 to move forward, under the action of the first rack 135 meshing with the one-way gear 133, the first rack 135 will drive the rotating rod 132 to rotate through the one-way gear 133, the rotating rod 132 will drive the spur gear 134 to rotate, under the action of the spur gear 134 meshing with the second rack 136, the spur gear 134 will drive the first sliding rod 4 to move downward through the second rack 136, then the first sliding rod 4 will drive the first blade 5 to move downward, the first spring 6 will stretch, at the same time, the first blade 5 will cut the strip-shaped stacked body, then during the continuous forward movement of the first rack 135, the first rack 135 will disengage with the one-way gear 133, so that the first spring 6 will reset, then the first spring 6 will drive the first blade 5 and the first sliding rod 4 to move upward to reset, the first sliding rod 4 drives the second rack 136 to move upwards, and the second rack 136 drives the spur gear 134 to rotate reversely, so that the strip-shaped stacked body can be cut automatically.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. The laminated photovoltaic equipment electronic component manufacturing device comprises a first support frame (1), a fixing frame (2), a first fixing frame (3), a first sliding rod (4), a first blade (5), a first spring (6) and a second support frame (61), wherein the fixing frame (2) is connected between the tops of the first support frames (1) on the front side and the rear side, the first fixing frame (3) is connected to the rear side of the top of the fixing frame (2), the first sliding rod (4) penetrates through the top of the first fixing frame (3) in a sliding mode, the bottom of the first sliding rod (4) is connected with the first blade (5) used for cutting a long-strip-shaped laminated body, two first springs (6) are connected between the first blade (5) and the first fixing frame (3), the two first springs (6) are sleeved on the first sliding rod (4), the rear side of the bottom of the fixing frame (2) is connected with the second support frame (61), the laminated photovoltaic equipment electronic component manufacturing device is characterized by further comprising a feeding mechanism (7), a clamping mechanism (8) and a pressing mechanism (9) arranged on the front side inside the fixing frame (2), and two sides of the long-strip-shaped laminated body fixing frame (2) are provided with a left-side and a left-side clamping mechanism (8) used for clamping mechanism (9) for clamping the left-side and a left-strip-side fixing frame (2); the feeding mechanism (7) comprises a guide rod (71), a first sliding frame (72), a second sliding rod (73) and a second spring (74), the guide rod (71) is connected to the right side inside the fixed frame (2), a first sliding frame (72) is connected to the front side inside the fixed frame (2) in a sliding mode, the first sliding frame (72) penetrates through the left wall and the right wall of the fixed frame (2), the second sliding rod (73) used for pushing the long-strip-shaped stacked body penetrates through the bottom of the first sliding frame (72) in a sliding mode, the second spring (74) is connected between the second sliding rod (73) and the first sliding frame (72), and the second spring (74) is sleeved on the second sliding rod (73); the clamping mechanism (8) comprises rhombic columns (81), clamping blocks (82), third springs (83), shifting blocks (84) and extrusion frames (85), the rhombic columns (81) penetrate through the left wall and the right wall of the rear side of the fixed frame (2) in a sliding mode, one sides, close to each other, of the two rhombic columns (81) are connected with the clamping blocks (82) used for clamping the long-strip-shaped laminated body, the third springs (83) are connected between the two clamping blocks (82) and the fixed frame (2), the two third springs (83) are sleeved on the two rhombic columns (81) respectively, one sides, far away from each other, of the two rhombic columns (81) are connected with the shifting blocks (84), the two shifting blocks (84) are bilaterally symmetrical, the right side and the left side of the bottom of the rear wall of the first sliding frame 72 are connected with the extrusion frames (85), and the two extrusion frames (85) are respectively in contact fit with the two shifting blocks (84); the pressing mechanism (9) comprises fixing rods (91), a second sliding frame (92), a fourth spring (93) and a lower pressing plate (94), the left side of the top of the fixing frame (2) is connected with the two fixing rods (91), the two fixing rods (91) are symmetrically arranged front and back, the second sliding frame (92) is connected between the two fixing rods (91) in a sliding mode, the two fourth springs (93) are connected between the second sliding frame (92) and the fixing frame (2), the two fourth springs (93) are respectively sleeved on the two fixing rods (91), the right side of the bottom of the second sliding frame (92) is connected with the lower pressing plate (94), and the lower pressing plate (94) is in contact fit with the clamping block (82); the automatic pushing device is characterized by further comprising a driving mechanism (10) used for automatically pushing the elongated laminated body, wherein the driving mechanism (10) comprises a second fixing frame (101), an air cylinder (102), a third fixing frame (103), fifth springs (104), a contact plate (105) and buttons (106), the rear side of the fixing frame (2) is connected with the third fixing frame (103), the inner wall of the rear side of the third fixing frame (103) is connected with the buttons (106), the inner wall of the rear side of the third fixing frame (103) is connected with the two fifth springs (104), the two fifth springs (104) are bilaterally symmetrical, the buttons (106) are located between the two fifth springs (104), the contact plate (105) is connected between the front sides of the two fifth springs (104), the right side of the bottom of the fixing frame (2) is connected with the two second fixing frames (101), the two second fixing frames (101) are arranged in a front-back symmetrical mode, the air cylinder (102) is installed between the right sides of the two second fixing frames (101), a telescopic rod of the air cylinder (102) is connected to the lower right side of the rear wall of the second sliding frame (92), and the air cylinder (102) is electrically connected with the buttons (106); still including cutting mechanism (11) that is used for cutting rectangular shape laminate width, cutting mechanism (11) are including fixed block (111), two-way threaded rod (112), slider (113) and second blade (114), the rear side of fixed frame (2) bottom is connected with three fixed block (111), two-way threaded rod (112) have been run through to the rotary type between three fixed block (111), there are two sliders (113) all through threaded connection in the left and right sides of two-way threaded rod (112), two sliders (113) are preceding back symmetry formula and set up, the bottom of fixed frame (2) is run through to two equal slidingtypes of slider (113), the top of two sliders (113) all is connected with second blade (114) that are used for controlling rectangular shape laminate width.

2. The laminated photovoltaic device electronic component manufacturing apparatus according to claim 1, further comprising a collecting mechanism (12) for collecting laminated blocks in a concentrated manner, wherein the collecting mechanism (12) comprises a connecting frame (121), a collecting frame (122), a fourth fixing frame (123), a third sliding rod (124), a sixth spring (125) and a pushing frame (126), the connecting frame (121) is connected to the upper portion of the rear side of the first supporting frame (1) on the rear side, the collecting frame (122) for storing the laminated blocks is connected to the rear side of the connecting frame (121), the collecting frame (122) is located below the second supporting frame (61), the fourth fixing frame (123) is connected to the right side of the top of the third fixing frame (103), the third sliding rod (124) is slidably penetrated in the front side of the inside of the fourth fixing frame (123), the sixth spring (125) is connected between the third sliding rod (124) and the fourth fixing frame (123), the sixth spring (125) is sleeved on the third sliding rod (124), the sliding frame (124) is connected to the left side of the third sliding rod (124), and the pushing frame (126) is located above the second supporting frame (126).

3. The manufacturing device of the laminated photovoltaic device electronic component as claimed in claim 2, further comprising a transmission mechanism (13) for moving the first blade (5) downward, wherein the transmission mechanism (13) comprises a fifth fixing frame (131), a rotating rod (132), a one-way gear (133), a spur gear (134), a first rack (135) and a second rack (136), the first rack (135) is connected to the rear side of the top of the right side extrusion frame (85), the fifth fixing frame (131) is connected to the rear side of the right wall of the fixing frame (2), the rotating rod (132) is rotatably penetrated through the rear side of the fifth fixing frame (131), the one-way gear (133) is connected to the left side of the rotating rod (132), the first rack (135) is engaged with the one-way gear (133), the spur gear (134) is connected to the left side of the rotating rod (132), the second rack (136) is connected to the right side of the first sliding rod (4), and the second rack (136) is engaged with the spur gear (134).

4. The manufacturing device of the laminated photovoltaic device electronic component as claimed in claim 3, further comprising a drying mechanism (14), wherein the drying mechanism (14) comprises a heat transfer blanket (141) and heating wires (142), one side of each of the two clamping blocks (82) away from each other is connected with the heat transfer blanket (141), one side of each of the two heat transfer blankets (141) away from each other is provided with two heating wires (142), and the two adjacent heating wires (142) are symmetrically arranged in a front-back manner.