CN115782286A - Rubber plate clamp of solar battery component laminating machine - Google Patents

Abstract

The application discloses solar module laminator offset plate anchor clamps belongs to laminator offset plate clamping structure field, through addding the horizontal pole, eccentric pressing plate comes the location to the offset plate, when using, only need pull the eccentric shaft can fix a position the offset plate between horizontal pole and eccentric pressing plate, realize installing fast and returning to the offset plate, alleviate equipment management personnel's working strength and raise the efficiency, the rate of utilization of equipment is improved, simultaneously, through the cooperation of tightening up subassembly and tensioning subassembly, fix the tensioning subassembly at the offset plate both ends at first, will tighten up subassembly and tensioning subassembly magnetism and inhale the location again, the shrink that utilizes the subassembly that tightens up realizes the operation of receiving and releasing the offset plate, both realize the offset plate receive and release freely, improve offset plate installation stability again, effectively prevent that the offset plate from receiving the environmental impact deformation and leading to the subassembly atress inequality, furthermore, through addding the heat-conducting plate in the offset plate upper end, heat transfer the heat of hot plate department to the offset plate top through the heat pipe, the upper and lower extreme that realization subassembly all is heated, improve the lamination effect.

Description

Rubber plate clamp of solar cell module laminating machine

Technical Field

The application relates to a laminator offset plate clamping structure field, more specifically says, relates to a solar module laminator offset plate anchor clamps.

Background

Solar module laminator is one of the indispensable equipment of production solar module, and present laminator technology, offset plate are essential key spare part, and the offset plate generally is the silica gel board, also has rubber slab, fluorine offset plate etc. and its specification is generally greater than the lamination area, and thickness is generally 3mm or 4 mm. In the production process, the silica gel plate is used as a diaphragm for separating the upper cavity from the lower cavity, when the lower cavity (the cavity where the component is located) is in a vacuum state, a certain amount of atmosphere is filled into the upper cavity, the solar cell component laminating machine enables the upper cavity and the lower cavity to form pressure difference, and therefore the component is pressed on the heating plate of the lower cavity through the silica gel plate, air in the component and redundant EVA glue are leveled and removed.

Due to the corrosion of EVA glue steam, high-temperature environment and frequent action, the service life of the rubber plate is unequal from 2000 to 15000 times, so the rubber plate belongs to a consumable material and needs to be replaced regularly. Each laminator generally has 4 rubber plates, each month is laminated for 5040 times, each GW component production line has 2-3 laminating machines, and each two months has 8-12 rubber plates to be replaced.

According to the traditional rubber plate fixing scheme, the clamp is installed on the upper box, and the rubber plate is fixed through the screw. The rubber plate is directly fixed with the screw, so that the rubber plate is inconvenient to disassemble or arrange and restore; when the battery pack is in work, the silica gel plate has elasticity, and can be convexly deformed towards the lower cavity along with the increase of the amount of gas filled in the upper cavity, so that the incomplete plane at one end contacted with the battery pack is caused, and uneven stress is easily caused; in addition, because only the lower cavity is heated during heating and pressurizing, that is, only the lower surface of the solar cell module is directly heated, and the upper surface is indirectly heated, the upper surface and the lower surface of the solar cell module are heated unevenly. The warping of the periphery of the solar cell module is easily caused by uneven pressure and uneven heating.

Therefore, the rubber plate clamp of the solar cell module laminating machine is provided to effectively solve the problems in the prior art.

Disclosure of Invention

The application aims to solve the problems that the prior rubber plate is inconvenient to detach or restore and the prior rubber plate is easy to be stressed unevenly, and compared with the prior art, the rubber plate clamp for the solar cell module laminating machine comprises a cross rod and an eccentric pressing plate used for fixing the rubber plate on the cross rod, a plurality of connecting plates are distributed on one side of the upper end of the cross rod, an eccentric shaft with a handle is rotatably connected on each connecting plate, the eccentric shafts are fixedly connected with one end of the eccentric pressing plate, a tightening component is arranged on the upper end wall of one side of the eccentric pressing plate, far away from the eccentric shaft, two sides of the tightening component are provided with tensioning components in a magnetic attraction mode, the tensioning components are connected with the end wall of the rubber plate, the front end of the eccentric pressing plate is also fixedly connected with a heat conducting plate positioned at the upper end of the rubber plate, a plurality of heat absorbing rods are distributed on the heat conducting plate, heat conducting pipes are embedded in the heat absorbing rods, the other ends of the heat conducting pipes penetrate through the cross rod and are connected with a heating plate of a lower cavity, and the rubber plate is positioned by additionally arranging the cross rod and the eccentric pressing plate, when in use, the rubber plate can be positioned between the cross rod and the eccentric pressing plate only by pulling the eccentric shaft, thereby realizing the quick installation and correction of the rubber plate, reducing the working intensity of equipment managers, improving the efficiency and the utilization rate of the equipment, meanwhile, through the matching of the tightening component and the tensioning component, the tensioning component is firstly fixed at the two ends of the rubber plate, then the tightening component and the tensioning component are magnetically attracted and positioned, and the contraction of the tightening component is utilized to realize the retraction and extension operation of the rubber plate, thereby not only realizing the free retraction and extension of the rubber plate, but also improving the installation stability of the rubber plate, effectively preventing the uneven stress of the component caused by the deformation of the rubber plate under the influence of the environment, through add the heat-conducting plate in the offset plate upper end, pass through the heat pipe with the heat transfer of hot plate department to the offset plate top, realize that the upper and lower end of subassembly all is heated, improve subassembly lamination effect.

Optionally, a plurality of sets of ear plates corresponding to the positions of the eccentric shafts are distributed on the upper end face of the eccentric pressing plate, hollow cavities are formed in the end walls of the eccentric pressing plate, which are located on the inner sides of the pair of ear plates, connecting shafts at two ends of the eccentric shafts are fixedly connected with the ear plates, and the lower ends of the eccentric shafts penetrate through the hollow cavities and are connected with the connecting plates.

Optionally, a plurality of handle tops pass through connecting rod interconnect, and connecting rod one end extends to the horizontal pole edge outside, can so operate in equipment both sides can, need not get into equipment again, operate the handle in the middle of transversely.

It is optional, it has a plurality of springs that correspond with eccentric shaft position to distribute between horizontal pole and the eccentric clamp plate, wear to be equipped with the flexible rod in the spring, the last lower extreme of flexible rod all through the screw respectively with eccentric clamp plate, horizontal pole end wall fixed connection, during the use, loosen the connecting rod, eccentric clamp plate is jack-up under the effect of spring, thereby reserve the space between eccentric clamp plate and the horizontal pole, make things convenient for inserting of offset plate, treat that the offset plate inserts the back, reverse pull the connecting rod again, thereby realize that eccentric clamp plate firmly fixes a position the offset plate on the horizontal pole.

Optionally, tighten up the subassembly including installing in the case of controlling of eccentric clamp plate up end, control the middle part department of case and be equipped with a pair of telescopic link, the flexible end of a pair of telescopic link all is connected with the cavity through the stay cord and inhales the stick, the activity of the stick outer end is inhaled to the cavity magnetism runs through to controlling the case outside.

Optionally, the tensioning assembly comprises a connecting band and a magnetic rod which are connected with each other, and the connecting band is of a flexible strip-shaped structure.

Optionally, the connecting band inlays mutually with offset plate one end and establishes and be connected, the excellent magnetism of bar magnet is inhaled with cavity magnetism and is connected, the stick is inhaled to cavity magnetism and is equipped with the bar magnet butt joint one end and inlays and establish the hole, when the installation, can fix a pair of connecting band respectively at the offset plate both ends, both accessible bolted connections, after inserting the connecting band space between horizontal pole and the eccentric clamp plate, insert a pair of bar magnet respectively again and inhale the excellent in the cavity magnetism, the realization tightens up the subassembly and is connected with the tensioning assembly, the shrink that utilizes the telescopic link realizes receiving and releasing of offset plate, the realization is received and released freely.

Optionally, the two ends of the eccentric pressing plate are provided with guide rods for guiding the connecting belt.

Optionally, the cross rod is of a hollow rectangular structure, the cross rod is fixedly connected with the upper box through an external connection structure, and end walls on two sides of the cross rod are movably connected with the heating plate and the end wall of the lower cavity respectively.

It is optional, the hollow pipe body structure that the heat absorption stick was made for adopting the heat conduction material, it has a plurality of heat absorption holes to distribute on the heat absorption stick, one section that the heat pipe runs through the connection mutually with eccentric clamp plate is made for the stereoplasm heat conduction material, realize both fixed connection, one section that the heat pipe extends to horizontal pole department adopts flexible heat conduction material to make, the inside packing of heat pipe has the conduction oil, the heat pipe is with heat transfer to the offset plate top of hot plate department, thereby the upper and lower end of realizing the subassembly all is heated, in addition, the heat-conducting plate laminates mutually with the offset plate up end, after the last chamber pours into gas, the heat-conducting plate further restricts the offset plate upper and lower end and takes place deformation, improve subassembly lamination effect.

Compare in prior art, the advantage of this application lies in:

(1) This scheme is through addding the horizontal pole, eccentric clamp plate comes to fix a position the offset plate, when using, only need pull the eccentric shaft and can fix a position the offset plate between horizontal pole and eccentric clamp plate, realize installing fast and returning to the offset plate, alleviate equipment management personnel's working strength and raise the efficiency, the rate of utilization of equipment is improved, and simultaneously, through the cooperation of tightening up subassembly and tensioning subassembly, at first fix the tensioning subassembly at the offset plate both ends, will tighten up subassembly and tensioning subassembly magnetism and inhale the location again, the shrink that utilizes the tightening up subassembly realizes the operation of receiving and releasing the offset plate, both realize that the offset plate receive and release freely, improve offset plate installation stability again, effectively prevent that the offset plate from receiving the environmental impact deformation and leading to the subassembly atress inequality, in addition, through addding the heat-conducting plate in the offset plate upper end, heat transfer to the offset plate top with the heat pipe department, the upper and lower extreme of realization subassembly is all heated, improve the lamination effect.

(2) It has a plurality of springs that correspond with eccentric shaft position to distribute between horizontal pole and the eccentric clamp plate, wear to be equipped with the flexible pole in the spring, the last lower extreme of flexible pole all through the screw respectively with eccentric clamp plate, horizontal pole end wall fixed connection, during the use, loosen the connecting rod, eccentric clamp plate is jack-up under the effect of spring, thereby reserve the space between eccentric clamp plate and the horizontal pole, make things convenient for inserting of offset plate, treat that the offset plate inserts the back, reverse pull the connecting rod again, thereby realize that eccentric clamp plate firmly fixes a position the offset plate on the horizontal pole.

(3) Tighten up the subassembly including installing in the control box of eccentric clamp plate up end, control box middle part department and be equipped with a pair of telescopic link, the flexible end of a pair of telescopic link all is connected with the cavity through the stay cord and inhales the stick, the activity of cavity magnetism is inhaled stick outer end and is run through to controlling the box outside, the tensioning subassembly includes interconnect's connecting band and bar magnet, the connecting band is flexible band structure, when the installation, can fix a pair of connecting band respectively at the offset plate both ends, both accessible bolted connection, insert the connecting band behind the space between horizontal pole and the eccentric clamp plate, insert the cavity magnetism respectively with a pair of bar magnet again and inhale the stick in, can come to receive and release the processing to the offset plate according to actual need.

(4) The heat absorption stick is the cavity body structure for adopting the heat conduction material to make, it has a plurality of heat absorption holes to distribute on the heat absorption stick, the cavity body structure of heat pipe for adopting flexible heat conduction material to make, the inside packing of heat pipe has the conduction oil, through add the heat-conducting plate that has the heat conduction effect in the offset plate upper end, the cooperation structure of heat absorption stick and heat pipe, the heat transfer of heat pipe with hot plate department to offset plate top, thereby realize that the upper and lower end of subassembly all is heated, furthermore, the heat-conducting plate laminates with the offset plate up end mutually, after the upper chamber pours into gas into, the heat-conducting plate further limits the offset plate upper and lower end and takes place deformation.

Drawings

FIG. 1 is a schematic structural diagram of the present application;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic structural view of the present application when the tightening assembly and the tensioning assembly are not installed;

FIG. 4 is a first exploded view of the cross bar, the eccentric pressing plate and the eccentric shaft of the present application;

FIG. 5 is a second exploded view of the cross bar, eccentric press plate and eccentric shaft of the present application;

FIG. 6 is a schematic view of the present application as installed;

FIG. 7 is a schematic view of the structure at B in FIG. 6;

FIG. 8 is a schematic view of the heat conducting plate and heating plate of the present application;

fig. 9 is a cross-sectional view of the heat-absorbing rod of the present application.

The reference numbers in the figures illustrate:

1. a cross bar; 2. an eccentric pressing plate; 3. an eccentric shaft; 31. a handle; 32. a connecting rod; 4. a connecting belt; 5. a magnetic bar; 6. a control box; 7. a hollow magnetic suction rod; 8. pulling a rope; 9. a heat conducting plate; 10. a heat absorption rod; 11. a heat conducting pipe; 12. a rubber plate; 13. heating the plate.

Detailed Description

The drawings in the embodiments of the present application will be incorporated herein; the technical scheme in the embodiment of the application is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the present application; but not all embodiments, are based on the embodiments in the present application; all other embodiments obtained by a person skilled in the art without making any inventive step; are within the scope of the present application.

Example 1:

the application discloses a rubber plate clamp of a solar battery pack laminating machine, please refer to fig. 1-5, which comprises a cross rod 1 and an eccentric pressing plate 2 for fixing a rubber plate 12 on the cross rod 1, wherein a plurality of connecting plates are distributed on one side of the upper end of the cross rod 1, each connecting plate is rotatably connected with an eccentric shaft 3 with a handle 31, the eccentric shafts 3 are fixedly connected with one end of the eccentric pressing plate 2, a plurality of groups of lug plates corresponding to the positions of the eccentric shafts 3 are distributed on the upper end surface of the eccentric pressing plate 2, hollow cavities are formed on the end walls of the eccentric pressing plate 2 positioned at the inner sides of a pair of lug plates, connecting shafts at the two ends of the eccentric shaft 3 are fixedly connected with the lug plates, the lower ends of the eccentric shafts 3 penetrate through the hollow cavities and are connected with the connecting plates, the top ends of the handles 31 are mutually connected through connecting rods 32, one end of the connecting rods 32 extends to the outer side of the edge of the cross rod 1, can be like this in the operation of equipment both sides can, need not get into equipment again, handle to horizontal centre is operated, it has a plurality of springs that correspond with eccentric shaft 3 positions to distribute between horizontal pole 1 and the eccentric clamp plate 2, wear to be equipped with the flexible rod in the spring, the last lower extreme of flexible rod all through the screw respectively with eccentric clamp plate 2, horizontal pole 1 end wall looks fixed connection, during the use, loosen connecting rod 32, eccentric clamp plate 2 is jack-up under the effect of spring, thereby reserve the space between eccentric clamp plate 2 and the horizontal pole 1, make things convenient for inserting of offset plate, treat offset plate 12 and insert the back, reverse pull connecting rod 32 again, thereby realize eccentric clamp plate 2 with the firm location of offset plate on horizontal pole 1, need not the too much screw of manual operation and just can realize the dismouting of offset plate 12, the work load is lightened, and the convenience is dismantled or is put in order to offset plate 12 and is normalized.

Horizontal pole 1 is cavity rectangle structure, and horizontal pole 1 is through external connection structure and last case fixed connection, and 1 both sides end wall of horizontal pole respectively with hot plate, lower chamber end wall activity link up, designs horizontal pole 1's shape according to actual installation condition this moment to satisfy the lamination needs.

Referring to fig. 6-7, a tightening assembly is mounted on the upper end wall of the eccentric pressing plate 2 far from the eccentric shaft 3, a tensioning assembly is magnetically attracted to both sides of the tightening assembly and connected to the end wall of the rubber plate, the tightening assembly includes a control box 6 mounted on the upper end surface of the eccentric pressing plate 2, a pair of telescopic rods are disposed at the middle position of the control box 6, the telescopic ends of the pair of telescopic rods are connected to a hollow magnetic attraction rod 7 through a pull rope 8, the outer end of the hollow magnetic attraction rod 7 movably penetrates the outer side of the control box 6, the tensioning assembly includes a connecting band 4 and a magnetic rod 5 connected to each other, the connecting band 4 is of a flexible band structure, the connecting band 4 is embedded and connected to one end of the rubber plate 12, the magnetic rod 5 is magnetically attracted and connected to the hollow magnetic attraction rod 7, an embedding hole is disposed at the end where the hollow magnetic attraction rod 7 is abutted to the magnetic rod 5, 2 both ends of eccentric clamp plate all are equipped with the guide bar that is used for leading connecting band 4, when the installation, please refer to fig. 2 and fig. 7, can fix a pair of connecting band 4 respectively at the offset plate both ends, both accessible bolted connections, insert connecting band 4 behind the space between horizontal pole 1 and the eccentric clamp plate 2, insert a pair of bar magnet 5 respectively again in the stick 7 is inhaled to the cavity magnetism, realize tightening up being connected of subassembly and tensioning assembly, the shrink of utilizing the telescopic link realizes receiving and releasing the offset plate, realize receiving and releasing freely, so that adjust the elasticity degree of offset plate 12 according to actual need, prescribe a limit to simultaneously through the both ends of offset plate 12, improve offset plate 12 installation stability again, effectively prevent offset plate 12 from receiving environmental impact deformation and leading to the subassembly atress uneven.

Referring to fig. 8-9, the front end of the eccentric pressing plate 2 is further fixedly connected with a heat conducting plate 9 located at the upper end of the rubber plate 12, a plurality of heat absorbing rods 10 are distributed on the heat conducting plate 9, a heat conducting pipe 11 is embedded inside the heat absorbing rods 10, the other end of the heat conducting pipe 11 sequentially penetrates through the eccentric pressing plate 2 and the cross bar 1 and is connected with a heating plate 13 of the lower cavity, the heat absorbing rods 10 are of a hollow pipe body structure made of heat conducting materials, a plurality of heat absorbing holes are distributed on the heat absorbing rods 10, the heat absorbing holes can be filled with heat absorbing cotton, when gas is introduced into the upper cavity, the gas fills the upper cavity, the heat conducting gas is attached to the heat absorbing rods 10, the heat conducting effect on the heat conducting plate 9 is further improved, a section of the heat conducting pipe 11, which is connected with the eccentric pressing plate 2 in a penetrating manner, is made of hard heat conducting materials, realize both fixed connection, heat pipe 11 extends to one section of horizontal pole 1 department and adopts flexible heat conduction material to make, when eccentric clamp plate 2 upwards overturns under the effect of eccentric shaft 3, take heat-conducting plate 9 together to move jointly, 11 inside packings of heat pipe have the conduction oil, through add the heat-conducting plate 9 that has the heat conduction effect on offset plate 12, the cooperation structure of heat absorption stick 10 and heat pipe 11, heat pipe 11 is with heat transfer to offset plate 12 top of hot plate 13 department, thereby realize that the upper and lower end of subassembly is all heated, furthermore, heat-conducting plate 9 laminates with offset plate 12 up end mutually, after the chamber goes into gas, heat-conducting plate 9 further limits the offset plate upper and lower end and takes place deformation, improve subassembly lamination effect.

The above; but are merely preferred embodiments of the present application; the scope of protection of the present application is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the application are equally replaced or changed; are intended to be covered by the scope of this application.

Claims (10)

1. The utility model provides a solar module laminator offset plate anchor clamps which characterized in that: including horizontal pole (1) and be used for fixing eccentric clamp plate (2) on horizontal pole (1) with offset plate (12), horizontal pole (1) upper end one side distributes and has a plurality of joint boards, every all rotate on the joint board and link up eccentric shaft (3) that have handle (31), and is a plurality of eccentric shaft (3) all with eccentric clamp plate (2) one end fixed connection, eccentric clamp plate (2) are kept away from the upper end wall mounting of eccentric shaft (3) one side and are tightened up the subassembly, it all inhales magnetically to tighten up the subassembly both sides and is equipped with the tensioning subassembly, the tensioning subassembly is connected with offset plate (12) end wall, eccentric clamp plate (2) front end still fixedly connected with is located heat-conducting plate (9) of offset plate (12) upper end, it has a plurality of heat absorption stick (10) to distribute on heat-conducting plate (9), heat absorption stick (10) inside is inlayed and is equipped with heat pipe (11), heat pipe (11) other end runs through horizontal pole (1) and is connected with hot plate (13) of cavity of resorption.

2. The solar cell module laminator slab rubber clamp of claim 1, wherein: the eccentric pressing plate is characterized in that a plurality of groups of lug plates corresponding to the eccentric shafts (3) are distributed on the upper end face of the eccentric pressing plate (2), hollow cavities are formed in the end walls of the eccentric pressing plate (2) located on the inner sides of the pair of lug plates, connecting shafts at two ends of the eccentric shafts (3) are fixedly connected with the lug plates, and the lower ends of the eccentric shafts (3) penetrate through the hollow cavities and are connected with the connecting plates.

3. The solar cell module laminator slab rubber clamp of claim 1, wherein: the top ends of the handles (31) are connected with each other through a connecting rod (32), and one end of the connecting rod (32) extends to the outer side of the edge of the cross rod (1).

4. The solar cell module laminator slab rubber clamp of claim 1, wherein: a plurality of springs corresponding to the eccentric shaft (3) are distributed between the cross rod (1) and the eccentric pressing plate (2), flexible rods penetrate through the springs, and the upper ends and the lower ends of the flexible rods are fixedly connected with the eccentric pressing plate (2) and the end wall of the cross rod (1) through screws respectively.

5. The clamp for the rubber plate of the solar cell module laminating machine according to claim 1, wherein: tighten up the subassembly including installing in control box (6) of eccentric clamp plate (2) up end, control box (6) middle part position department is equipped with a pair of telescopic link, and is a pair of the flexible end of telescopic link all is connected with cavity magnetism through stay cord (8) and inhales stick (7), the activity of cavity magnetism is inhaled stick (7) outer end and is run through to controlling the box (6) outside.

6. The clamp for the rubber plate of the solar cell module laminating machine according to claim 5, wherein: tensioning assembly includes interconnect's connecting band (4) and bar magnet (5), connecting band (4) are flexible belt structure.

7. The clamp for the rubber plate of the solar cell module laminating machine according to claim 6, wherein: connecting band (4) inlay mutually with offset plate (12) one end and establish the connection, stick magnetic attraction (7) are inhaled with cavity magnetic attraction to be connected in bar magnetic attraction (5), bar magnetic attraction (7) and stick magnetic attraction (5) dock one end mutually and are equipped with to inlay and establish the hole.

8. The glue board clamp of a solar cell module laminating machine according to claim 7, wherein: and guide rods for guiding the connecting belt (4) are arranged at the two ends of the eccentric pressing plate (2).

9. The solar cell module laminator slab rubber clamp of claim 1, wherein: the horizontal pole (1) is the hollow rectangle structure, horizontal pole (1) is through external connection structure and last case fixed connection, and horizontal pole (1) both sides end wall links up with hot plate (13), lower chamber end wall activity respectively.

10. The solar cell module laminator slab rubber clamp of claim 1, wherein: the heat absorption rod (10) is of a hollow pipe body structure made of heat conduction materials, a plurality of heat absorption holes are distributed in the heat absorption rod (10), one section of the heat conduction pipe (11) which is connected with the eccentric pressing plate (2) in a penetrating mode is made of hard heat conduction materials, one section of the heat conduction pipe (11) extending to the cross rod (1) is made of flexible heat conduction materials, and heat conduction oil is filled in the heat conduction pipe (11).

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