CN211807838U - Explosion-proof membrane laminating machine - Google Patents

Abstract

The utility model provides an explosion-proof membrane rigging machine, it includes control system, propulsion subassembly, pushes down subassembly and evacuation subassembly, propulsion subassembly, push down subassembly and evacuation subassembly all with the control system electricity is connected, control system at first controls the laminating tool that the subassembly will be placed explosion-proof membrane and camera lens impels to the assigned position, then control push down subassembly downstream to form the laminating cavity, at this moment, control system control evacuation subassembly carries out the evacuation operation to the laminating cavity, and is last laminating tool on the control system control laminating board in the subassembly and the propulsion subassembly compresses tightly the laminating each other to realize the seamless laminating of explosion-proof membrane and camera lens. The laminating machine can laminate a plurality of explosion-proof films at one time, so that the production efficiency is improved; simultaneously, this rigging machine carries out the laminating of rupture membrane and camera lens under vacuum environment, can not produce the bubble, has improved product production yield, and then practices thrift the cost.

Description

Explosion-proof membrane laminating machine

Technical Field

The utility model belongs to camera lens processing field especially relates to an explosion-proof membrane rigging machine.

Background

In the process of processing the lens of the camera, an explosion-proof film is generally attached to the lens of the camera, so that the use safety of the lens is ensured.

At present, the laminating of lens and rupture membrane of camera adopts the artifical mode of pressing the laminating one by one mostly. The mode is not only low in production efficiency, but also easy to generate bubbles in the laminating process, thereby causing the laminating failure. The lens of camera has produced the bubble when laminating with the rupture membrane, just need tear and laminate again behind the rupture membrane, not only waste time has caused the waste of raw and other materials moreover, has improved manufacturing cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a rupture membrane rigging machine is provided, aim at solving the artifical mode of laminating rupture membrane on the camera lens one by one among the prior art, efficiency is lower and the failure of laminating easily to the problem of waste time and raw and other materials.

In order to solve the technical problem, the utility model relates to a realize like this, an explosion-proof membrane rigging machine, include:

a control system;

the pushing assembly comprises a pushing plate and a pushing power source, a plurality of attaching stations are arranged on the pushing plate, each attaching station can be provided with an attaching jig, each attaching jig is sequentially provided with a camera lens and an explosion-proof membrane, and the attaching jigs can move in the horizontal direction and cannot move in the vertical direction on the attaching stations; the power output end of the propulsion power source is in transmission connection with the propulsion plate so as to drive the propulsion plate to reciprocate along the horizontal direction, and the control system is electrically connected with the propulsion power source;

the pressing assembly comprises a pressing cover plate, a pressing power source, attaching plates and an attaching power source, the control system is electrically connected with the pressing power source, the power output end of the pressing power source is in transmission connection with the pressing cover plate, the pressing cover plate and the pushing plate form an attaching cavity or are separated from each other, the attaching plates are installed at the positions, corresponding to each attaching station, of the pressing cover plate, the control system is electrically connected with the attaching power source, the attaching power source is in transmission connection with each attaching plate, and the attaching plates and attaching jigs on the attaching stations are mutually pressed, attached or separated from each other;

and the vacuumizing assembly is arranged on the pushing plate or the lower cover plate and communicated with the laminating cavity, and the vacuumizing assembly is electrically connected with the control system.

Further, the air conditioner is provided with a fan,

a dovetail groove is arranged on the attaching station along the horizontal direction, a dovetail protrusion is arranged on the attaching jig at a position corresponding to the dovetail groove, and the attaching jig is movably clamped on the attaching station along the horizontal direction;

or, be provided with the forked tail arch along the horizontal direction on the laminating station, on the laminating tool with the corresponding position of forked tail arch has the forked tail recess, the movably block of laminating tool along the horizontal direction is in on the laminating station.

Further, the propulsion assembly further comprises a plurality of horizontal guide rails, and the propulsion plate is slidably mounted on the plurality of horizontal guide rails.

Further, the laminating station is in a U-shaped shape with one open end.

Furthermore, a notch for taking and placing the laminating jig is formed in one end of the opening of each laminating station, and the notch is close to the edge of the pushing plate.

Furthermore, the top of the pushing plate is provided with a sealing ring with sealing performance between the lower pressing cover plate and the pushing plate.

Further, the vacuumizing assembly comprises a vacuum suction pipe, a one-way valve and an air pump, the first end of the vacuum suction pipe is communicated with the attaching cavity, and the second end of the vacuum suction pipe is communicated with the air pump through the one-way valve.

Further, the control system is a PLC.

Compared with the prior art, the utility model, beneficial effect lies in: the utility model discloses an explosion-proof membrane rigging machine at first places the camera lens and the explosion-proof membrane that will need the laminating in proper order on the laminating tool to place a plurality of laminating tools in proper order in the laminating station department of propulsion board, then stop after impelling the propulsion board to the assigned position through control system control propulsion power supply. And then, the control system controls the downward-pressing power source to drive the downward-pressing cover plate to descend until the downward-pressing cover plate and the pushing plate form a closed fit cavity. Then, the control system controls the vacuumizing assembly to vacuumize the laminating cavity, and after vacuumizing is completed, the control system controls the laminating power source to drive each laminating plate to be mutually compressed and laminated with the laminating jig respectively, so that seamless laminating of the explosion-proof film and the camera lens is realized. The laminating machine can place a plurality of laminating jigs at one time, so that a plurality of explosion-proof films can be laminated at one time, and the production efficiency is improved; simultaneously, this rigging machine carries out the laminating of rupture membrane and camera lens under vacuum environment, can not produce the bubble, has improved the product production yield, and then has practiced thrift time and material cost.

Drawings

Fig. 1 is a schematic front view structural diagram of an explosion-proof membrane laminating machine according to an embodiment of the present invention;

fig. 2 is a schematic top view of an explosion-proof membrane laminating machine according to an embodiment of the present invention;

fig. 3 is a schematic side view of an explosion-proof membrane laminating machine according to an embodiment of the present invention.

In the drawings, each reference numeral denotes:

100. a laminating machine; 10. a propulsion assembly; 20. pressing the assembly; 30. a vacuum pumping assembly; 11. a propulsion plate; 12. a source of propulsion power; 13. a horizontal guide rail; 111. a bonding station; 112. a notch; 113. a seal ring; 1111. dovetail grooves; 21. pressing down the cover plate; 22. pressing down the power source; 23. attaching a plate; 24. attaching a power source; 31. a vacuum suction pipe; 32. a one-way valve; 33. an air pump.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 to 3, an explosion-proof membrane laminating machine 100 according to an embodiment of the present invention includes a control system (not shown), a propelling assembly 10, a pressing assembly 20, and a vacuum-pumping assembly 30; the control system controls the mechanical movement of the various components of the bursting film laminator 100.

Specifically, referring to fig. 2, the propelling assembly 10 includes a propelling plate 11 and a propelling power source 12, a plurality of attaching stations 111 are provided on the propelling plate 11, each attaching station 111 can be provided with an attaching jig (not shown), and each attaching jig is provided with a camera lens (not shown) and an explosion-proof membrane (not shown) in sequence. The laminating tool is in can follow the horizontal direction and can not follow vertical direction and remove on laminating station 111, thus it is right the laminating tool carries out the spacing of vertical direction for camera lens and rupture membrane compress tightly the laminating back each other, and the laminating tool can not break away from laminating station 111.

The embodiment of the utility model provides an in, be provided with forked tail recess 1111 along the horizontal direction on laminating station 111, on the laminating tool with the position that forked tail recess 1111 corresponds has the forked tail arch, through with the forked tail arch with forked tail recess 1111 looks block makes the laminating tool is in along the movably block of horizontal direction on laminating station 111. Certainly, a dovetail protrusion may be disposed on the attaching station 111, and a dovetail groove is correspondingly disposed on the attaching jig; or the attaching jig may be attached to the attaching station 111 by vacuum attachment, without being limited to a specific limit manner.

The power take off of propulsion power source 12 with propulsion board 11 transmission is connected, the embodiment of the utility model provides an in the transmission connect can be one of many connected modes such as rack and pinion formula, sprocket formula, belt pulley formula or lead screw nut formula, and propulsion power source 12 can be according to the selected transmission mode and the adaptability select power parts such as motor or cylinder can. The propulsion power source 12 is electrically connected with the control system at the same time, and the control system controls the propulsion power source 12 to drive the propulsion plate 11 to reciprocate along the horizontal direction; thereby enabling the push plate 11 to be pushed to a designated position or returned to an initial position.

In the above embodiment, the pushing assembly 10 further includes a plurality of horizontal guide rails 13, the pushing plate 11 is slidably mounted on the plurality of horizontal guide rails 13, and the pushing plate 11 can be limited by the horizontal guide rails 13, so that the pushing plate 11 does not deviate, and the fitting accuracy is ensured. The embodiment of the utility model provides an in, laminating station 111 is one end open-ended U type shape, each laminating station 111's opening one end all set up the notch 112 of being convenient for get the putting laminating tool, notch 112 is close to propulsion plate 11's edge. When the attaching jig needs to be placed or taken, the finger is placed below the notch 112, so that the attaching jig can be easily placed on the attaching station 111, or the attaching jig is taken down from the attaching station 111, and operation of workers is facilitated.

Referring to fig. 1 and 3, the pressing assembly 20 includes a pressing cover plate 21 and a pressing power source 22, and a bonding plate 23 matched with the bonding jig is disposed at a position on the pressing cover plate 21 corresponding to each bonding station 111. The pressing assembly 20 further comprises a laminating power source 24, the power output end of the pressing power source 22 is in transmission connection with the pressing cover plate 21, and the laminating power source 24 is in transmission connection with each laminating plate 23. Similarly, the pressing power source 22 is in transmission connection with the pressing cover plate 21, and the bonding power source 24 is in transmission connection with each bonding plate 23, and may be one of many connection manners such as rack and pinion type, chain wheel type, belt wheel type or screw nut type; the power components such as the motor and the cylinder can be adaptively selected according to the selected transmission method for the pressing power source 22 and the bonding power source 24.

The pressing power source 22 and the fitting power source 24 are both electrically connected with the control system; the control system controls the downward-pressing power source 22 to drive the downward-pressing cover plate 21 to reciprocate along the vertical direction, and controls the attaching power source 24 to drive each attaching plate 23 to reciprocate along the vertical direction.

The reciprocating motion of lower cover plate 21 correspondingly with propulsion plate 11 forms laminating cavity or separation, the reciprocating motion of laminating board 23 correspondingly with laminating tool on the laminating station 111 compresses tightly laminating or separation each other for laminate the rupture membrane on the camera lens. For improving the leakproofness of laminating cavity, the top of propulsion board 11 is equipped with sealing washer 113 the in-process of pushing down apron 21 and propulsion board 11 formation laminating cavity, through sealing washer 113 can further guarantee the leakproofness of laminating cavity.

The vacuumizing assembly 30 is arranged on the pushing plate 11 or the lower pressing cover plate 21 and communicated with the laminating cavity, the vacuumizing assembly 30 is electrically connected with the control system, and the control system controls the vacuumizing assembly 30 to vacuumize the laminating cavity. In the embodiment of the present invention, the vacuum pumping assembly 30 includes a vacuum suction pipe 31, a one-way valve 32 and an air pump 33, the vacuum suction pipe 31 is installed on the lower gland plate 21 and is communicated with the attachment cavity; meanwhile, the vacuum suction pipe 31 is communicated with the air pump 33 through a check valve 32. When the fit cavity needs to be vacuumized, the air pump 33 is used for pumping out air in the fit cavity, and meanwhile, the check valve 32 can only pass through in a single direction, so that the air cannot flow back. The embodiment of the present invention provides a vacuum suction tube 31, a check valve 32 and an air pump 33, which are only one of the forms of the vacuum pumping assembly 30, and can also select other similar structures as required, as long as it can ensure the vacuum pumping of the attaching cavity.

The embodiment of the present invention provides a control system that is a PLC (Programmable logic controller). During specific work, firstly, placing the camera lens and the explosion-proof membrane to be attached on the attaching jig in sequence, and placing a plurality of attaching jigs on the attaching station 111 of the pushing plate 11 in sequence; the propulsion power source 12 is then controlled by the control system to propel the propulsion plate 11 to the designated location and then to stop. Then, the control system controls the downward-pressing power source 22 to drive the downward-pressing cover plate 21 to descend until the downward-pressing cover plate 21 and the pushing plate 11 form a closed fit cavity. Then, the control system controls the vacuumizing assembly 30 to vacuumize the laminating cavity, and after vacuumizing is completed, the control system controls the laminating power source 24 to drive each laminating plate 23 to be mutually compressed and laminated with the laminating jig respectively, so that seamless lamination of the explosion-proof film and the camera lens is realized.

To sum up, the explosion-proof membrane laminating machine 100 provided by the embodiment of the present invention can place a plurality of laminating jigs at one time, so that a plurality of explosion-proof membranes can be laminated at one time, and the production efficiency is improved; meanwhile, the laminating machine 100 can laminate the explosion-proof membrane and the camera lens in a vacuum environment, so that no air bubble is generated, the production yield of products is improved, and the time and the material cost are saved.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides an explosion-proof membrane rigging machine which characterized in that includes:

a control system;

the pushing assembly (10) comprises a pushing plate (11) and a pushing power source (12), a plurality of attaching stations (111) are arranged on the pushing plate (11), each attaching station (111) can be provided with an attaching jig, a camera lens and an explosion-proof membrane are sequentially placed on each attaching jig, and the attaching jigs can move in the horizontal direction and cannot move in the vertical direction on the attaching stations (111); the power output end of the propulsion power source (12) is in transmission connection with the propulsion plate (11) to drive the propulsion plate (11) to reciprocate along the horizontal direction, and the control system is electrically connected with the propulsion power source (12);

the pressing assembly (20) comprises a pressing cover plate (21), a pressing power source (22), a laminating plate (23) and a laminating power source (24), the control system is electrically connected with the pressing power source (22), the power output end of the pressing power source (22) is in transmission connection with the pressing cover plate (21), the pressing cover plate (21) and the pushing plate (11) form a laminating cavity or are separated, the laminating plate (23) is installed at the position, corresponding to each laminating station (111), of the pressing cover plate (21), the control system is electrically connected with the laminating power source (24), the laminating power source (24) is in transmission connection with each laminating plate (23), and the laminating plate (23) and a laminating jig on each laminating station (111) are mutually pressed, laminated or separated;

and the vacuumizing assembly (30), the vacuumizing assembly (30) is arranged on the pushing plate (11) or the lower pressing cover plate (21) and communicated with the laminating cavity, and the vacuumizing assembly (30) is electrically connected with the control system.

2. The bursting film laminator of claim 1,

dovetail grooves are formed in the attaching station (111) in the horizontal direction, dovetail protrusions are arranged on the attaching jig corresponding to the dovetail grooves, and the attaching jig is movably clamped on the attaching station (111) in the horizontal direction;

or, be provided with the forked tail arch along the horizontal direction on laminating station (111), the laminating tool on with the position that the forked tail arch corresponds has the forked tail recess, the movably block of laminating tool along the horizontal direction is in on laminating station (111).

3. The machine according to claim 1, characterized in that said thrust assembly (10) further comprises a plurality of horizontal guides (13), said thrust plate (11) being slidably mounted on said plurality of horizontal guides (13).

4. The machine according to claim 1, characterized in that said application station (111) has a U-shape open at one end.

5. The machine according to claim 4, characterized in that a notch (112) for picking and placing the bonding jig is formed at one open end of each bonding station (111), and the notch (112) is close to the edge of the pushing plate (11).

6. The machine according to claim 1, characterized in that the top of the thrust plate (11) is provided with a sealing ring (113) for sealing between the lower gland plate (21) and the thrust plate (11).

7. The machine according to claim 1, wherein the vacuum-pumping assembly (30) comprises a vacuum suction pipe (31), a check valve (32) and an air pump (33), a first end of the vacuum suction pipe (31) is communicated with the bonding chamber, and a second end of the vacuum suction pipe (31) is communicated with the air pump (33) through the check valve (32).

8. The bursting film laminator of claim 1 wherein the control system is a PLC.

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