CN211054399U - Optical CCD automatic alignment laminating machine with multi-angle fixing structure - Google Patents

Abstract

The utility model discloses an optics CCD automatic alignment rigging machine with multi-angle fixed knot constructs, including organism, installation fixed subassembly and laminating subassembly, the top of organism is fixed with the workstation, and the top of workstation settles and have the station board, the installation fixed subassembly sets up in the inside of station board, and the both sides of station board install the spout, the top both sides of workstation are fixed with the curb plate, and one side of curb plate installs the backplate, the top of backplate is fixed with the roof, and is welded connection between roof and curb plate and the backplate, lifting unit is installed to the middle part below of roof, laminating unit mount is in lifting unit's below. This optics CCD automatic alignment rigging machine with multi-angle fixed knot constructs is provided with the duplex position and is convenient for carry out automatic pad pasting simultaneously to two optics CCD touch-sensitive screens, and the installation fixed subassembly is convenient for realize the multi-angle fixed.

Description

Optical CCD automatic alignment laminating machine with multi-angle fixing structure

Technical Field

The utility model relates to an optics CCD automatic alignment rigging machine technical field specifically is an optics CCD automatic alignment rigging machine with multi-angle fixed knot constructs.

Background

A CCD is a semiconductor device that can convert an optical image into an electrical signal. The CCD can directly convert the optical signal into an analog current signal, and the acquisition, storage, transmission, processing and reproduction of the image are realized through amplification and analog-to-digital conversion. CCDs are widely used in the fields of digital photography, astronomy, optical telemetry, optical and spectral telescopes, and high-speed photography. An optical CCD automatic alignment laminating machine is a device for laminating a film on an optical CCD touch screen

Present optics CCD automatic alignment rigging machine is not convenient for fix the work piece to the in-process laminating equipment of laminating is not convenient for lift adjustment, also does not have the stable structure who prevents the skew, uses and has the limitation, and for this, we provide an optics CCD automatic alignment rigging machine with multi-angle fixed knot constructs.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an optics CCD automatic alignment rigging machine with multi-angle fixed knot constructs to solve the current optics CCD automatic alignment rigging machine that provides in the above-mentioned background art and be not convenient for fix the work piece, and the in-process laminating equipment of laminating is not convenient for lift adjustment, also does not have the stable structure who prevents the skew, uses the problem that has the limitation.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an optics CCD automatic alignment rigging machine with multi-angle fixed knot constructs, includes organism, the fixed subassembly of installation and laminating subassembly, the top of organism is fixed with the workstation, and the top of workstation settles and have the station board, the fixed subassembly of installation sets up in the inside of station board, and the both sides of station board install the spout, the top both sides of workstation are fixed with the curb plate, and one side of curb plate installs the backplate, the top of backplate is fixed with the roof, and is welded connection between roof and curb plate and the backplate, lifting unit is installed to the middle part below of roof, laminating unit mount is in lifting unit's below.

Preferably, the fixed subassembly of installation is including mounting groove, first spring, first rubber slab, second spring and second rubber slab, and the mounting groove is seted up in the middle of the inside of station board, the welding of inner wall one side of mounting groove has first spring, and the inboard of first spring is spliced and has first rubber slab, the welding of the inner wall opposite side of mounting groove has the second spring, and the inboard of second spring is spliced and has the second rubber slab.

Preferably, the first rubber plates are symmetrical with respect to a center line of the mounting groove, and the first rubber plates form an elastic structure through a first spring.

Preferably, the lifting assembly comprises a hydraulic cylinder, a piston rod, a lifting frame, a connecting rod and a rack, the piston rod is arranged below the hydraulic cylinder, the lifting frame is fixed below the piston rod, the connecting rod is installed below the two ends of the lifting frame, and the rack is fixed below the connecting rod.

Preferably, the laminating subassembly is including fly leaf, rigging board, slider, gear and micro motor, the below of fly leaf is fixed with the rigging board, and the below both sides of fly leaf are fixed with the slider, micro motor is installed to the top both sides of fly leaf, and micro motor's bottom is provided with the gear.

Preferably, a meshing structure is formed between the gear and the rack, and the rack is movably embedded in the upper portion of the inner portion of the movable plate.

Compared with the prior art, the beneficial effects of the utility model are that: the optical CCD automatic alignment laminating machine with the multi-angle fixing structure is provided with double stations, so that two optical CCD touch screens can be automatically laminated at the same time, the first springs can elastically extrude the first rubber plates, the inner side surfaces of the first rubber plates are attached to the outer side surfaces of the optical CCD touch screens, two symmetrical groups of first rubber plates are used for limiting and fixing the two side surfaces of the optical CCD touch screens, the second springs and the second rubber plates can fix the other side, and multi-angle fixing is achieved;

the hydraulic cylinder is convenient for driving the lifting frame to descend through the piston rod, so that the attaching plate descends to the upper side of the station plate, and meanwhile, the sliding blocks on the two sides of the movable plate can enter the inner parts of the sliding grooves on the two sides of the station plate, so that the position between the sliding blocks and the sliding grooves is convenient to match, and the attaching assembly is prevented from being deviated;

constitute the meshing structure between gear and the rack and be convenient for drive the gear rotatory under micro motor's drive effect to make and do the motion each other between rack and the gear, so that drive the removal of fly leaf, the rack activity is embedded in the inside top of fly leaf and shows that the below of lifting unit and the top of laminating subassembly are swing joint.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic side view of the present invention;

fig. 3 is a schematic top view of the station board of the present invention.

In the figure: 1. a body; 2. a work table; 3. a station plate; 4. installing a fixed component; 401. mounting grooves; 402. a first spring; 403. a first rubber sheet; 404. a second spring; 405. a second rubber sheet; 5. a chute; 6. a side plate; 7. a back plate; 8. a top plate; 9. a lifting assembly; 901. a hydraulic cylinder; 902. a piston rod; 903. a lifting frame; 904. a connecting rod; 905. a rack; 10. fitting the assembly; 1001. a movable plate; 1002. attaching a plate; 1003. a slider; 1004. a gear; 1005. a micro motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: an optical CCD automatic alignment laminating machine with a multi-angle fixing structure comprises a machine body 1, a workbench 2, a station plate 3, an installation fixing component 4, an installation groove 401, a first spring 402, a first rubber plate 403, a second spring 404, a second rubber plate 405, a sliding chute 5, a side plate 6, a back plate 7, a top plate 8, a lifting component 9, a hydraulic cylinder 901, a piston rod 902, a lifting frame 903, a connecting rod 904, a rack 905, a laminating component 10, a movable plate 1001, a laminating plate 1002, a sliding block 1003, a gear 1004 and a micro motor 1005, wherein the workbench 2 is fixed above the machine body 1, and the station plate 3 is arranged above the workbench 2;

the mounting and fixing component 4 is arranged inside the station plate 3, sliding grooves 5 are arranged on two sides of the station plate 3, the mounting and fixing component 4 comprises a mounting groove 401, a first spring 402, a first rubber plate 403, a second spring 404 and a second rubber plate 405, the mounting groove 401 is arranged in the middle of the inside of the station plate 3, the first spring 402 is welded on one side of the inner wall of the mounting groove 401, the first rubber plate 403 is glued on the inner side of the first spring 402, the second spring 404 is welded on the other side of the inner wall of the mounting groove 401, the second rubber plate 405 is glued on the inner side of the second spring 404, the first rubber plates 403 are symmetrical with respect to the center line of the mounting groove 401, the first rubber plates 403 form an elastic structure through the first spring 402, the two symmetrical groups of first rubber plates 403 facilitate limiting and fixing two side faces of the optical CCD touch screen, the first rubber plates 403 form an elastic structure through the first spring 402 and facilitate elastic extrusion of the first rubber plates 403 through the first spring 402, so that the inner side surface of the first rubber plate 403 is attached to the outer side surface of the optical CCD touch screen;

the side plates 6 are fixed on two sides above the workbench 2, the back plate 7 is installed on one side of each side plate 6, the top plate 8 is fixed above the back plate 7, the top plate 8 is connected with the side plates 6 and the back plate 7 in a welding mode, the lifting assembly 9 is installed below the middle of the top plate 8, the lifting assembly 9 comprises a hydraulic cylinder 901, a piston rod 902, a lifting frame 903, a connecting rod 904 and a rack 905, the piston rod 902 is arranged below the hydraulic cylinder 901, the lifting frame 903 is fixed below the piston rod 902, the connecting rods 904 are installed below two ends of the lifting frame 903, and the rack 905 is fixed below the connecting rod 904;

the attaching assembly 10 is installed below the lifting assembly 9, the attaching assembly 10 includes a movable plate 1001, an attaching plate 1002, a slider 1003, a gear 1004 and a micro motor 1005, the attaching plate 1002 is fixed below the movable plate 1001, the sliders 1003 are fixed on two sides below the movable plate 1001, the micro motor 1005 is installed on two sides above the movable plate 1001, a gear 1004 is arranged at the bottom end of the micro motor 1005, a meshing structure is formed between the gear 1004 and a rack 905, the rack 905 is movably embedded in the upper portion of the movable plate 1001, the meshing structure is formed between the gear 1004 and the rack 905, so that the gear 1004 is driven to rotate under the driving action of the micro motor 1005, and the rack 905 and the gear 1004 move relative to each other, so as to drive the movable plate 1001 to move.

The working principle is as follows: for the optical CCD automatic alignment laminating machine with the multi-angle fixing structure, firstly, an optical CCD touch screen needing film lamination can be placed in a mounting groove 401 of a station plate 3, then a first spring 402 elastically extrudes a first rubber plate 403, so that the inner side surface of the first rubber plate 403 is laminated with the outer side surface of the optical CCD touch screen, two symmetrical groups of first rubber plates 403 are utilized to limit and fix the two side surfaces of the optical CCD touch screen, a second spring 404 and a second rubber plate 405 are the same, and then the self-adhesive film is attached to the optical CCD touch screen;

then can start hydraulic cylinder 901, make hydraulic cylinder 901 drive crane 903 decline through piston rod 902, until the laminating board 1002 is located the upside of station board 3, the inside of spout 5 is entered into to the slider 1003 simultaneously, then utilize laminating board 1002 to paste the laminating film tightly, at this in-process, micro motor 1005 can be started, it is rotatory to make micro motor 1005 drive gear 1004, thereby make and be the motion each other between rack 905 and the gear 1004, so that drive the removal of fly leaf 1001, slider 1003 slides in the inside of spout 5 simultaneously, then fly leaf 1001 drives laminating board 1002 and carries out complete pad pasting to the optics CCD touch-sensitive screen, just so accomplish the use of whole optics CCD automatic alignment rigging machine that has multi-angle fixed knot structure.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an optics CCD automatic alignment rigging machine with multi-angle fixed knot constructs, includes organism (1), installation fixed subassembly (4) and laminating subassembly (10), its characterized in that: the utility model discloses a machine tool, including organism (1), workstation (2), spout (5) are installed to the top of workstation (2), and the top of workstation (2) is settled has station board (3), installation fixed subassembly (4) set up in the inside of station board (3), and the both sides of station board (3) install spout (5), the top both sides of workstation (2) are fixed with curb plate (6), and one side of curb plate (6) installs backplate (7), the top of backplate (7) is fixed with roof (8), and is welded connection between roof (8) and curb plate (6) and backplate (7), lifting unit (9) are installed to the middle part below of roof (8), laminating subassembly (10) are installed in the below of lifting unit (9).

2. The optical CCD automatic alignment laminating machine with the multi-angle fixing structure of claim 1, characterized in that: the fixed subassembly of installation (4) is including mounting groove (401), first spring (402), first rubber slab (403), second spring (404) and second rubber slab (405), and the inside centre in station board (3) is seted up in mounting groove (401), the welding of inner wall one side of mounting groove (401) has first spring (402), and the inboard of first spring (402) is glued and is had first rubber slab (403), the welding of the inner wall opposite side of mounting groove (401) has second spring (404), and the inboard of second spring (404) is glued and is had second rubber slab (405).

3. The optical CCD automatic alignment laminating machine with the multi-angle fixing structure of claim 2, wherein: the first rubber plates (403) are symmetrical with each other about the center line of the mounting groove (401), and the first rubber plates (403) form an elastic structure through first springs (402).

4. The optical CCD automatic alignment laminating machine with the multi-angle fixing structure of claim 1, characterized in that: the lifting assembly (9) comprises a hydraulic cylinder (901), a piston rod (902), a lifting frame (903), a connecting rod (904) and a rack (905), the piston rod (902) is arranged below the hydraulic cylinder (901), the lifting frame (903) is fixed below the piston rod (902), the connecting rod (904) is installed below the two ends of the lifting frame (903), and the rack (905) is fixed below the connecting rod (904).

5. The optical CCD automatic alignment laminating machine with the multi-angle fixing structure of claim 4, wherein: laminating subassembly (10) is including fly leaf (1001), laminating board (1002), slider (1003), gear (1004) and micro motor (1005), the below of fly leaf (1001) is fixed with laminating board (1002), and the below both sides of fly leaf (1001) are fixed with slider (1003), micro motor (1005) are installed to the top both sides of fly leaf (1001), and the bottom of micro motor (1005) is provided with gear (1004).

6. The optical CCD automatic alignment laminating machine with the multi-angle fixing structure of claim 5, wherein: a meshing structure is formed between the gear (1004) and the rack (905), and the rack (905) is movably embedded in the upper portion of the inner portion of the movable plate (1001).

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