CN211197903U - Storage and glue curing device circularly moving along rectangular path - Google Patents

Abstract

The utility model discloses a follow storage and glue solidification equipment of rectangular path cyclic motion, including supporting component, bear down and move the subassembly, go up to get the board and move subassembly and flitch, supporting component includes two groups, two sets of supporting component interval settings are respectively in parallel empty flitch space and full flitch space, single group supporting component includes two sets, two sets of symmetrical interval settings form the flitch space between two sets of supporting component, the both ends of flitch are supported through two sets of supporting component, bear down and move the subassembly setting in the below of supporting component, bear down and move the subassembly and make a round trip between two sets of supporting component with the motion of rectangular path, go up to get the board and move the subassembly and set up in the top of supporting component, the utility model discloses a flitch transfer unloading in rectangular path realizes L CD concentrates high-speed unloading when, effectively utilizes the transfer unloading to realize the glue film solidification consuming time, and the unloading goes out directly to be used for follow-up laminating equipment.

Description

Storage and glue curing device circularly moving along rectangular path

Technical Field

The utility model relates to an automatic make the field, indicate a storage and glue solidification equipment along rectangular path cyclic motion very much.

Background

The flat panel display device is a man-machine interaction carrier for realizing character and image display, and mainly comprises a display module, a backlight module and a touch module, wherein the display module comprises a display panel, a polaroid, a driving chip IC, a circuit board PCB, an FPC and the like, the production of the flat panel display device comprises a front section array, a box forming process and a rear section module assembling process, the front section process is used for producing the display panel, the rear section process is used for assembling the display panel, the polaroid, the backlight module, the touch module and the like into the flat panel display device, the production equipment of the front section process is mainly provided by Japan, Korea and American enterprises at present and cannot be produced by oneself at home, in the production equipment of the rear section process, a small number of enterprises in China have realized breakthrough and are gradually realizing replacement of imported equipment at present, the display panel is a main component for realizing the display function, the polaroids need to be attached to L CD panels at two sides of the panel, one polaroid at each of the upper side and the lower side, and the O L.

In the process of rear-section assembly, an O L ED panel or L CD and a CG cover plate are required to be attached and assembled into a whole, the L CD and the CG cover plate are of rigid structures, a light-transmitting glue layer needs to be coated between the two before the attachment and assembly process, and the two are adhered through the glue layer, so a L CD dispenser needs to be designed for coating the glue layer on the surface of L CD to be convenient for adhering and fixing the cover plate when a subsequent cover plate is attached, and the L CD dispenser has the technical difficulty in the design process that the glue layer after the glue layer on the surface of L CD is dispensed cannot be immediately put into the next procedure for assembly, the glue layer needs to be naturally placed for 10-20 minutes and can flow into the next station after the glue layer is initially cured, and therefore a L CD circulation blanking device which can ensure both the productivity and efficiency and the glue layer curing time needs to be designed.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, provide an adopt flitch transfer unloading in rectangle route, when realizing L CD concentrated high-speed unloading, effectively utilize the transfer unloading to realize the glue film solidification consuming time, the unloading goes out the direct storage and the gluey solidification equipment that can be used to follow-up laminating equipment along rectangle route cyclic motion.

The utility model adopts the following technical scheme: a storage and glue curing device circularly moving along a rectangular path comprises a supporting component, a lower bearing moving component, an upper plate taking moving component and a material plate; the support assemblies comprise two groups, two groups of support assemblies are arranged in parallel empty material plate spaces and full material plate spaces at intervals respectively, the single group of support assemblies comprise two groups, two groups of support assemblies are symmetrically arranged at intervals, a material plate space is formed between the two groups of support assemblies, and two ends of the material plate are supported by the two groups of support assemblies; the lower bearing and moving assembly is arranged below the supporting assemblies and moves back and forth between the two groups of supporting assemblies in a rectangular path, and the lowermost material plates of the multilayer material plates which are stacked up and down in the empty material plate space and the full material plate space are transferred between the empty material plate space and the full material plate space; the upper taking plate moving assembly is arranged above the supporting assembly, the upper taking plate moving assembly is arranged at two ends of the flitch, is inserted below the flitch on the uppermost layer of the flitch overlapped from the outside, and transfers the flitch between an empty flitch space and a full flitch space after supporting the flitch.

Preferably, the support assembly comprises a support frame, a telescopic cylinder and a support seat, wherein the support frame is arranged on the outer side of one end of the material plate; the telescopic cylinder is arranged below the top plate of the support frame, and the output end of the telescopic cylinder is arranged towards the direction of the material plate.

Preferably, the supporting seat is slidably connected to the top plate of the supporting frame and connected to an output end of the telescopic cylinder through a connecting block, an insertion portion is arranged on one side of the supporting seat close to the flitch, and the telescopic cylinder drives the supporting seat to move towards the flitch direction, so that the insertion portion is inserted into the lower portion of the flitch and lifts the supporting flitch.

Preferably, the lower bearing and moving assembly comprises a base, a moving plate, a lower motor, a lower screw rod, a lifting motor, a lifting sliding seat and a bearing seat, wherein the base is horizontally arranged, and the moving plate is connected to the base in a sliding manner along a linear direction; the lower motor is arranged on the base, the lower screw rod is connected to the output end of the lower motor and extends to the position below the moving plate along the moving direction of the moving plate, the lower screw rod is connected to the bottom of the moving plate through a screw rod seat, and when the lower motor drives the lower screw rod to rotate, the moving plate is driven to linearly move back and forth between the empty space and the full space of the moving plate; two ends of the movable plate are provided with vertical upward supporting plates.

Preferably, the two lifting sliding seats are arranged on the side wall of the supporting plate in a sliding manner along the linear direction, and the side parts of the lifting sliding seats are connected with vertical screw rods vertically arranged on the moving plate through screw rod seats; the lifting motor is arranged on the moving plate, and the output end of the lifting motor is connected with the vertical screw rod through a transmission belt so as to drive the vertical screw rod to rotate and enable the lifting slide seat to move up and down; the bearing seat is horizontally connected with the tops of the two lifting sliding seats and moves up and down along with the lifting sliding seats.

Preferably, the upper plate taking and moving assembly comprises two upper supports, an upper motor, a transmission shaft, a moving transmission belt, a plate taking lifting cylinder, a plate taking telescopic cylinder, a plate taking plate and a caulking groove, wherein the two upper supports are arranged at two ends of the plate in parallel at intervals along the linear direction, and the two ends of the upper supports are uniformly provided with transmission wheels at intervals; the moving transmission belt comprises two moving transmission belts which are respectively sleeved on the two transmission wheels on the upper support.

Preferably, the transmission shaft is vertically arranged between the two upper supports, and two ends of the transmission shaft are respectively connected with the transmission wheels on the two upper supports; the upper motor is arranged on one side of the upper support, the output end of the upper motor is connected with the transmission shaft, and the upper motor drives the transmission shaft to rotate so as to enable the two transmission belts to synchronously and linearly move.

Preferably, the two plate taking lifting cylinders are embedded on the two upper supports in a sliding manner and are connected with the moving transmission belt through connecting blocks respectively, and the output ends of the plate taking lifting cylinders are arranged upwards; the plate taking telescopic cylinder is horizontally connected to the output end of the plate taking lifting cylinder, and the output end of the plate taking telescopic cylinder is arranged towards the direction of the material plate.

Preferably, the material taking plate is horizontally connected to the material taking plate telescopic cylinder, two caulking grooves are formed in the material taking plate at intervals, and the caulking grooves extend to one side close to the material taking plate.

Preferably, the material plate comprises a material plate body, positioning columns and positioning holes, wherein the material plate body is of a rectangular plate-shaped structure, at least two storage spaces are arranged on the material plate body in parallel so as to place L CD, the positioning columns are arranged in groups in pairs, the two groups of positioning columns are respectively arranged below two ends of the material plate, the two groups of positioning holes are arranged in groups in pairs, and the two groups of positioning holes are respectively arranged above the positioning columns and extend downwards.

The beneficial effects of the utility model reside in that:

the utility model discloses defect and not enough autonomic research and development to prior art exist have designed a flitch transfer unloading that adopts the rectangle route, when realizing L CD concentrated high-speed unloading, utilize effectively that the transfer unloading is consuming time to realize the glue film solidification, and the unloading goes out the direct storage that can be used to follow-up laminating equipment along rectangle route cyclic motion and glues solidification equipment.

The utility model discloses L CD after the point is glued and concentrates transfer unloading and solidification required consuming time and originally design ground, the utility model discloses a carrier is placed as L CD to the flitch, can place L CD after the completion of multi-disc point is glued on platelike structure's flitch, the utility model discloses a flitch both ends bottom is provided with the reference column respectively at interval, the top of reference column is provided with the locating hole respectively, when flitch superposes from top to bottom, carry on spacingly through the reference column, the reference column still makes the space of forming between two flitchs adjacent flitchs from top to bottom simultaneously, this kind of clearance structure can prevent the flitch of upper portion touching the rubber layer of L CD surface still in the software state when flitch coincide, lead to the glue film to damage or lose efficacy, guaranteed the mobility of air simultaneously, the natural curing flitch of glue film, the utility model discloses the mechanism is whole including the space of empty flitch and the space of full flitch of side by side the top to bottom movement, the flitch of full flitch L CD superimposed flitch on full flitch surface still is in the glue film state, the space of full flitch, the full flitch of full flitch, the space of full flitch after empty flitch of empty flitch that the full flitch space of full flitch that the full flitch space of full flitch that the full flitch overlapped is folded, make the full space of full flitch that the full space that the full flitch overlapped moves from side of full flitch that the full flitch overlapped, make the full flitch that the full space of full space that the full flitch overlapped that the full space of full space that the full size was folded, make the full size was moved down that the full size was moved down, make the full size that the full.

Drawings

Fig. 1 is one of the three-dimensional structural diagrams of the curing and blanking mechanism of the present invention.

Fig. 2 is a second schematic perspective view of the curing and blanking mechanism of the present invention.

Fig. 3 is a third schematic view of the three-dimensional structure of the curing and blanking mechanism of the present invention.

Fig. 4 is one of the structural schematic diagrams of the components of the curing and blanking mechanism of the present invention.

Fig. 5 is a second schematic structural diagram of the components of the curing and blanking mechanism of the present invention.

Fig. 6 is a third schematic view of the component structure of the curing and blanking mechanism of the present invention.

Fig. 7 is one of the schematic three-dimensional structures of the material plate of the present invention.

Fig. 8 is a second schematic perspective view of the material plate of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

as shown in fig. 1 to 8, the technical solution adopted by the present invention is as follows: a storage and glue curing device circularly moving along a rectangular path comprises a supporting component, a lower bearing moving component, an upper plate taking moving component and a material plate 0; the support assemblies comprise two groups, two groups of support assemblies are arranged in parallel empty material plate spaces and full material plate spaces at intervals respectively, the single group of support assemblies comprise two groups, two groups of support assemblies are symmetrically arranged at intervals, a material plate space is formed between the two groups of support assemblies, and two ends of a material plate 0 are supported by the two groups of support assemblies; the lower bearing and moving assembly is arranged below the supporting assemblies and moves back and forth between the two groups of supporting assemblies in a rectangular path, and the lowermost material plates 0 of the multilayer material plates 0 which are vertically stacked in the empty material plate space and the full material plate space are transferred between the empty material plate space and the full material plate space; the upper plate moving assembly is arranged above the supporting assembly, the upper plate moving assembly is arranged at two ends of the flitch 0, is inserted into the lower part of the flitch 0 on the uppermost layer of the flitch 0 which is overlapped up and down from the outer side, and moves the flitch 0 between the empty flitch space and the full flitch space after holding the flitch 0.

The supporting assembly comprises a supporting frame 88, a telescopic cylinder 89 and a supporting seat 810, wherein the supporting frame 88 is arranged on the outer side of one end of the flitch 0; the telescopic cylinder 89 is arranged below the top plate of the support frame 88, and the output end of the telescopic cylinder is arranged towards the direction of the material plate 0.

The supporting seat 810 is slidably connected to the top plate of the supporting frame 88 and connected to the output end of the telescopic cylinder 89 through a connecting block, an insertion portion 811 is disposed on one side of the supporting seat 810 close to the flitch 0, and the telescopic cylinder 89 drives the supporting seat 810 to move towards the flitch 0 direction, so that the insertion portion 811 is inserted below the flitch 0 and supports the flitch 0.

The lower bearing and moving assembly comprises a base 81, a moving plate 82, a lower motor 83, a lower screw 84, a lifting motor 85, a lifting slide seat 86 and a bearing seat 87, wherein the base 81 is horizontally arranged, and the moving plate 82 is connected to the base 81 in a sliding manner along the linear direction; the lower motor 83 is arranged on the base 81, the lower screw 84 is connected to the output end of the lower motor 83 and extends to the lower part of the moving plate 82 along the moving direction of the moving plate 82, the lower screw 84 is connected to the bottom of the moving plate 82 through a screw seat, and when the lower motor 83 drives the lower screw 84 to rotate, the moving plate 82 is driven to linearly move back and forth between the empty plate space and the full plate space; the two ends of the moving plate 82 are provided with vertically upward supporting plates.

The two lifting slide bases 86 are arranged on the side wall of the supporting plate in a sliding manner along the linear direction, and the side parts of the lifting slide bases 86 are connected with vertical screw rods vertically arranged on the moving plate 82 through screw rod seats; the lifting motor 85 is arranged on the moving plate 82, and the output end of the lifting motor 85 is connected with the vertical screw rod through a transmission belt so as to drive the vertical screw rod to rotate and enable the lifting slide seat 86 to move up and down; the bearing seat 87 is horizontally connected to the top of the two lifting slide seats 86 and moves up and down along with the lifting slide seats 86.

The upper plate taking and moving assembly comprises an upper support 812, an upper motor 813, a transmission shaft 814, a moving transmission belt 815, a plate taking lifting cylinder 816, a plate taking telescopic cylinder 817, a plate taking plate 818 and a caulking groove 819, wherein the two upper supports 812 are arranged at two ends of the plate 0 in parallel at intervals along the linear direction, and the two ends of the upper supports 812 are uniformly provided with transmission wheels at intervals; the moving belts 815 include two moving belts 815, and the two moving belts 815 are respectively disposed on two driving wheels of the upper support 812.

The transmission shaft 814 is vertically arranged between the two upper supports 812, and two ends of the transmission shaft 814 are respectively connected with the transmission wheels on the two upper supports 812; the upper motor 813 is disposed at one side of the upper support 812, and the output end of the upper motor 813 is connected to the transmission shaft 814, and the upper motor 813 drives the transmission shaft 814 to rotate, so that the two belts 815 move linearly and synchronously.

The two plate taking lifting cylinders 816 are respectively embedded on the two upper supports 812 in a sliding manner and are respectively connected with the moving transmission belt 815 through connecting blocks, and the output ends of the plate taking lifting cylinders 816 are arranged upwards; the plate taking telescopic cylinder 817 is horizontally connected to the output end of the plate taking lifting cylinder 816, and the output end is arranged towards the direction of the material plate 0.

The material taking plate 818 is horizontally connected to the plate taking telescopic cylinder 817, two caulking grooves 819 are arranged on the material taking plate 818 at intervals, and the caulking grooves 819 extend to one side close to the material taking plate 0.

The material plate 0 comprises a material plate body 01, positioning columns 02 and positioning holes 03, wherein the material plate body 01 is of a rectangular plate-shaped structure, at least two storage spaces are arranged on the material plate body 01 in parallel so as to place L CD, the positioning columns 02 are arranged in groups of two in pairs, the two groups of positioning columns 02 are respectively arranged below two ends of the material plate 0, the two groups of positioning holes 03 are arranged in groups of two in pairs, and the two groups of positioning holes 03 are respectively arranged above the positioning columns 02 and extend downwards.

The utility model discloses a CD support plate assembly, including the overhead space of CD support plate assembly, the overhead space of CD support plate assembly, overhead space of overhead space CD support plate assembly, the overhead space of overhead space CD support plate assembly, the overhead space of overhead space CD support plate assembly, the overhead space of overhead space CD support plate assembly, overhead space of overhead space, overhead space of overhead space, overhead space of overhead space, overhead space of overhead space CD support plate assembly, overhead space CD support plate assembly, overhead space of overhead space CD support plate assembly, overhead space of overhead space, overhead space of overhead space, overhead space of.

The embodiments of the present invention are only for describing the specific implementation thereof, and are not limited to the scope of protection thereof. The present invention is not limited to the above embodiments, but can be modified in various ways without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a follow storage and gluey solidification equipment of rectangular path cyclic motion which characterized in that: comprises a supporting component, a lower bearing moving component, an upper plate taking moving component and a material plate (0); the supporting assemblies comprise two groups, two groups of supporting assemblies are arranged in parallel empty material plate spaces and full material plate spaces at intervals respectively, the single group of supporting assemblies comprises two groups, two groups of supporting assemblies are symmetrically arranged at intervals, a material plate space is formed between the two groups of supporting assemblies, and two ends of a material plate (0) are supported by the two groups of supporting assemblies; the lower bearing and moving assembly is arranged below the supporting assemblies and moves back and forth between the two groups of supporting assemblies in a rectangular path, and the lowermost material plate (0) of the multilayer material plates (0) which are stacked up and down in the empty material plate space and the full material plate space is transferred between the empty material plate space and the full material plate space; the upper plate taking moving assembly is arranged above the supporting assembly, the upper plate taking moving assembly is arranged at two ends of the flitch (0), is inserted into the lower part of the flitch (0) on the uppermost layer of the flitch (0) which is overlapped up and down from the outer side, and transfers the flitch (0) between the empty flitch space and the full flitch space after supporting the flitch (0).

2. The storing and glue curing device circularly moving along the rectangular path as claimed in claim 1, wherein: the supporting assembly comprises a supporting frame (88), a telescopic cylinder (89) and a supporting seat (810), wherein the supporting frame (88) is arranged on the outer side of one end of the material plate (0); the telescopic cylinder (89) is arranged below the top plate of the support frame (88), and the output end of the telescopic cylinder is arranged towards the direction of the material plate (0).

3. The storing and glue curing device circularly moving along the rectangular path as claimed in claim 2, wherein: the supporting seat (810) can be connected to the top plate of the supporting frame (88) in a sliding mode and is connected to the output end of the telescopic cylinder (89) through a connecting block, an inserting portion (811) is arranged on one side, close to the material plate (0), of the supporting seat (810), the telescopic cylinder (89) drives the supporting seat (810) to move towards the direction of the material plate (0), the inserting portion (811) is inserted into the lower portion of the material plate (0), and the supporting material plate (0) is lifted.

4. The storing and glue curing device circularly moving along the rectangular path as claimed in claim 3, wherein: the lower bearing and moving assembly comprises a base (81), a moving plate (82), a lower motor (83), a lower screw rod (84), a lifting motor (85), a lifting sliding seat (86) and a bearing seat (87), wherein the base (81) is horizontally arranged, and the moving plate (82) is connected to the base (81) in a sliding manner along the linear direction; the lower motor (83) is arranged on the base (81), the lower screw rod (84) is connected to the output end of the lower motor (83) and extends to the position below the moving plate (82) along the moving direction of the moving plate (82), the lower screw rod (84) is connected to the bottom of the moving plate (82) through a screw rod seat, and when the lower motor (83) drives the lower screw rod (84) to rotate, the moving plate (82) is driven to linearly move back and forth between the empty plate space and the full plate space; two ends of the moving plate (82) are provided with vertically upward supporting plates.

5. The storing and glue curing device circularly moving along the rectangular path as claimed in claim 4, wherein: the two lifting sliding seats (86) are arranged on the side wall of the supporting plate in a sliding manner along the linear direction, and the side parts of the lifting sliding seats (86) are connected with vertical screw rods vertically arranged on the moving plate (82) through screw rod seats; the lifting motor (85) is arranged on the moving plate (82), and the output end of the lifting motor (85) is connected with the vertical screw rod through a transmission belt so as to drive the vertical screw rod to rotate and enable the lifting slide seat (86) to move up and down; the bearing seat (87) is horizontally connected with the tops of the two lifting sliding seats (86) and moves up and down along with the lifting sliding seats (86).

6. The storing and glue curing device circularly moving along the rectangular path as claimed in claim 5, wherein: the upper plate taking and moving assembly comprises upper supports (812), an upper motor (813), a transmission shaft (814), a moving transmission belt (815), a plate taking lifting cylinder (816), a plate taking telescopic cylinder (817), a plate taking plate (818) and a caulking groove (819), wherein the upper supports (812) comprise two upper supports (812), the two upper supports (812) are arranged at two ends of the plate taking plate (0) in parallel at intervals along a linear direction, and transmission wheels are uniformly arranged at two ends of the upper supports (812) at intervals; the moving belts (815) include two belts, and the two moving belts (815) are respectively sleeved on the two driving wheels on the upper support (812).

7. The storing and glue curing device circularly moving along the rectangular path as claimed in claim 6, wherein: the transmission shaft (814) is vertically arranged between the two upper supports (812), and two ends of the transmission shaft (814) are respectively connected with the transmission wheels on the two upper supports (812); the upper motor (813) is arranged on one side of the upper support (812), the output end of the upper motor is connected with the transmission shaft (814), and the upper motor (813) drives the transmission shaft (814) to rotate so that the two transmission belts (815) synchronously and linearly move.

8. The storing and glue curing device circularly moving along the rectangular path as claimed in claim 7, wherein: the two plate taking lifting cylinders (816) are respectively embedded on the two upper supports (812) in a sliding manner and are respectively connected with the moving transmission belt (815) through connecting blocks, and the output ends of the plate taking lifting cylinders (816) are arranged upwards; the plate taking telescopic cylinder (817) is horizontally connected to the output end of the plate taking lifting cylinder (816), and the output end of the plate taking telescopic cylinder is arranged towards the direction of the material plate (0).

9. The storing and glue curing device circularly moving along the rectangular path according to claim 8, wherein: the material taking plate (818) is horizontally connected to the plate taking telescopic cylinder (817), two caulking grooves (819) are arranged on the material taking plate (818) at intervals, and the caulking grooves (819) extend to one side close to the material plate (0).

10. The storing and glue curing device circularly moving along the rectangular path as claimed in claim 9, wherein the material plate (0) comprises a material plate body (01), positioning columns (02) and positioning holes (03), wherein the material plate body (01) is of a rectangular plate-shaped structure, at least two storage spaces are arranged on the material plate body (01) in parallel so as to place L CD, the positioning columns (02) are arranged in groups of two by two, the two groups of positioning columns (02) are respectively arranged below two ends of the material plate (0), the two groups of positioning holes (03) are arranged in groups of two by two, and the two groups of positioning holes (03) are respectively arranged above the positioning columns (02) and extend downwards.

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