CN216425913U - Multifunctional cache device applied to automation line - Google Patents

Abstract

The utility model belongs to the technical field of automatic transportation equipment, especially, relate to be applied to multi-functional buffer memory device on the automation line. Comprises a frame; buffer memory mechanism, transmission device, single double-channel switching module, including locate the direction subassembly in the frame, locate in the frame can be relative the switching module that conveyor components goes up and down, direction subassembly is located conveyor components and is used for forming the single channel of direction and transportation support plate, when switching module rises and is higher than the transportation plane, will first passageway and second passageway are separated into to the single channel. The temporary storage of the carrier plate is carried out by the over-set buffer mechanism, so that the whole automatic process is not required to be interrupted due to the suspension of the previous process, and the efficiency is greatly improved.

Description

Multifunctional cache device applied to automation line

[ technical field ] A method for producing a semiconductor device

The utility model belongs to the technical field of automatic transportation equipment, especially, relate to be applied to automatic multi-functional buffer memory device on line.

[ background of the invention ]

Along with the promotion of the requirement to the coating film product, except coating film automation line, still increase other supplementary automation line and connect the transmission between each process in the production industry to reduce the cost of transporting between the process, improve production efficiency, also enable whole factory building overall arrangement compactness, save space, make the coating film product can high-efficient high quality production.

If no buffer device is arranged in the existing coating automation line, for example, after a product is cleaned, the production line must be stopped when a cleaning device or a next procedure device breaks down or the product is subjected to sampling inspection, manual operation is adopted for back washing or stopping detection, and the production line is low in yield and low in efficiency. The general cache device only has single storage and transportation functions, more and more demands are needed for the current automation, an automatic production line needs to align and arrange pieces of cleaned products, single-channel typesetting or double-channel typesetting can be set according to the capacity requirements of customers and the sizes of the products, and the cache device with the single function cannot be butted with the transportation line and cannot meet the demands of the automation line.

[ summary of the invention ]

For solving among the prior art buffer memory device function singleness, can't satisfy the problem of automatic line to the demand of connecting, the utility model provides a be applied to automatic multi-functional buffer memory device on line.

The utility model discloses a realize through following technical scheme:

the multifunctional cache device applied to the automation line comprises,

a frame;

the buffer mechanism comprises a storage rack arranged on the rack and used for storing the carrier plate;

the conveying mechanism comprises a conveying assembly arranged on the rack, and the upper end surface of the conveying assembly is a conveying plane for horizontally conveying the carrier plate;

single double-channel switching module, including locating direction subassembly in the frame, locate in the frame can be relative the switching module that conveyor components goes up and down, direction subassembly is located conveyor components and is used for forming the single channel of direction and transportation support plate, when switching module rises and is higher than the transportation plane, will first passageway and second passageway are separated into to the single channel.

The multifunctional caching device applied to the automation line comprises a first outer guide assembly and a second outer guide assembly, wherein the first outer guide assembly and the second outer guide assembly are arranged in a conveying direction of the conveying assembly and opposite to each other, and the single channel is formed between the first outer guide assembly and the second outer guide assembly;

the switching assembly comprises a lifting mechanism arranged on the rack and a double-row inner side guide wheel set arranged on the lifting mechanism, wherein when the double-row inner side guide wheel set driven by the lifting mechanism rises and is higher than a transportation plane, the double-row inner side guide wheel set forms a first channel and a second channel with a first outer side guide assembly and a second outer side guide assembly on two sides respectively.

The above multifunctional cache device applied to the automation line further comprises a translation adjusting mechanism disposed on the frame for driving the first outer guide assembly and the second outer guide assembly to move relatively.

The multifunctional cache device applied to the automation line is characterized in that the translation adjusting mechanism further comprises an adjusting movable frame, the adjusting movable frame comprises a guide shaft arranged on the rack, a first movable frame and a second movable frame which are arranged on the guide shaft and can move along the guide shaft in a translation mode, the first outer side guide assembly is arranged on the first movable frame, and the second outer side guide assembly is arranged on the second movable frame.

The multifunctional caching device applied to the automation line is characterized in that the translation adjusting mechanism further comprises a translation driving component used for driving the first movable frame and the second movable frame.

The multifunctional caching device applied to the automation line further comprises a lifting assembly, the storage rack comprises a plurality of storage positions arranged from top to bottom, and the lifting assembly is used for driving the storage rack to move up and down relative to the transmission mechanism so that the storage positions at different positions are opposite to the transportation plane.

The multifunctional buffering device applied to the automatic line is characterized in that the storage rack is positioned above the conveying assembly and can pass through the conveying assembly.

The multifunctional caching device applied to the automation line comprises a first storage frame and a second storage frame which are arranged oppositely, wherein the first storage frame comprises a frame body and a storage frame vertical plate which is movably connected to the frame body, a plurality of supporting rods are arranged on the storage frame vertical plate, the storage positions for bearing the support plate are formed by horizontal interval arrangement, and a plurality of storage positions are arranged on the storage frame vertical plate from top to bottom.

The multifunctional cache device applied to the automation line comprises a driving motor arranged on a frame body and a transmission screw connected with an output shaft of the driving motor, wherein the frame body is provided with a transmission seat connected with the transmission screw.

The multifunctional caching device applied to the automation line comprises a plurality of sections of transmission wheel sets, wherein the transmission wheel sets are arranged at intervals to form a storage transmission area and a butt-joint transmission area, the transmission wheel sets arranged at intervals on the storage transmission area form a space for the storage frame to pass through, each transmission wheel set comprises a transmission rotating shaft and a plurality of rollers arranged at intervals on the transmission rotating shaft, and the roller arrangement density of a single transmission wheel set on the butt-joint transmission area is greater than that of a single transmission wheel set on the storage transmission area.

Compared with the prior art, the utility model discloses there is following advantage:

1. the utility model provides a be applied to multi-functional buffer memory device on automation line, it transmits the butt joint through not only accessible transmission device and automation line or auxiliary line, still carries out the temporary storage to the support plate through setting up buffer memory mechanism to need not interrupt whole automatic process because of the pause of preceding process, very big lifting efficiency. The problems of automation and interruption of a coating line caused by faults of a cleaning line or incomplete cleaning of products and interruption of cleaning are solved; in the cleaning section, products are randomly extracted for off-line inspection due to manual sampling inspection, so that the typesetting efficiency of the products on an automatic line is influenced, and the continuous production of a coating line is further influenced; and the problem that products cleaned out by a cleaning line are stored everywhere after the traditional coating line fails and need to be reworked and cleaned again when production is resumed is solved. The efficiency is greatly improved.

2. The utility model provides a be applied to multi-functional buffer memory device on automation line, it has still increased single double channel switching module, the automation is produced the line and is needed to counterpoint row's piece to the sanitized product, according to customer productivity requirement and product size of a dimension, can set for single channel typesetting or binary channels typesetting, consequently, the function of this device needs to match with automation line row mascerating machine on the one hand, still possess the function that single double channel switched simultaneously, can freely switch over the transportation of single support plate and double support plate, can be better with automation line matching, satisfy the automation requirement, very big lifting efficiency.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a structural diagram of a multifunctional cache device applied to an automation line;

fig. 2 is a structural diagram (no load) of the multifunctional buffer device applied to the automation line of the present invention;

fig. 3 is a structural diagram (dual channel) of the multifunctional cache device applied to the automation line of the present invention;

fig. 4 is a structural diagram (single channel) of the multifunctional cache device applied to the automation line of the present invention;

FIG. 5 is a schematic structural view of a translation adjusting mechanism;

FIG. 6 is a schematic structural view of a guide assembly;

FIG. 7 is a schematic structural diagram of a switching assembly;

FIG. 8 is a schematic structural view of an adjustable movable frame;

FIG. 9 is a schematic structural view of the translation drive assembly;

FIG. 10 is a schematic view of the structure of the storage rack;

fig. 11 is a schematic structural view of the conveying assembly.

[ detailed description ] embodiments

In order to make the technical problem, technical solution and advantageous effects solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to further explain the present invention in detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The utility model discloses a realize through following technical scheme:

as shown in fig. 1 to 11, the multifunctional buffer device applied to the automation line includes a frame 1; the buffer mechanism comprises a storage rack 22 arranged on the rack 1 and used for storing the carrier plates; the conveying mechanism comprises a conveying assembly 3 arranged on the rack 1, and the upper end surface of the conveying assembly 3 is a conveying plane for horizontally conveying the carrier plate; the utility model provides a be applied to multi-functional buffer memory device on automation line, it transmits the butt joint through not only accessible transmission device and automation line or auxiliary line, still carries out the temporary storage to the support plate through setting up buffer memory mechanism to need not interrupt whole automatic process because of the pause of preceding process, very big lifting efficiency. The problems of automation and interruption of a coating line caused by faults of a cleaning line or incomplete cleaning of products and interruption of cleaning are solved; in the cleaning section, products are randomly extracted for off-line inspection due to manual sampling inspection, so that the typesetting efficiency of the products on an automatic line is influenced, and the continuous production of a coating line is further influenced; and the problem that products cleaned out by a cleaning line are stored everywhere after the traditional coating line fails and need to be reworked and cleaned again when production is resumed is solved. The efficiency is greatly improved.

This application scheme still includes single double channel switching module, including locating the direction subassembly 8 in frame 1, locate frame 1 on can be relative the switching module 9 that conveying assembly 3 rose, direction subassembly 8 is located conveying assembly 3 and is used for forming the single channel of direction and transportation support plate, when switching module 9 rose and is higher than the transportation plane, will first passageway and second passageway are separated into to the single channel. The automatic production line needs align the row piece to the sanitized product, according to customer's productivity requirement and product size of a dimension, can set for single channel typesetting or binary channels typesetting, consequently the function of this device on the one hand needs to match with automatic line row mascerating machine, still possesses the function that single double channel switched simultaneously, can freely switch over the transportation of monolithic support plate and double support plate, can be better with automatic line matching, satisfy the automation requirement, very big lifting efficiency.

Further, the buffer mechanism further comprises a lifting assembly 21, the storage rack 22 comprises a plurality of storage positions arranged from top to bottom, and the lifting assembly 21 is used for driving the storage rack 22 to move up and down relative to the transmission mechanism so that the storage positions at different positions are opposite to the transportation plane. This scheme is through increasing the storage frame on the transportation line, deposits the effect that the support plate realization buffer memory of transporting coming through the storage frame. And top-down's storage bit sets up, and the support plate can be placed to the cooperation lifting unit to the multilayer, rational utilization space.

In addition, the storage rack 22 is located above the conveyor assembly 3 and can pass through the conveyor assembly 3. The storage frame and the transportation assembly are alternately arranged, the storage frame is lifted up and down relatively by utilizing the staggered space, so that the storage position on the storage frame is opposite to the transportation plane, the carrier plate on the transportation plane can directly enter the storage position or be transported out from the storage position, the whole structure is more compact, and the occupied space is small.

Specifically, the storage frame 22 includes first storage frame and the second storage frame that sets up relatively, first storage frame includes support body 221, swing joint storage frame riser 222 on support body 221, be equipped with many spinal branchs pole 223 on the storage frame riser 222, horizontal interval arranges and forms the storage bit that is used for bearing the support plate, top-down is equipped with a plurality of storage bit on the storage frame riser 222. The function that the single double channel of this scheme of cooperation switches, when saving to jumbo size or single support plate, the support plate is accepted to first storage frame and the second storage frame combined action through both sides, and when switching into the double channel, the support plate of transportation on the unilateral first storage frame and the second storage frame correspond the passageway separately stores, through simple reasonable structural arrangement, ingenious formation can single storage frame storage support plate, also the combined action storage support plate.

More specifically, the lifting assembly 21 includes a driving motor 211 disposed on a frame 221, and a transmission screw 212 connected to an output shaft of the driving motor 211, and a transmission seat 213 connected to the transmission screw 212 is disposed on the frame 221. The structure is simple, and the tradition is stable.

Still further, the conveying component 3 includes a plurality of conveying wheel sets, the conveying wheel sets are arranged at intervals to form a storage conveying area 301 and a docking conveying area 302, the conveying wheel sets arranged at intervals on the storage conveying area 301 form a space for the storage rack 22 to pass through, each conveying wheel set includes a transmission rotating shaft and a plurality of rollers arranged at intervals on the transmission rotating shaft, and the roller arrangement density of a single conveying wheel set on the docking conveying area 302 is greater than that of a single conveying wheel set on the storage conveying area 301. The whole transportation plane of the device is divided into a left part and a right part which can be respectively and independently driven; the conveying components 3 are all transmission structures formed by rollers arranged on a plurality of transmission shafts, the rollers in the butt joint transmission area 302 are arranged more densely (more in quantity and less in distance), and the storage transmission area 301 is slightly separated, so that the phenomenon that the products are warped and uneven when being restored is avoided.

In this application, the concrete structure of single double channel switching module does: including locating the single double-channel switching module on the supply line (being the frame), single double-channel switching module includes direction subassembly 8, the switching module 9 that can transport the line relatively and go up and down, direction subassembly 8 is located the single channel that is used for forming the direction and transports the support plate on the supply line, when switching module 9 rises and is higher than the transportation plane of supply line, will first passageway and second passageway are separated into to the single channel.

Specifically, the guide assembly 8 comprises a first outer guide assembly 81 arranged in line along the transport direction of the transport line, and a second outer guide assembly 82 arranged opposite to the first outer guide assembly 81, wherein the single channel is formed between the first outer guide assembly 81 and the second outer guide assembly 82;

the switching assembly 9 comprises a lifting mechanism 91 arranged on the conveying line and a double-row inner side guide wheel set 92 arranged on the lifting mechanism 91, wherein when the lifting mechanism 91 drives the double-row inner side guide wheel set 92 to ascend and be higher than the conveying plane, the double-row inner side guide wheel set 92 forms a first channel and a second channel with the first outer side guide assembly 81 and the second outer side guide assembly 82 on two sides respectively. The guide component can be used for guiding and correcting, when double-pass switching is needed, only the switching component needs to be lifted, and the guide component basically does not need to be adjusted. The function switching of the device is simpler and the use is convenient.

Further, the single-channel and double-channel switching assembly further includes a translation adjusting mechanism disposed on the transport line for driving the first outside guide assembly 81 and the second outside guide assembly 82 to move relatively. Through translation adjustment mechanism, can make width adjustment according to the product size for the width between the single channel that first outside direction subassembly 81 and second outside direction subassembly 82 formed, size when also can adjusting the bi-pass moreover satisfies the demand of automatic row piece.

Specifically, the translation adjusting mechanism further comprises an adjusting movable frame 71, wherein the adjusting movable frame 71 comprises a guide shaft 711 arranged on the frame 1, a first movable frame 712 and a second movable frame 713 arranged on the guide shaft 711 and capable of translating along the guide shaft 711, the first outer side guide assembly 81 is detachably mounted on the first movable frame 712, and the second outer side guide assembly 82 is detachably mounted on the second movable frame 713. The structure is simple, the installation is easy, and the stability is good.

Moreover, for convenience of adjustment, the first outer side guide assembly 81 includes a connecting frame body 811, a centering cylinder 812 disposed on the connecting frame body 811, and a guide outer wheel 813 disposed on the centering cylinder 812, and an installation long slot for detachably installing the connecting frame body 811 is formed along the length of the first movable frame 712. The connecting pieces such as accessible bolts cooperate to realize installing and removing fast, but also can adjust the position at any time moreover to and the quantity of first outside direction subassembly, satisfy the requirement of transmission. In addition, the first outer guide assembly 81 is finely displaced by the centering cylinder 812, so as to finely adjust the position of the conveyed carrier plate. Of course, the structure of the second outer side guide assembly also adopts the structure.

Still specifically, the translational adjustment mechanism further includes a translational driving assembly 72 for driving the first movable frame 712 and the second movable frame 713, the translational driving assembly 72 includes a supporting frame 721, a screw 722 disposed on the supporting frame 721, and a translational driving motor 723 for driving the screw 722 to rotate, and the screw 722 is provided with a first adjusting frame 724 and a second adjusting frame 725 disposed oppositely. The transmission device is simple in structure, facilitates automatic control transmission, and achieves width adjustment of the transmission channel.

In addition, switching module 9 still includes fixed support body 93, elevating system 91 is for locating cylinder on the fixed support body 93, double inboard leading wheel group 92 includes two locates mounting panel 921 on the cylinder, locate interior leading wheel 922 that the row set up on the mounting panel 921.

The utility model provides a be applied to multi-functional buffer memory device on automation line, it transmits the butt joint through not only accessible transmission device and automation line or auxiliary line, still carries out the temporary storage to the support plate through setting up buffer memory mechanism to need not interrupt whole automatic process because of the pause of preceding process, very big lifting efficiency. The problems of automation and interruption of a coating line caused by faults of a cleaning line or incomplete cleaning of products and interruption of cleaning are solved; in the cleaning section, products are randomly extracted for off-line inspection due to manual sampling inspection, so that the typesetting efficiency of the products on an automatic line is influenced, and the continuous production of a coating line is further influenced; and the problem that products cleaned out by a cleaning line are stored everywhere after the traditional coating line fails and need to be reworked and cleaned again when production is resumed is solved. The efficiency is greatly improved.

The foregoing is illustrative of one or more embodiments provided in connection with the detailed description and is not to be construed as limiting the invention to the precise embodiments disclosed herein. All with the utility model discloses a method, structure etc. are similar, the same, or to the utility model discloses make a plurality of technological deductions under the design prerequisite, or the replacement should all regard as the utility model discloses a protection scope.

Claims (10)

1. The multifunctional cache device applied to the automation line is characterized by comprising,

a frame (1);

the buffer mechanism comprises a storage rack (22) which is arranged on the rack (1) and used for storing the carrier plates;

the conveying mechanism comprises a conveying assembly (3) arranged on the rack (1), and the upper end surface of the conveying assembly (3) is a conveying plane for horizontally conveying the carrier plates (99);

single double-channel switching module, including locating direction subassembly (8) in frame (1), locate frame (1) on can be relative conveying module (3) lift switching module (9), direction subassembly (8) are located conveying module (3) and are used for forming the single channel of direction and transportation support plate, when switching module (9) rise and are higher than the transportation plane, will first passageway and second passageway are separated into to the single channel.

2. The multi-functional buffer memory device applied to the automation line of claim 1, wherein the guide assembly (8) comprises a first outer guide assembly (81) arranged along the transport direction of the conveying assembly (3), and a second outer guide assembly (82) arranged opposite to the first outer guide assembly (81), the first outer guide assembly (81) and the second outer guide assembly (82) form the single channel therebetween;

switching over subassembly (9) including locating elevating system (91) on frame (1), locate double inboard direction wheelset (92) on elevating system (91), elevating system (91) drive double inboard direction wheelset (92) rise and be higher than when transporting the plane, double inboard direction wheelset (92) respectively with the first outside direction subassembly (81) and the relative formation of second outside direction subassembly (82) of both sides first passageway and second passageway.

3. The multifunctional caching device applied to the automation line according to claim 2, wherein the single-channel switching assembly and the double-channel switching assembly further comprise a translational adjustment mechanism disposed on the frame (1) for driving the first outer guide assembly (81) and the second outer guide assembly (82) to move relatively.

4. The multifunctional caching device applied to the automation line according to claim 3, wherein the translation adjusting mechanism further comprises an adjusting movable frame (71), the adjusting movable frame (71) comprises a guide shaft (711) arranged on the rack (1), a first movable frame (712) and a second movable frame (713) which are arranged on the guide shaft (711) and can translate along the guide shaft (711), the first outer guide assembly (81) is mounted on the first movable frame (712), and the second outer guide assembly (82) is mounted on the second movable frame (713).

5. The multifunctional caching device applied to an automation line according to claim 4, wherein the translation adjusting mechanism further comprises a translation driving assembly (72) for driving the first movable frame (712) and the second movable frame (713).

6. The multifunctional buffer device applied in the automated line according to claim 1, wherein the buffer mechanism further comprises an elevating component (21), the storage rack (22) comprises a plurality of storage positions arranged from top to bottom, and the elevating component (21) is used for driving the storage rack (22) to move up and down relative to the transmission mechanism so that the storage positions at different positions are opposite to the transportation plane.

7. The multi-functional buffer apparatus applied to the automated line according to claim 6, wherein the storage rack (22) is located above the conveying assembly (3) and can pass through the conveying assembly (3), the conveying assembly (3) comprises a plurality of segments of conveying wheel sets (31), and a space for passing the storage rack (22) is formed between the plurality of segments of conveying wheel sets (31).

8. The multifunctional caching device applied to the automation line according to claim 7, wherein the storage rack (22) comprises a first storage rack and a second storage rack which are arranged oppositely, the first storage rack comprises a rack body (221) and a storage rack vertical plate (222) movably connected to the rack body (221), a plurality of support rods (223) are arranged on the storage rack vertical plate (222), the storage rods are horizontally arranged at intervals to form storage positions for supporting the carrier plate, and the storage rack vertical plate (222) is provided with a plurality of storage positions from top to bottom.

9. The multifunctional buffer device applied to the automation line according to claim 8, wherein the lifting assembly (21) comprises a driving motor (211) arranged on a frame body (221), and a transmission screw (212) connected with an output shaft of the driving motor (211), and a transmission seat (213) connected with the transmission screw (212) is arranged on the frame body (221).

10. The multifunctional caching device applied to the automation line according to claim 7, wherein the conveying component (3) comprises a plurality of segments of conveying wheel sets, the plurality of segments of conveying wheel sets are arranged at intervals to form a storage conveying area (301) and a docking conveying area (302), the conveying wheel sets arranged at intervals on the storage conveying area (301) form a space for the storage rack (22) to pass through, the conveying wheel sets comprise a transmission shaft and a plurality of rollers arranged at intervals on the transmission shaft, and the roller arrangement density of a single conveying wheel set on the docking conveying area (302) is greater than that of a single conveying wheel set on the storage conveying area (301).

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