CN109573642B - TO cap material transferring device - Google Patents

Abstract

The application relates TO the technical field of tooling jigs, in particular TO a TO cap material transferring device. The TO cap material transferring device is used for guiding TO caps into the equipment disc from the material receiving disc and comprises a screening disc and a material pouring disc; compared with the prior art, the TO cap transfer device provided by the application can transfer a plurality of TO caps at one time, does not need TO manually transfer the TO caps one by using tweezers, has higher working efficiency and can save labor cost; the structure is simple, and the operation is convenient; through setting up the portion of gripping on the pouring tray, the operation personnel of being convenient for take the pouring tray and put, and the pouring tray upset is removed more conveniently.

Description

TO cap material transferring device

Technical Field

The application relates TO the technical field of tooling jigs, in particular TO a TO cap material transferring device.

Background

At present, TO caps are placed on an incoming tray when being used on a production line, the TO caps must be placed on equipment trays, only 200 capacity equipment trays can be used due TO equipment structural design, and the process in the use process of the TO caps requires high temperature, so that the equipment trays are required TO use high temperature resistant materials, the number of TO caps placed on the trays is large, the materials are not suitable for production, and the TO caps on the incoming trays are required TO be led into the equipment trays for use; at present, the manual material pouring mode is adopted, and the problems of low working efficiency and labor cost waste exist.

Disclosure of Invention

The technical problems to be solved by the application are as follows: at present, the TO cap is manually operated from an incoming tray TO an equipment tray in the process of pouring, and the problems of low operation efficiency and labor cost waste exist.

(II) technical scheme

In order TO solve the technical problems, the application provides a TO cap material transferring device which is used for guiding TO caps into a device tray from a material tray, wherein the TO cap material transferring device comprises a screen tray and a material pouring tray, a plurality of first mounting grooves are arranged in the device tray, second mounting grooves which are in one-TO-one correspondence with the first mounting grooves are arranged on the material pouring tray, a plurality of screen material through holes which are in one-TO-one correspondence with the second mounting grooves are arranged on the screen tray, a plurality of groups of containing grooves are arranged on the material pouring tray, and each group of containing grooves is in one-TO-one correspondence with the number of the second mounting grooves.

According to one embodiment of the application, the screen tray comprises a first bottom plate and a first side edge vertically connected with the edge of the first bottom plate, a first groove is formed between the first side edge and the first bottom plate, a boss is formed by outwards protruding the first bottom plate relative to the other side of the first groove, and a plurality of screen material through holes are formed in the first groove and penetrate through the boss; the shape of the incoming tray is matched with the shape of the first groove.

According to one embodiment of the application, the end of the screening through hole located in the first groove forms a flaring section.

According to one embodiment of the application, the first buckles are arranged on two opposite first side edges of the first bottom plate, the first notch matched with the first buckles is arranged on the feeding tray, and the feeding tray is detachably arranged in the first groove through the matching of the first buckles and the first notch.

According to one embodiment of the application, two opposite first side edges of the first bottom plate are respectively provided with a first mounting opening, and two opposite first ribs are arranged in the first mounting openings;

two first openings matched with the first convex ribs are formed on the first buckle, a first shaft hole is formed in the middle of the first buckle, the first buckle is connected with the first mounting groove in a matched rotation mode through the first shaft hole and the rotating shaft, and the first convex ribs are located in the first openings;

the first buckle is made of magnetic materials, and one side, far away from the first groove, of one of the first convex ribs is provided with a first magnet.

According to one embodiment of the application, the pouring tray comprises a second bottom plate and a second side edge vertically connected with the edge of the second bottom plate, a second groove is formed between the second bottom plate and the second side edge, and the boss is matched with the shape of the second groove; the second mounting groove is arranged in the second groove.

According to one embodiment of the application, second buckles are arranged on two opposite second side edges of the second bottom plate, second notches matched with the second buckles are arranged on the screen tray, and the screen tray is detachably arranged in the second groove through the matching of the second buckles and the second notches.

According to one embodiment of the application, two opposite second side edges of the second bottom plate are respectively provided with a second mounting opening, and two opposite second convex ribs are arranged in the second mounting openings;

two second openings matched with the second convex ribs are formed on the second buckle, a second shaft hole is formed in the middle of the second buckle, the second buckle is connected with the second mounting groove of the second mounting opening in a matched rotating mode through the second shaft hole and the rotating shaft, and the second convex ribs are located in the second openings;

the second buckle is made of magnetic materials, and one side, far away from the second groove, of one second convex rib is provided with a second magnet.

According to one embodiment of the application, each second mounting groove is internally provided with a limit post, and one end of the limit post, which is close to the second groove, is provided with a hollowed-out hole.

According to one embodiment of the application, one corner on the boss is provided with a limiting chamfer.

The application has the beneficial effects that: the TO cap material transferring device is used for guiding TO caps into the equipment disc from the material receiving disc and comprises a screening disc and a material pouring disc; when the screen tray is used, the screen tray is buckled on the incoming tray, a group of accommodating grooves on the incoming tray correspond to the plurality of screen material through holes on the screen tray, and then the screen tray and the incoming tray are fixed; the material pouring disc is buckled on the material sieving disc, so that a material sieving through hole on the material sieving disc corresponds to a second mounting groove on the material pouring disc, and the material pouring disc is fixed with the material sieving disc; then turning over the three trays together, and enabling TO caps in a group of accommodating grooves in the feeding trays TO enter a second mounting groove through the screening through holes; taking down the incoming tray and the screening tray, buckling the equipment tray on the dumping tray, fixing the incoming tray and the screening tray, overturning the dumping tray, enabling TO caps in each mounting groove TO enter corresponding first mounting grooves on the equipment tray, and completing transfer of a group of TO caps from the incoming tray TO the equipment tray; repeating the above actions until the TO caps in a plurality of groups of the accommodating grooves are transferred; compared with the prior art, the TO cap transfer device provided by the application can transfer a plurality of TO caps at one time, does not need TO manually transfer the TO caps one by using tweezers, has higher working efficiency and can save labor cost; the structure is simple, and the operation is convenient; through setting up the portion of gripping on the pouring tray, the operation personnel of being convenient for take the pouring tray and put, and the pouring tray upset is removed more conveniently.

Drawings

The advantages of the foregoing and/or additional aspects of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic diagram of an incoming tray according to the present application;

FIG. 2 is a schematic view of the structure of the screen tray of the present application from one perspective;

FIG. 3 is a schematic view of a screen tray according to another aspect of the present application;

fig. 4 is an enlarged view of a portion a of fig. 3;

FIG. 5 is a schematic view of the structure of the pouring tray according to the present application;

fig. 6 is an enlarged view of a portion B of fig. 5;

FIG. 7 is a schematic view of the structure of the device tray of the present application;

FIG. 8 is a schematic diagram of the structure of a TO cap contained in the pouring tray;

fig. 9 is a schematic view of the configuration of the engagement of the reject tray and the device tray.

Wherein the correspondence between the reference numerals and the component names in fig. 1 to 9 is:

1. the receiving tray, 11, the accommodating groove, 12, the first notch, 2, the screening tray, 21, the first bottom plate, 211, the screening through hole, 22, the first side, 221, the first convex rib, 222, the first mounting opening, 223, the first magnet, 224, the second notch, 23, the first groove, 24, the boss, 25, the first buckle, 251, the first opening, 26, the limit chamfer, 3, the pouring tray, 31, the second bottom plate, 311, the second mounting groove, 312, the limit post, 313, the hollowed-out hole, 32, the second side, 321, the second convex rib, 322, the second mounting opening, 323, the second magnet, 33, the second groove, 34, the second buckle, 341, the second opening, 35, the holding notch, 4, the device tray, 41, the first mounting groove, 42, the third notch, 5 and the TO cap.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will be more clearly understood, a more particular description of the application will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, without conflict, the embodiments of the present application and features in the embodiments may be combined with each other.

As shown in fig. 1 TO 9, the application provides a TO cap material transferring device, which is used for guiding TO caps 5 into an equipment tray 4 from an incoming tray 1, wherein the TO cap material transferring device comprises a screen tray 2 and a material pouring tray 3, a plurality of first mounting grooves 41 are arranged in the equipment tray 4, second mounting grooves 311 which are in one-TO-one correspondence with the first mounting grooves 41 are arranged on the material pouring tray 3, a plurality of screen material through holes 211 which are in one-TO-one correspondence with the second mounting grooves 311 are arranged on the screen tray 2, a plurality of groups of containing grooves 11 are arranged on the incoming tray 1, and each group of containing grooves 11 are arranged in one-TO-one correspondence with the number of the second mounting grooves 311.

The TO cap material transferring device is used for guiding TO caps 5 into the equipment disc 4 from the incoming material disc 1, and comprises a screening material disc 2 and a pouring material disc 3; when in use, the screen material tray 2 is buckled on the incoming material tray 1, a group of accommodating grooves 11 on the incoming material tray 1 correspond to the plurality of screen material through holes 211 on the screen material tray 2, and then the screen material tray 2 and the incoming material tray 1 are fixed; the material pouring tray 3 is buckled on the material sieving tray 2, so that the material sieving through holes 211 on the material sieving tray 2 correspond to the second mounting grooves 311 on the material pouring tray 3, and the material pouring tray 3 and the material sieving tray 2 are fixed; then three trays are turned over together, and TO caps 5 in a group of accommodating grooves 11 in the feeding tray 1 enter the second mounting groove 311 through the screening through holes 211; taking down the incoming tray 1 and the screening tray 2, buckling the equipment tray 4 on the dumping tray 3, fixing the incoming tray and the screening tray, overturning the dumping tray 3, and enabling the TO caps 5 in each mounting groove TO enter the corresponding first mounting groove 41 on the equipment tray 4 TO finish the transfer of a group of TO caps 5 between the incoming tray 1 and the equipment tray 4; repeating the above actions until the TO caps 5 in the plurality of groups of accommodating grooves 11 are completely transferred; compared with the prior art, the TO cap 5 transferring device provided by the application can transfer a plurality of TO caps 5 at one time, does not need TO manually transfer the TO caps 5 one by using tweezers, has higher working efficiency and can save labor cost; and simple structure, simple operation are through setting up the portion of gripping on pouring the charging tray 3, and the operation personnel of being convenient for take down the charging tray 3, and it is more convenient that the turnover of pouring the charging tray 3 is removed.

Preferably, as shown in fig. 1, 400 TO caps 5 are provided on the incoming tray 1, and 200 first mounting grooves 41 are provided on the device tray 4, that is, the device tray 4 can only accommodate 200 TO caps 5, so that two sets of accommodating grooves 11 are provided on the incoming tray 1, each set of accommodating grooves 11 includes 200 TO caps 5, and therefore, two material transferring processes are required TO complete the transfer of all TO caps 5 on one incoming tray 1.

As shown in fig. 2 TO 4, the number and the arrangement positions of the sieving through holes 211 on the sieving tray 2, the second mounting grooves 311 on the pouring tray 3, and the first mounting grooves 41 on the equipment tray 4 are all in one-TO-one correspondence, and the one group of accommodating grooves 11 on the incoming tray 1 and the sieving through holes 211 on the sieving tray 2 are also in one-TO-one correspondence, and meanwhile, the two groups of accommodating grooves 11 on the incoming tray 1 are arranged in a crisscross manner, so that after the TO cap 5 in one group of accommodating grooves 11 is turned over, the pouring tray 3 is turned 180 degrees, and then the TO cap 5 in the other group of accommodating grooves 11 can be transferred.

As shown in fig. 6, each second mounting groove 311 is provided with a spacing post 312, one end of the spacing post 312, which is close TO the second groove 33, forms a hollow hole 313, the spacing post 312 can limit the position of the TO cap 5 entering the second mounting groove 311, and meanwhile, the hollow hole 313 provided on the spacing post 312 can protect the TO cap 5, so as TO avoid the TO cap 5 from being scratched.

As shown in fig. 2 to 4, the screen tray 2 includes a first bottom plate 21 and a first side 22 perpendicularly connected to an edge of the first bottom plate 21, a first groove 23 is formed between the first side 22 and the first bottom plate 21, the first bottom plate 21 protrudes outwards relative to the other side of the first groove 23 to form a boss 24, and a plurality of screen through holes 211 are formed in the first groove 23 and penetrate through the boss 24; the shape of the incoming tray 1 is adapted to the shape of the first groove 23. In the TO cap 5 transferring process, the incoming tray 1 is firstly placed in the first groove 23 in the screen tray 2, and the incoming tray 1 is limited through the first groove 23, so that the incoming tray 1 and the screen tray 2 are better connected and matched. Preferably, as shown in fig. 2 TO 4, the end of the screen material through hole 211 located in the first groove 23 forms a flaring section, and the inner diameter of the flaring section is larger than the inner diameter of the screen material through hole 211, so that the TO cap 5 on the incoming tray 1 is facilitated TO enter the second mounting groove 311 on the pouring tray 3 through the screen material through hole 211.

As shown in fig. 3 and fig. 4, first buckles 25 are respectively disposed on two opposite first sides 22 of the first bottom plate 21, a first notch 12 matched with the first buckles 25 is disposed on the incoming tray 1, and the incoming tray 1 is detachably mounted in the first groove 23 through the cooperation of the first buckles 25 and the first notches 12; the screen tray 2 is buckled on the incoming tray 1, the incoming tray 1 is located in the first groove 23 at the moment, the first buckle 25 corresponds to the first notch 12 on the screen tray 2, the first buckle 25 is rotated into the first notch 12 and pressed on the surface of the incoming tray 1 to fix the incoming tray 1 in the first groove 23, when the screen tray 2 needs to be detached, the first buckle 25 can be rotated out, and fixation or separation between the screen tray 2 and the incoming tray 1 can be achieved through the first buckle 25 and the first notch 12.

As shown in fig. 4, the opposite first side edges 22 of the first bottom plate 21 are respectively provided with a first mounting opening 222, and two opposite first ribs 221 are arranged in the first mounting openings 222; two first openings 251 matched with the first ribs 221 are formed on the first buckle 25, a first shaft hole is formed in the middle of the first buckle 25, the first buckle 25 is connected with the first mounting groove 41 in a matched rotation mode through the first shaft hole and the rotating shaft, and the first ribs 221 are located in the first openings 251; the first buckle 25 is made of magnetic material, and a first magnet 223 is disposed on one side of the first rib 221 away from the first groove 23. The first magnet 223 can enable the first buckle 25 to be in a pressing state all the time through the adsorption force of the first magnet 223 to the first buckle 25, one claw of the first buckle 25 can be pressed when the screen tray 2 can be smoothly installed or taken down when the screen tray is used, the first buckle 25 is enabled to rotate, and the first buckle 25 is separated from the first notch 12. Optionally, a corner of the boss 24 forms a limiting chamfer 26, and the shape of the second groove 33 corresponds to that of the boss 24, so that when the pouring tray 3 is buckled on the boss 24 on the screen tray 2, only one matching mode is provided, and an operator does not need to judge and adjust during operation, thereby facilitating operation.

As shown in fig. 5 and 6, the pouring tray 3 includes a second bottom plate 31 and a second side edge 32 perpendicularly connected to an edge of the second bottom plate 31, a second groove 33 is formed between the second bottom plate 31 and the second side edge 32, and the boss 24 is adapted to a shape of the second groove 33; the second mounting groove 311 is disposed in the second recess 33. In the TO cap 5 transferring process, the pouring tray 3 is buckled on the screening tray 2, at the moment, the boss 24 on the screening tray 2 is just embedded into the second groove 33 of the pouring tray 3, and the screening tray 2 is limited through the second groove 33, so that the screening tray 2 and the pouring tray 3 are better connected and matched.

As shown in fig. 5 and 6, the holding portion is a holding notch 35 formed on two opposite second sides 32, the two opposite second sides 32 of the pouring tray 3 are further provided with holding notches 35, after the pouring tray 3 is buckled on the screen tray, the operator inserts the holding notch 35 to hold the screen tray 2 more stably, and the receiving tray 1, the screen tray 2 and the pouring tray 3 buckled together can be held together through the holding notch 35, so that the overturning, taking and placing are more convenient.

As shown in fig. 5 and 6, the second buckles 34 are disposed on the two opposite second sides 32 of the second bottom plate 31, the second notches 224 matched with the second buckles 34 are disposed on the screen tray 2, and the screen tray 2 is detachably mounted in the second groove 33 through the cooperation of the second buckles 34 and the second notches 224. When the pouring tray 3 is buckled on the screen tray 2, the screen tray 2 is located in the second groove 33, the second buckle 34 corresponds to the second notch 224 on the pouring tray 3, the second buckle 34 is turned into the second notch 224 and pressed on the surface of the screen tray 2 to fix the screen tray 2 in the second groove 33, when the pouring tray 3 needs to be disassembled, the second buckle 34 can be rotated out, and fixation or separation between the pouring tray 3 and the screen tray 2 can be achieved through the second buckle 34 and the second notch 224.

As shown in fig. 6, two opposite second side edges 32 of the second bottom plate 31 are respectively provided with a second mounting opening 322, and two opposite second ribs 321 are arranged in the second mounting openings 322; two second openings 341 matched with the second ribs 321 are formed on the second buckle 34, a second shaft hole is formed in the middle of the second buckle 34, the second buckle 34 is connected with the second mounting opening 322 in a second mounting groove 311 through the matching rotation of the second shaft hole and the rotating shaft, and the second ribs 321 are located in the second openings 341; the second buckle 34 is made of magnetic material, and a second magnet 323 is disposed on one side of one of the second ribs 321 away from the second groove 33. The second magnet 323 can make the second buckle 34 be in a pressing state all the time through the adsorption force of the second magnet 323 to the second buckle 34, and one claw of the second buckle 34 can be pressed when in use, so that the second buckle 34 rotates, the second buckle 34 is separated from the second notch 224, and the pouring tray 3 can be smoothly installed or removed.

Preferably, as shown in fig. 7, a third notch 42 is provided on the device tray 4, and the third notch 42 cooperates with the second buckle 34 to enable connection or separation between the pouring tray 3 and the device tray 4.

The working process of the TO cap material transferring device provided by the application is specifically described below with reference TO fig. 1 TO 9.

The incoming tray 1 is placed on a tabletop, then the screen tray 2 is buckled on the incoming tray 1, the incoming tray 1 is located in the first groove 23, and then the first buckle 25 is rotated to connect the screen tray 2 and the incoming tray 1 into a whole.

The pouring tray 3 is buckled on the screening tray 2, so that the boss 24 on the screening tray 2 is embedded into the second groove 33, and then the second buckle 34 on the pouring tray 3 is rotated to connect the pouring tray 3 and the screening tray into a whole.

The incoming tray 1, the screening tray 2 and the dumping tray 3 are integrally turned upside down, and 200 TO caps 5 in the incoming tray 1 enter corresponding mounting grooves through corresponding screening through holes 211 respectively.

The second buckle 34 is rotated TO take out the screen tray 2 and the incoming tray 1, and at the moment, 200 TO caps 5 are arranged in the second mounting groove 311 of the dumping tray 3; the incoming tray 1 is then removed by rotating the first catch 25, and then the incoming tray 1 is placed under this time.

The device disc 4 is placed in the pouring tray 3, then the second buckle 34 is rotated TO connect the pouring tray 3 and the device disc 4 into a whole, the pouring tray 3 is turned over, the second buckle 34 is rotated, the pouring tray 3 is taken out, and the transfer of the first group of 200 TO caps 5 is completed.

The above-described operation is repeated, and the pouring tray 3 is turned over so that the remaining 200 TO caps 5 of the incoming tray 1 fall into the second mounting grooves 311 in the pouring tray 3.

The equipment disc 4 is placed in the pouring tray 3, then the second buckle 34 is rotated TO connect the pouring tray 3 and the equipment disc 4 into a whole, the pouring tray 3 is turned over, the second buckle 34 is rotated, the pouring tray 3 is taken out, and the transfer of the second group of 200 TO caps 5 is completed.

In the description of the present application, it should be noted that the azimuth or positional relationship indicated by the terms "upper", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present application and simplifying the description, and are not indicative or implying that the apparatus or element in question must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the communication may be direct or indirect through an intermediate medium, or may be internal to two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art. Furthermore, in the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

The foregoing description of the preferred embodiments of the application is not intended to limit the application to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the application are intended to be included within the scope of the application.

Claims (6)

1. The utility model provides a TO cap changes material device for in introducing into equipment dish from coming the charging tray with TO cap, its characterized in that: the TO cap material transferring device comprises a screening tray and a material pouring tray, wherein a plurality of first mounting grooves are formed in the equipment tray, second mounting grooves which are in one-TO-one correspondence with the first mounting grooves are formed in the material pouring tray, a plurality of screening through holes which are in one-TO-one correspondence with the second mounting grooves are formed in the screening tray, a plurality of groups of containing grooves are formed in the material receiving tray, each group of containing grooves are in one-TO-one correspondence with the number of the second mounting grooves, and a holding part is arranged on the material pouring tray;

the screening tray comprises a first bottom plate and a first side edge vertically connected with the edge of the first bottom plate, a first groove is formed between the first side edge and the first bottom plate, a boss is formed by outwards protruding the first bottom plate relative to the other side of the first groove, and a plurality of screening through holes are formed in the first groove and penetrate through the boss; the shape of the incoming tray is matched with the shape of the first groove;

the first clamping buckles are arranged on two opposite first side edges of the first bottom plate, a first notch matched with the first clamping buckles is arranged on the feeding tray, and the feeding tray is detachably arranged in the first groove through the matching of the first clamping buckles and the first notch;

the material pouring disc comprises a second bottom plate and a second side edge which is vertically connected with the edge of the second bottom plate, a second groove is formed between the second bottom plate and the second side edge, and the boss is matched with the shape of the second groove; the second mounting groove is arranged in the second groove; the holding part is a holding notch formed on the two opposite second side edges;

the two opposite second side edges of the second bottom plate are respectively provided with a second buckle, the screen tray is provided with a second notch matched with the second buckles, and the screen tray is detachably arranged in the second groove through the matching of the second buckles and the second notches.

2. The TO cap transfer device of claim 1, wherein: and one end of the screening material through hole, which is positioned in the first groove, forms a flaring section.

3. The TO cap transfer device of claim 1, wherein: the two opposite first side edges of the first bottom plate are respectively provided with a first mounting opening, and two opposite first convex ribs are arranged in the first mounting openings;

two first openings matched with the first convex ribs are formed on the first buckle, a first shaft hole is formed in the middle of the first buckle, the first buckle is rotationally connected in the first mounting opening through the matching of the first shaft hole and the rotating shaft, and the first convex ribs are located in the first openings;

the first buckle is made of magnetic materials, and one side, far away from the first groove, of one of the first convex ribs is provided with a first magnet.

4. The TO cap transfer device of claim 1, wherein: two opposite second side edges of the second bottom plate are respectively provided with a second mounting opening, and two opposite second convex ribs are arranged in the second mounting openings;

two second openings matched with the second convex ribs are formed on the second buckle, a second shaft hole is formed in the middle of the second buckle, the second buckle is connected in the second mounting opening through the matching rotation of the second shaft hole and the rotating shaft, and the second convex ribs are located in the second openings;

the second buckle is made of magnetic materials, and one side, far away from the second groove, of one second convex rib is provided with a second magnet.

5. The TO cap transfer device of claim 1, wherein: and each second mounting groove is internally provided with a limiting column, and one end of each limiting column, which is close to the second groove, is provided with a hollowed-out hole.

6. The TO cap transfer device of claim 1, wherein: one corner on the boss is provided with a limiting chamfer.