CN220931518U - High-productivity vacuum cavity mechanism - Google Patents

Abstract

The utility model relates to the technical field of baking equipment, in particular to a high-productivity vacuum cavity mechanism which comprises a cavity component and a clamp car component, wherein the cavity component comprises a plurality of clamp car guide rail components, the clamp car component can slide on the clamp car guide rail components so as to pull the clamp car component out of the cavity component to take and put a battery, the cavity component comprises a limiting mechanism, an opposite-plug lifting mechanism and an air extraction mechanism, the limiting mechanism can ensure that the clamp car component can be accurately positioned at the position of the guide rail component, the opposite-plug lifting mechanism can enable a circuit on the car component and the cavity component to be connected so as to be in power-on communication, and the air extraction mechanism can vacuumize the inner cavity of the cavity component in a door closing state. According to the utility model, by arranging the opposite-plug jacking mechanism, the contact of the fixture vehicle assembly and the cavity assembly can be quickly switched on and switched off, the fixture vehicle assembly can be installed into a multi-layer fixture to realize high productivity, the working efficiency is improved, the number of fixture batteries in the cavity is increased, and the baking productivity is improved.

Description

High-productivity vacuum cavity mechanism

Technical Field

The utility model relates to the technical field of baking equipment, in particular to a high-yield vacuum cavity mechanism.

Background

The battery needs to be baked at a high temperature in the production process. In preparation for baking, the fixture vehicle is electrically communicated with the outside, and a vacuum environment is also used. The current baking equipment requires a large number of manual operations in preparation for these conditions, and the functions are insufficient to make the production inefficient.

Disclosure of utility model

In order to solve the problems in the background art, the utility model provides a high-productivity vacuum cavity mechanism for baking a battery, and solves the problem of low productivity of baking equipment in the prior art.

The utility model solves the technical problems by adopting the following scheme: the utility model provides a high productivity vacuum cavity mechanism, including first cavity, the second cavity, the door subassembly, the volume of first cavity equals with the volume of second cavity, the door subassembly is equal with first cavity, the second cavity homoenergetic constitutes sealed space, first cavity, the second cavity is all including the cavity subassembly, fixture car subassembly, wherein the cavity subassembly includes a plurality of fixture car guide rail assemblies, fixture car subassembly is placed on fixture car guide rail assembly, fixture car subassembly can slide so that draw out the cavity subassembly with fixture car subassembly and pick up the battery on fixture car guide rail assembly, the cavity subassembly includes stop gear, to inserting climbing mechanism, air extraction mechanism, stop gear can guarantee that fixture car subassembly can accurate location to the position on the guide rail assembly, to inserting climbing mechanism can make the circuit connection on car subassembly and the cavity subassembly so that the power on communication, to inserting climbing mechanism except that the jacking motor sets up inside the cavity subassembly, air extraction mechanism can be vacuum to cavity subassembly cavity inner chamber under the state.

In the structure, a plurality of fixture car guide rail assemblies are stacked up and down, and the distances between the fixture car guide rail assemblies and the fixture car guide rail assemblies are equal.

In the above-mentioned structure, the cavity subassembly includes the cavity, and door subassembly passes through sealing washer sealing connection with the cavity, and the cavity is by supporting bone and steel sheet welding shaping, and the steel sheet edge is except that the outside supporting bone of door subassembly contact supporting bone sets up in the inboard of cavity, and the supporting bone setting in the middle of the steel sheet is in the outside of cavity, and the outside that the outside supporting bone setting in the cavity is contacted to the steel sheet edge and door subassembly.

In the structure, the door assembly comprises a left door, a right door, a door sliding mechanism and a door sliding mechanism, wherein the door sliding mechanism can slide the left door or the right door onto the door sliding mechanism and push the left door or the right door onto the cavity from the door sliding mechanism, the left door or the right door can slide on the door sliding mechanism to open the left door or the right door, the left door, the right door, the door sliding mechanism and the door sliding mechanism are directly or indirectly connected with the cavity, the door sliding mechanism is arranged on the door sliding mechanism, and the left door or the right door is arranged on the door sliding mechanism.

In the structure, the door push-pull mechanism comprises a push-pull cylinder, a push-pull concave fork and a push-pull rotating wheel, wherein the left door or the right door is arranged on the push-pull cylinder, the push-pull cylinder and the push-pull concave fork are arranged on the door sliding mechanism, and the push-pull rotating wheel is arranged on the left door or the right door so that the push-pull rotating wheel is led into the push-pull concave fork to fix the left door or the right door.

In the structure, the door sliding mechanism comprises a sliding motor, a sliding block guide rail, a sliding block, a lead screw, a push-pull concave fork and a door guide rail, wherein the sliding motor can drive the lead screw to rotate to push the sliding block to slide on the sliding block guide rail, the sliding block is arranged on the sliding block guide rail, the sliding motor is arranged on the sliding block guide rail, the lead screw is connected with the sliding block in a transmission manner, the push-pull concave fork is connected with the sliding block and moves together, and the sliding motor can drive the left door or the right door to slide on the door guide rail to enable the left door and the right door to be placed in an overlapping manner.

The utility model provides a high productivity vacuum cavity mechanism, including cavity subassembly, anchor clamps car subassembly, wherein the cavity subassembly includes a plurality of anchor clamps car guide rail subassembly, anchor clamps car subassembly is placed on anchor clamps car guide rail subassembly, anchor clamps car subassembly can slide on anchor clamps car guide rail subassembly so that draw out cavity subassembly with the anchor clamps car subassembly and retrieve the battery, the cavity subassembly includes stop gear, to inserting elevating system, air extraction mechanism, stop gear can guarantee that anchor clamps car subassembly can accurate location to the position on the guide rail subassembly, to inserting elevating system can make the circuit connection on utensil car subassembly and the cavity subassembly so that the power on communication, except that the jacking motor sets up inside the cavity subassembly to inserting elevating system, air extraction mechanism can be in the door state down vacuum the cavity subassembly inner chamber.

In the above-mentioned structure, still include the door subassembly, the cavity subassembly includes the cavity, and wherein door subassembly passes through sealing washer sealing connection with the cavity, and the cavity is by supporting bone and steel sheet splice welding shaping, and wherein the steel sheet edge is except the outside supporting bone setting of door subassembly contact in the inboard of cavity, and the supporting bone setting in the middle of the steel sheet is in the outside of cavity, and the outside of supporting bone setting outside the steel sheet edge and door subassembly contact is in the cavity.

In summary, the beneficial effects of the utility model are as follows: through setting up to inserting climbing mechanism, can realize anchor clamps car subassembly's contact and cavity subassembly and to inserting quick break-make, anchor clamps car subassembly can pack into multilayer anchor clamps, realize high productivity, improve work efficiency, improve the anchor clamps battery in the cavity and place quantity, improve and toast the productivity.

The foregoing description is only an overview of the technical solution of the present utility model, and may be implemented according to the content of the specification in order to make the technical means of the present utility model more clearly understood, and in order to make the above and other objects, features and advantages of the present utility model more clearly understood, the following specific preferred embodiment is given by way of the following detailed description in conjunction with the accompanying drawings.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of another angle of the present utility model;

FIG. 3 is a front view of the present utility model;

FIG. 4 is a top view of the present utility model;

Fig. 5 is a side view of the present utility model.

Fig. 6 is a perspective view of the door assembly of the present utility model.

In the figure: 1. a cavity assembly; 2. a clamp lathe assembly; 3. turning a guide rail assembly by using a clamp; 4. a limiting mechanism; 5. the opposite-plug jacking mechanism; 6. a door assembly; 7. a cavity; 8. a left door; 9. a right door; 10. a door sliding mechanism; 11. a door push-pull mechanism; 12. a push-pull cylinder; 13. push-pull concave fork; 14. push-pull rotating wheel; 15. a slide motor; 16. a slider guide rail; 17. a slide block; 18. a door rail.

Detailed Description

In order that the utility model may be more readily understood, a further description of the utility model will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

It should be noted that, as used herein, the terms "center," "upper," "lower," "front," "rear," "left," "right," "inner," "outer," and the like indicate an orientation or a positional relationship based on that shown in the drawings, and are merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Unless otherwise indicated, the meaning of "a plurality" is two or more.

Unless specifically stated or limited otherwise, the terms "mounted," "connected," and "coupled" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

Referring to the drawings, a high productivity vacuum cavity mechanism, including cavity subassembly 1, fixture car subassembly 2, wherein cavity subassembly 1 includes a plurality of fixture car guide rail assemblies 3, fixture car subassembly 2 is placed on fixture car guide rail assembly 3, fixture car subassembly 2 can slide so that pull out cavity subassembly 1 with fixture car subassembly 2 and take the battery on fixture car guide rail assembly 3, cavity subassembly 1 includes stop gear 4, to inserting elevating system 5, air extraction mechanism, stop gear 4 can guarantee that fixture car subassembly 2 can be accurately positioned to the position on guide rail assembly 3, to inserting elevating system 5 can make the circuit connection on tool car subassembly 2 and the cavity subassembly 1 so that the circular telegram communicates, to inserting elevating system 5 except that the jacking motor sets up inside cavity subassembly 1, air extraction mechanism can be under the door closing state to empty cavity subassembly 1 inner chamber.

Further, the plurality of jig car guide rail assemblies 3 are stacked up and down, and distances between the jig car guide rail assemblies 3 and the jig car guide rail assemblies 3 are equal.

The utility model provides a high productivity vacuum cavity mechanism, including first cavity, the second cavity, door assembly 6, the volume of first cavity is equal with the volume of second cavity, door assembly 6 and first cavity, the second cavity homoenergetic constitutes sealed space, first cavity, the second cavity homoenergetic includes cavity subassembly 1, fixture car subassembly 2, wherein cavity subassembly 1 includes a plurality of fixture car guide rail subassemblies 3, fixture car subassembly 2 is placed on fixture car guide rail subassembly 3, fixture car subassembly 2 can slide on fixture car guide rail subassembly 3 in order to pull out cavity subassembly 1 with fixture car subassembly 2 and put the battery, cavity subassembly 1 is including stop gear 4, opposite plug jack-up mechanism 5, air exhaust mechanism, stop gear 4 can guarantee that fixture car subassembly 2 can be accurately positioned to the position on guide rail subassembly 3, opposite plug jack-up mechanism 5 can make the circuit connection on fixture car subassembly 2 and the cavity subassembly 1 so that the power on communication, set up at cavity subassembly 1 outside the jacking motor, air exhaust mechanism can draw down the cavity subassembly 1 in the cavity state of cavity.

Further, still include door subassembly 6, cavity subassembly 1 includes cavity 7, and wherein door subassembly 6 passes through sealing washer sealing connection with cavity 7, and cavity 7 is by supporting bone and steel sheet welding shaping, and wherein the steel sheet edge is except that the supporting bone setting outside the door subassembly contact in the inboard of cavity, and the supporting bone setting in the middle of the steel sheet is in the outside of cavity, and the steel sheet edge is in the outside of cavity with the outer supporting bone setting of door subassembly contact.

Further, the door assembly 6 includes a left door 8, a right door 9, a door sliding mechanism 10, and a door push-pull mechanism 11, wherein the door push-pull mechanism 11 is capable of pulling the left door 8 or the right door 9 onto the door sliding mechanism 10, pushing the left door 8 or the right door 9 from the door sliding mechanism 10 onto the cavity 7, the left door 8 or the right door 9 is capable of sliding on the door sliding mechanism 10 to open the left door 8 or the right door 9, the left door 8, the right door 9, the door sliding mechanism 10, the door push-pull mechanism 11 are directly or indirectly connected with the cavity 7, the door push-pull mechanism 11 is mounted on the door sliding mechanism 10, and the left door 8 or the right door 9 is mounted on the door push-pull mechanism 11.

Further, the door assembly 6 includes a left door 8, a right door 9, a door sliding mechanism 10, and a door sliding mechanism 11, wherein the door sliding mechanism 11 is capable of sliding the left door 8 or the right door 9 onto the door sliding mechanism 10 or pushing the left door 8 or the right door 9 from the door sliding mechanism 10 onto the cavity 7, the left door 8 or the right door 9 is capable of sliding on the door sliding mechanism 10 to open the left door 8 or the right door 9, and the left door 8 or the right door 9 is mounted on the door sliding mechanism 11.

Further, the door push-pull mechanism 11 comprises a push-pull air cylinder 12, a push-pull concave fork 13 and a push-pull rotary wheel 14, the right door 9 is arranged on the push-pull air cylinder 12, the push-pull air cylinder 12 and the push-pull concave fork 13 are arranged on the door sliding mechanism 10, and the push-pull rotary wheel 14 is arranged on the right door 9 so that the push-pull rotary wheel 14 is led into the push-pull concave fork 13 to fix the right door 9.

Further, the door sliding mechanism 10 includes a sliding motor 15, a sliding block guide rail 16, a sliding block 17, a screw rod, a push-pull fork 13 and a door guide rail 18, the sliding motor 15 can drive the screw rod to rotate to push the sliding block 17 to slide on the sliding block guide rail 16, the sliding block 17 is installed on the sliding block guide rail 16, the sliding motor 15 is installed on the sliding block guide rail 16, the screw rod is in transmission connection with the sliding block 17, the push-pull fork 13 is connected with the sliding block 17 and moves together, and the sliding motor 15 can drive the left door 8 or the right door 9 to slide on the door guide rail 18 to enable the left door 8 and the right door 9 to be placed in an overlapping manner.

Further, the right door 9 is pushed onto the door sliding mechanism 10 by the door push-pull mechanism 11, and the right door 9 can slide leftward on the door sliding mechanism 10 until the left door 8 is juxtaposed with the right door 9.

According to the utility model, by arranging the opposite-plug jacking mechanism 5, the contact of the fixture vehicle assembly 2 and the cavity assembly 1 can be quickly switched on and switched off, the fixture vehicle assembly 2 can be assembled into a multi-layer fixture, high productivity is realized, the working efficiency is improved, the placement quantity of fixture batteries in the cavity is improved, and the baking productivity is improved. Because the utility model is a vacuum cavity, the cavity is under negative pressure, and the door component 6 can be tightly pressed on the cavity 7 by atmospheric pressure.

Specifically, the method has the following beneficial effects:

1, the opposite-plug jacking mechanism 5 is arranged, so that the contact of the fixture vehicle assembly 2 and the cavity assembly 1 can be quickly switched on and off in opposite-plug mode;

2, the clamp turning assembly 2 can be installed into a multi-layer clamp to realize high productivity;

3, a plurality of fixture car guide rail assemblies 3 are stacked up and down, the distances between the fixture car guide rail assemblies 3 and the fixture car guide rail assemblies 3 are equal, the working efficiency is improved, the number of fixture batteries placed in the cavity is increased, and the baking productivity is improved;

4, the limiting mechanism 4 can ensure that the fixture trolley component 2 can be accurately positioned to the position of the guide rail component 3;

And 5, the first cavity and the second cavity can be operated alternately, so that the time for placing the battery is saved, the efficiency is improved, and the high productivity is realized.

The above examples are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and modifications made by those skilled in the art based on the present utility model are included in the scope of the present utility model.

Claims (8)

1. A high-productivity vacuum cavity mechanism is characterized in that: including first cavity, second cavity, door subassembly, the volume of first cavity is equal with the volume of second cavity, door subassembly and first cavity, second cavity homoenergetic constitute sealed space, first cavity, second cavity homoenergetic include cavity subassembly, anchor clamps car subassembly, wherein the cavity subassembly includes a plurality of anchor clamps car guide rail subassembly, the anchor clamps car subassembly is placed on anchor clamps car guide rail subassembly, the anchor clamps car subassembly can slide so that draw out the cavity subassembly with anchor clamps car guide rail subassembly and pick up the battery on the anchor clamps car guide rail subassembly, the cavity subassembly includes stop gear, to inserting climbing mechanism, air extraction mechanism, stop gear can guarantee that anchor clamps car subassembly can pinpoint the position on the guide rail subassembly, to inserting climbing mechanism can make the circuit connection on utensil car subassembly and the cavity subassembly so that the communication of switching on, to inserting climbing mechanism except that the jacking motor sets up inside the cavity subassembly, air extraction mechanism can draw out cavity subassembly under the cavity state and vacuume.

2. The high throughput vacuum cavity mechanism of claim 1, wherein: the cavity assembly comprises a cavity, the door assembly is connected with the cavity in a sealing mode through a sealing ring, the cavity is formed by welding supporting ribs and steel plates in a spliced mode, the supporting ribs outside the supporting ribs except for the contact of the door assembly on the edge of the steel plates are arranged on the inner side of the cavity, the supporting ribs in the middle of the steel plates are arranged on the outer side of the cavity, and the supporting ribs outside the contact of the edge of the steel plates and the door assembly on the edge of the steel plates are arranged on the outer side of the cavity.

3. The high throughput vacuum cavity mechanism of claim 1, wherein: the door assembly comprises a left door, a right door, a door sliding mechanism and a door sliding mechanism, wherein the door sliding mechanism can slide the left door or the right door onto the door sliding mechanism and push the left door or the right door onto the cavity from the door sliding mechanism, the left door or the right door can slide on the door sliding mechanism to open the left door or the right door, the left door, the right door, the door sliding mechanism and the door sliding mechanism are directly or indirectly connected with the cavity, the door sliding mechanism is arranged on the door sliding mechanism, and the left door or the right door is arranged on the door sliding mechanism.

4. A high throughput vacuum cavity mechanism as claimed in claim 3, wherein: the door push-pull mechanism comprises a push-pull air cylinder, a push-pull concave fork and a push-pull rotating wheel, wherein the left door or the right door is arranged on the push-pull air cylinder, the push-pull air cylinder and the push-pull concave fork are arranged on the door sliding mechanism, and the push-pull rotating wheel is arranged on the left door or the right door so that the push-pull rotating wheel is led into the push-pull concave fork to fix the left door or the right door.

5. A high throughput vacuum cavity mechanism as claimed in claim 3, wherein: the sliding motor can drive the screw rod to rotate so as to push the slide block to slide on the slide block guide rail, the slide block is arranged on the slide block guide rail, the sliding motor is arranged on the slide block guide rail, the screw rod is connected with the slide block in a transmission manner, the push-pull concave fork is connected with the slide block and moves together, and the sliding motor can drive the left door or the right door to slide on the door guide rail so as to enable the left door and the right door to be placed in an overlapping manner.

6. A high-productivity vacuum cavity mechanism is characterized in that: including cavity subassembly, anchor clamps car subassembly, wherein the cavity subassembly includes a plurality of anchor clamps car guide rail subassembly, anchor clamps car subassembly is placed on anchor clamps car guide rail subassembly, anchor clamps car subassembly can slide so that pull out the cavity subassembly with anchor clamps car subassembly and get the battery, the cavity subassembly includes stop gear, to inserting elevating system, air extraction mechanism, stop gear can guarantee that anchor clamps car subassembly can accurate location to the position on the guide rail subassembly, to inserting elevating system can make the circuit connection on utensil car subassembly and the cavity subassembly so that the circular telegram communicates, to inserting elevating system except that the jacking motor sets up inside the cavity subassembly, air extraction mechanism can be in the state of closing the door vacuums the cavity subassembly inner chamber.

7. The high throughput vacuum cavity mechanism of claim 6, wherein: still include the door subassembly, the cavity subassembly includes the cavity, wherein door subassembly passes through sealing washer sealing connection with the cavity, the cavity is by supporting bone and steel sheet splice welding shaping, wherein the steel sheet edge is except that the supporting bone setting outside the door subassembly contact at the inboard of cavity, the supporting bone setting in the middle of the steel sheet is in the outside of cavity, the steel sheet edge is with the outside setting of door subassembly contact outer supporting bone in the outside of cavity.

8. The high throughput vacuum cavity mechanism of claim 1 or 6, wherein: the fixture turning guide rail assemblies are stacked up and down, and the distances between the fixture turning guide rail assemblies and the fixture turning guide rail assemblies are equal.