CN213631588U

CN213631588U - Sealed furnace-feeding transplanter for kiln outer rail automatic circulation line production

Info

Publication number: CN213631588U
Application number: CN202022843657.8U
Authority: CN
Inventors: 郑善孔; 郑善翔
Original assignee: Shanghai Bojun Automation Equipment Co ltd
Current assignee: Shanghai Bojun Automation Equipment Co ltd
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-07-06
Anticipated expiration: 2030-11-30

Abstract

The utility model discloses a sealed transplanter that advances of kiln outer rail automatic cycle line production belongs to lithium battery material production technical field. The automatic jacking device comprises a frame, install push-and-pull mechanism, vertical conveying mechanism, horizontal conveying mechanism and climbing mechanism in the frame respectively, climbing mechanism includes jacking mount, single jacking subassembly and vertical accommodate the lead screw, the jacking mount is installed in the frame, installs a plurality of single jacking subassemblies on the jacking mount, single jacking subassembly is located the below of the multiunit interrupted driving roller of horizontal conveying frame, and vertical accommodate the lead screw is installed respectively at the both ends of jacking mount. The vertical adjusting screw rods are arranged at the two ends of the jacking fixing frame, so that the overall height adjustment of the jacking mechanism can be realized; through install fixed stay frame and removal support frame respectively on the mounting panel, thereby adjust horizontal accommodate the lead screw and make the interval change between removal support frame and the fixed stay frame to be suitable for the not saggar of equidimension.

Description

Sealed furnace-feeding transplanter for kiln outer rail automatic circulation line production

Technical Field

The utility model relates to a sealed transplanter that advances for production of kiln outer rail automatic cycle line belongs to lithium battery material production technical field.

Background

Lithium electricity kiln outer rail automatic cycle line is a kind of automation line that is used for the positive and negative material kiln of lithium cell to load and unload, and each process of lithium electricity kiln outer rail automatic cycle line includes: (1) automatic pot loading machine: the sagger-containing module is matched with a spiral precise feeding system to carry out quantitative feeding in the sagger; (2) double-station shaking machine: the materials in the sagger are arranged to be flat; (3) grid bowl stacking all-in-one machine: drawing grids on the materials and stacking the grids; (4) entering and exiting the transplanter: feeding the sagger filled with the materials into/out of a kiln; (5) dividing and breaking all-in-one machine: dividing the sagger into saggers and breaking the sintered materials into blocks; (6) full-sealed pot-turning and material-pouring machine: introducing materials in the sagger into a designated container; (7) ceramic wheel conveying equipment: the external track sagger is conveyed in a circulating way, and the conveyor is ceramic wheel conveying equipment driven by a spiral gear; (8) the control part: and controlling and monitoring the equipment.

In the furnace feeding transplanting equipment in the automatic circulation line of the outer rail of the lithium battery kiln in the prior art, the jacking mechanism is used for jacking the saggars and carrying out magnetic detection on the saggars through the magnetic detection switch, and the saggars with different sizes cannot be adapted to due to the fact that the jacking mechanism cannot be adjusted, so that the furnace feeding transplanting equipment can only transport and feed the saggars made of lithium battery materials.

Disclosure of Invention

The utility model discloses the technical problem that will solve lies in: the utility model provides a sealed transplanter that advances of stove is used in production of kiln outer rail automatic cycle line, it has solved the transplanting equipment that advances stove among the prior art, because climbing mechanism can't adjust, can not adapt to the saggar of equidimension not, leads to advancing the problem that transplanting equipment can only transport the saggar of a lithium cell material into the stove.

The utility model discloses the technical problem that will solve takes following technical scheme to realize:

a sealed furnace feeding transplanter for automatic kiln outer rail circulation line production comprises a frame, wherein a push-pull mechanism, a longitudinal conveying mechanism, a transverse conveying mechanism and a jacking mechanism are respectively arranged on the frame, the jacking mechanism is arranged below the transverse conveying mechanism, the transverse conveying mechanism comprises a transverse conveying frame, a transmission mechanism, a penetrating transmission roller and an interrupted transmission roller, the penetrating transmission roller is arranged at two ends of the transverse conveying frame, a plurality of groups of interrupted transmission rollers are arranged in the middle of the transverse conveying frame, and the penetrating transmission roller and the interrupted transmission rollers are driven by the transmission mechanism to rotate;

the jacking mechanism comprises a jacking fixing frame, a single jacking assembly and vertical adjusting screw rods, the jacking fixing frame is arranged on the rack, a plurality of single jacking assemblies are arranged on the jacking fixing frame, the single jacking assemblies are positioned below a plurality of groups of interrupted transmission rollers of the transverse conveying frame, and the vertical adjusting screw rods are respectively arranged at two ends of the jacking fixing frame;

the single jacking assembly comprises a bidirectional cylinder, a mounting plate, guide rods, a fixed support frame and a movable support frame, wherein a cylinder barrel of the bidirectional cylinder is mounted on a jacking fixing frame, a piston rod at one end of the bidirectional cylinder is fixed on the frame, the mounting plate is fixed above a piston rod at the other end of the bidirectional cylinder, the fixed support frame and the movable support frame are respectively mounted on two sides above the mounting plate, a horizontal adjusting screw rod is mounted on the movable support frame, the guide rods are fixed on two sides below the mounting plate, limiting grooves are formed in the jacking fixing frame, and the guide rods are inserted into the limiting.

As a preferable example, a telescopic sleeve is further connected between the mounting plate and the jacking fixing frame.

As a preferable example, a cylinder adjusting nut is arranged on a piston rod at one end of the bidirectional cylinder, which is fixed on the frame.

As a preferable example, the fixed support frame and the movable support frame are both provided with cushion blocks.

The utility model has the advantages that:

(1) the vertical adjusting screw rods are arranged at the two ends of the jacking fixing frame, so that the overall height adjustment of the jacking mechanism can be realized;

(2) the fixed support frame and the movable support frame are respectively arranged on the mounting plate, and the horizontal adjusting screw rod is adjusted, so that the distance between the movable support frame and the fixed support frame is changed, and the saggars with different sizes are suitable for the saggars;

(3) the cylinder adjusting nut is installed at one end of the bidirectional cylinder of the jacking mechanism, so that the height of the single jacking assembly can be finely adjusted.

Drawings

FIG. 1 is a schematic view of the overall perspective structure of the furnace-entering transplanting equipment of the present invention;

FIG. 2 is a schematic view of the overall side-view perspective structure of the furnace-entering transplanting device of the present invention;

fig. 3 is a schematic structural view of the push-pull mechanism of the present invention;

fig. 4 is a schematic structural view of the longitudinal conveying mechanism of the present invention;

FIG. 5 is a schematic structural view of the lateral conveying mechanism of the present invention;

fig. 6 is a schematic structural view of the jacking mechanism of the present invention;

fig. 7 is a schematic view of the working principle of the present invention.

In the figure: 1. a frame; 2. a push-pull mechanism; 21. a push-pull frame; 22. a slide rail; 23. a push-pull cylinder; 24. a sliding plate; 25. a slider; 26. a push-pull plate; 3. a longitudinal conveying mechanism; 31. a longitudinal conveyor frame; 32. a guide wheel; 33. a first transmission mechanism; 331. a longitudinal conveying motor; 332. a first sprocket; 34. a longitudinal driving roller; 35. a ceramic wheel; 4. a transverse conveying mechanism; 42. a second transmission mechanism; 421. a transverse conveying motor; 422. a second sprocket; 43. a through type driving roller; 44. an interrupted drive roller; 5. a jacking mechanism; 51. jacking the fixed frame; 511. a limiting groove; 52. a single jacking assembly; 521. a bidirectional cylinder; 522. mounting a plate; 523. a guide bar; 524. fixing a support frame; 525. moving the support frame; 526. a horizontal adjusting screw rod; 527. a telescopic sleeve; 528. a cylinder adjusting nut; 529. buffering cushion blocks; 53. a vertical adjusting screw rod; 6. and (5) sagger.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the functions of the present invention easy to understand and understand, the present invention is further explained by combining the following specific drawings.

As shown in fig. 1-7, a sealed furnace-feeding transplanter for automatic kiln outer rail circulation line production comprises a frame 1, wherein a push-pull mechanism 2, a longitudinal conveying mechanism 3, a transverse conveying mechanism 4 and a jacking mechanism 5 are respectively arranged on the frame 1;

as shown in fig. 3, the push-pull mechanism 2 includes a push-pull frame 21, a slide rail 22, a push-pull cylinder 23, a sliding plate 24, a slider 25, and a push-pull plate 26, the slide rail 22 is disposed on the push-pull frame 21, the push-pull cylinder 23 is fixed on the push-pull frame 21, the sliding plate 24 is fixed at the telescopic end of the push-pull cylinder 23, the sliding plate 24 is slidably connected with the slide rail 22 through the slider 25, and the push-pull plate 26 is connected to the sliding;

as shown in fig. 4, the longitudinal conveying mechanism 3 includes a longitudinal conveying frame, guide wheels 32, a first transmission mechanism 33, longitudinal transmission rollers 34, and ceramic wheels 35, wherein a row of guide wheels 32 is respectively installed on two sides of the longitudinal conveying frame, a plurality of longitudinal transmission rollers 34 are installed on the longitudinal conveying frame, a plurality of ceramic wheels 35 are installed on each longitudinal rotating shaft, and the longitudinal transmission rollers 34 are driven by the first transmission mechanism 33 to rotate;

as shown in fig. 5, the transverse conveying mechanism 4 includes a transverse conveying frame, a second transmission mechanism 42, through transmission rollers 43 and interrupted transmission rollers 44, the through transmission rollers 43 are installed at two ends of the transverse conveying frame, a plurality of groups of interrupted transmission rollers 44 are installed in the middle of the transverse conveying frame, and the through transmission rollers 43 and the interrupted transmission rollers 44 are driven by the second transmission mechanism 42 to rotate;

the first transmission mechanism 33 comprises a longitudinal conveying motor 331, a first chain wheel 332 and a first transmission chain, the first chain wheel 332 is mounted on the longitudinal transmission rollers 34, and the longitudinal transmission rollers 34 are driven by the first chain wheel 332, the first transmission chain and the longitudinal conveying motor 331; the second transmission mechanism 42 includes a transverse conveying motor 421, a second chain wheel 422 and a second transmission chain, the second chain wheel 422 is mounted on each of the penetrating transmission roller 43 and the interrupting transmission roller 44, and the penetrating transmission roller 43 and the interrupting transmission roller 44 are driven by the second chain wheel 422, the second transmission chain and the transverse conveying motor 421.

As shown in fig. 6, the jacking mechanism 5 is installed below the transverse conveying mechanism 4, the jacking mechanism 5 includes a jacking fixing frame 51, a single jacking assembly 52 and a vertical adjusting screw 53, the jacking fixing frame 51 is installed on the frame 1, the jacking fixing frame 51 is provided with a plurality of single jacking assemblies 52, the single jacking assemblies 52 are located below the plurality of sets of interrupted driving rollers 44 of the transverse conveying frame, and the two ends of the jacking fixing frame 51 are respectively provided with the vertical adjusting screw 53;

the single jacking assembly 52 comprises a bidirectional cylinder 521, a mounting plate 522, guide rods 523, a fixed support frame 524 and a movable support frame 525, a cylinder barrel of the bidirectional cylinder 521 is mounted on the jacking fixing frame 51, a piston rod at one end of the bidirectional cylinder 521 is fixed on the frame 1, the mounting plate 522 is fixed above a piston rod at the other end, the fixed support frame 524 and the movable support frame 525 are respectively mounted on two sides above the mounting plate 522, a horizontal adjusting screw 526 is mounted on the movable support frame 525, the guide rods 523 are fixed on two sides below the mounting plate 522, a limit groove 511 is arranged on the jacking fixing frame 51, and the guide rods 523 are inserted into the limit groove.

Preferably, a telescopic sleeve 527 is further connected between the mounting plate 522 and the jacking fixing frame 51.

Preferably, a cylinder adjusting nut 528 is arranged on one end piston rod of the bidirectional cylinder 521 fixed on the frame 1.

Preferably, the fixed support frame 524 and the movable support frame 525 are both provided with a cushion block 529.

The working principle is as follows:

as shown in fig. 7, when the transverse conveying motor 421 works, the sagger 6 enters the box on the rack 1 through the conveying of the transverse conveying mechanism 4, the detection switch in the box detects that the sagger 6 is delayed for several seconds, then four bidirectional cylinders 521 at four stations sequentially jack up the sagger 6 until the sagger 6 is detected by magnetism, then the push-pull cylinder 23 works to push the sagger 6 after the magnetism is detected to the longitudinal conveying rack 311, and the longitudinal conveying motor 331 works to transport the sagger 6 until the sagger 6 is transported to the outside to finish the work.

The whole height of the jacking mechanism 5 can be adjusted by a vertical adjusting screw rod 53; the height of the single jacking component 52 of the jacking mechanism 5 can be finely adjusted by an air cylinder adjusting nut 528; the distance between the fixed support frame 524 and the movable support frame 525 of the jacking mechanism 5 can be adjusted, and the horizontal adjusting screw 526 is adjusted to move back and forth.

The utility model discloses the beneficial effect who brings:

(1) the vertical adjusting screw rods 53 are arranged at the two ends of the jacking fixing frame 51, so that the overall height adjustment of the jacking mechanism 5 can be realized;

(2) the fixed support frame 524 and the movable support frame 525 are respectively arranged on the mounting plate 522, and the horizontal adjusting screw 526 is adjusted, so that the distance between the movable support frame 525 and the fixed support frame 524 is changed, and the saggars 6 with different sizes are suitable for the saggars;

(3) the height of the single jacking assembly 52 can be finely adjusted by installing a cylinder adjusting nut 528 at one end of the bidirectional cylinder 521 of the jacking mechanism 5.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and such changes and modifications are intended to be included within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A sealed furnace feeding transplanter for kiln outer rail automatic circulation line production comprises a rack (1), wherein a push-pull mechanism (2), a longitudinal conveying mechanism (3), a transverse conveying mechanism (4) and a jacking mechanism (5) are respectively installed on the rack (1), the jacking mechanism (5) is installed below the transverse conveying mechanism (4), the transverse conveying mechanism (4) comprises a transverse conveying frame, a transmission mechanism, a penetrating type transmission roller (43) and an interrupting type transmission roller (44), the penetrating type transmission rollers (43) are installed at two ends of the transverse conveying frame, a plurality of groups of interrupting type transmission rollers (44) are installed in the middle of the transverse conveying frame, and the penetrating type transmission rollers (43) and the interrupting type transmission rollers (44) are driven by the transmission mechanism to rotate; the method is characterized in that:

the jacking mechanism (5) comprises a jacking fixing frame (51), a single jacking assembly (52) and vertical adjusting screw rods (53), the jacking fixing frame (51) is installed on the rack (1), the jacking fixing frame (51) is provided with a plurality of single jacking assemblies (52), the single jacking assemblies (52) are located below a plurality of groups of interrupted driving rollers (44) of the transverse conveying frame, and the two ends of the jacking fixing frame (51) are respectively provided with the vertical adjusting screw rods (53);

single jacking subassembly (52) are including two-way cylinder (521), mounting panel (522), guide bar (523), fixed stay frame (524) and removal support frame (525), the cylinder of two-way cylinder (521) is installed on jacking mount (51), and the one end piston rod of two-way cylinder (521) is fixed on frame (1), and other end piston rod top is fixed with mounting panel (522), and fixed stay frame (524) and removal support frame (525) are installed respectively to mounting panel (522) top both sides, install horizontal adjusting screw (526) on removing support frame (525), mounting panel (522) below both sides are fixed with guide bar (523), are equipped with spacing groove (511) on jacking mount (51), and guide bar (523) insert in spacing groove (511).

2. The sealed furnace-entering transplanter for the production of the automatic kiln outer rail circulation line according to claim 1, wherein a telescopic sleeve (527) is further connected between the mounting plate (522) and the jacking fixing frame (51).

3. The sealed furnace-feeding transplanter for the automatic kiln outer rail circulating line production according to claim 1, wherein a cylinder adjusting nut (528) is arranged on a piston rod at one end of the bidirectional cylinder (521) fixed on the frame (1).

4. The sealed furnace-entering transplanter for the production of automatic circulating lines of kiln outer rails according to claim 1, wherein the fixed support frame (524) and the movable support frame (525) are both provided with buffer cushion blocks (529).