Double-end shaking machine

文档序号:1222311 发布日期:2020-09-08 浏览:10次 中文

阅读说明:本技术 一种双头摇匀机 (Double-end shaking machine ) 是由 朱月园 于 2020-06-28 设计创作,主要内容包括:本发明新型公开了一种双头摇匀机,该摇匀机属于锂电池材料烧结领域。所述双头摇匀机包括底座支架、传送机构和振动组件,所述底座支架用于固定传送机构,所述传送机构用于传送匣钵至固定位置再通过振动组件起振,所述振动组件包括一个振动源和若干个匣钵固定架,每个所述匣钵固定架之间固定连接,所述振动源与其相邻的一个匣钵固定架通过偏心轮传动连接。本发明新型公开的目的是为了解决传统摇匀机结构复杂且无法批量处理匣钵,对匣钵内粉体物料进行摇匀的问题。本摇匀机结构简单合理,并且可以根据实际情况将匣钵批量化处理,大大提高了处理效率。(The invention discloses a double-head shaking machine, and belongs to the field of lithium battery material sintering. Double-end shake even machine and include base support, transport mechanism and vibration subassembly, the base support is used for fixed transport mechanism, transport mechanism is used for conveying casket-like bowl to fixed position rethread vibration subassembly oscillation starting, the vibration subassembly includes a vibration source and a plurality of casket-like bowl mount, every fixed connection between the casket-like bowl mount, the vibration source passes through the eccentric wheel transmission with other adjacent casket-like bowl mount and is connected. The invention aims to solve the problems that the traditional shaking machine is complex in structure and cannot process saggars in batches, and powder materials in the saggars are shaken uniformly. This shake even machine simple structure is reasonable to can improve the treatment effeciency greatly with the casket-like bowl batch processing according to actual conditions.)

1. The utility model provides a double-end shaking machine, includes base support (20), transport mechanism and vibration subassembly, base support (20) are used for fixed transport mechanism, transport mechanism is used for conveying sagger to fixed position rethread vibration subassembly oscillation starting, its characterized in that: the vibration component comprises a vibration source and a plurality of sagger fixing frames, each sagger fixing frame is fixedly connected with the other sagger fixing frame, and the vibration source is in transmission connection with the adjacent sagger fixing frame through an eccentric wheel (8).

2. The double-ended jolt roller according to claim 1, wherein: every sagger mount includes vertical mount and horizontal mount, the horizontal mount with vertical mount passes through cylinder (11) fixed connection, vertical mount includes a square support (6), every angle downwardly extending of square support (6) has vertical landing leg (15), four vertical landing leg (15) extend to cylinder (2) clearance department of cylinder conveyer belt (3), be connected with first horizontal pole (16) between two adjacent vertical landing leg (15) of perpendicular cylinder (2) direction, two downwardly extending has support horizontal pole (17) between first horizontal pole (16), support horizontal pole (17) are located cylinder (2) clearance department, support horizontal pole (17) are used for promoting the sagger when vertical mount reciprocates, be provided with second horizontal pole (18) between two arbitrary vertical landing legs (15) in the upper portion of vertical mount, the second cross rod (18) is used for being fixedly connected with the side face of the air cylinder (11);

the horizontal fixing frame comprises four first fixing plates (12) arranged at the middle parts of the vertical supporting legs (15), the tops of the first fixing plates (12) are fixedly connected with the bottom of the air cylinders (11), limiting shells (9) with downward openings are arranged at the bottoms of the first fixing plates (12), the limiting shells (9) are used for limiting saggars after jacking, and sliding limiting parts (14) are further arranged in the direction of the side surface of each first fixing plate (12) perpendicular to the roller (2).

3. A double head shake-up machine according to claim 2, characterised in that: the sagger is characterized in that a plurality of supporting columns (10) are fixedly arranged on the supporting cross rod (17), an anti-slip layer is arranged at the tops of the supporting columns (10), and the anti-slip layer is used for preventing the sagger from slipping off.

4. A double head shake-up machine according to claim 3, characterised in that: the sagger fixing frame is characterized in that an eccentric wheel (8) connecting piece is arranged on a limiting shell (9) of the sagger fixing frame adjacent to the eccentric wheel (8), the eccentric wheel (8) connecting piece comprises two vertically arranged stop blocks and a round shaft bridged between the two stop blocks, and a through hole at the tail end of the eccentric wheel (8) is sleeved on the round shaft.

5. The double-ended jolt roller according to claim 4, wherein: eccentric wheel (8) with be provided with a baffle (4) between the casket-like bowl mount, set up the plate body that first through-hole is used for running through eccentric wheel (8) on baffle (4), two second through-holes have still been seted up on baffle (4), the second through-hole is used for running through gag lever post (13), gag lever post (13) are used for the cover to establish slip locating part (14) on the casket-like bowl mount, gag lever post (13) and slip locating part (14) cooperation make the casket-like bowl mount wave under the effect of eccentric wheel (8).

6. A double head shake-up machine according to claim 2, characterised in that: a conical hopper (5) is arranged below the roller conveyor belt (3), and the conical hopper (5) is used for collecting powder materials which fly out when the saggar is shaken or limiting the powder materials which fall on the saggar when the saggar is moved away.

7. The double-ended jolt roller according to claim 1, wherein: the conveying mechanism is provided with a protective shell (1) in an upper cover mode, a sagger inlet (19) and a sagger outlet are formed in the protective shell (1), and the sagger inlet (19) and the sagger outlet are symmetrically arranged relative to the conveying mechanism and used for conveying saggers.

Technical Field

The invention relates to the field of lithium battery material sintering, in particular to a double-head shaking-up machine.

Background

In traditional lithium cell cathode material sintering production line, when sintering lithium cell cathode material powder, add the powder in the saggar, the powder is piled up the back and can be the taper, be unfavorable for the later stage sintering, so need shake even to the powder in the saggar, consequently, it shakes even to shake even machine powder in the saggar to be needed, there is a shake even machine among the prior art, it is through setting up the workstation, keep off the mechanism, hoist mechanism, snatch the subassembly and shake even subassembly, convey the saggar and stop the back on the workstation, upwards promote the saggar in vertical direction, and grab the saggar through snatching the subassembly and shake even on the lateral shifting board, this kind shakes even machine structure complicacy and can only handle single saggar with the period, work efficiency is low.

Disclosure of Invention

In order to solve the problems, the invention provides a double-head shaking machine, which is characterized in that a sagger is conveyed to a designated position through a conveying mechanism and then is jacked, and the jacked sagger is fixed in a sagger fixing frame and then is driven to rotate through the rotation of an eccentric wheel, so that the shaking effect is realized.

In view of the above situation, the invention provides a double-head shaking machine, which comprises a base support, a conveying mechanism and a vibration assembly, wherein the base support is used for fixing the conveying mechanism, the conveying mechanism is used for conveying saggars to a fixed position and then vibrating through the vibration assembly, the vibration assembly comprises a vibration source and a plurality of saggar fixing frames, each saggar fixing frame is fixedly connected with each other, and the vibration source is in transmission connection with one adjacent saggar fixing frame through an eccentric wheel.

Preferably, each sagger fixing frame comprises a vertical fixing frame and a horizontal fixing frame, the horizontal fixing frame is fixedly connected with the vertical fixing frame through an air cylinder, the vertical fixing frame comprises a square support, each angle of the square support extends downwards to form a vertical supporting leg, four vertical supporting legs extend to a roller gap of a roller conveyor belt, a first cross rod is connected between two adjacent vertical supporting legs in the direction vertical to the roller, a supporting cross rod extends downwards between the two first cross rods, the supporting cross rod is located at the roller gap and used for lifting the saggers when the vertical fixing frame moves up and down, a second cross rod is arranged between any two vertical supporting legs at the upper part of the vertical fixing frame and used for being fixedly connected with the side face of the air cylinder;

the horizontal fixing frame comprises four first fixing plates arranged at the middle parts of the vertical supporting legs, the tops of the first fixing plates are fixedly connected with the bottoms of the cylinders, limiting shells with downward openings are arranged at the bottoms of the first fixing plates, the limiting shells are used for limiting saggars after jacking, and sliding limiting parts are further arranged on the side faces of the first fixing plates perpendicular to the direction of the roller.

Preferably, the support cross rod is fixed and is provided with a plurality of support columns, the support column top is provided with the skid resistant course, the skid resistant course is used for preventing the casket-like bowl landing.

Preferably, an eccentric wheel connecting piece is arranged on a limiting shell of the sagger fixing frame, the limiting shell is adjacent to the eccentric wheel, the eccentric wheel connecting piece comprises two vertically arranged stop blocks and a round shaft bridged between the two stop blocks, a through hole at the tail end of the eccentric wheel is sleeved on the round shaft, a vibration source can be arranged as a motor, when the motor vibrates, a motor rotating shaft drives the eccentric wheel to rotate, a large-size end of the eccentric wheel revolves along with the motor rotating shaft, a small-size end of the eccentric wheel moves along with the large-size end, and the eccentric wheel drives the sagger fixing frame to move left and right due to the fact that the small-size end is provided.

Preferably, the eccentric wheel with be provided with a baffle between the sagger mount, set up the first through-hole on the baffle and be used for running through the plate body of eccentric wheel, two second through-holes have still been seted up on the baffle, the second through-hole is used for running through the gag lever post, the gag lever post is used for the cover to establish slip locating part on the sagger mount, the gag lever post makes the sagger mount rock under the effect of eccentric wheel with the cooperation of slip locating part.

Preferably, a conical hopper is arranged below the roller conveyor belt and used for collecting powder materials flying out when the saggars are shaken or limiting the powder materials falling from the saggars when the saggars are moved away.

Preferably, a protective shell is arranged on the upper cover of the conveying mechanism, a sagger inlet and a sagger outlet are formed in the protective shell, and the sagger inlet and the sagger outlet are symmetrically arranged relative to the conveying mechanism and used for conveying saggers.

Compared with the prior art, the invention has the following beneficial effects: after conveying mechanism conveys the saggar to the corresponding position of saggar mount along with conveying mechanism through setting up the conveying mechanism wholesale, climbing mechanism again with the upwards jacking of saggar to spacing casing in, thereby the eccentric wheel rotates and drives the saggar mount horizontal direction and rocks, this shake even machine simple structure is reasonable to can handle the saggar wholesale according to actual conditions, improve the treatment effeciency greatly.

Drawings

FIG. 1 is a schematic structural view of a shaking machine according to the present invention

FIG. 2 is a schematic view of the interior of the protective shell of the shake-up machine

FIG. 3 is a concrete structure of a vibration component and a sagger fixing frame

In the figure, 1 is a protective shell, 2 is a roller, 3 is a roller conveyor belt, 4 is a baffle, 5 is a conical hopper, 6 is a square support, 7 is a motor, 8 is an eccentric wheel, 9 is a limiting shell, 10 is a supporting column, 11 is a cylinder, 12 is a first fixing plate, 13 is a limiting rod, 14 is a limiting part, 15 is a vertical supporting leg, 16 is a first cross rod, 17 is a supporting cross rod, 18 is a second cross rod, 19 is a sagger inlet, and 20 is a base support.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-3, the double-head shaking-up machine provided by the invention comprises a base support 20, a transmission mechanism and a vibration assembly, wherein the base support 20 is used for fixing the transmission mechanism, the transmission mechanism is used for transmitting saggars to fixed positions and then vibrating through the vibration assembly, the vibration assembly comprises a motor and two saggar fixing frames, each saggar fixing frame is fixedly connected with each other, and the motor is in transmission connection with one adjacent saggar fixing frame through an eccentric wheel 8.

Each sagger fixing frame comprises a vertical fixing frame and a horizontal fixing frame, the horizontal fixing frame is fixedly connected with the vertical fixing frame through an air cylinder 11, the vertical fixing frame comprises a square support 6, each angle of the square support 6 extends downwards to form a vertical supporting leg 15, four vertical supporting legs 15 extend to a gap of a roller 2 of a roller conveyor belt 3, a first cross rod 16 is connected between two adjacent vertical supporting legs 15 in the direction perpendicular to the roller 2, a supporting cross rod 17 extends downwards between the two first cross rods 16, the supporting cross rod 17 is located in the gap of the roller 2, the supporting cross rod 17 is used for lifting the saggers when the vertical fixing frame moves up and down, a second cross rod 18 is arranged between any two vertical supporting legs 15 on the upper portion of the vertical fixing frame, and the second cross rod 18 is used for being fixedly connected with the;

the horizontal fixing frame comprises four first fixing plates 12 arranged in the middle of the vertical supporting legs 15, the tops of the first fixing plates 12 are fixedly connected with the bottom of the air cylinders 11, limiting shells 9 with downward openings are arranged at the bottoms of the first fixing plates 12, the limiting shells 9 are used for limiting saggars after jacking, and sliding limiting parts 14 are further arranged on the side faces of the first fixing plates 12 perpendicular to the direction of the rollers 2.

Seven support columns 10 are fixedly arranged on the support cross rod 17, an anti-skid layer is arranged on the top of each support column 10, and the anti-skid layer is used for preventing the saggars from slipping off.

An eccentric wheel 8 connecting piece is arranged on a limiting shell 9 of the sagger fixing frame adjacent to the eccentric wheel 8, the eccentric wheel 8 connecting piece comprises two vertically arranged stop blocks and a round shaft bridged between the two stop blocks, and a through hole at the tail end of the eccentric wheel 8 is sleeved on the round shaft.

Eccentric wheel 8 with be provided with a baffle 4 between the casket-like bowl mount, set up first through-hole on the baffle 4 and be used for running through the plate body of eccentric wheel 8, two second through-holes have still been seted up on the baffle 4, the second through-hole is used for running through gag lever post 13, gag lever post 13 is used for the cover to establish slip locating part 14 on the casket-like bowl mount, gag lever post 13 makes the casket-like bowl mount wave under the effect of eccentric wheel 8 with the cooperation of slip locating part 14.

A conical hopper 5 is arranged below the roller conveyor belt 3, and the conical hopper 5 is used for collecting powder materials which fly out when the saggar is shaken or limiting the powder materials falling on the saggar when the saggar is moved away.

The conveying mechanism is provided with a protective shell 1 in an upper cover mode, a sagger inlet 19 and a sagger outlet are formed in the protective shell 1, and the sagger inlet 19 and the sagger outlet are symmetrically arranged relative to the conveying mechanism and used for conveying saggers.

After the feeding of the powder materials in the sagger is finished in the previous process, the powder materials are conveyed to a position corresponding to the limiting shell 9 through the drum conveyor belt 3 through the sagger inlet 19, the jacking cylinder 11 starts to move, the vertical fixing frame is lifted upwards, the sagger is lifted to the limiting shell 9 with an opening at the bottom and then clamped, the motor 7 starts to drive the eccentric wheel 8 to rotate, the left and right shaking of the sagger is realized, the jacking cylinder 11 moves downwards after the shaking is finished, and when the height of the top of the supporting column 10 is lower than that of the top of the drum 2, the sagger continues to move forwards along with the drum conveyor belt 3 and is conveyed to the next process from the sagger outlet; because the even machine that shakes that this embodiment provided contains two sagger mounts, and fixed connection between two sagger mounts, consequently, can hold two the same saggers simultaneously and get into even machine that shakes in this embodiment, block two saggers in back and begin to shake simultaneously, simple structure and efficiency are higher.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

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