CN215695878U - Driving device for sorting machine - Google Patents

Abstract

The utility model relates to a driving device for a sorting machine, which comprises a supporting frame, a motor and a transmission unit, wherein a balance frame is arranged above the supporting frame, the supporting frame comprises a plurality of stand columns, the stand columns are arranged on the side parts of a sorting box and are used for supporting the sorting box, the upper end parts of the stand columns are connected with vibration isolation spring mounting seats through vibration isolation springs, connecting pipes are arranged between the vibration isolation spring mounting seats on the opposite sides and corresponding to the stand columns, the connecting pipes are fixedly connected with the vibration isolation spring mounting seats, vibration connecting rods are fixedly arranged on the connecting pipes, the upper ends and the lower ends of the vibration connecting rods are connected with the sorting box and the balance frame through flexible hinges, one end of a main vibration spring is connected with the sorting box, the other end of the main vibration spring is connected with the balance frame, the motor is connected with the transmission unit, the transmission unit is connected with the sorting box, and the transmission unit converts the rotating acting force of the motor into the vibration acting force for driving the sorting box to vibrate. The utility model can ensure the synchronous vibration of the two sides of the sorting box, reduce the amplitude of the balance frame and improve the stability of the support frame.

Description

Driving device for sorting machine

Technical Field

The utility model relates to the field of driving of sorting machines, in particular to a driving device for a sorting machine.

Background

The sorting machines are classified into a vibration sorting machine, a magnetic sorting machine, a particle size sorting machine and the like. The vibration separator (gravity separator, specific gravity separator) is mainly composed of machine base, angle regulating mechanism, vibration sieve body, dust-collecting cover, vibration motor, fan and material-distributing mechanism. The vibration separator is vibrated by the driving device to separate materials with different densities. However, the sieving equipment of the sorting machine has the problems of low vibration frequency, unstable vibration and large impact when starting and braking at the part far away from the resonance area.

For example, the driving system of the garbage sorting device with combined action of vibration and wind power disclosed in chinese patent application CN110302960A and utility model CN210358066U includes a vibration device and a driving device, the vibration device includes a main vibration elastic element, a vibration connecting rod and a rubber hinge, one end of the main vibration elastic element is fixedly connected with the balance frame, the other end of the main vibration elastic element is fixedly connected with the air box, one end of the vibration connecting rod is hinged with the air box through the rubber hinge, the other end of the vibration connecting rod is hinged with the balance frame through the rubber hinge, the driving device includes a motor, a V-belt transmission mechanism, a driving connecting rod, a shear rubber elastic element mounting rack, a shear rubber elastic element, a plate spring and a plate spring mounting rack; the motor is fixed to be set up on the balance frame, the output shaft of motor with V belt drive's input fixed connection, V belt drive's output with the one end fixed connection of drive connecting rod, the other end of drive connecting rod with the one end fixed connection of leaf spring, the leaf spring other end with leaf spring mounting bracket fixed connection, it establishes to cut the fixed cover of rubber elastic element mounting bracket the outside of leaf spring mounting bracket, it is fixed to set up to cut rubber elastic element shearing rubber elastic element mounting bracket with in the clearance between the leaf spring mounting bracket. The above patent uses a motor, a driving device and a vibrating device to drive the motor and the vibrating device.

The foregoing patents mainly suffer from the following problems:

the vibrations are not synchronized. The connecting rods on the two sides of the bellows are connected with the bellows through rubber hinges, the rubber hinges are in flexible connection, and the rubber hinges on the two sides do not have transmission mechanisms capable of rotating synchronously, so that unbalance loading and asynchronous rotation of the two sides of the bellows are caused, and the technical problem that vibration on the two sides of the bellows is asynchronous is further caused.

And secondly, the vibration isolation spring connecting end has large amplitude, so that the balance frame swings to a large extent when vibrating. The vibration isolation spring has one end connected to the balance frame and the other end connected to the support frame, and the bellows and the balance frame produce opposite acting forces in the vibrating process.

And the stability of the supporting frame is poor. This is because the portion of the support frame located near the feed port is of an integral structure, while the portion located near the trash box is of a separate structure, resulting in poor overall stability of the support frame when the windbox vibrates.

SUMMERY OF THE UTILITY MODEL

The present invention is intended to provide a driving device for a sorting machine to solve the disadvantages of the prior art, and the technical problem to be solved by the present invention is achieved by the following technical solutions.

In a drive arrangement for a sorting machine including a support frame, a motor and a transmission unit, the improvement comprising: the utility model discloses a vibration isolation device, including support frame, stand, vibration isolation spring mount pad, coupling rod, motor, transmission unit, sorting bin, braced frame top is equipped with balanced frame, braced frame includes many stands, the stand sets up the lateral part at the sorting bin and is used for supporting the sorting bin, the upper end of stand passes through the vibration isolation spring and is connected with the vibration isolation spring mount pad, sets up the connecting pipe between opposite side and the corresponding vibration isolation spring mount pad, the connecting pipe with vibration isolation spring mount pad fixed connection, the fixed vibration connecting rod that is equipped with on the connecting pipe, the upper and lower both ends of vibration connecting rod pass through flexible hinge with the sorting bin with balanced frame connects, main vibration spring one end with the sorting bin is connected, the other end with balanced frame connects, the motor is connected with the transmission unit, the transmission unit with the sorting bin is connected, the rotation effort of motor turns into the vibration effort of drive sorting bin vibration.

Preferably, the support frame further comprises a plurality of cross beams connected with the upright posts, and the plurality of cross beams and the upright posts enable the support frame to form an integral frame structure.

Preferably, the motor is arranged on a motor support, and the motor support is arranged on the balance frame.

Preferably, the vibration isolation spring mounting seat comprises a mounting seat body, the connecting pipe is arranged in the mounting seat body in a penetrating mode, and the mounting seat body is connected with the vibration isolation spring.

Preferably, the motor is arranged on a motor support, the motor support is arranged on a mounting frame, and the mounting frame is arranged between the vibration isolation spring mounting seats on the same side.

Preferably, the transmission unit comprises a small belt wheel connected with the output end of the motor, a transmission belt connected with the small belt wheel, a large belt wheel connected with the transmission belt, an eccentric sleeve connected with the large belt wheel, a connecting rod bearing sleeved on the eccentric sleeve, and a driving connecting rod unit connected with the connecting rod bearing, and the other end of the driving connecting rod unit is fixedly connected with the sorting box.

Preferably, the driving connecting rod unit comprises a driving connecting rod body, a plate spring mounting frame fixedly connected with the driving connecting rod body, a shearing spring mounting frame arranged on the plate spring mounting frame and sleeved with a plate spring in the plate spring mounting frame, and a shearing spring arranged between the plate spring mounting frame and the shearing spring mounting frame, wherein the driving connecting rod body is fixedly connected with a connecting rod bearing, and the shearing spring mounting frame is fixedly connected with the separation box.

Preferably, the number of the motors is two, and the two motors are symmetrically arranged on two sides of the sorting box; the number of the transmission units is two, the two transmission units are respectively connected with the corresponding motors, and the two transmission units are connected through a connecting shaft.

Preferably, the connecting shaft is a stepped shaft, and the end part of the stepped shaft is connected with the large belt wheel key and the eccentric sleeve in a fixedly sleeved mode.

Preferably, the distance sleeve is fixedly sleeved on the stepped shaft, two ends of the distance sleeve are respectively abutted against the eccentric sleeve and sleeved on the supporting bearing, the supporting bearing seat is sleeved on the supporting bearing, and the supporting bearing seat is fixed on the balance frame.

Compared with the prior art, the utility model has the following beneficial effects:

the connecting pipe, the vibration isolation spring mounting seat and the vibration connecting rod are arranged, and the vibration connecting rods at the two ends of the connecting pipe are fixedly connected with the connecting pipe and the vibration isolation spring mounting seat, so that the two vibration connecting rods are rigidly connected, the synchronous vibration of the vibration connecting rods at the two sides of the winnowing box is realized, and the synchronous vibration of the two sides of the sorting box is ensured.

The vibration center of the connecting pipe is at the minimum when the vibration isolation spring vibration isolation device works, the vibration of the vibration center of the connecting pipe is at the minimum, and the vibration isolation spring is arranged at the center, so that the vibration amplitude of the vibration isolation spring is at the minimum; meanwhile, the vibration isolation springs are directly connected with the stand columns, so that the amplitude of the balanced frame during vibration is further reduced, and the running stability of the driving device is further improved.

And thirdly, the plurality of cross beams are arranged, and the cross beams and the upright posts are connected into an integral frame structure, so that the supporting strength of the supporting frame is enhanced, and the stability and the integral rigidity of the utility model are improved.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic front view of the transmission unit of the present invention;

FIG. 4 is a schematic side view of the transmission unit of the present invention;

the reference numbers in the drawings are, in order: 1-a support frame; 2-a vibration isolation spring; 3.1-balance frame; 3.2-motor support; 4-a main vibration spring; 5.1-vibrating the connecting rod; 5.2-flexible hinge; 5.3-connecting pipe; 5.4-mounting seat of vibration isolation spring; 6-sorting box; 7.1-small belt wheel; 7.2-motor; 7.3-transmission belt; 7.4-a transmission unit; 7.4.1-big belt wheel; 7.4.2-stepped shaft; 7.4.3-support bearing; 7.4.4-support bearing seat; 7.4.5-distance sleeve; 7.4.6-eccentric sleeve; 7.4.7-connecting rod bearings; 7.4.8-drive link body; 7.4.9-shear spring; 7.4.10-leaf spring; 7.4.11-leaf spring mount; 7.4.12-shear spring mount.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Example 1:

referring to figures 1 and 2, a drive for a sorting machine comprising a support frame 1, a motor 7.2 and a transmission unit 7.4, the improvement being: a balance frame 3.1 is arranged above the supporting frame 1, the supporting frame 1 comprises a plurality of upright posts, the upright post is arranged at the side part of the separation box and is used for supporting the separation box 6, the upper end part of the upright post is connected with a vibration isolation spring mounting seat 5.4 through a vibration isolation spring 2, a connecting pipe 5.3 is arranged between the opposite side and the corresponding vibration isolation spring mounting seat 5.4, the connecting pipe 5.3 is fixedly connected with the vibration isolation spring mounting seat 5.4, a vibration connecting rod 5.1 is fixedly arranged on the connecting pipe 5.3, the upper end and the lower end of the vibration connecting rod 5.1 are connected with the sorting box 6 and the balance frame 3.1 through a flexible hinge 5.2, one end of the main vibration spring 4 is connected with the sorting box 6, the other end is connected with the balance frame 3.1, the motor 7.2 is connected with a transmission unit 7.4, the transmission unit 7.4 is connected with the sorting box 6, the transmission unit 7.4 converts the rotational force of the motor 7.2 into a vibratory force which drives the sorting box 6 to vibrate.

In this embodiment: the supporting frame 1 is used for supporting the whole driving device, the motor 7.2 is used for providing a driving force for vibration for the sorting box 6, and the transmission unit 7.4 is used for converting the rotating acting force of the motor 7.2 into a vibrating acting force for driving the sorting box 6 to vibrate; the connecting pipe 5.3 is used for rigidly connecting the vibration connecting rods 5.1 at the two sides of the sorting box 6, so that the vibration connecting rods 5.1 synchronously vibrate, and further the vibration connecting rods 5.1 are ensured not to generate unbalance loading and lateral displacement when the sorting box 6 vibrates, thereby not only realizing the synchronous vibration at the two sides of the sorting box 6, but also realizing the technical effect that the sorting box 6 can only vibrate in a vertical plane and cannot vibrate in a horizontal plane and a longitudinal plane; the upright post, the vibration isolation spring 2 and the vibration isolation spring mounting seat 5.4 are sequentially connected, the vibration centers of the vibration connecting rod 5.1 and the connecting pipe 5.3 are superposed, and the vibration centers are positioned on the vertical axis of the vibration isolation spring 2 and the upright post, so that when the whole driving device works, the amplitude of the vibration center is minimum, the amplitude of the vibration isolation spring 2 is reduced, the stability of the whole device is improved, and meanwhile, the vibration isolation spring is connected with the upright post, and the amplitude of a balance frame is also reduced; the upper end and the lower end of the vibration connecting rod 5.1 are respectively connected with the sorting box 6 and the balance frame 3.1 through flexible hinges 5.2, so that a stroke space is provided for the vibration of the vibration connecting rod 5.1 and the vibration of the sorting box 6; the setting of master spring 4 provides the buffering for the vibration of separation box 6 on the one hand, and on the other hand provides the resilience effort for the reseing of separation box 6 again.

This embodiment during operation, motor 7.2 drive transmission unit 7.4 drive sorting box 6 vibration, and flexible hinge 5.2 and main vibrating spring 4 provide vibration stroke and vibration buffering, resilience effort that resets for sorting box 6, and connecting pipe 5.3 and vibration connecting rod 5.1 guarantee that 6 both sides of sorting box vibrate in step, and vibration isolation spring 2 carries out the shock attenuation to whole drive arrangement.

Furthermore, the stand column sets up two sets at least, and every group includes two stand columns of relative setting.

Further, at least two groups of vibration isolation springs 2 are arranged, and each group comprises two vibration isolation springs 2 which are oppositely arranged; the number and the position of the vibration isolation spring mounting seats 5.4 are matched with the number and the position of the vibration isolation springs 2.

Furthermore, at least two connecting pipes 5.3 are arranged, and two ends of each connecting pipe 5.3 are rotatably connected with the vibration isolation spring mounting seat 5.4.

Further, the vibration connecting rods 5.1 are at least provided with two groups, each group comprises two vibration connecting rods 5.1 which are oppositely arranged, and the two vibration connecting rods 5.1 of each group are connected through a connecting pipe 5.3 and synchronously rotate with the connecting pipe 5.3. In this embodiment, in order to improve the stability of the whole driving device, two, three or more sets of columns may be provided, and the numbers and positions of the vibration isolation springs 2, the vibration isolation spring mounting seats 5.4, the connecting pipes 5.3 and the vibration connecting rods 5.1 are all matched with the columns.

Further, the flexible hinge 5.2 is a rubber hinge. In this embodiment, a rubber hinge is selected as the flexible hinge 5.2, so that a stroke space is provided for the rotation of the vibration connecting rod 5.1 and the vibration of the sorting box 6.

Further, at least two groups of main vibration springs 4 are arranged, and each group comprises at least two main vibration springs 4 which are correspondingly arranged; further, the main vibrating spring 4 is arranged obliquely. In this embodiment, two or more groups of main vibration springs 4 may be provided as required; when a plurality of groups of main vibration springs 4 are arranged, a plurality of groups of parts such as the upright post, the vibration isolation spring 2, the vibration connecting rod 5.1, the connecting pipe 5.3 and the like are correspondingly arranged to be matched with the main vibration springs 4; the groups of main vibration springs 4 can be uniformly spaced or non-uniformly spaced.

Further, the supporting frame 1 further comprises a plurality of cross beams connected with the upright posts, and the plurality of cross beams and the upright posts enable the supporting frame 1 to form an integral frame structure. In this embodiment, through setting up many crossbeams to be connected the stand through the crossbeam, thereby make braced frame 1 form overall structure, both strengthened braced frame 1's support intensity, strengthened braced frame 1's stability again.

Example 2:

on the basis of embodiment 1, the vibration isolation spring mounting seat 5.4 includes a mounting seat body, the connecting pipe 5.3 is arranged in the mounting seat body in a penetrating manner, and the mounting seat body is connected with the vibration isolation spring 2.

Further, the motor 7.2 is arranged on a motor support 3.2, and the motor support 3.2 is arranged on the balance frame 3.1; or, motor 7.2 sets up on motor support 3.2, motor support 3.2 locates on the mounting bracket, the mounting bracket set up in being located the homonymy between the isolation spring mount pad 5.4.

In this embodiment, a preferred way of mounting the isolation spring mount 5.4 is given, thereby providing a choice of mounting positions for the motor 7.2. When the motor 7.2 and the motor support 3.2 are installed on the installation frame, the motor 7.2 does not vibrate with the balance frame 3.1 at the same time, and the stability of the whole driving device can be further improved.

Example 3:

on the basis of embodiment 1 or 2, referring to fig. 3 and 4, the transmission unit 7.4 includes a small pulley 7.1 connected to an output end of a motor 7.2, a transmission belt 7.3 connected to the small pulley 7.1, a large pulley 7.4.1 connected to the transmission belt, an eccentric sleeve 7.4.6 connected to the large pulley 7.4.1, a connecting rod bearing 7.4.7 sleeved on the eccentric sleeve 7.4.6, and a driving link unit connected to the connecting rod bearing 7.4.7, and the other end of the driving link unit is fixedly connected to the sorting box 6.

In the present embodiment, a preferred mode of the transmission unit 7.4 is given, and the rotation force of the motor 7.2 can be converted into the vibration force for driving the sorting box 6 to vibrate through the eccentric sleeve 7.4.6.

Further, the output end of the motor 7.2 is connected with the small belt wheel 7.1 in a key mode, the small belt wheel 7.1 and the large belt wheel 7.4.1 are both V-shaped belt wheels, and the transmission belt 7.3 is a V-shaped transmission belt.

Further, the drive link unit includes drive link body 7.4.8, with drive link body 7.4.8 fixed connection's leaf spring mounting bracket 7.4.11, install in leaf spring 7.4.10 among the leaf spring mounting bracket 7.4.11, the shearing spring mounting bracket 7.4.12 of locating on leaf spring mounting bracket 7.4.11, locate leaf spring mounting bracket 7.4.11 with shearing spring 7.4.9 between the shearing spring mounting bracket 7.4.12, drive link body 7.4.8 with connecting rod bearing 7.4.7 fixed connection, shearing spring mounting bracket 7.4.12 with sorting bin 6 fixed connection.

In this embodiment, the arrangement of the shear spring 7.4.9 and the leaf spring 7.4.10 can convert the rigid connection of the drive link unit to the sort box 6 into a flexible connection, thereby reducing the loss of equipment during operation.

Further, the shear spring 7.4.9 is a shear rubber spring.

Furthermore, the number of the motors 7.2 is two, and the motors are symmetrically arranged on two sides of the sorting box 6; the number of the transmission units 7.4 is two, the two transmission units 7.4 are respectively connected with the corresponding motors 7.2, and the two transmission units are connected through a connecting shaft.

Further, the motor 7.2 is a synchronous motor.

Furthermore, the connecting shaft is a stepped shaft 7.4.2, and the end part of the stepped shaft 7.4.2 is in key connection with the large belt wheel 7.4.1 and is fixedly sleeved and connected with the eccentric sleeve 7.4.6.

Further, a distance sleeve 7.4.5 is fixedly sleeved on the stepped shaft 7.4.2, two ends of the distance sleeve 7.4.5 are respectively abutted against the eccentric sleeve 7.4.6 and sleeved on the supporting bearing 7.4.3, the supporting bearing seat 7.4.4 is sleeved on the supporting bearing 7.4.3, and the supporting bearing seat 7.4.4 is fixed on the balance frame 3.1.

In this embodiment, the stepped shaft 7.4.2 is arranged to ensure synchronization between the motor 7.2 and the vibration link 5.1 at both sides, and the support bearing seat 7.4.4 and the support bearing 7.4.3 can provide a rotational support for the stepped shaft 7.4.2.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular is intended to include the plural unless the context clearly dictates otherwise. Furthermore, it will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in other sequences than those illustrated or otherwise described herein.

Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements explicitly listed, but may include other steps or elements not explicitly listed or inherent to such process, method, article, or apparatus.

Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may also be oriented in other different ways, such as by rotating it 90 degrees or at other orientations, and the spatially relative descriptors used herein interpreted accordingly.

In the foregoing detailed description, reference is made to the accompanying drawings, which form a part hereof. In the drawings, like numerals typically identify like components, unless context dictates otherwise. The illustrated embodiments described in the detailed description, drawings, and claims are not meant to be limiting. Other embodiments may be utilized, and other changes may be made, without departing from the spirit or scope of the subject matter presented here.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A drive arrangement for a sorting machine, comprising a support frame (1), a motor (7.2) and a transmission unit (7.4), characterized in that: a balance frame (3.1) is arranged above the supporting frame (1), the supporting frame (1) comprises a plurality of upright columns, the upright columns are arranged at the side part of the sorting box and are used for supporting the sorting box (6), the upper end parts of the upright columns are connected with vibration isolation spring mounting seats (5.4) through vibration isolation springs (2), connecting pipes (5.3) are arranged between the vibration isolation spring mounting seats (5.4) which are opposite and correspond to each other, the connecting pipes (5.3) are fixedly connected with the vibration isolation spring mounting seats (5.4), vibration connecting rods (5.1) are fixedly arranged on the connecting pipes (5.3), the upper end and the lower end of each vibration connecting rod (5.1) are connected with the sorting box (6) and the balance frame (3.1) through flexible hinges (5.2), one end of a main vibration spring (4) is connected with the sorting box (6), the other end of the main vibration spring (4) is connected with the balance frame (3.1), and a motor (7.2) is connected with a transmission unit (7.4), the transmission unit (7.4) is connected with the sorting box (6), and the transmission unit (7.4) converts the rotation acting force of the motor (7.2) into the vibration acting force for driving the sorting box (6) to vibrate.

2. A driving apparatus for a sorting machine according to claim 1, wherein: the supporting frame (1) further comprises a plurality of cross beams connected with the stand columns, and the plurality of cross beams and the stand columns enable the supporting frame (1) to form an integral frame structure.

3. A driving apparatus for a sorting machine according to claim 1, wherein: the motor (7.2) is arranged on the motor support (3.2), and the motor support (3.2) is arranged on the balance frame (3.1).

4. A driving apparatus for a sorting machine according to claim 1, wherein: the vibration isolation spring mounting seat (5.4) comprises a mounting seat body, the connecting pipe (5.3) penetrates through the mounting seat body, and the mounting seat body is connected with the vibration isolation spring (2).

5. A driving apparatus for a sorting machine according to claim 4, wherein: the motor (7.2) is arranged on the motor support (3.2), the motor support (3.2) is arranged on the mounting frame, and the mounting frame is arranged between the vibration isolation spring mounting seats (5.4) on the same side.

6. A driving apparatus for a sorting machine according to claim 1, wherein: the transmission unit (7.4) comprises a small belt wheel (7.1) connected with the output end of a motor (7.2), a transmission belt (7.3) connected with the small belt wheel (7.1), a large belt wheel (7.4.1) connected with the transmission belt, an eccentric sleeve (7.4.6) connected with the large belt wheel (7.4.1), a connecting rod bearing (7.4.7) sleeved on the eccentric sleeve (7.4.6) and a driving connecting rod unit connected with the connecting rod bearing (7.4.7), wherein the other end of the driving connecting rod unit is fixedly connected with the sorting box (6).

7. A driving apparatus for a sorting machine according to claim 6, wherein: drive link unit include drive connecting rod body (7.4.8), with drive connecting rod body (7.4.8) fixed connection's leaf spring mounting bracket (7.4.11), install in leaf spring (7.4.10) in leaf spring mounting bracket (7.4.11), shearing spring mounting bracket (7.4.12) on leaf spring mounting bracket (7.4.11) are located to the cover, locate leaf spring mounting bracket (7.4.11) with shear spring (7.4.9) between shearing spring mounting bracket (7.4.12), drive connecting rod body (7.4.8) with connecting rod bearing (7.4.7) fixed connection, shear spring mounting bracket (7.4.12) with separation box (6) fixed connection.

8. A driving apparatus for a sorting machine according to claim 7, wherein: the number of the motors (7.2) is two, and the motors are symmetrically arranged on two sides of the sorting box (6); the number of the transmission units (7.4) is two, the two transmission units (7.4) are respectively connected with the corresponding motors (7.2), and the two transmission units are connected through a connecting shaft.

9. A driving apparatus for a sorting machine according to claim 8, wherein: the connecting shaft is a stepped shaft (7.4.2), and the end part of the stepped shaft (7.4.2) is connected with the large belt wheel (7.4.1) in a key way and fixedly sleeved and connected with the eccentric sleeve (7.4.6).

10. A driving apparatus for a sorting machine according to claim 9, wherein: fixed cover is gone up to stepped shaft (7.4.2) and is established distance cover (7.4.5), the both ends of distance cover (7.4.5) are butt eccentric cover (7.4.6) respectively and are located supporting bearing (7.4.3) on stepped shaft (7.4.2) with the cover, supporting bearing (7.4.4) are established to the cover on supporting bearing (7.4.3), supporting bearing (7.4.4) are fixed in on balanced frame (3.1).

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