CN113401453B

CN113401453B - Shell dust removal system

Info

Publication number: CN113401453B
Application number: CN202110959741.2A
Authority: CN
Inventors: 张晓珍; 王建南; 高昱; 黄丽萍; 王璐颖
Original assignee: Changzhou Changlong Motor Co ltd
Current assignee: Changzhou Changlong Motor Co ltd
Priority date: 2021-08-20
Filing date: 2021-08-20
Publication date: 2021-11-19
Anticipated expiration: 2041-08-20
Also published as: CN113401453A

Abstract

The invention relates to a machine shell dust removal system, which comprises a first moving pair, a second moving pair and a third moving pair, wherein the first moving pair is suitable for bearing a conveying machine shell; the dust adhering part is positioned on the first moving pair and is suitable for cleaning the machine shell conveyed on the first moving pair; a transfer portion located at a delivery end of the first sliding pair; the machine shell conveyed by the first moving pair is suitable for supporting the dust adhering part in the moving process so that the dust adhering part can clean the machine shell; the transfer portion is suitable for conveying the cleaned machine shell to the outside. The invention has simple structure, the shell is conveyed on the first sliding pair, the shell props the cleaning roller, so that the cleaning roller extrudes the shell, the surface of the cleaning roller is provided with viscous materials, so that impurities on the surface of the shell are adhered away, when the shell is repeatedly used, a new label is conveniently pasted on the shell, the repeated use of the shell is not influenced, the repeated use rate of the shell is improved, and the cleaning efficiency of the shell is also improved.

Description

Shell dust removal system

Technical Field

The invention relates to the technical field of motors, in particular to a shell dust removal system.

Background

The last procedure of motor production is labeling, and a label with motor parameters and a production batch number is pasted on a shell of the motor. As shown in fig. 1, the motor casing is a square casing, the production lot numbers are attached to two sides of the motor, and the motor parameters are attached to the upper surface of the motor. In the motor assembling process, other parts in the motor are damaged and are not in accordance with requirements, so that the motor cannot normally run after being assembled. The motor casing can be used normally, but if the casing needs to be used normally, the following problems can occur:

1. impurities exist on the surface of the motor shell, the motor shell needs to be cleaned and then reused, and the efficiency of manually cleaning the motor shell is low, so that the daily production requirement cannot be met;

2. after the motor shell is cleaned, the motor shell needs to be manually recovered, and the efficiency is low.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome one of the technical problems in the prior art, the present invention provides a housing dust removing system, comprising,

the first moving pair is suitable for bearing the conveying shell;

the dust adhering part is positioned on the first moving pair and is suitable for cleaning the machine shell conveyed on the first moving pair;

a transfer portion located at a delivery end of the first sliding pair; wherein,

the machine shell conveyed by the first moving pair is suitable for supporting the dust adhering part in the moving process so that the dust adhering part can clean the machine shell; the transfer portion is suitable for conveying the cleaned machine shell to the outside.

Further, the dust-sticking part comprises a bracket arranged at the end of the first movable pair, a transmission rod rotatably arranged on the bracket and a cleaning roller rotatably arranged on the transmission rod; wherein

The machine shell conveyed by the first moving pair is suitable for supporting the cleaning roller during moving.

Furthermore, a rotating groove is formed in the support, the transmission rod is rotatably arranged in the rotating groove through a pin shaft, and the transmission rod is connected with the rotating groove through a pin shaft

When the cleaning roller is supported to the highest point, the machine shell can pass through the space between the cleaning roller and the first moving pair under the conveying of the first moving pair.

Further, the transmission rod is L-shaped.

Further, the transfer portion includes a rotating disk and a driving roller rotatably provided on the rotating disk, wherein,

the rotating disc is rotatably arranged on the bracket;

the driving roller is in transmission connection with a driving mechanism so that the driving roller pushes the shell to move.

Further, the transfer part also comprises a slide,

the slide is disposed on both sides of the rotating disk, an

The length direction of the slide is perpendicular to the conveying direction of the first sliding pair.

Further, the transfer part further comprises a rotary cylinder, wherein,

the rotary cylinder is fixedly connected with the bottom of the rotary disk.

Further, the device also comprises an extrusion rejecting part, wherein the extrusion rejecting part is positioned at the end of the first sliding pair;

a second moving pair, wherein the conveying direction of the second moving pair is collinear with the conveying direction of the first moving pair; the second sliding pair is suitable for receiving the shell on the extrusion rejecting part or pushing the shell on the conveying track to the extrusion rejecting part;

a labeling part; the labeling part is positioned right above the second moving pair and is suitable for stripping a new label;

after the machine shell with the old labels conveyed by the first moving pair is conveyed to the dust adhering part to be cleaned, the machine shell with the old labels is conveyed to the extrusion removing part by the first moving pair to remove the old labels to form a non-label machine shell; the second sliding pair receives the label-free shell and reversely conveys the label-free shell to the position right below the labeling part, and the labeling part is used for attaching a new label to the label-free shell to form a new label shell; the second sliding pair pushes the new label shell to the extrusion rejecting part and the extrusion rejecting part extrudes and paves new labels; the transfer portion is suitable for conveying the paved shell to the outside.

Further, the extrusion rejecting part comprises an upper pressing plate and rejecting arms arranged on two sides of the upper pressing plate in a mirror image manner, and

one end edge of the upper pressure plate close to the first moving pair forms a first razor edge; the edge of one end of the rejecting arm close to the first moving pair forms a second shaving edge; wherein

The old labels on the upper end face of the old label housing conveyed by the first moving pair are adapted to be rejected by the first razor blade; the old labels on both sides are adapted to be removed by one of said second razor edges.

Further, the rejecting arm comprises a fixed arm and a shaver arm which are integrally arranged, the shaver arm is arranged in an arc shape and has elasticity, and the second shaver edge is positioned at the free end part of the shaver arm;

the upper pressing plate comprises an arc-shaped hard plate, two sides of the arc-shaped hard plate are fixedly connected with the fixing arm respectively, the first razor blade is positioned at the free end part of the arc-shaped hard plate, and the arc surface of the arc-shaped hard plate faces the second sliding pair; wherein

The razor arm is adapted to press against a side wall of the housing.

Has the advantages that: 1. the invention has simple structure, the shell is conveyed on the first sliding pair, the shell props the cleaning roller, so that the cleaning roller extrudes the shell, the surface of the cleaning roller is provided with viscous materials, so that impurities on the surface of the shell are adhered away, when the shell is repeatedly used, a new label is conveniently pasted on the shell, the repeated use of the shell is not influenced, the repeated use rate of the shell is improved, and the cleaning efficiency of the shell is also improved.

2. According to the invention, the first moving pair conveys the shell with the old label to the extrusion rejecting part to reject the old label, then the second moving pair receives the shell without the label and reversely conveys the shell without the label to the position right below the labeling part, and the labeling part is adhered with a new label to the shell without the label to form a new label shell; the second sliding pair pushes the new label shell to the extrusion rejecting part and the extrusion rejecting part extrudes and paves the new label, the extrusion rejecting part is fully utilized, the removal and the extrusion paving of the label on the shell are realized through the extrusion rejecting part, the structure is simple, the recycling of the shell is realized, and the reuse rate is improved.

3. The transfer part is arranged, and the machine shell with the new label is transferred to the next process or to the outside through the transfer part, so that the automation degree is improved, and the labor cost is reduced.

Drawings

FIG. 1 is a schematic view of the housing of the present invention in a label-bearing initial state;

FIG. 2 is a schematic view of the housing of the present invention in a label applying state;

FIG. 3 is a schematic view of the overall structure of the present invention;

FIG. 4 is another schematic view of the overall structure of the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4;

FIG. 6 is a schematic view of the structure of the dust-binding portion of the present invention;

FIG. 7 is a schematic view of a labeling part according to the present invention;

FIG. 8 is a schematic view of the right hand razor arm of the present invention;

in the figure:

100. a first sliding pair 110, a rotating shaft 120, a conveying belt 130 and a guardrail;

200. a second sliding pair;

300. the device comprises an extrusion removing part 310, an upper pressing plate 311, a first razor blade edge 320, a removing arm 321, a fixed arm 322, a razor arm 323, a second razor blade edge 330 and a lifting cylinder;

400. a labeling part 410, an unwinding roller 420, a winding roller 430 and a stripping roller;

500. a housing;

600. a dust sticking part 610, a bracket 620, a transmission rod 630, a cleaning roller 640, a rotating groove 650 and a pin shaft;

700. a transfer part 710, a rotating disk 720, a driving roller 730, a rotating cylinder 740 and a slide.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic may be included in at least one implementation of the invention. In the description of the present invention, it is to be understood that the terms "upper", "top", "bottom", and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be taken as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. Moreover, the terms "first," "second," and the like 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 data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein.

Example 1

A first moving pair 100, the first moving pair 100 being adapted to carry a conveyor housing 500;

the dust adhering part 600 is positioned on the first moving pair 100, and the dust adhering part 600 is suitable for cleaning the machine shell 500 conveyed on the first moving pair 100;

a transfer section 700, the transfer section 700 being located at the end of delivery of the first sliding pair 100. Conveying casing 500 on first sliding pair 100, casing 500 props bonding dust portion 600 to bonding dust portion 600 extrudes casing 500, and bonding dust portion 600 glues away the impurity on casing 500 surface, when casing 500 used repeatedly, conveniently pasted new label on casing 500, does not influence casing 500's used repeatedly, has improved casing 500 rate of reuse, has also improved the clear efficiency of casing 500.

First moving pair

The first sliding pair 100 mainly serves as a simple bearing conveyor shell 500, and the structure thereof can adopt a simple crawler conveyor, and can also adopt the following structure:

the first sliding pair 100 comprises a plurality of rotating shafts 110 and a conveying belt 120 arranged on the rotating shafts 110; a plurality of limiting blocks are transversely arranged on the conveying belt 120, and a placing cavity is formed between every two adjacent limiting blocks. The casing 500 is placed in the placing cavity, and the length of the placing cavity is consistent with that of the casing 500, so that the casing 500 is prevented from axially displacing in the placing cavity, and the stability in the conveying process is ensured. The first sliding pair 100 is provided with guard rails 130 at two sides, and the guard rails 130 prevent the casing 500 from being displaced laterally when being placed in the placing cavity.

Extrusion removing part

The press reject part 300 is used to reject an old label on the casing 500 and to press a new label on the casing 500, thereby laying the new label on the casing 500.

The extrusion rejecting part 300 comprises an upper pressing plate 310 and rejecting arms 320 arranged on two sides of the upper pressing plate 310 in a mirror image manner, wherein a first razor blade 311 is formed at one end edge of the upper pressing plate 310 close to the first sliding pair 100; a second razor blade 323 is formed at an edge of the rejecting arm 320 near the first sliding pair 100; wherein the old label on the upper end face of the old label housing 500 conveyed via said first moving pair 100 is adapted to be removed by said first razor blade 311; the old labels on both sides are adapted to be rejected by one of said second razor edges 323. The distance between the two reject arms 320 is adapted to the width of the casing 500. The upper platen 310 removes old labels from the chassis 500 and flattens new labels on the chassis 500. The removing arm 320 is used for removing old labels on two sides of the casing 500, and ensures the stability of the conveying of the casing 500 in the conveying process of the casing 500, and the stability of the casing 500 is ensured when new labels on the casing 500 are pressed and spread by the upper pressing plate 310.

The specific structure of the rejecting arm 320 is as follows, the rejecting arm 320 comprises a fixed arm 321 and a razor arm 322 which are integrally arranged, the razor arm 322 is arranged in an arc shape and has elasticity, the second razor edge 323 is positioned at the free end of the razor arm 322, and the razor arm 322 is suitable for extruding the side wall of the machine shell 500. When the housing 500 is transferred to the pressing and removing part 300 by the first moving pair 100, the razor arm 322 contacts the chamfer of the housing 500 first, so as to spread the razor arm 322, so that the razor arm 322 presses the side wall of the housing 500, and the second razor edge 323 removes the old label on the housing 500.

The upper pressing plate 310 is specifically configured as follows, where the upper pressing plate 310 includes an arc-shaped hard plate, two sides of the arc-shaped hard plate are respectively and fixedly connected to the fixing arm 321, the first razor blade 311 is located at a free end of the arc-shaped hard plate, and an arc surface of the arc-shaped hard plate faces the second sliding pair 200. The upper press plate 310 is set to be an arc-shaped hard plate, if the upper press plate is made of elastic materials, the upper press plate 310 is easily pushed upwards in the conveying process of the machine shell 500, and therefore the label removing effect cannot be achieved.

However, there is a problem in that the height of the upper platen 310 cannot be adjusted.

In order to solve the above problem, a lifting cylinder 330 is connected to the upper pressure plate 310, the lifting cylinder 330 is fixedly connected to the arc-shaped hard plate, and the extension direction of the lifting cylinder 330 is perpendicular to the upper end surface of the casing 500. The lifting cylinder 330 can drive the extrusion removing part 300 to move up and down, so that the distance between the upper pressing plate 310 and the upper surface of the machine shell 500 is controlled, the force of the upper pressing plate 310 contacting with the upper surface of the machine shell 500 is adjusted, and the removal of old labels and the extrusion laying of new labels are realized.

The extrusion removing part 300 is mainly disposed at the end of the first sliding pair 100, that is, the first sliding pair 100 can push the casing 500 to the extrusion removing part 300.

Second moving pair

The second moving pair 200 is used for receiving the non-label housing and reversely conveying the non-label housing to the lower side of the labeling part 400.

The second sliding pair 200 also comprises a plurality of rotating shafts 110 and a conveying belt 120 arranged on the rotating shafts 110; a plurality of limiting blocks are transversely arranged on the conveying belt 120, and a placing cavity is formed between every two adjacent limiting blocks. The casing 500 is placed in the placing cavity, and the length of the placing cavity is consistent with that of the casing 500, so that the casing 500 is prevented from axially displacing in the placing cavity, and the stability in the conveying process is ensured. The first sliding pair 100 is provided with guard rails 130 at two sides, and the guard rails 130 prevent the casing 500 from being displaced laterally when being placed in the placing cavity.

Labeling part

The label sticking part 400 is used to tear a new label, stick a new label body to the casing 500, and recover a base film of the new label.

The labeling part 400 includes an unwinding roller 410, a winding roller 420, and a peeling roller 430; the unwinding direction of the unwinding roller 410, the winding direction of the winding roller 420 and the peeling direction of the peeling roller 430 are collinear with the second sliding pair 200; wherein said unwind roller 410 is adapted to rotatably transport a roll of labels; the peeling roller 430 is adapted to take up the label roll on the unwinding roller 410 and peel off the label body from the base film, and the winding roller 420 is adapted to take up the base film at the peeling roller 430. The label roll is placed on the unwinding roller 410, the unwinding roller 410 rotates, the label roll moves towards the first moving pair 100, due to the arrangement of the peeling roller 430, the labels are separated at the peeling roller 430, the bottom film moves onto the winding roller 420 along the rotation direction of the peeling roller 430, and the label body is conveyed onto the machine shell 500.

The second moving pair 200 receives the label-free casing and reversely conveys the label-free casing to the position below the labeling part 400, the labeling part 400 sticks a new label on the casing 500, the second moving pair 200 pushes the casing 500 to the extrusion removing part 300, and the upper pressing plate 310 presses the new label on the casing 500 due to the fact that the cambered surface of the upper pressing plate 310 of the extrusion removing part 300 faces the second moving pair 200, so that the new label is laid on the casing 500.

Dust-binding part

The dust-sticking part 600 is suitable for cleaning the casing 500 conveyed by the first sliding pair 100, and cleaning the casing 500 with the old label, when the casing 500 is reused, the new label is conveniently attached to the casing 500, the reuse of the casing 500 is not affected, the reuse rate of the casing 500 is improved, and the cleaning efficiency of the casing 500 is also improved.

The dust-binding part 600 comprises a bracket 610 arranged at the end of the first sliding pair 100, a transmission rod 620 rotatably arranged on the bracket 610, and a cleaning roller 630 rotatably arranged on the transmission rod 620; wherein the housing 500 conveyed through the first moving pair 100 is adapted to support the cleaning roller 630 during movement. The bracket 610 is provided with a rotating groove 640, the transmission rod 620 is rotatably disposed in the rotating groove 640 through a pin 650, wherein when the cleaning roller 630 is supported to the highest point, the casing 500 can pass between the cleaning roller 630 and the first sliding pair 100 under the conveying of the first sliding pair 100. The driving rod 620 is in an "L" shape. The surface of the cleaning roller 630 is provided with a sticky substance so that foreign substances can be stuck away. When the machine shell 500 is conveyed by the first sliding pair 100, the machine shell 500 props against the cleaning roller 630, the cleaning roller 630 drives the transmission rod 620 to rotate in the rotating groove 640, when the transmission rod 620 contacts the groove edge of the rotating groove 640, the transmission rod 620 cannot rotate continuously, the cleaning roller 630 is propped to the maximum height by the machine shell 500, and at the moment, the height of the machine shell 500 is matched with the distance between the cleaning roller 630 and the first sliding pair 100. The machine case 500 is continuously moved by the first moving pair 100, the cleaning roller 630 continuously cleans impurities on the surface of the machine case 500 during the movement of the machine case 500, after the machine case 500 moves through the cleaning roller 630, the cleaning roller 630 is gradually separated from the contact with the machine case 500, and the cleaning roller 630 falls due to its own weight and is reset.

The first moving pair 100 conveys the machine shell 500 to the dust adhering part 600, the machine shell 500 supports the cleaning roller 630 in a moving process, the cleaning roller 630 continuously cleans impurities on the surface of the machine shell 500 in the moving process of the machine shell 500, the cleaning roller 630 is gradually supported to the maximum height by the machine shell 500, the machine shell 500 continues to be conveyed under the action of the first moving pair 100 until the machine shell 500 is not contacted with the cleaning roller 630, and the cleaning roller 630 is rotated and reset due to self weight. The cleaned chassis 500 is transported to the extrusion rejecting part 300 by the first sliding pair 100 to reject the old label to form a label-free chassis; the second sliding pair 200 receives the label-free housing and reversely conveys the label-free housing to a position right below the labeling part 400, and the labeling part 400 attaches a new label to the label-free housing to form a new label housing; the second sliding pair 200 pushes the new label housing to the press and reject portion 300 and the press and reject portion 300 presses and lays the new label.

Transfer section

The transfer part 700 is suitable for conveying the machine shell with the new label to the outside, and the automation degree of the whole equipment is improved.

The transfer part 700 includes a rotating plate 710 and a driving roller 720 rotatably disposed on the rotating plate 710, wherein the rotating plate 710 is rotatably disposed on the bracket 610; the driving roller 720 is in transmission connection with a driving mechanism, so that the driving roller 720 pushes the machine shell 500 to move. The transfer part 700 further includes slides 740, the slides 740 are disposed on both sides of the rotating plate 710, and a length direction of the slides 740 is perpendicular to a conveying direction of the first sliding pair 100. The transfer part 700 further includes a rotating cylinder 730, wherein the rotating cylinder 730 is fixedly connected to the bottom of the rotating plate 710. The rotary cylinder 730 rotates the rotary plate 710, so that the casing 500 transferred to the rotary plate 710 can be transferred in a desired direction. The rotary plate 710 is further provided with a driving roller 720, and the driving roller 720 can give a pushing force to the housing 500 so that the housing 500 can move a distance in a desired direction. Slides 740 are provided on both sides of the rotary plate 710, the slides 740 are disposed obliquely, and the housing 500 is pushed to the slides 740 by the driving roller 720, thereby being transferred to the next process or storage box. The transfer part 700 may be disposed below the pressing and removing part 300 to temporarily receive the casing 500, and the transfer part 700 may be disposed adjacent to the second sliding pair 200 to provide a pushing force to the casing 500 so that the casing 500 can be better moved toward the second sliding pair 200.

The first sliding pair 100 conveys the chassis 500 to the dust-sticking part 600 (the chassis 500 is not continuously conveyed on the first sliding pair 100, the chassis 500 is conveyed on the first sliding pair 100 in batches), the chassis 500 after being cleaned is conveyed to the extrusion removing part 300 by the first sliding pair 100 to remove the old labels to form a label-free chassis; the label-free housing is picked up by the second moving pair 200, and the driving roller 720 of the transferring part 700 can provide power therein to push the label-free housing to move towards the second moving pair 200, so as to be picked up by the second moving pair 200 better. The second moving pair 200 receives the non-labeled housing and then conveys the non-labeled housing to the end of the second moving pair 200, that is, the non-labeled housing is completely arranged on the second moving pair 200, and then reversely conveys the non-labeled housing to the position right below the labeling part 400, and the labeling part 400 attaches a new label to the non-labeled housing to form a new labeled housing; the second sliding pair 200 pushes the new label housing to the extrusion rejecting part 300 and the extrusion rejecting part 300 extrudes and paves the new label; the second moving pair 200 continuously conveys the housing 500 on which the new label is placed to the transfer portion 700, the transfer portion 700 starts to operate, the rotating disc 710 of the transfer portion 700 rotates, the driving roller 720 rotates in a direction perpendicular to the conveying direction of the second moving pair 200, the driving roller 720 rotates, the housing 500 moves toward the slide 740 under the force of the driving roller 720, and slides down from the slide 740 to the outside or to the next process, and then waits for the next housing 500.

The working principle is as follows: the first moving pair 100 conveys the machine shell 500 provided with the old label to the dust adhering part 600, the cleaning roller 630 is supported on the top of the machine shell 500 in the moving process of the machine shell 500, the cleaning roller 630 continuously cleans impurities on the surface of the machine shell 500 in the moving process of the machine shell 500, the cleaning roller 630 is gradually supported to the maximum height by the machine shell 500, the machine shell 500 is conveyed under the action of the first moving pair 100 continuously until the machine shell 500 is not contacted with the cleaning roller 630, and the cleaning roller 630 is reset due to self-weight rotation. The cleaned housing 500 is conveyed to the extrusion removing part 300 by the first sliding pair 100, the lifting cylinder 330 is started, the height of the extrusion removing part 300 is adjusted, the razor arms 322 of the extrusion removing part 300 are arc-shaped, the razor arms 322 are spread by chamfers on two sides of the housing 500, the razor arms 322 press two side walls of the housing 500, the razor arms 322 press the housing 500, the second razor edge 323 presses old labels on two sides of the housing 500, and the old labels on two sides are removed. The first razor blade 311 of the upper press plate 310 above the pressing and rejecting part 300 rejects the old label above the set cover 500.

The second moving pair 200 takes in the non-label housing and reversely conveys the non-label housing to a position below the labeling part 400.

The unwinding roller 410 unwinds, and conveys the label to the peeling roller 430, the label body is attached to the label-free casing, and the label base film bypasses the peeling roller 430 to reach the winding roller 420, and is wound by the winding roller 420. The new chassis with the label attached thereto reaches the press-removing portion 300 by being conveyed by the second transfer pair 200. Since the upper pressing plate 310 of the pressing and rejecting part 300 is an arc-shaped hard plate, the second sliding pair 200 pushes the new casing to move, and when the new casing is in contact with the upper pressing plate 310, the upper pressing plate 310 gradually presses the new label on the new casing to spread the new label. The second moving pair 200 continuously conveys the housing 500 on which the new label is placed to the transfer portion 700, the transfer portion 700 starts to operate, the rotating plate 710 of the transfer portion 700 rotates, the driving roller 720 rotates in a direction perpendicular to the conveying direction of the second moving pair 200, the driving roller 720 rotates, and the housing 500 slides toward the slide 740 by the force of the driving roller 720, and then slides down from the slide 740 to the outside or to the next process.

It should be noted that, in the process of removing the old labels, it is critical to realize the squeezing and removing part 300, that is, the razor arm 322 squeezes the chassis 500, and the second razor blade 323 squeezes the old labels on two sides of the chassis 500, and removes the old labels on two sides; the first razor edge 311 of the upper platen 310 above removes old labels from above the chassis 500.

In the process of attaching the new label, in order to ensure that the new label can be attached neatly, the key point of the process depends on the extrusion removing part 300, namely the upper pressing plate 310 is an arc-shaped hard plate, the second sliding pair 200 pushes the new machine shell to move, and when the new machine shell is in contact with the upper pressing plate 310, the upper pressing plate 310 gradually extrudes the new label on the new machine shell so as to pave the new label;

the razor arm 322 presses against the chassis 500 to ensure straight travel of the chassis 500. Through the dual-purpose form to extrusion rejection portion 300, fine saving rejection and the process time of laminating the label, the intervention of full-automatic equipment has reduced error rate and label waste rate to a certain extent, carries reverse setting, under the same conditions, can occupy less space, and the space occupancy is low, and functional module gathers the ization.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A dust removal system for a machine shell is characterized by comprising,

a first mobile pair (100), said first mobile pair (100) being adapted to carry a conveyor casing (500);

the dust adhering part (600), the dust adhering part (600) is positioned on the first moving pair (100), and the dust adhering part (600) is suitable for cleaning the machine shell (500) conveyed on the first moving pair (100);

a transfer section (700), the transfer section (700) being located at the delivery end of the first sliding pair (100); wherein,

the machine shell (500) conveyed by the first moving pair (100) is suitable for supporting the dust-sticking part (600) in the moving process so that the dust-sticking part (600) cleans the machine shell (500); the transfer part (700) is adapted to transport the cleaned cabinet (500) to the outside;

the dust-sticking part (600) comprises a bracket (610) arranged at the end of the first sliding pair (100), a transmission rod (620) rotatably arranged on the bracket (610), and a cleaning roller (630) rotatably arranged on the transmission rod (620); wherein

The machine shell (500) conveyed by the first moving pair (100) is suitable for supporting the cleaning roller (630) during the moving process;

the device also comprises an extrusion rejection part (300), wherein the extrusion rejection part (300) is positioned at the end of the first sliding pair (100);

a second sliding pair (200), the conveying direction of the second sliding pair (200) being collinear with the conveying direction of the first sliding pair (100); the second sliding pair (200) is suitable for receiving the machine shell (500) on the extrusion rejecting part (300) and pushing the machine shell (500) on the conveying track to the extrusion rejecting part (300);

a labeling unit (400); the labelling section (400) is located directly above the second moving pair, the labelling section (400) being adapted to peel off a new label;

after the machine shell with the old labels conveyed by the first moving pair (100) is cleaned in the dust adhering part (600), the machine shell with the old labels is conveyed to the extrusion rejecting part (300) by the first moving pair (100) to reject the old labels to form a non-label machine shell; the second sliding pair (200) receives the label-free shell and reversely conveys the label-free shell to the position right below the labeling part (400), and the labeling part (400) attaches a new label to the label-free shell to form a new label shell; the second sliding pair (200) pushes the new label housing to the extrusion rejecting part (300) and the extrusion rejecting part (300) extrudes and paves the new label; the transfer part (700) is adapted to transport the finished paved enclosure (500) to the outside.

2. A housing de-dusting system in accordance with claim 1,

a rotating groove (640) is formed in the support (610), the transmission rod (620) is rotatably arranged in the rotating groove (640) through a pin shaft (650), wherein

When the cleaning roller (630) is supported to the highest point, the machine shell (500) can pass between the cleaning roller (630) and the first moving pair (100) under the conveying of the first moving pair (100).

3. A housing de-dusting system in accordance with claim 1,

the transmission rod (620) is L-shaped.

4. A housing de-dusting system in accordance with claim 1,

the transfer section (700) comprises a rotary plate (710) and a drive roller (720) rotatably arranged on the rotary plate (710), wherein,

the rotating disc (710) is rotatably arranged on the bracket (610);

the driving roller (720) is in transmission connection with a driving mechanism, so that the driving roller (720) pushes the machine shell (500) to move.

5. A housing de-dusting system in accordance with claim 4,

the transfer section (700) further comprises a slide (740),

the slide (740) is disposed at both sides of the rotary plate (710), and

the length direction of the slide (740) is perpendicular to the conveying direction of the first sliding pair (100).

6. A housing de-dusting system in accordance with claim 4,

the transfer section (700) further comprises a rotary cylinder (730), wherein,

the rotary cylinder (730) is fixedly connected with the bottom of the rotary disk (710).

7. A housing de-dusting system in accordance with claim 1,

the extrusion removing part (300) comprises an upper pressure plate (310) and removing arms (320) arranged on two sides of the upper pressure plate (310) in a mirror image manner, and

one end edge of the upper pressure plate (310) close to the first moving pair (100) forms a first razor edge (311); the edge of one end of the rejecting arm (320) close to the first moving pair (100) forms a second razor edge (323); wherein

The old labels on the upper end face of the old label housing conveyed by the first moving pair (100) are suitable for being removed by the first razor blade (311); the old labels on both sides are adapted to be rejected by said second razor edge (323), respectively.

8. A housing de-dusting system in accordance with claim 7,

the rejecting arm (320) comprises a fixed arm (321) and a shaver arm (322) which are integrally arranged, the shaver arm (322) is arranged in an arc shape and has elasticity, and the second shaver edge (323) is positioned at the free end part of the shaver arm (322);

the upper pressing plate (310) comprises an arc-shaped hard plate, two sides of the arc-shaped hard plate are fixedly connected with the fixing arms (321) respectively, the first razor blade (311) is located at the free end of the arc-shaped hard plate, and the arc surface of the arc-shaped hard plate faces the second sliding pair (200); wherein

The razor arm (322) is adapted to press against a side wall of the chassis (500).