CN211065016U - Automatic cleaning device for swing type organic glass observation window - Google Patents

Abstract

The utility model discloses an automatic cleaning device for a swing type organic glass observation window, which comprises an installation support, wherein a photoelectric switch and a cleaning mechanism are arranged on the installation support, and a glass plate is arranged on a detection channel of the photoelectric switch; clean mechanism includes swing cylinder, transmission shaft, switching piece and pendulum rod, swing cylinder's cylinder body is fixed in on the installing support, the first end of transmission shaft with swing cylinder's output is connected, the second end of transmission shaft runs through behind the glass board with the switching piece is connected, the pendulum rod is fixed in on the switching piece, the pendulum rod towards one side of glass board is equipped with the cleaning doctor-bar. Compared with the prior art, the automatic cleaning device has the advantages that the organic glass on the photoelectric switch channel of the feeding machine is automatically cleaned at regular time in the production process, the good light permeability of the organic glass on the power-off switch detection channel is guaranteed, and the photoelectric switch is ensured to be accurately, reliably and stably detected.

Description

Automatic cleaning device for swing type organic glass observation window

Technical Field

The utility model relates to a silk equipment mechanical design makes field, especially a swinging organic glass observation window self-cleaning device.

Background

In the tobacco shred production and processing technology, the feeding machine is one of the main conveying devices on the tobacco shred production line of a cigarette factory, and is suitable for caching, conveying and quantitatively feeding tobacco materials such as tobacco flakes, tobacco shreds, tobacco stems, cut stems and the like in different processing procedures. The feeder is generally used in cooperation with devices such as a limiting tube and an electronic belt scale, realizes the flow control of materials, has the functions of adjusting and controlling the flow of the materials, and is widely applied to tobacco shred production lines.

The feeder mainly comprises two conveyer belts, one is a storage bin conveyer belt, and the other is a lifting conveyer belt with a side chain type structure. The specific specification of the feeder can be determined according to actual conditions. When the material conveying device works, materials are conveyed into a horizontal storage bin of the feeding machine by the conveying equipment at the front end of the feeding machine, the materials are conveyed to the lifting belt by the storage bin conveying belt, and the materials are lifted to a certain height by the lifting conveying belt and then are sent out. The material stirring device is arranged above the lifting conveying belt and can be used for controlling the conveying state of the materials and keeping the flow of the materials stable.

The rotational speed of the storage bin conveying belt and the lifting conveying belt is controlled within a speed regulating range to ensure the mutual proportion, so that the material flow of the feeding machine meets the process requirement of whole line.

The photoelectric switch at the head end of the horizontal storage bin of the feeder is used for controlling the operation of the lifting belt and the feeding of the storage bin conveying belt; the tail end photoelectric switch is used for controlling the start and stop of the feeding device of the feeding machine. Photoelectric detection channels of the photoelectric switches are all arranged on an organic glass observation window with strong light permeability and used for ensuring the accurate detection of the photoelectric switches on materials. However, in the actual production process, due to the characteristics of the materials and the influence of the environmental temperature and humidity, the materials or more dust are often adhered to the inner wall of the organic glass observation window, so that the power-off switch fails to detect, malfunctions are generated, and the current is cut off, so that the smooth production and the completion of the product quality are influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an oscillating organic glass observation window self-cleaning device to solve the technical problem among the prior art, it can high lifting machine feeding bin photoelectric switch detect accuracy nature, stability, reliability, ensures that the uninterrupted material does not lack the material and improves control accuracy, controls the material flow better.

The utility model provides an automatic cleaning device for a swing type organic glass observation window, which comprises an installation support, wherein a photoelectric switch and a cleaning mechanism are arranged on the installation support, and a glass plate is arranged on a detection channel of the photoelectric switch; clean mechanism includes swing cylinder, transmission shaft, switching piece and pendulum rod, swing cylinder's cylinder body is fixed in on the installing support, the first end of transmission shaft with swing cylinder's output is connected, the second end of transmission shaft runs through behind the glass board with the switching piece is connected, the pendulum rod is fixed in on the switching piece, the pendulum rod towards one side of glass board is equipped with the cleaning doctor-bar.

The automatic cleaning device for the swing type organic glass observation window preferably comprises two symmetrically arranged upright posts, supporting rods are fixed at the head end and the tail end of each upright post, and one sides of the four supporting rods, which are far away from the installation support, are fixedly connected with the four corner ends of the glass plate one by one;

the photoelectric switch is fixed on the mounting bracket through the first lifting adjusting component and the cleaning mechanism through the second lifting adjusting component in a lifting and sliding manner.

The automatic cleaning device for the swing type organic glass observation window preferably comprises a connecting rod, the photoelectric switch can be fixed on the connecting rod in a horizontally sliding mode, first sliding blocks are fixed at two ends of the connecting rod, a first sliding chute penetrates through the first sliding blocks in the vertical direction, a first fastening hole is formed in the wall surface of each first sliding block, the first sliding blocks are sleeved on the vertical rods in a clearance fit mode through the first sliding chutes, and fastening bolts lock the first sliding blocks through the first fastening holes.

The automatic cleaning device for the swing type organic glass observation window preferably comprises a fixed plate, the swing cylinder is fixed on the fixed plate, second sliding blocks are fixed at two ends of the fixed plate, second sliding grooves penetrate through the second sliding blocks in the vertical direction, second fastening holes are formed in the wall surface of the second sliding blocks, the second sliding blocks are sleeved on the vertical rods in a clearance fit mode through the second sliding grooves, and fastening bolts lock the second sliding blocks through the second fastening holes.

The automatic cleaning device for the swinging type organic glass observation window is characterized in that the cylinder body of the swinging cylinder is detachably fixed on the fixing plate through a bolt piece.

The swing type automatic cleaning device for the organic glass observation window is characterized in that a pivot base is arranged at the bottom of the switching block, and the head end of the swing rod is pivoted on the pivot base.

The swinging type automatic cleaning device for the organic glass observation window is characterized in that the number of the photoelectric switches is two, and the two photoelectric switches are oppositely arranged in the vertical direction.

The swinging type automatic cleaning device for the organic glass observation window is characterized in that the cleaning blade is made of hard rubber materials.

Compared with the prior art, the utility model discloses a set up clean mechanism on the installing support, realize regularly automatic organic glass to on the photoelectric switch passageway of feeding machine in process of production and clean, guaranteed the good light permeability of organic glass on the switch detection passageway that closes, ensured that photoelectric switch detects accurate, reliable and stable.

Drawings

Fig. 1 is a first perspective view of the present invention;

fig. 2 is a second perspective view of the present invention;

FIG. 3 is an isometric view of a first lift adjustment assembly;

figure 4 is an isometric view of a cleaning mechanism.

Description of reference numerals: the cleaning device comprises a mounting support 1, a photoelectric switch 2, a glass plate 3, a swinging cylinder 4, a transmission shaft 5, a transfer block 6, a swinging rod 7, a cleaning scraper 8, a vertical rod 9, a supporting rod 10, a connecting rod 11, a first sliding block 12, a first sliding groove 13, a first fastening hole 14, a fixed plate 15, a second sliding block 16, a second sliding groove 17 and a second fastening hole 18.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 to 4, an embodiment of the utility model provides a swinging type organic glass observation window self-cleaning device, include:

the cleaning device comprises a mounting bracket 1, wherein a photoelectric switch 2 and a cleaning mechanism are arranged on the mounting bracket 1, and a glass plate 3 is arranged on a detection channel of the photoelectric switch 2; the glass plate 3 is provided with a through hole for a transmission shaft 5 mentioned below to pass through.

Clean mechanism is including swing cylinder 4, transmission shaft 5, switching piece 6 and pendulum rod 7, the cylinder body of swing cylinder 4 is fixed in on the installing support 1, the first end of transmission shaft 5 with the output of swing cylinder 4 is connected, the second end of transmission shaft 5 runs through behind the glass board 3 with switching piece 6 is connected, pendulum rod 7 is fixed in on the switching piece 6, pendulum rod 7 towards one side of glass board 3 is equipped with clean doctor-bar 8, and clean doctor-bar 8 uses gland nut to fix, makes it hug closely on the face of glass board 3.

The swing cylinder 4 is a cylinder which can do reciprocating swing within the angle range of less than 360 degrees, the pressure energy of compressed air is converted into mechanical energy, the swing rod 7 can realize reciprocating swing by output torque, and when the swing cylinder 4 moves and works under the control of a P L C control system, the cleaning blade 8 fixed on the swing rod 7 is driven to clean the inner wall of the glass plate 3.

The automatic timing action of the cleaning scraper 8 is finally completed to continuously clean the inner wall of the glass plate 3 in the production process, the cleaning of a detection channel of the photoelectric switch 2 is ensured, and the accuracy of a detection signal of the photoelectric switch 2 is ensured.

In order to avoid the influence of the material accumulation mode on the movement track of the cleaning scraping blade 8 in the production process, the cleaning scraping blade 8 is made of hard rubber and is installed in the vertical downward direction. The problem of hanging materials in the working process of the equipment is reduced, the cleaning effect is ensured, and the inner surface of the glass plate 3 and the service life of the cleaning scraping blade 8 are protected.

In the embodiment, the glass plate 3 on the detection channel of the photoelectric switch 2 of the feeder is automatically cleaned at regular time according to the setting requirement of the control program, so that the good light permeability of the organic glass on the detection channel of the power-off switch is ensured, and the photoelectric switch 2 is ensured to be accurately, reliably and stably detected. The accurate reliability of the equipment detection signal is improved, the occurrence of material interruption in the production process is reduced, the efficient operation of the equipment is effectively ensured, and the quality index of the product is further improved.

Further, installing support 1 includes two pole settings 9 that the symmetry set up, and the bottom of pole setting 9 is passed through bolted component and is fixed on the support, and this support can be the mesa of board also can be on the floor, does not do here and describe repeatedly, and the head and the tail both ends of two pole settings 9 all are fixed with branch 10, four branch 10 deviate from one side of installing support 1 with glass board 3's four angle ends are fixed connection one by one to fasten glass board 3, glass board 3 is organic glass, and light permeability is stronger, is used for guaranteeing photoelectric switch 2 to the accurate detection of material.

Due to different production processes and incoming material requirements, the action position of the photoelectric switch 2 needs to be flexibly adjusted, and meanwhile, the cleaning mechanism is also required to be adjusted along with the action position of the photoelectric switch to automatically clean the glass plate 3 on the detection channel at regular time in the production process, so that the photoelectric switch 2 is fixed on the mounting support 1 in a lifting and sliding manner through the first lifting adjusting component and the cleaning mechanism through the second lifting adjusting component.

As shown in fig. 3, further, the first lifting adjustment assembly includes a connection rod 11, the photoelectric switch 2 is fixed on the connection rod 11 in a horizontally slidable manner to adjust a position in a horizontal direction, both ends of the connection rod 11 are fixed with first sliders 12, a first sliding slot 13 penetrates through the first slider 12 in a vertical direction, a wall surface of the first slider 12 is provided with a first fastening hole 14, the first fastening hole 14 is communicated with the first sliding slot 13, the first slider 12 is sleeved on the vertical rod 9 in a clearance fit manner through the first sliding slot 13, and a fastening bolt locks the first slider 12 through the first fastening hole 14. When the vertical position of photoelectric switch 2 needs to be adjusted, fastening bolt is unscrewed, first slider 12 can slide on upright rod 9, and after the position is determined, fastening bolt is screwed down again to ensure that photoelectric switch 2 detects accurately, reliably and stably.

As shown in fig. 4, the second lifting adjusting assembly further includes a fixing plate 15, the swing cylinder 4 is fixed on the fixing plate 15, second sliding blocks 16 are fixed at both ends of the fixing plate 15, a second sliding slot 17 penetrates through the second sliding blocks 16 in the vertical direction, a second fastening hole 18 is formed in a wall surface of the second sliding blocks 16, the second fastening hole 18 is communicated with the second sliding slot 17, the second sliding blocks 16 are sleeved on the vertical rod 9 through the second sliding slot 17 in a clearance fit manner, and a fastening bolt locks the second sliding blocks 16 through the second fastening hole 18. The cylinder body of the swing cylinder 4 is detachably fixed to the fixed plate 15 by a bolt member. When the horizontal position of the swing cylinder 4 needs to be adjusted, the bolt piece is screwed off, the swing cylinder 4 corresponds to a proper position, and the bolt piece is screwed down, when the vertical position of the swing cylinder 4 needs to be adjusted, the fastening bolt is unscrewed, the second sliding block 16 can slide on the vertical rod 9, after the position is determined, the fastening bolt is screwed down, the position of the swing cylinder 4 is reliable and stable, and the glass plate 3 on the photoelectric switch 2 channel of the feeding machine can be automatically and accurately cleaned at regular time in the production process.

Furthermore, the bottom of the switching block 6 is provided with a pivoting seat, and the head end of the swing rod 7 is pivoted on the pivoting seat. Thereby forming a reversing structure with an adjustable angle and facilitating the installation of the cleaning scraping blade 8.

Further, for ensuring that the photoelectric switch 2 detects accurately, reliably and stably, and improving the accurate reliability of the equipment detection signal, the photoelectric switch 2 is provided with two photoelectric switches 2 which are arranged relatively in the vertical direction. And two corresponding first lifting adjusting assemblies are also arranged.

The structure, features and effects of the present invention have been described in detail above according to the embodiment shown in the drawings, and the above description is only the preferred embodiment of the present invention, but the present invention is not limited to the implementation scope shown in the drawings, and all changes made according to the idea of the present invention or equivalent embodiments modified to the same changes should be considered within the protection scope of the present invention when not exceeding the spirit covered by the description and drawings.

Claims (8)

1. The automatic cleaning device for the swing type organic glass observation window is characterized by comprising a mounting bracket, wherein a photoelectric switch and a cleaning mechanism are arranged on the mounting bracket, and a glass plate is arranged on a detection channel of the photoelectric switch; clean mechanism includes swing cylinder, transmission shaft, switching piece and pendulum rod, swing cylinder's cylinder body is fixed in on the installing support, the first end of transmission shaft with swing cylinder's output is connected, the second end of transmission shaft runs through behind the glass board with the switching piece is connected, the pendulum rod is fixed in on the switching piece, the pendulum rod towards one side of glass board is equipped with the cleaning doctor-bar.

2. The oscillating perspex viewing window automatic cleaning device of claim 1, characterized in that: the mounting bracket comprises two symmetrically arranged vertical rods, supporting rods are fixed at the head end and the tail end of each vertical rod, and one sides of the four supporting rods, which are far away from the mounting bracket, are fixedly connected with the four corner ends of the glass plate one by one;

the photoelectric switch is fixed on the mounting bracket through the first lifting adjusting component and the cleaning mechanism through the second lifting adjusting component in a lifting and sliding manner.

3. The oscillating perspex viewing window automatic cleaning device of claim 2, characterized in that: the first lifting adjusting assembly comprises a connecting rod, the photoelectric switch can be fixed on the connecting rod in a horizontal sliding mode, first sliding blocks are fixed at two ends of the connecting rod, first sliding grooves penetrate through the first sliding blocks in the vertical direction, first fastening holes are formed in the wall surfaces of the first sliding blocks, the first sliding blocks are sleeved on the vertical rods in a clearance fit mode through the first sliding grooves, and fastening bolts lock the first sliding blocks through the first fastening holes.

4. The oscillating perspex viewing window automatic cleaning device of claim 2, characterized in that: the second lifting adjusting assembly comprises a fixed plate, the swing air cylinder is fixed on the fixed plate, second sliding blocks are fixed at two ends of the fixed plate, second sliding grooves penetrate through the second sliding blocks in the vertical direction, second fastening holes are formed in the wall surfaces of the second sliding blocks, the second sliding blocks are sleeved on the vertical rods in a clearance fit mode through the second sliding grooves, and fastening bolts lock the second sliding blocks through the second fastening holes.

5. The oscillating perspex viewing window automatic cleaning device of claim 4, wherein: the cylinder body of the swing cylinder is detachably fixed on the fixing plate through a bolt piece.

6. The oscillating perspex viewing window automatic cleaning device of claim 4, wherein: the bottom of the switching block is provided with a pivoting seat, and the head end of the swing rod is pivoted on the pivoting seat.

7. The oscillating perspex viewing window automatic cleaning device of claim 1, characterized in that: the photoelectric switches are arranged in two, and the two photoelectric switches are oppositely arranged in the vertical direction.

8. The oscillating perspex viewing window automatic cleaning device of claim 1, characterized in that: the cleaning scraping blade is made of hard rubber.

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