CN223916147U - A dust removal device suitable for the packaging industry - Google Patents

Abstract

The utility model discloses dust removing equipment suitable for the packaging industry, which comprises a rack and a transfer device arranged on a workbench surface of the rack for conveying workpieces, wherein a dust removing area for stopping the workpieces and removing dust is arranged on a conveying path of the transfer device, two dust removing devices are arranged in the dust removing area and are respectively positioned above and below the transfer device, and at least one dust removing device comprises an air blowing mechanism and an air suction mechanism arranged beside the air blowing mechanism. The dust removing area is arranged on the conveying path of the workpiece transferring assembly, when the workpiece transferring assembly conveys the workpiece to the dust removing area, the driving piece is started according to the distance between the dust removing device and the workpiece, the displacement end of the driving piece drives the dust removing device to be close to the workpiece, the workpiece can lift dust on the workpiece under the blowing of the blowing mechanism, and the lifted dust is pumped away under the pumping of the air suction mechanism, so that the dust on the surface of the workpiece is removed efficiently, and the cleanliness of the workpiece after cleaning is improved.

Description

Dust collecting equipment suitable for packaging industry

Technical Field

The utility model relates to the technical field of dust removing equipment, in particular to dust removing equipment suitable for the packaging industry.

Background

In the packaging industry, products often adhere to impurities such as dust, scraps and the like during the production process. Some existing dust removing equipment in the packaging industry has a plurality of defects, for example, a part of simple dust removing devices only adopt a single blowing mode, so that dust with small size and strong adsorption force is difficult to effectively remove, dust collection effect of some dust removing equipment is poor, dust leakage is easy to occur, working environment is deteriorated, and meanwhile cleanliness of packaging products and subsequent packaging quality are also influenced.

Disclosure of utility model

In view of the above, the present utility model aims at overcoming the drawbacks of the prior art, and its main purpose is to provide a dust removing device suitable for packaging industry, which solves the problems of poor dust collecting effect, easy dust leakage, deterioration of working environment, and influence on cleanliness of packaged products and subsequent packaging quality of the existing dust removing device.

The utility model adopts the following technical scheme that the dust removing equipment suitable for the packaging industry comprises a rack and a transfer device arranged on a workbench surface of the rack for conveying workpieces, wherein a conveying path of the transfer device is provided with a dust removing area for stopping the workpieces and removing dust, the dust removing area is provided with two dust removing devices, the two dust removing devices are respectively positioned above and below the transfer device, at least one dust removing device comprises an air blowing mechanism and an air suction mechanism arranged beside the air blowing mechanism, and the air blowing end of the air blowing mechanism and the air suction end of the air suction mechanism face the workpieces;

The dust removing area is provided with a driving component connected with the two dust removing devices, the driving component comprises at least one driving piece, the displacement end of the driving piece is connected with the dust removing devices, and the dust removing devices are driven by the driving piece to be close to/far away from the workpiece.

The dust removing device further comprises a shell, the shell is provided with a cavity facing the workpiece, the cavity is provided with a separation seat, an air suction channel is formed between the separation seat and the shell, the air suction end of the air suction mechanism is communicated with the air suction channel, and the air blowing mechanism is arranged on the separation seat and is surrounded by the air suction channel.

The air blowing mechanisms are arranged at intervals and are communicated with the air inlet channels, and the air blowing mechanisms are rotatably arranged on the isolation seat.

Further, the blowing mechanism comprises a pneumatic shaft and a rotary nozzle sleeved on the pneumatic shaft, and the pneumatic shaft is connected with the rotary nozzle through a rotating shaft assembly.

Further, the rotary spray head is provided with a plurality of branched pipes corresponding to the workpieces, and the air outlet ends of the branched pipes respectively correspond to different directions of the workpieces.

Further, one side of the isolation seat, which corresponds to the workpiece, is concavely provided with a containing cavity, two sides of the inner cavity of the containing cavity are provided with plasma air bars, and a plurality of air blowing mechanisms are equidistantly arranged in the inner cavity of the containing cavity and positioned between the two plasma air bars.

Further, the plasma air bar is adjacent to the air suction channel, and the air outlet end of the plasma air bar faces the workpiece.

Further, move and carry the subassembly and include installing two guide rails on the frame table surface, slide and carry the otter board on the guide rail to and drive and carry the first driving piece that moves of otter board, dust collector is located between two guide rails, and the work piece is placed and is carried on carrying the otter board.

Further, the transferring screen plate is positioned between the two dust removing devices.

Further, the driving piece is a ball screw arranged in the frame, the driving assembly further comprises a second driving piece for driving the ball screw to operate, and a connecting plate sleeved on a nut seat on the ball screw, and the connecting plate is connected with the dust removing device.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, in particular, the technical proposal shows that the dust removing area is arranged on the conveying path of the workpiece transferring assembly, when the workpiece transferring assembly conveys the workpiece to the dust removing area, the driving piece is started according to the distance between the dust removing device and the workpiece, the displacement end of the driving piece drives the dust removing device to approach the workpiece, the workpiece can lift dust on the workpiece under the blowing of the blowing mechanism, and the lifted dust is pumped away under the pumping of the sucking mechanism, so that the dust on the surface of the workpiece is removed efficiently, and the cleanliness of the workpiece after cleaning is improved.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is an overall view showing embodiment 1 of the present utility model.

Fig. 2 is a first view showing a table top according to embodiment 1 of the present utility model.

Fig. 3 is an explanatory view of a dust removing device of embodiment 1 of the present utility model.

Fig. 4 is a side perspective view showing a case of embodiment 1 of the present utility model.

Fig. 5 is a side plan view of the case of embodiment 1 of the present utility model.

Fig. 6 is a view showing the inner cavity of the case of embodiment 1 of the present utility model.

FIG. 7 is a perspective view showing the blowing mechanism of embodiment 1 of the present utility model.

Fig. 8 is a side view of the blowing mechanism of embodiment 1 of the present utility model.

FIG. 9 is a plan view of the blowing mechanism of embodiment 1 of the present utility model.

Fig. 10 is a second view showing the working surface of embodiment 1 of the present utility model.

Fig. 11 is a display view of a driving unit of embodiment 1 of the present utility model.

Fig. 12 is a view showing a driving member according to embodiment 1 of the present utility model.

The attached drawings are used for identifying and describing:

1a workpiece and 2a dust removing area;

A 10-frame;

20 transfer device, 21 guide rail, 22 transfer screen plate, 23 first driving piece;

30 dust removing device;

31 blowing mechanism, 311 pneumatic shaft, 312 rotary nozzle, 3121 branch pipe, 313 rotary shaft assembly;

32 air suction mechanism, 33 shell, 331 cavity;

34 isolating seats, 341 air inlet channels, 342 accommodating cavities, 35 air suction channels and 36 plasma air bars;

40 drive assembly, 41 drive piece, 411 nut seat, 42 second drive piece, 43 connecting plate.

Detailed Description

Referring to fig. 1-12, a specific structure of a first preferred embodiment of the present utility model is shown, and is a dust removing apparatus suitable for packaging industry, including a frame 10 and a transferring device 20 disposed on a table surface of the frame 10 for conveying a workpiece 1, a dust removing area 2 for stopping the workpiece 1 and removing dust is disposed on a conveying path of the transferring device 20, two dust removing devices 30 are disposed in the dust removing area 2, the two dust removing devices 30 are respectively disposed above and below the transferring device 20, at least one dust removing device 30 includes an air blowing mechanism 31 and an air suction mechanism 32 disposed beside the air blowing mechanism 31, and an air blowing end of the air blowing mechanism 31 and an air suction end of the air suction mechanism 32 face the workpiece 1;

The dust removing area 2 is provided with a driving component 40 connected with the two dust removing devices 30, the driving component 40 comprises at least one driving piece 41, the displacement end of the driving piece 41 is connected with the dust removing devices 30, and the dust removing devices 30 are driven by the driving piece 41 to be close to/far away from the workpiece 1. Compared with the prior work piece dust removal, the dust removal device has the advantages that an operator removes dust by moving on the surface of the work piece through an air suction pipe or a handheld dust suction gun of the dust collector. This dust collecting equipment, through setting up dust collecting zone 2 on the work piece and carrying the conveying route of subassembly 20, when making carry the subassembly 20 to carry work piece 1 to dust collecting zone 2 department, according to the distance of dust collector 30 and work piece 1, start driving piece 41, make the displacement end of driving piece 41 drive dust collector 30 to work piece 1 draw close, make work piece 1 can make the work piece on the dust lift up under blowing of blowing mechanism 31, and make the dust of lift up take out under the extraction of suction mechanism 32, so the dust on high-efficient removal work piece surface, and promote the clean and tidy nature of work piece after the cleaning.

Specifically, in order to enhance the dust removing effect on the workpiece 1, the dust removing devices 30 are provided with two dust removing devices, and are arranged up and down, when the workpiece 1 moves between the two dust removing devices 30, the dust removing effect of the dust removing device on the workpiece 1 is enhanced because the air blowing mechanism 31 and the air suction mechanism 32 in the dust removing devices 30 are aligned with the workpiece 1.

As shown in fig. 6, the dust removing device 30 further includes a housing 33, the housing 33 has a cavity 331 facing the workpiece 1, a partition seat 34 is provided on the cavity 331, an air suction channel 35 is formed between the partition seat 34 and the housing 33, an air suction end of the air suction mechanism 32 is communicated with the air suction channel 35, and the air blowing mechanism 31 is provided on the partition seat 34 and surrounded by the air suction channel 35. When the dust removing device 30 removes dust from the workpiece 1, the dust removing device 30 removes dust by sucking the dust-containing air flow through the air sucking mechanism 32 after the dust on the workpiece 1 is blown up by the air blowing mechanism 31, so as to prevent the dust on the workpiece 1 blown by the air blowing mechanism 31 from scattering, and to influence the processing and production environment, the air blowing mechanism 31 and the air sucking mechanism 32 are arranged in the housing 33.

Specifically, when the air blowing mechanism 31 and the air sucking mechanism 32 are arranged in the shell 33, the isolation seat 34 is required to be separated, and the air sucking channel 35 is added between the isolation seat 34 and the shell 33, so that when the air blowing mechanism 31 blows out air flow, the air blowing mechanism is not sucked by the air sucking mechanism 32 directly, but is contacted with the workpiece 1, and dust on the workpiece 1 is sucked by the air sucking mechanism 32 only after the air blowing mechanism is brought up.

As shown in fig. 5, the isolation seat 34 is provided with an air inlet channel 341, a plurality of air blowing mechanisms 31 are arranged at intervals and are communicated with the air inlet channel 341, and each air blowing mechanism 31 is rotatably arranged on the isolation seat 34. Because the air inlet channel 341 is communicated with the outer tube arranged on the shell 33, air can flow into the air suction mechanism 31 through the air inlet channel 341, so that the air blowing mechanism 31 can rotate under the blowing of the air, the dust raising effect of the air blowing mechanism 31 after blowing the workpiece 1 is enhanced, and the air suction mechanism 32 can achieve better dust removing effect after extracting dust carried by the air blowing mechanism 31.

As shown in fig. 9, the air blowing mechanism 31 includes an air shaft 311 and a rotary nozzle 312 coupled to the air shaft 311, and the air shaft 311 and the rotary nozzle 312 are connected by a rotation shaft assembly 313, for example. The air-moving shaft 311 is communicated with the air-intake channel 341, the rotating shaft assembly 313 is arranged between the rotating nozzle 312 and the air-moving shaft 311, when the air flow enters the air-moving shaft 311, the air flow enters the rotating nozzle 312 from the air-moving shaft 311 and is discharged from the rotating nozzle 312 due to the direction of the air discharge of the rotating nozzle 312, and the rotating nozzle 312 rotates around the rotating shaft assembly 313, and the diffusion speed of the air is increased by the rotation of the rotating nozzle 312, so that the dust-raising effect of the air blowing mechanism 31 is enhanced.

Specifically, the rotary nozzle 312 is provided with a plurality of branch pipes 3121 corresponding to the workpiece 1, and the air outlet ends of the plurality of branch pipes 3121 respectively correspond to different orientations of the workpiece 1. Because the communicated branch pipe 3121 is arranged on the rotary nozzle 312, when the rotary nozzle 312 rotates, the air outlet end of the branch pipe 3121 can directly contact the workpiece 1 by aligning with the workpiece 1, and the cyclone type air flow is formed by matching with the rotation of the rotary nozzle 312, so that the stubborn part on the workpiece 1 can be further cleaned.

As shown in fig. 6, an accommodating cavity 342 is concavely formed on one surface of the isolation seat 34 corresponding to the workpiece 1, plasma air bars 36 are arranged on two sides of the inner cavity of the accommodating cavity 342, and a plurality of air blowing mechanisms 31 are equidistantly arranged in the inner cavity of the accommodating cavity 342 and located between the two plasma air bars 36. Through the setting of holding the interior plasma wind stick 36 of chamber 342, possess the static effect of removing with plasma wind stick 35 itself, make in plasma wind stick 35 department exhaust gas and hold the interior dirty gas contact of chamber 342 after, can avoid effectively avoiding the dust to glue on isolation seat 34 and casing 31 and work piece 1, further promote this dust collecting equipment's dust removal effect.

Specifically, the plasma wind bar 36 is adjacent to the suction channel 35, and the gas outlet end of the plasma wind bar 36 faces the workpiece 1. Because the air outlet end of the plasma air bar 36 corresponds to the workpiece 1 and the plasma air bar 36 is adjacent to the air suction channel 35, the air blowing mechanism 31 is lifted up by the air suction channel 35, and the air discharged by the plasma air bar 36 is mixed and then enters the air suction channel 35, so that the dust collection effect of the air suction mechanism 32 is improved.

As shown in fig. 2, the transferring assembly 20 includes two guide rails 21 mounted on the table of the frame 10, a transferring screen 22 sliding on the guide rails 21, and a first driving member 23 driving the transferring screen 22 to move, and the dust removing device 30 is located between the two guide rails 21, and the workpiece 1 is placed on the transferring screen 22. When the workpiece on the transfer screen 22 is dedusted, the workpiece moves on the guide rail 21 through the first driving piece 23, and when the workpiece moves to the dedusting area 2, dust on the workpiece is blown up through the blowing component 31 and then is extracted by the air suction component 32.

The transfer screen 22 is located between the two dust collectors 30.

As shown in fig. 12, for example, the driving member 41 is a ball screw installed in the frame 10, the driving assembly 40 further includes a second driving member 42 for driving the ball screw to operate, and a connection plate 43 for sleeving a nut seat on the ball screw, and the connection plate 43 is connected with the dust removing device 30. When the transfer screen 22 drives the workpiece 1 to move to the dust removing area 2, the second driving piece 42 drives the ball screw to rotate, so that the nut seat 411 on the ball screw drives the connecting plate 43 to move up and down, thereby adjusting the distance between the shell 33 and the workpiece 1 and further improving the dust removing effect of the dust removing device 30 on the workpiece.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (10)

1. The dust removing equipment suitable for the packaging industry comprises a frame (10) and a transfer device (20) arranged on a workbench surface of the frame (10) for conveying a workpiece (1), wherein a dust removing area (2) for stopping the workpiece (1) and removing dust is arranged on a conveying path of the transfer device (20), and the dust removing equipment is characterized in that two dust removing devices (30) are arranged in the dust removing area (2), the two dust removing devices (30) are respectively arranged above and below the transfer device (20), at least one dust removing device (30) comprises an air blowing mechanism (31) and an air suction mechanism (32) arranged beside the air blowing mechanism (31), and the air blowing end of the air blowing mechanism (31) and the air suction end of the air suction mechanism (32) face the workpiece (1);

The dust removing device is characterized in that a driving assembly (40) connected with the two dust removing devices (30) is arranged beside the dust removing area (2), the driving assembly (40) comprises at least one driving piece (41), the displacement end of the driving piece (41) is connected with the dust removing devices (30), and the dust removing devices (30) are driven by the driving piece (41) to be close to/far away from the workpiece (1).

2. The dust removing device suitable for the packaging industry according to claim 1, wherein the dust removing device (30) further comprises a shell (33), the shell (33) is provided with a cavity (331) facing the workpiece (1), the cavity (331) is provided with a separation seat (34), an air suction channel (35) is formed between the separation seat (34) and the shell (33), the air suction end of the air suction mechanism (32) is communicated with the air suction channel (35), and the air blowing mechanism (31) is arranged on the separation seat (34) and is surrounded by the air suction channel (35).

3. The dust removing device suitable for the packaging industry as set forth in claim 2, wherein the isolation seat (34) is provided with an air inlet channel (341), the plurality of air blowing mechanisms (31) are arranged at intervals and are communicated with the air inlet channel (341), and each air blowing mechanism (31) is rotatably arranged on the isolation seat (34).

4. A dust collecting apparatus for packaging industry as set forth in claim 3, wherein said air blowing mechanism (31) comprises a pneumatic shaft (311) and a rotary nozzle (312) sleeved on the pneumatic shaft (311), said pneumatic shaft (311) and rotary nozzle (312) are connected through a rotary shaft assembly (313).

5. The dust collecting equipment for packaging industry as set forth in claim 4, wherein the rotary nozzle (312) is provided with a plurality of branched pipes (3121) corresponding to the workpieces (1), and the gas outlet ends of the branched pipes (3121) respectively correspond to different orientations of the workpieces (1).

6. The dust collecting equipment for packaging industry as set forth in claim 4, wherein the isolating seat (34) is provided with a concave accommodating cavity (342) corresponding to one surface of the workpiece (1), two sides of the inner cavity of the accommodating cavity (342) are provided with plasma air bars (36), and the plurality of air blowing mechanisms (31) are arranged in the inner cavity of the accommodating cavity (342) at equal intervals and are located between the two plasma air bars (36).

7. A dust removing apparatus for packaging industry according to claim 6, wherein the plasma air bar (36) is adjacent to the air suction channel (35), and the air outlet end of the plasma air bar (36) faces the workpiece (1).

8. The dust removing apparatus for packaging industry according to claim 1, wherein the transferring device (20) comprises two guide rails (21) mounted on a workbench surface of the frame (10), a transferring screen plate (22) sliding on the guide rails (21), and a first driving member (23) driving the transferring screen plate (22) to move, the dust removing device (30) is located between the two guide rails (21), and the workpiece (1) is placed on the transferring screen plate (22).

9. A dust removing apparatus for packaging industry as set forth in claim 8, wherein said transfer screen (22) is located between two of said dust removing devices (30).

10. A dust removing apparatus for packaging industry according to claim 1, wherein the driving member (41) is a ball screw installed in the frame (10), the driving assembly (40) further comprises a second driving member (42) driving the ball screw to operate, and a connecting plate (43) sleeved on a nut seat on the ball screw, and the connecting plate (43) is connected with the dust removing device (30).