CN220765685U - Automatic powder collecting device - Google Patents

Abstract

The utility model discloses an automatic powder collecting device which is arranged below a conveying device and a spraying device, wherein the spraying device is arranged above the conveying device and comprises a collecting tank and a powder conveying device; the opening of the collecting tank is connected with one side of the transmission device, which is far away from the spraying device, in a sealing way so as to form a collecting cavity; the powder conveying device is arranged on one side, far away from the conveying device, of the collecting tank, and the discharging end of the powder conveying device is communicated with the outlet of the collecting tank. The automatic powder cleaning device can realize automatic powder cleaning and has high efficiency.

Description

Automatic powder collecting device

Technical Field

The utility model relates to the technical field of cleaning of glass mildew-proof powder, in particular to an automatic powder collecting device.

Background

If the glass products are not properly transported, the glass products can be scratched or corroded and moldy due to friction among the glass products, and the final use of the glass is affected. Therefore, during transportation of glass, a mold-resistant barrier powder is sprayed between two glass products. The spraying of the mildew-proof isolation powder is usually directly carried out on a production line, and a storage groove is formed in the lower end of the mildew-proof isolation powder spraying equipment, so that the mildew-proof isolation powder falling in the spraying process automatically falls into the storage groove, and redundant mildew-proof isolation powder during spraying is collected. However, this collection method requires manual periodic cleaning, which is inefficient.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the powder automatic collection device improves the removal efficiency of mildew-proof isolation powder.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the automatic powder collecting device is arranged below the conveying device and the spraying device, and the spraying device is arranged above the conveying device and comprises a collecting tank and a powder conveying device; the opening of the collecting tank is connected with one side of the transmission device, which is far away from the spraying device, in a sealing way so as to form a collecting cavity; the powder conveying device is arranged on one side, far away from the conveying device, of the collecting tank, and the discharging end of the powder conveying device is communicated with the outlet of the collecting tank.

Further, the powder conveying device comprises a feeding groove and a spiral conveying assembly; the feeding hole of the feeding groove is communicated with the outlet of the collecting groove, and the spiral conveying assembly is arranged in the feeding groove and can rotate relative to the feeding groove; the discharge end of the spiral conveying component is opposite to the discharge port of the feeding groove.

Further, the spiral conveying assembly comprises a driving assembly and a first conveying screw and a second conveying screw which are parallel to each other; the first output end and the second output end of the driving assembly are respectively in transmission connection with the first conveying screw and the second conveying screw, so that the rotation directions of the first conveying screw and the second conveying screw are opposite.

Further, the driving assembly comprises a driving motor and a transmission case; the transmission case comprises a first transmission gear in transmission connection with the first conveying screw and a second transmission gear in transmission connection with the second conveying screw, and an output shaft of the driving motor is in transmission connection with the second transmission gear through the first transmission gear.

Further, a wear-resistant layer is arranged between the spiral conveying component and the side wall of the feeding groove.

Further, the cross-sectional area of the opening of the collection trough is smaller than the cross-sectional area of the outlet of the collection trough.

Further, the opening of the collecting tank is arranged concentrically with the outlet of the collecting tank.

Further, at least two oppositely disposed side walls of the collecting tank are gradually inclined inwardly in the powder spraying direction.

Further, the four side walls of the collecting tank are gradually inclined inwards along the powder spraying direction so as to form a prismatic table shape which is communicated with each other up and down.

The utility model has the beneficial effects that: through setting up spraying device in transmission device top and setting up in the powder conveyor that spraying subassembly position corresponds in transmission device's below, make glass carry out automatic conveying through transmission device to carry out mould proof powder to glass at the in-process that glass was automatic to be conveyed and spray, and mould proof powder that does not fall on glass surface at this in-process will pass transmission device and fall into the collecting vat and collect, and send mould proof powder from the collecting vat by powder conveyor, realize mould proof powder's automatic collection and automatic clearance, improve cleaning efficiency.

Drawings

FIG. 1 is a schematic view of an automatic powder collecting device according to the present utility model;

FIG. 2 is a cross-sectional view of an automatic powder collection device according to the present utility model;

FIG. 3 is a side view of an automatic powder collection apparatus according to the present utility model;

fig. 4 is a front view of an automatic powder collecting apparatus according to the present utility model.

Description of the reference numerals:

1. a transmission device; 11. a transmission frame; 12. a support; 13. a conveying roller;

2. a spraying device;

3. a collection tank; 31. an opening; 32. an outlet;

4. a powder conveying device; 41. a feed chute; 411. a discharge port; 42. a screw conveyor assembly; 421. a drive assembly; 4211. a driving motor; 4212. a transmission case; 422. a first conveyor screw; 423. a second conveyor screw;

5. a wear-resistant layer; 6. a protective cover; 7. a dust discharging box; 71. dust exhaust duct; 8. and (5) cushion blocks.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Because glass mould proof powder is continuously sprayed in the glass conveying process, and in order to cover the surface of the glass in an omnibearing way, the spraying range of the mould proof powder is larger than the size of the glass, so that part of mould proof powder can fall into the conveying device 1 and the cleaning device to be accumulated, and workers need to regularly clean the cleaning device from the powder, so that the labor capacity is high and the efficiency is low.

Based on this, referring to fig. 1 to 4, there is provided an automatic powder collecting device provided below a conveyor 1 and a spraying device 2, the spraying device 2 being provided above the conveyor 1, including a collecting tank 3 and a powder conveying device 4; the opening 31 of the collecting tank 3 is connected with one side of the transmission device 1 away from the spraying device 2 in a sealing way so as to form a collecting cavity; the powder conveying device 4 is arranged on one side of the collecting tank 3 far away from the conveying device 1, and the discharging end of the powder conveying device 4 is communicated with the outlet 32 of the collecting tank 3.

The powder in the utility model mainly refers to mildew-proof powder, but is not limited to other powder required by glass production.

It can be understood that the spraying device 2 is arranged above the conveying device, and the powder conveying device 4 corresponding to the spraying assembly position is arranged below the conveying device, so that glass is automatically conveyed through the conveying device, mildew-proof powder is sprayed on the glass in the process of automatically conveying the glass, the mildew-proof powder which does not fall on the surface of the glass in the process falls into the collecting tank 3 through the conveying device to be collected, and the mildew-proof powder is sent out from the collecting tank 3 by the powder conveying device 4, so that the automatic collection and automatic cleaning of the mildew-proof powder are realized, and the cleaning efficiency is improved.

In some embodiments, the powder conveying device 4 includes a feed chute 41 and a screw conveyor assembly 42; the feed inlet of the feed tank 41 is communicated with the outlet 32 of the collecting tank 3, the screw conveying assembly 42 is arranged in the feed tank 41, and the screw conveying assembly 42 can rotate relative to the feed tank 41; the discharge end of the screw conveyor assembly 42 is directly opposite to the discharge opening 411 of the feed chute 41. The powder entering the collecting tank 3 finally falls into the feeding tank 41, and is automatically discharged out of the feeding tank 41 through the spiral conveying assembly 42, so that the mould proof powder is automatically cleaned.

In some embodiments, the transfer device 1 comprises a transfer frame 11, a support 12 and a plurality of transfer rollers 13 parallel to each other; the transmission rollers 13 are arranged in the transmission frame 11 at equal intervals along the transmission direction of the glass, all the transmission rollers 13 are in transmission connection, and a driving force is applied to one transmission roller 13 through a transmission motor so as to drive all the transmission rollers 13 to transmit, and a supporting piece 12 is arranged at the bottom of the transmission frame 11 and used for enabling the transmission frame 11 to be connected with an external bracket through the supporting piece 12. The two ends of the collecting tank 3 in the glass conveying direction are respectively arranged between two adjacent conveying rollers 13 so as to fully enlarge the collecting range of the mildew-proof powder.

In some embodiments, the auger assembly 42 includes a drive assembly 421, a first conveyor screw 422, and a second conveyor screw 423 that are parallel to each other; the first output end and the second output end of the driving assembly 421 are respectively in transmission connection with the first conveying screw 422 and the second conveying screw 423, so that the rotation directions of the first conveying screw 422 and the second conveying screw 423 are opposite. Wherein, the first conveying screw 422 and the second conveying screw 423 are rotated in opposite directions, so that the powder is conveyed outwards at different angles, and the powder discharging efficiency is improved.

In some embodiments, the drive assembly 421 includes a drive motor 4211 and a gear box 4212; the transmission case 4212 includes a first transmission gear in driving connection with the first conveying screw 422 and a second transmission gear in driving connection with the second conveying screw 423, and an output shaft of the driving motor 4211 is in driving connection with the second transmission gear through the first transmission gear. The transmission case 4212 is arranged, so that the driving motor 4211 can drive the two conveying screws to rotate in opposite directions at the same time, the transmission stability is improved, and the occupied space is reduced.

In some embodiments, a wear layer 5 is provided between the auger assembly 42 and the sidewall of the chute 41. Specifically, the wear-resistant layer 5 is arranged on the radial direction of the first screw and the second screw and the side wall of the feeding groove 41, and powder can rub against the side wall of the feeding groove 41 in the rotation process of the first screw and the second screw, so that the wall thickness of the side wall of the feeding groove 41 can be reduced after long-time use, the service life is influenced, and therefore the wear-resistant layer 5 is arranged, so that the powder is in contact with the wear-resistant layer 5, and the service life of the feeding groove 41 is prolonged.

In some embodiments, the cross-sectional area of the opening 31 of the collection trough 3 is smaller than the cross-sectional area of the outlet 32 of the collection trough 3. The cross-sectional area of the opening 31 of the collecting tank 3 is smaller than that of the outlet 32 of the collecting tank 3, so that the side wall of the collecting tank 3 gradually inclines inwards from top to bottom, and further the mould proof powder is guided and gathered, and the mould proof powder is ensured to enter the feeding tank 41 from the outlet 32 of the collecting tank 3 for collecting.

In some embodiments, when the collecting tank 3 is in the shape of a truncated cone, the opening 31 of the collecting tank 3 is concentrically arranged with the outlet 32 of the collecting tank 3, so as to have an effect of collecting the powder and improve the smoothness of the downward movement of the powder.

In some embodiments, when the collecting tank 3 is in the shape of a truncated pyramid, at least two oppositely disposed side walls of the collecting tank 3 are gradually inclined inwardly in the powder spraying direction. Further, the four side walls of the collecting tank 3 are inclined gradually inwardly in the powder spraying direction to form a quadrangular shape communicating up and down.

In some embodiments, the spraying device 2 is mounted on the top of the inner cavity of a protective cover 6, the protective cover 6 is mounted on the transmission device 1, the dust-discharging box 7 is disposed on one side of the dust cover near the feeding end of the transmission device 1, the top of the dust-discharging box 7 is provided with a dust-discharging air duct 71, and a cushion block 8 is further disposed on the transmission device 1, and the dust-discharging box 7 and the dust cover are communicated with the transmission device 1 through the cushion block 8.

Referring to fig. 1 to 4, a first embodiment of the present utility model is as follows:

an automatic powder collecting device is arranged below a conveying device 1 and a spraying device 2, and the spraying device 2 is arranged above the conveying device 1 and comprises a collecting tank 3 and a powder conveying device 4; the opening 31 of the collecting tank 3 is connected with one side of the transmission device 1 away from the spraying device 2 in a sealing way so as to form a collecting cavity; the powder conveying device 4 is arranged on one side of the collecting tank 3 far away from the conveying device 1, and the discharging end of the powder conveying device 4 is communicated with the outlet 32 of the collecting tank 3. The spraying device 2 is arranged at the top of the inner cavity of the protective cover 6, the dust discharging box 7 is arranged at one side of the dust cover close to the feeding end of the transmission device 1, the top of the dust discharging box 7 is provided with a dust discharging air duct 71, and the transmission device 1 is further provided with a cushion block 8, and the dust discharging box 7 and the dust cover are communicated with the transmission device 1 through the cushion block 8.

In the present embodiment, the powder conveying device 4 includes a feed chute 41 and a screw conveying assembly 42; the feed inlet of the feed tank 41 is communicated with the outlet 32 of the collecting tank 3, the screw conveying assembly 42 is arranged in the feed tank 41, and the screw conveying assembly 42 can rotate relative to the feed tank 41; the discharge end of the screw conveyor assembly 42 is directly opposite to the discharge opening 411 of the feed chute 41.

In the present embodiment, the conveying device 1 includes a conveying frame 11, a support 12, and a plurality of mutually parallel conveying rollers 13; the transfer rollers 13 are disposed in the transfer frame 11 at equal intervals in the transfer direction of the glass, and a support 12 is provided at the bottom of the transfer frame 11 for connecting the transfer frame 11 with an external bracket through the support 12.

In the present embodiment, the screw conveyor assembly 42 includes a drive assembly 421 and first and second conveyor screws 422 and 423 that are parallel to each other; the first output end and the second output end of the driving assembly 421 are respectively in transmission connection with the first conveying screw 422 and the second conveying screw 423, so that the rotation directions of the first conveying screw 422 and the second conveying screw 423 are opposite.

In this embodiment, the drive assembly 421 includes a drive motor 4211 and a gear box 4212; the transmission case 4212 includes a first transmission gear in driving connection with the first conveying screw 422 and a second transmission gear in driving connection with the second conveying screw 423, and an output shaft of the driving motor 4211 is in driving connection with the second transmission gear through the first transmission gear.

In this embodiment, a wear layer 5 is provided between the auger assembly 42 and the sidewall of the chute 41. Specifically, the wear-resistant material is provided on the side walls of the feed groove 41 and the radial direction of the first screw and the second screw.

In this embodiment, the cross-sectional area of the opening 31 of the collecting tank 3 is smaller than the cross-sectional area of the outlet 32 of the collecting tank 3, and when the collecting tank 3 is in the shape of a truncated pyramid communicating up and down, at least two oppositely disposed side walls of the collecting tank 3 are gradually inclined inwardly in the powder spraying direction. Further, the four side walls of the collecting tank 3 are inclined gradually inwardly in the powder spraying direction to form a quadrangular shape communicating up and down.

The working principle of the utility model is as follows:

the glass is conveyed through the conveying device 1, when the glass passes below the spraying device 2, the spraying device 2 sprays mildew-proof powder on the surface of the glass, and the mildew-proof powder which does not fall on the surface of the glass falls into the collecting tank 3 through the conveying device 1 and enters the feeding tank 41, and the powder is discharged out of the feeding tank 41 under the driving of the spiral conveying component 42, so that automatic cleaning is realized.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (9)

1. The automatic powder collecting device is arranged below the conveying device and the spraying device, and the spraying device is arranged above the conveying device and is characterized by comprising a collecting tank and a powder conveying device;

the opening of the collecting tank is connected with one side of the transmission device, which is far away from the spraying device, in a sealing way so as to form a collecting cavity;

the powder conveying device is arranged on one side, far away from the conveying device, of the collecting tank, and the discharging end of the powder conveying device is communicated with the outlet of the collecting tank.

2. The automatic powder collection apparatus of claim 1, wherein the powder delivery apparatus comprises a chute and a screw delivery assembly;

the feeding hole of the feeding groove is communicated with the outlet of the collecting groove, and the spiral conveying assembly is arranged in the feeding groove and can rotate relative to the feeding groove;

the discharge end of the spiral conveying component is opposite to the discharge port of the feeding groove.

3. The automatic powder collecting apparatus according to claim 2, wherein the screw conveyor assembly comprises a drive assembly and first and second conveyor screws parallel to each other;

the first output end and the second output end of the driving assembly are respectively in transmission connection with the first conveying screw and the second conveying screw, so that the rotation directions of the first conveying screw and the second conveying screw are opposite.

4. A powder automatic collection apparatus as recited in claim 3, wherein the drive assembly comprises a drive motor and a gear box;

the transmission case comprises a first transmission gear in transmission connection with the first conveying screw and a second transmission gear in transmission connection with the second conveying screw, and an output shaft of the driving motor is in transmission connection with the second transmission gear through the first transmission gear.

5. An automatic powder collection apparatus as claimed in claim 2, wherein a wear layer is provided between the auger assembly and the sidewall of the chute.

6. An automatic powder collecting device according to claim 1, wherein the cross-sectional area of the opening of the collecting tank is smaller than the cross-sectional area of the outlet of the collecting tank.

7. An automatic powder collecting device as claimed in claim 6, characterized in that the opening of the collecting tank is arranged concentrically with the outlet of the collecting tank.

8. An automatic powder collecting device as claimed in claim 1 or 6, characterized in that at least two oppositely disposed side walls of the collecting tank are inclined gradually inwardly in the powder spraying direction.

9. The automatic powder collecting apparatus as claimed in claim 8, wherein the four side walls of the collecting tank are inclined gradually inwardly in the powder spraying direction to form a prismatic stage shape communicating up and down.