CN114570594A

CN114570594A - Device for conveying coating

Info

Publication number: CN114570594A
Application number: CN202210156939.1A
Authority: CN
Inventors: 安润仓; 苟牛红; 徐静; 周景吉; 赵亚宁; 赵敬
Original assignee: Kocel Machine Tool Accessories Ltd
Current assignee: Kocel Machine Tool Accessories Ltd
Priority date: 2022-02-26
Filing date: 2022-02-26
Publication date: 2022-06-03
Anticipated expiration: 2042-02-26
Also published as: CN114570594B

Abstract

The invention relates to a device for conveying paint. An apparatus for coating delivery, comprising: the device comprises a dip-coating pool, a driving mechanism fixed on the outer side of the dip-coating pool, a spiral stirring mechanism arranged at the bottom of the dip-coating pool, and a sedimentation pool communicated with the dip-coating pool; the driving mechanism is connected with the spiral stirring mechanism through a transmission shaft; and conveying the coating precipitated at the bottom of the dip coating tank to the sedimentation tank through the spiral stirring mechanism. This a device for coating is carried, when coating conveyor circulated coating, coating because the effect of gravity constantly deposits in the bottom of dip-coating pond, and actuating mechanism drives spiral rabbling mechanism work this moment, and the coating that will dip-coating bottom of the pool portion deposit constantly carries to the sedimentation tank in, circulates through the mode that material sediment was filtered, the pump was drawn in the sedimentation tank to the deposit of effectual reduction dip-coating bottom of the pool portion coating is piled up.

Description

Device for conveying coating

Technical Field

The invention relates to a conveying device, belongs to the technical field of mechanical engineering, and particularly relates to a device for spiral conveying of a coating.

Background

In the existing coating dip-coating equipment, the coating sinks continuously due to the action of gravity in the long-term use process of the dip-coating equipment, and the coating accumulated at the bottom of the dip-coating equipment is pumped out usually in a pump back pumping mode, so that the cyclic use of the coating is realized; however, the pump pumping mode has poor circulation effect, affects the dip coating effect of workpieces, and shortens the service life of the pump by coating. When the dip coating equipment is stopped for a period of time, the outlet at the bottom is blocked, and after the equipment is restarted, the accumulated coating at the bottom cannot be pumped out, the sediment at the bottom of the equipment needs to be cleaned manually, so that the cleaning cost is high, and much time is consumed.

Disclosure of Invention

Based on this, it is necessary to provide a device for conveying coating to solve the technical problem that the dip-coating effect of a workpiece is affected by the accumulation of a large amount of precipitates at the bottom of a coating device, aiming at the problem that the coating circulation effect is poor and the coating is easily accumulated at the bottom of the device in the prior art.

An apparatus for coating delivery, comprising: the device comprises a dip coating pool, a driving mechanism fixed on the outer side of the dip coating pool, a spiral stirring mechanism arranged at the bottom of the dip coating pool, and a sedimentation pool communicated with the dip coating pool; the driving mechanism is connected with the spiral stirring mechanism through a transmission shaft; and conveying the coating precipitated at the bottom of the dip coating tank to the sedimentation tank through the spiral stirring mechanism.

Further, spiral rabbling mechanism includes the body of rod and encircles and set up helical blade on the body of rod, the body of rod is close to actuating mechanism's one end pass through the jackscrew with the transmission shaft is connected.

Further, a coating outlet connected with the sedimentation tank is arranged on the side wall, far away from the driving mechanism, of the dip coating tank, and a support seat is arranged below the coating outlet and used for supporting the front end of the rod body.

Further, the outer side wall is fastened and is provided with a first adapter plate and a second adapter plate respectively in the dip-coating pool, the first adapter plate is connected with the second adapter plate through a shaft sleeve, and the transmission shaft penetrates through the shaft sleeve and is connected with the rod body.

Further, a buffer pad is adopted to seal between the first transfer plate and the side wall of the dip coating pool.

Further, the position of the transmission shaft close to the first adapter plate is provided with at least two sealing rings.

Further, set up double-deck retaining ring on the transmission shaft, double-deck retaining ring is located the front end of sealing washer.

Further, a bearing is arranged on the transmission shaft.

Further, an arc-shaped lining plate is arranged between the spiral stirring mechanism and the bottom of the dip-coating pool.

Further, the drive mechanism is provided with a frequency converter for adjusting the power of the drive mechanism.

According to the device for conveying the coating, when the coating conveying device circulates the coating, the coating is continuously deposited at the bottom of the dip-coating pool due to the action of gravity, at the moment, the driving mechanism drives the spiral stirring mechanism to work, the coating deposited at the bottom of the dip-coating pool is continuously conveyed into the sedimentation pool, and the coating is circulated in the sedimentation pool in a material precipitation, filtration and pumping mode, so that the deposition and accumulation of the coating at the bottom of the dip-coating pool are effectively reduced, the dip-coating effect of a workpiece is prevented from being influenced due to the fact that a large amount of deposition and accumulation occur at the bottom of the dip-coating pool, and the deposition at the bottom of the dip-coating pool does not need to be cleaned frequently manually. And the frequency of the driving mechanism can be adjusted through the frequency converter, so that the variable-speed operation of the driving mechanism is realized, and the actual operation condition on site is met. And the arc-shaped lining plate is arranged at the bottom of the dip-coating pool, so that the spiral stirring mechanism is prevented from wearing the bottom of the dip-coating pool, and further, the arc-shaped lining plate can enable the coatings accumulated at the bottom to be gathered, and the spiral stirring mechanism is convenient to output the coatings accumulated at the bottom to the sedimentation pool.

Drawings

FIG. 1 is a front view of an apparatus for coating delivery of the present invention;

FIG. 2 is a schematic view of a helical stirring mechanism of the present invention;

FIG. 3 is a cross-sectional view of the screw mechanism and drive and transmission mechanisms of the present invention;

fig. 4 is a side view of an arcuate liner of the present invention.

Reference numerals are as follows: 100. dip-coating pond, 200, actuating mechanism, 300, spiral rabbling mechanism, 400, sedimentation tank, 101, first adapter plate, 102, second adapter plate, 103, axle sleeve, 104, blotter, 105106, sealing washer, 107, double-deck retaining ring, 108, arc welt, 110, coating discharge port, 111, supporting seat, 201, converter, 210, transmission shaft, 211, jackscrew, 212, bearing, 301, the body of rod, 302, helical blade, 401, coating entry.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. As used herein, the terms "vertical," "horizontal," "left," "right," "top," "bottom," "top," and the like are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The apparatus for paint delivery is described below in conjunction with specific embodiments to further understand the inventive concept of the paint delivery apparatus, referring to fig. 1, an apparatus for paint delivery comprising: the device comprises a dip coating pool 100, a driving mechanism 200 fixed on the outer side of the dip coating pool 100, a spiral stirring mechanism 300 arranged at the bottom of the dip coating pool 100, and a sedimentation pool 400 communicated with the dip coating pool; the driving mechanism 200 is connected with the spiral stirring mechanism 300 through the transmission shaft 210, and the coating settled at the bottom of the dip coating tank is conveyed to the settling tank 400 through the spiral stirring mechanism 300.

According to the device for conveying the coating, the coating is continuously deposited at the bottom of the dip-coating pool under the action of gravity while the coating is circulated by the coating conveying device, the driving mechanism drives the spiral stirring mechanism to work at the moment, the coating deposited at the bottom of the dip-coating pool is continuously conveyed into the sedimentation pool, and the coating is circulated in the sedimentation pool in a material deposition, filtration and pumping mode, so that the deposition and accumulation of the coating at the bottom of the dip-coating pool are effectively reduced.

In one embodiment, as shown in fig. 1, the apparatus for paint delivery comprises: the device comprises a dip coating pool 100, a driving mechanism 200 fixed on the outer side of the dip coating pool, a spiral stirring mechanism 300 arranged at the bottom of the dip coating pool 100, and a sedimentation pool communicated with the dip coating pool 100; the driving mechanism 200 is connected with the spiral stirring mechanism through a transmission shaft 210, and the coating deposited at the bottom of the dip coating tank 100 is conveyed into the deposition tank 400 through the spiral stirring mechanism 300; wherein the driving mechanism 200 is provided with a frequency converter 201, and the frequency converter 201 can be used for adjusting the power of the driving mechanism 200. Specifically, the driving mechanism 200 can select a speed reduction motor with a soft start function, the transmission shaft 210 is coaxially matched with the speed reduction motor and is combined with a transmission torque through a flat key, the frequency converter 201 realizes the speed change operation of the speed reduction motor by adjusting the power of the speed reduction motor, the speed reduction motor selects a proper rotating speed to operate according to actual needs, and the speed reduction motor drives the spiral stirring mechanism 300 to operate through the transmission shaft 210 so as to convey the coating deposited at the bottom of the dip-coating tank 100 to the deposition tank 400. The technical problem that the bottom of the dip coating pool 100 is affected by the coating deposition can be avoided by the conveying of the spiral stirring mechanism 300, and the problem that the bottom of the dip coating pool is difficult to clean can be solved. The device for conveying the coating also has a soft start function, and the variable-speed operation of the speed reducing motor can be realized by adjusting the frequency converter 201, so that the requirements of actual operation on different sites are met.

In one embodiment, as shown in fig. 2-3, the helical stirring mechanism 300 includes a rod 301 and a helical blade 302 disposed around the rod 301, wherein an end of the rod 301 near the driving mechanism 200 is connected to the driving shaft 210 through a jackscrew 211. Specifically, as shown in fig. 3, the front end of the transmission shaft 210 has a cavity matched with the rod 301, the tail of the rod 301 is inserted into the cavity of the transmission shaft 210, and the jackscrew 211 is tightened to fix the rod 310 in the cavity of the transmission shaft 210.

As shown in fig. 1, a coating material outlet 110 connected to the sedimentation tank 400 is provided on a side wall of the dip coating tank 100 away from the driving mechanism 200, a support seat 111 is provided below the coating material outlet 110, and the front end of the rod body 301 is supported by the support seat 111. The coating material outlet 111 is connected with the coating material inlet 401 of the sedimentation tank 400 through a flange

In the specific work, the speed reducing motor drives the rod body 301 and the spiral blade 302 arranged on the rod body 301 in a surrounding mode through the transmission shaft 210 to rotate, the coating deposited at the bottom of the dip coating tank 100 is conveyed to the front end of the rod body 301 through the rotation of the spiral blade 302 and is discharged from the coating discharge port 110, and the discharged coating enters the settling tank 400 through the coating inlet 401 to be recycled. In order to prevent the coating material from depositing on the bottom of the settling tank 400, the same spiral stirring mechanism is provided on the bottom of the settling tank to prevent the coating material from depositing.

In one embodiment, the inner and outer side walls of the dip coating tank 100 near the driving mechanism 200 are respectively and tightly provided with a first adapter plate 101 and a second adapter plate 102, the first adapter plate 101 is connected with the second adapter plate 102 through a shaft sleeve 103, and the transmission shaft 210 passes through the shaft sleeve 103 and is connected with the rod body 301. A bearing 212 is disposed on the transmission shaft 210, and preferably, a double-row deep groove ball bearing is disposed on the transmission shaft 210 so as to better bear a radial load force during rotation of the transmission shaft 210.

In an embodiment, the first adapter plate 101 is sealed with the inner sidewall of the dip coating tank 100 by using a buffer pad 104, preferably, the buffer pad 104 is a teflon pad, the teflon pad is used for preventing the paint from leaking through the teflon pad seal, and the teflon pad can play a role of buffering to prevent the transmission shaft 210 from driving the first adapter plate 101 to be in rigid contact with the sidewall of the dip coating tank 100 when rotating. .

In one embodiment, drive shaft 210 is provided with at least two

sealing rings

105, 106 adjacent to first adaptor plate 101 to further seal against coating material leaking out of dip coating cell 100.

In an embodiment, the transmission shaft 210 is further provided with a double-layer retainer ring 107, the double-layer retainer ring 107 is positioned at the front end of the

sealing rings

105 and 106, and the double-layer retainer ring 107 is arranged, so that the sealing performance is better, and the coating is prevented from leaking.

In one embodiment, as shown in fig. 4, an arc-shaped lining plate 108 is disposed between the spiral stirring mechanism 300 and the bottom of the dip coating tank 100, the spiral stirring mechanism 300 is separated from the bottom of the dip coating tank 100 by the arc-shaped lining plate 108, so as to prevent the spiral stirring mechanism 300 from wearing the dip coating tank 100, further, the coating is gathered in the arc-shaped lining plate by the arc-shaped lining plate 108, so that the spiral stirring mechanism 300 discharges the coating, meanwhile, a support seat 111 is also disposed on the inner side of the arc-shaped lining plate 108 near the lower side of the coating discharge port 110, and the front end of the rod body 301 is supported by the support seat 111, so as to prevent the spiral stirring mechanism 300 from wearing the arc-shaped lining plate 108.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims

1. An apparatus for paint delivery, the apparatus comprising: the device comprises a dip-coating pool (100), a driving mechanism (200) fixed on the outer side of the dip-coating pool (100), a spiral stirring mechanism (300) arranged at the bottom of the dip-coating pool (100), and a sedimentation pool (400) communicated with the dip-coating pool (100); the driving mechanism (200) is connected with the spiral stirring mechanism (300) through a transmission shaft (210); the coating material precipitated at the bottom of the dip coating tank (100) is conveyed to the precipitation tank (400) by the spiral stirring mechanism (300).

2. The device for paint delivery according to claim 1, wherein the helical stirring mechanism (300) comprises a rod body (301) and a helical blade (302) circumferentially arranged on the rod body (301), and one end of the rod body (301) close to the driving mechanism (200) is connected with the transmission shaft (210) through a jackscrew (211).

3. The device for paint delivery according to claim 2, wherein the side wall of the dip coating tank (100) far away from the driving mechanism (200) is provided with a paint discharge port (110) connected with the sedimentation tank (400), a support seat (111) is arranged below the paint discharge port (110), and the support seat (111) is used for supporting the front end of the rod body (301).

4. The device for paint delivery according to claim 2, characterized in that a first adapter plate (101) and a second adapter plate (102) are respectively and tightly arranged on the inner and outer side walls of the dip coating tank (100), the first adapter plate (101) and the second adapter plate (102) are connected through a shaft sleeve (103), and the transmission shaft (210) passes through the shaft sleeve (103) and is connected with the rod body (301).

5. The device for paint delivery according to claim 4, characterized in that a buffer pad (104) is used to seal between the first adapter plate (101) and the side wall of the dip-coating tank (100).

6. A device for paint delivery according to claim 4, characterised in that the drive shaft (210) is provided to at least two sealing rings (105, 106) adjacent to the first adaptor plate (101).

7. The device for paint delivery according to claim 6, characterized in that the drive shaft (210) is provided with a double-layer retainer ring (107), the double-layer retainer ring (107) being located at the front end of the sealing rings (105, 106).

8. A device for paint delivery according to claim 4, characterised in that the drive shaft (210) is provided with bearings (212).

9. The apparatus for paint delivery according to claim 2, wherein an arc-shaped liner (108) is provided between the helical stirring mechanism (300) and the bottom of the dip coating tank (100).

10. A device for paint delivery according to claim 1, characterised in that the drive mechanism (200) is provided with a frequency converter (201), the frequency converter (201) being used to adjust the power of the drive mechanism (200).