CN214021675U

CN214021675U - Automatic solvent adding device

Info

Publication number: CN214021675U
Application number: CN202022928820.0U
Authority: CN
Inventors: 蒋智浩; 赛宗明; 王文好
Original assignee: Shenzhen Axxon Automation Co Ltd
Current assignee: Shenzhen Axxon Automation Co Ltd
Priority date: 2020-12-09
Filing date: 2020-12-09
Publication date: 2021-08-24
Anticipated expiration: 2030-12-09

Abstract

The utility model discloses an automatic solvent adding device, which comprises a recovery barrel, a feeding control device, a feeding pipe and a soaking device, wherein the feeding pipe comprises a first feeding pipe and a second feeding pipe, one end of the first feeding pipe is connected with the feeding control device, the other end of the first feeding pipe is connected with one side of the soaking device, one end of the second feeding pipe is connected with the recovery barrel, and the other end of the second feeding pipe is connected with the other side of the soaking device; in order to meet the market demand, the mechanism capable of automatically adding the solvent is invented, manual operation is reduced, working efficiency is improved, and the operation safety of personnel is improved.

Description

Automatic solvent adding device

Technical Field

The utility model relates to a can increase mechanism of solvent automatically belongs to solvent utilization recovery technical field.

Background

At present, all three-proofing coating valves can soak a valve nozzle in a solvent when not working, and glue in a valve body is prevented from being solidified, so that the glue valve is blocked. However, the diluent is often volatile and toxic, and often needs to be added manually, so that the human body is damaged for a long time, and the addition of the diluent in some places is time-consuming and easily causes waste. More serious diluent is not added in time, so that the rubber valve is blocked, and the production efficiency and the service life of the rubber valve are influenced.

In order to meet the market demand, the mechanism capable of automatically adding the solvent is invented, manual operation is reduced, working efficiency is improved, and the operation safety of personnel is improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects existing in the prior art, the utility model provides an automatic solvent adding device.

The utility model provides a technical document, an automatic solvent adding device, which comprises a recycling bin, a feeding control device, a feeding pipe and a soaking device, wherein the feeding pipe comprises a first feeding pipe and a second feeding pipe, one end of the first feeding pipe is connected with the feeding control device, the other end of the first feeding pipe is connected with one side of the soaking device, one end of the second feeding pipe is connected with the recycling bin, the other end of the second feeding pipe is connected with the other side of the soaking device, the feeding control device comprises a box body, a hydraulic pump, a flow control valve, a water outlet, a time relay, a switch, a low liquid level plug, a silica gel pad, a low liquid level floating ball sensor, an upper cover and a liquid storage box, the hydraulic pump is fixed below the inner part of the box body, the liquid storage box is fixed above the box body, the upper cover is fixed above the box body, the silica gel pad is fixed between the upper cover and the liquid storage box, the low liquid level floating ball sensor is vertically fixed in the liquid storage box at the right lower part of the upper cover, the flow control valve is arranged in the middle of the outer side of the box body and fixed on the box body, the water outlet is arranged at the right side of the flow control valve and communicated with the box body, the time relay is arranged above the flow control valve and fixed on the box body, the low liquid level plug is arranged at the right side of the time relay and fixed on the box body, the switch is arranged between the time relay and the low liquid level plug and fixed on the box body, the switch is respectively connected with the time relay and the low liquid level plug, one side of the hydraulic pump is connected with the liquid storage box, and the other side of the hydraulic pump is connected with the flow control valve; the rear side of the hydraulic pump is communicated with the liquid storage box, the front side of the hydraulic pump is communicated with the flow control valve, and the flow control valve is communicated with the water outlet.

Preferably, the soaking device comprises a soaking box, a stainless steel floating ball, a laser sensor, a feeding hole, a fixed block, a floating ball guide plate and a overflowing hole; stainless steel floater, laser sensor, feed inlet, fixed block and floater deflector are fixed in soaks box top front end, the flash mouth sets up in soaks box rear end top and with soak the box intercommunication, the floater deflector sets up in soaks box top front side and is connected with soaking the box, the fixed block sets up in floater deflector front side and is connected with the floater deflector, the stainless steel floater is fixed in soaks between box and the floater deflector, laser sensor sets up in the fixed block downside and is connected with the fixed block, the feed inlet sets up in the fixed block upside and is connected with the fixed block.

Preferably, one end of the first feeding pipe is connected with the feeding control device, the other end of the first feeding pipe is connected with the upper feeding port of the soaking device, one end of the second feeding pipe is connected with the recovery barrel, and the other end of the second feeding pipe is connected with the upper overflowing port of the soaking device.

Preferably, the recycling bin, the liquid storage box, the floating ball guide plate, the soaking box and the flash port are all made of stainless steel materials.

Preferably, the first feeding pipe and the second feeding pipe are both made of Teflon materials.

Preferably, the soaking device is higher than the recovery barrel.

Compared with the beneficial effect of the prior art, the utility model is provided with a recovery barrel, a feeding control device, a feeding pipe and a soaking device; manual operation is reduced, work efficiency is improved, and operation safety of personnel is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the feeding control device of the present invention;

fig. 3 is a schematic structural view of the soaking device of the present invention.

Detailed Description

It should be noted that the above technical features are continuously combined with each other to form various embodiments which are not listed above, and all the embodiments are regarded as the scope of the present invention described in the specification; moreover, modifications and variations will occur to those skilled in the art in light of the foregoing description, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. Preferred embodiments of the present invention are shown in the drawings. The 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 "secured to" 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. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for descriptive purposes only.

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 in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

The present invention will be described in detail with reference to the accompanying drawings.

One embodiment is shown in fig. 1, 2 and 3: an automatic solvent adding device comprises a recovery barrel 1, a feeding control device 2, a feeding pipe 3 and a soaking device 4, wherein the feeding pipe comprises a first feeding pipe 24 and a second feeding pipe 23, one end of the first feeding pipe 24 is connected with the feeding control device 2, the other end of the first feeding pipe 24 is connected with one side of the soaking device 4, one end of the second feeding pipe 23 is connected with the recovery barrel 1, the other end of the second feeding pipe 23 is connected with the other side of the soaking device 4, the feeding control device 2 comprises a box body 22, a hydraulic pump 12, a flow control valve 13, a floating ball 14, a time relay 15, a switch 16, a low liquid level plug 17, a silica gel pad 18, a low liquid level sensor 19, an upper cover 20 and a liquid storage box 21, the hydraulic pump 12 is fixed below the inside of the box body 22, the liquid storage box 21 is fixed above the inside of the box body 22, the upper cover 20 is fixed, the silica gel pad 18 is fixed between the upper cover 20 and the liquid storage box 21, the low liquid level floating ball sensor 19 is vertically fixed in the liquid storage box 21 at the lower right side of the upper cover 20, the flow control valve 13 is arranged in the middle of the outer side of the box body 22 and fixed on the box body 22, the water outlet 14 is arranged at the right side of the flow control valve 13 and communicated with the box body 22, the time relay 15 is arranged above the flow control valve 13 and fixed on the box body 22, the low liquid level plug 17 is arranged at the right side of the time relay 15 and fixed on the box body 22, the switch 16 is arranged between the time relay 15 and the low liquid level plug 17 and fixed on the box body 22, the switch 16 is respectively connected with the time relay 15 and the low liquid level plug 17, one side of the hydraulic pump 12 is connected with the liquid storage box 21, and the other side of the hydraulic pump 12 is connected with the flow control valve 13; the rear side of the hydraulic pump 12 is communicated with the liquid storage box 21, the front side of the hydraulic pump 12 is communicated with the flow control valve 13, and the flow control valve 13 is communicated with the water outlet 14.

Preferably, the soaking device 4 comprises a soaking box 5, a stainless steel floating ball 6, a laser sensor 7, a feeding hole 8, a fixed block 9, a floating ball guide plate 10 and a flash port 11; stainless steel floater 6, laser sensor 7, feed inlet 8, fixed block 9 and floater deflector 10 are fixed in soaks box 5 top front end, flash 11 sets up in soaks box 5 rear end top and with soak box 5 intercommunication, floater deflector 10 sets up in soaks box 5 top front side and with soak box 5 and be connected, fixed block 9 sets up in floater deflector 10 front side and is connected with floater deflector 10, stainless steel floater 6 is fixed in soaks between box 5 and the floater deflector 10, laser sensor 7 sets up in fixed block 9 downside and is connected with fixed block 9, feed inlet 8 sets up in fixed block 9 upside and is connected with fixed block 9.

Preferably, one end of the first feeding pipe 24 is connected with the water outlet 14 on the feeding control device 2, the other end of the first feeding pipe is connected with the upper feed opening 8 on the soaking device 4, one end of the second feeding pipe 23 is connected with the recycling bin 1, and the other end of the second feeding pipe 23 is connected with the overflow opening 11 on the soaking device 4.

Preferably, the recycling bin 1, the liquid storage box 21, the floating ball guide plate 10, the soaking box 5 and the flash port 11 are all made of stainless steel.

Preferably, the first feeding pipe 24 and the second feeding pipe 23 are made of teflon materials.

Preferably, the steeping device 4 is higher than the recovery tank 1.

The technical scheme of the application is as follows: the device comprises four main parts, namely a recovery barrel 1, a feeding control device 2, a feeding pipe 3 and a soaking device 4.

Wherein, the liquid storage box 21 in the feeding control device 2 is made of stainless steel material, is used for containing solvent and is connected with the hydraulic pump 12 through a Teflon pipe; the water outlet of the hydraulic pump 12 is connected with the inlet of the flow control valve 13 through a Teflon pipe, and the outlet is connected with the water outlet 14 through a Teflon pipe. The other end of the water outlet 14 is connected with the feed port 8 through a first feeding pipe 24. The signal line of the low liquid level floating ball sensor 19 can be connected with a machine, and if the solvent in the liquid storage box 21 is less, the low liquid level floating ball sensor 19 can be triggered to generate a low liquid level signal, so that the machine is informed to give an alarm. The silica gel pad 18 is used for sealing and preventing the solvent in the liquid storage box 21 from volatilizing; the time relay 15 is used for controlling the time for adding the solvent into the soaking device 4 by the material supply control device 2; the flow control valve 13 controls the flow of the solvent; the switch 16 is used for controlling the main power supply of the feeding control device 2; the low level plug 17 is connected to the laser sensor 7 by a wire.

Wherein, the solvent in the soaking box 5 of soaking device 4 the inside has lacked and can lead to the 6 high reductions of stainless steel floater to laser sensor 7 does not respond to and will send low liquid level signal for feed controlling means 2, then feed controlling means 2 is inside soaking box 5 through first conveying pipe 24 and feed inlet 8 with its inside solvent transport, thereby make the liquid level rise until laser sensor 7 senses stainless steel floater 6, and laser sensor 7 lets it stop carrying the solvent for 2 high liquid level signals of feed controlling means again at last. If the solvent is excessively supplied, the excessive solvent is supplied to the recovery tank 1 through the flash port 11 and the second supply pipe 23. The ball guide plate 10 is to control the moving area of the ball.

Claims

1. An automatic solvent adding device is characterized by comprising a recovery barrel, a feeding control device, a feeding pipe and a soaking device, wherein the feeding pipe comprises a first feeding pipe and a second feeding pipe, one end of the first feeding pipe is connected with the feeding control device, the other end of the first feeding pipe is connected with one side of the soaking device, one end of the second feeding pipe is connected with the recovery barrel, the other end of the second feeding pipe is connected with the other side of the soaking device, the feeding control device comprises a box body, a hydraulic pump, a flow control valve, a water outlet, a time relay, a switch, a low liquid level plug, a silica gel pad, a low liquid level floating ball sensor, an upper cover and a liquid storage box, the hydraulic pump is fixed below the inner part of the box body, the liquid storage box is fixed above the inner part of the box body, the silica gel pad is fixed between the upper cover and the liquid storage box, the low liquid level sensor is vertically fixed in the liquid storage box below the right side of the upper cover, the flow control valve is arranged in the middle of the outer side of the box body and fixed on the box body, the water outlet is arranged on the right side of the flow control valve and communicated with the box body, the time relay is arranged above the flow control valve and fixed on the box body, the low liquid level plug is arranged on the right side of the time relay and fixed on the box body, the switch is arranged between the time relay and the low liquid level plug and fixed on the box body, the switch is respectively connected with the time relay and the low liquid level plug, one side of the hydraulic pump is connected with the liquid storage box, and the other side of the hydraulic pump is connected with the flow control valve; the rear side of the hydraulic pump is communicated with the liquid storage box, the front side of the hydraulic pump is communicated with the flow control valve, and the flow control valve is communicated with the water outlet.

2. The automatic solvent adding device as claimed in claim 1, wherein the soaking device comprises a soaking box, a stainless steel floating ball, a laser sensor, a feeding hole, a fixed block, a floating ball guide plate and a overflowing hole; stainless steel floater, laser sensor, feed inlet, fixed block and floater deflector are fixed in soaks box top front end, the flash mouth sets up in soaks box rear end top and with soak the box intercommunication, the floater deflector sets up in soaks box top front side and is connected with soaking the box, the fixed block sets up in floater deflector front side and is connected with the floater deflector, the stainless steel floater is fixed in soaks between box and the floater deflector, laser sensor sets up in the fixed block downside and is connected with the fixed block, the feed inlet sets up in the fixed block upside and is connected with the fixed block.

3. The automatic solvent adding device according to claim 1, wherein one end of the first feeding pipe is connected with the feeding control device, the other end of the first feeding pipe is connected with the upper feeding port of the soaking device, one end of the second feeding pipe is connected with the recycling bin, and the other end of the second feeding pipe is connected with the upper overflowing port of the soaking device.

4. The automatic solvent adding device as claimed in claim 1, wherein the recycling bin, the liquid storage box, the floating ball guide plate, the soaking box and the flash port are all made of stainless steel.

5. The automatic solvent adding device of claim 1, wherein the first feeding pipe and the second feeding pipe are made of teflon.

6. The automatic solvent adding device as claimed in claim 1, wherein the soaking device is higher than the recycling bin.