CN209998016U - Degreasing system - Google Patents

Abstract

The utility model discloses an kinds of degreasing system, through the gas-liquid mixing pump, inhale degreasing fluid from the holding tank, and utilize the negative pressure effect of gas-liquid mixing pump to inhale gas, make inspiratory gas and degreasing fluid intensive mixing under the stirring of the impeller of gas-liquid mixing pump, make gas and degreasing fluid form the gas-liquid mixture, the output of rethread gas-liquid mixing pump, carry the gas-liquid mixture to the degreasing tank in, make the gas-liquid mixture carry out the degrease processing to the work piece, because the bubble has some self characteristics, for example, bubble gas-liquid phase takes the negative charge, gas/liquid interface has great tension, bubble self pressure boost is dissolved, the shearing strength of bubble etc., utilize these characteristics, make the bubble adsorb grease from the work piece very easily, break away from or destroy, consequently, the gas-liquid mixture that has the bubble is deviate from the grease of work piece very easily, make degreasing system's degreasing rate obtain showing and improve, thereby be favorable to reducing the use amount of degreasing agent.

Description

Degreasing system

Technical Field

The utility model relates to a degreasing pretreatment technical field especially relates to kinds of degreasing systems.

Background

In many processes, the workpiece is typically subjected to a pretreatment process to bring the workpiece surface to processing conditions. For example, in a coating shop, before a work piece needs to be coated with glue, the work piece needs to be degreased. However, the degreasing rate of the conventional degreasing device is generally low, so that a large amount of degreasing agents are required to be added to the workpiece during too long degreasing, most of the degreasing agents are easily discharged along with waste liquid and cannot be fully utilized, and the degreasing cost of the workpiece is increased.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide degreasing systems, which are effective in increasing the degreasing rate.

The technical scheme is as follows:

degreasing systems comprise a reaction kettle, a liquid supply device and a gas-liquid mixing pump, wherein a degreasing tank is arranged on the reaction kettle, a containing tank is arranged on the liquid supply device and used for containing degreasing liquid, the input end of the gas-liquid mixing pump is communicated with the containing tank, the input end of the gas-liquid mixing pump is also communicated with gas, and the output end of the gas-liquid mixing pump is used for conveying a gas-liquid mixture to the degreasing tank.

The degreasing system sucks degreasing liquid from the containing groove through the gas-liquid mixing pump, sucks gas through the negative pressure effect of the gas-liquid mixing pump, enables the sucked gas and the degreasing liquid to be fully mixed under the stirring of the impeller of the gas-liquid mixing pump, enables the gas and the degreasing liquid to form a gas-liquid mixture, and conveys the gas-liquid mixture to the degreasing groove through the output end of the gas-liquid mixing pump, so that the gas-liquid mixture carries out degreasing treatment on workpieces.

In embodiments, the degreasing system further comprises an output pipe, the output pipe is located in the degreasing tank, a nozzle is arranged on the output pipe, and the output end of the gas-liquid mixing pump is communicated with the output pipe.

In embodiments, the degreasing system further comprises a filter, wherein the output end of the gas-liquid mixing pump is communicated with the input end of the filter, and the output end of the filter is communicated with the output pipe.

In embodiments, the degreasing system further comprises a th pipe and a second pipe, wherein the output end of the gas-liquid mixing pump is communicated with the input end of the filter through the th pipe, and the output end of the filter is communicated with the output pipe through the second pipe.

In embodiments, the th pipe is provided with a th control valve, and the second pipe is provided with a second control valve.

In embodiments, the number of the nozzles is two or more, and the two or more nozzles are spaced apart along the length of the outlet pipe.

In embodiments, the degreasing system further comprises a collecting tank, and the slag discharge end of the filter is communicated with the collecting end of the collecting tank.

In embodiments, the degreasing system further comprises a third pipe and a fourth pipe, wherein the input end of the gas-liquid mixing pump is communicated with the holding tank through the third pipe, and the input end of the gas-liquid mixing pump is also communicated with the gas through the fourth pipe.

In embodiments, a third control valve is disposed on the third pipe, and a fourth control valve is disposed on the fourth pipe.

In embodiments, the holding tank is in communication with the degreasing tank.

Drawings

Fig. 1 is a schematic structural diagram of a degreasing system according to an embodiment of the present invention ;

fig. 2 is an enlarged view of the structure at circle a in fig. 1.

Description of reference numerals:

100. the degreasing system comprises a degreasing system, 110, a reaction kettle, 111, a degreasing tank, 120, a liquid supply device, 121, a holding tank, 130, a gas-liquid mixing pump, 131, a third pipe, 1311, a third control valve, 132, a fourth pipe, 1321, a fourth control valve, 1322, a gas filter, 1323, a silencer, 140, an output pipe, 141, a nozzle, 150, a filter, 151, an th pipe, 1511, a control valve, 152, a second pipe, 1521, a second control valve, 153, a fifth pipe, 160, a collecting tank, 170 and a liquid filter.

Detailed Description

For purposes of promoting a better understanding of the objects, features, and advantages of the invention, reference is made to the following detailed description taken in conjunction with the accompanying drawings and the accompanying detailed description of which are included.

It is noted that when an element is referred to as being "secured to" another elements, it can be directly on the other elements or intervening elements may also be present, that when elements are referred to as being "connected" to another elements, it can be directly connected to another elements or intervening elements may be present.

The terminology used herein in the description of the present invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention, the terminology used herein "and/or" includes any and all combinations of or more of the associated listed items.

In the present invention, the terms "", "second" do not denote any particular quantity or order, but are merely used to distinguish names.

In embodiments, referring to fig. 1 and 2, degreasing systems 100 include a reaction vessel 110, a liquid supply device 120, and a gas-liquid mixing pump 130, wherein the reaction vessel 110 is provided with a degreasing tank 111, the liquid supply device 120 is provided with an accommodating tank 121, the accommodating tank 121 is used for accommodating degreasing liquid, an input end of the gas-liquid mixing pump 130 is communicated with the accommodating tank 121, an input end of the gas-liquid mixing pump 130 is further used for being communicated with gas, and an output end of the gas-liquid mixing pump 130 is used for conveying a gas-liquid mixture to the degreasing tank 111.

The degreasing system 100 sucks degreasing liquid from the accommodating groove 121 through the gas-liquid mixing pump 130, sucks gas through the negative pressure effect of the gas-liquid mixing pump 130, enables the sucked gas and the degreasing liquid to be fully mixed under the stirring of an impeller of the gas-liquid mixing pump 130, enables the gas and the degreasing liquid to form a gas-liquid mixture, conveys the gas-liquid mixture into the degreasing groove 111 through the output end of the gas-liquid mixing pump 130, enables the gas-liquid mixture to degrease a workpiece, enables the gas-liquid mixture to easily absorb, separate or break grease from the workpiece due to the characteristics of bubbles, such as negative charge of gas-liquid phases, large tension of gas/liquid interfaces, pressurization and dissolution of the bubbles, shearing force of the bubbles, and the like, and enables the bubbles to easily absorb, separate or break away grease from the workpiece due to the characteristics, therefore, the gas-liquid mixture carrying the bubbles easily separates the grease from the workpiece, the degreasing rate of the degreasing system 100 is remarkably improved, the degreasing rate is accordingly reduced, the degreasing cost of the degreasing system 100 is reduced, the degreasing system 100 is capable of achieving the purpose of reducing the degreasing cost of reducing the grease by the gas-liquid when the grease-liquid mixture is in a super-high-gas-suction-liquid pressure, the grease-gas-liquid mixture is changed from-gas-liquid mixture, the grease-oil-gas-oil-gas mixture is changed from-oil-gas mixture, the suction-gas mixture is changed from-oil-gas mixture is changed from-oil-gas mixture is changed from-gas-oil-gas mixture, and-gas mixture is changed from-gas mixture, the degreasing system is changed from-oil-gas mixture is changed from-oil-gas mixture, and-oil.

, the degreasing system 100 further comprises an output pipe 140, the output pipe 140 is located in the degreasing tank 111, and the output pipe 140 is provided with a nozzle 141. the output end of the gas-liquid mixing pump 130 is communicated with the output pipe 140. therefore, the mixed gas-liquid mixture flows into the output pipe 140 from the output end of the mixing pump, and then is sprayed out of the degreasing tank 111 through the nozzle 141 on the output pipe 140, so that the gas-liquid mixture stably flows into the degreasing tank 111 through the output pipe 140.

Further , the degreasing system 100 further comprises a filter 150, an output end of the gas-liquid mixing pump 130 is communicated with an input end of the filter 150, and an output end of the filter 150 is communicated with the output pipe 140, so that the filter 150 is arranged between the gas-liquid mixing pump 130 and the output pipe 140 of the embodiment, the gas-liquid mixture flows into the filter 150 from the output end of the gas-liquid mixing pump 130, the gas-liquid mixture is secondarily stirred by the filter 150, so that the gas can be sufficiently dissolved in the degreasing fluid, the secondarily mixed gas-liquid mixture flows into the output pipe 140 from the filter 150 and flows into the degreasing tank 111 from the output pipe 140, the gas and the degreasing fluid are further mixed by the filter 150 in the embodiment , so that the gas is sufficiently dissolved in the degreasing fluid, and the degreasing rate of the degreasing system 100 is further increased by .

In embodiments, the degreasing system 100 further comprises a pipe 151 and a second pipe 152, wherein the output end of the gas-liquid mixing pump 130 is communicated with the input end of the filter 150 through the pipe 151, and the output end of the filter 150 is communicated with the output pipe 140 through the second pipe 152. thus, the gas-liquid mixture is stably flowed into the output pipe 140 from the gas-liquid mixing pump 130 through the pipe 151 and the second pipe 152, so that the degreasing system 100 can operate more stably.

Furthermore, , a th control valve 1511 is disposed on the th pipe 151, and a second control valve 1521 is disposed on the second pipe 152, so that the flow rate of the gas-liquid mixture in the th pipe 151 and the second pipe 152 is accurately controlled by the th control valve 1511 and the second control valve 1521, thereby facilitating an operator to accurately control the degreasing progress of the degreasing system 100, wherein the th control valve 1511 and the second control valve 1521 may be pneumatic valves, electric valves, electromagnetic valves, or other control valves.

In embodiments, the number of the nozzles 141 is two or more, and the two or more nozzles 141 are spaced along the length direction of the outlet pipe 140. therefore, the two or more nozzles 141 are disposed on the outlet pipe 140, and the gas-liquid mixture is uniformly sprayed into the degreasing tank 111 through the different nozzles 141, so that the gas-liquid mixture is uniformly dispersed in the degreasing tank 111, thereby facilitating uniform degreasing of the surface of the workpiece.

In embodiments, the degreasing system 100 further comprises a collecting tank 160, wherein the residue discharge end of the filter 150 is disposed in communication with the collecting end of the collecting tank 160, so that the filter residue is collected by the collecting tank 160, thereby facilitating the concentrated treatment of the filter residue and improving the degreasing working environment.

In embodiments, the degreasing system 100 further comprises a third pipe 131 and a fourth pipe 132, wherein the input end of the gas-liquid mixing pump 130 is communicated with the receiving tank 121 through the third pipe 131, and the input end of the gas-liquid mixing pump 130 is also communicated with the gas through the fourth pipe 132. therefore, the degreasing liquid in the receiving tank 121 flows into the gas-liquid mixing pump 130 through the third pipe 131, and the gas is delivered to the gas-liquid mixing pump 130 through the fourth pipe 132. in this way, the degreasing liquid and the gas are stably delivered to the gas-liquid mixing pump 130 through the third pipe 131 and the fourth pipe 132.

, the third pipe 131 is provided with a third control valve 1311, the fourth pipe 132 is provided with a fourth control valve 1321, so that the third control valve 1311 can accurately control the amount of degreasing fluid flowing into the gas-liquid mixing pump 130, the fourth control valve 1321 can accurately control the amount of gas flowing into the gas-liquid mixing pump 130, and thus the third control valve 1311 and the fourth control valve 1321 can accurately control the ratio of gas and degreasing fluid in the gas-liquid mixing pump, thereby being beneficial to meet different degreasing conditions of the workpiece, wherein the third control valve 1311 and the fourth control valve 1321 can be pneumatic valves, electric valves, electromagnetic valves or other control valves, specifically in the present embodiment, the volume ratio of gas and degreasing fluid is 1:15 through the third control valve 1311 and the fourth control valve 1321, meanwhile, the third pipe 131 is provided with a liquid filter 170, and the degreasing fluid can be effectively filtered by the liquid filter 170 through a silencer 1323 and the gas filter 1322, so that impurities in the degreasing fluid can be prevented from being carried into the degreasing system through the gas filter 1323.

In embodiments, the receiving tank 121 is communicated with the degreasing tank 111, so that the gas-liquid mixture in the degreasing tank 111 can flow into the receiving tank 121 from the degreasing tank 111, and the gas-liquid mixture flowing into the receiving tank 121 flows into the degreasing tank 111 again through the gas-liquid mixing pump 130, so that the degreasing liquid can be effectively recycled.

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 represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1, kinds of degreasing system, characterized by, include:

the reaction kettle is provided with a degreasing groove;

the degreasing device comprises a liquid supply device, wherein an accommodating groove is formed in the liquid supply device and is used for accommodating degreasing liquid; and

the input of gas-liquid mixture pump with the holding tank intercommunication sets up, the input of gas-liquid mixture pump still is used for setting up with gaseous intercommunication, the output of gas-liquid mixture pump be used for to the gas-liquid mixture body is carried to the degreasing bath.

2. The degreasing system of claim 1, further comprising an output pipe, wherein the output pipe is located in the degreasing tank, and a nozzle is disposed on the output pipe, and an output end of the gas-liquid mixing pump is in communication with the output pipe.

3. The degreasing system of claim 2, further comprising a filter, wherein an output end of the gas-liquid mixing pump is in communication with an input end of the filter, and an output end of the filter is in communication with the output pipe.

4. The degreasing system of claim 3, further comprising th pipe and a second pipe, wherein the output end of the gas-liquid mixing pump is communicated with the input end of the filter through the th pipe, and the output end of the filter is communicated with the output pipe through the second pipe.

5. The degreasing system of claim 4, wherein a control valve is disposed on the th pipe, and a second control valve is disposed on the second pipe.

6. The degreasing system of claim 2, wherein the number of the nozzles is two or more, and the two or more nozzles are spaced apart along a length of the delivery pipe.

7. The degreasing system of claim 3, further comprising a collection tank, wherein the slag discharge end of the filter is in communication with the collection end of the collection tank.

8. The degreasing system of claim 1, further comprising a third pipe and a fourth pipe, wherein an input end of the gas-liquid mixing pump is in communication with the holding tank through the third pipe, and wherein the input end of the gas-liquid mixing pump is further in communication with the gas through the fourth pipe.

9. The degreasing system of claim 8, wherein a third control valve is disposed on the third pipe, and a fourth control valve is disposed on the fourth pipe.

10. The degreasing system of any of claims 1-9, , wherein the holding tank is in communication with the degreasing tank.

Images