CN210933906U - Defoaming device for salicylate ultraviolet absorbent - Google Patents

Abstract

The utility model provides a salicylate ultraviolet absorber fire fighting equipment, it includes absorbent jar, defoaming jar, foam tube and back flow, through foam tube and back flow and absorbent jar and defoaming jar UNICOM, the foam tube forms the foam and carries the return circuit and carry absorbent foam to the defoaming jar, punctures absorbent foam defoaming through the thorn bubble cap that is located the defoaming jar, the back flow forms absorbent backward flow return circuit, flows back the absorbent to in the absorbent jar. The utility model overcomes filling process is stored to the great absorbent of concentration and consistency in the former chemical production field, produces the absorbent foam and spills over, piles up, occupation space, needs carry out the problem of retreatment to the deposit absorbent, has simple structure, and the absorbent foam can not be excessive, and occupation space is little, no deposit absorbent, characteristics that easy operation is convenient.

Description

Defoaming device for salicylate ultraviolet absorbent

Technical Field

The utility model belongs to the technical field of chemical industry defoaming, a salicylate class ultraviolet absorber fire fighting equipment is related to.

Background

In the production process in the chemical field, a chemical intermediate, namely ultraviolet absorbers of salicylate esters such as isooctyl salicylate, homosalate, butyl octanol salicylate, and the like, is involved, the ultraviolet absorbers are usually stored in a large-scale storage facility and then filled, during storage, the absorbers entering the storage equipment can generate absorber foam under high-pressure impact, are not easy to eliminate in a short time, can overflow and accumulate along with an overflow port of the storage equipment, occupy a large amount of space, and the deposited absorbers can be treated again after the foam is eliminated.

Disclosure of Invention

The utility model aims to solve the technical problem that a salicylate ultraviolet absorber fire fighting equipment is provided, simple structure adopts foam tube and back flow and absorbent jar and defoaming jar UNICOM, and the foam tube forms the foam and carries the return circuit and carry absorbent foam to defoaming jar, and the thorn bubble cap that is located the defoaming jar punctures absorbent foam defoaming, and the back flow forms absorbent return circuit, flows back absorbent to in the absorbent jar, and the absorbent foam can not be excessive, and occupation space is little, does not have the deposit absorbent, and easy operation is convenient.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a salicylic acid ester ultraviolet absorbent defoaming device comprises an absorbent tank, a defoaming tank, a foam pipe and a return pipe; the absorbent tank and the defoaming tank are communicated with each other through a foam pipe and a return pipe, and the foam pipe and the return pipe form a loop; one end of the foam pipe is connected with the upper side face of the absorbent tank, the other end of the foam pipe is connected with the upper side face of the defoaming tank, one end of the return pipe is connected with the lower side face of the defoaming tank, and the other end of the return pipe is connected with the side face of the absorbent tank.

The absorbent tank is a hollow tank body, an oil inlet pipe is arranged on the upper side face, and a discharge pipe is arranged on the bottom side face.

The upper side surface of the absorbent tank is provided with a booster pump communicated with the tank body.

The upper side of defoaming jar is higher than the upper side of absorbent jar, and the downside of defoaming jar is less than the upper side of absorbent jar.

The defoaming jar is the hollow jar body, and the bottom becomes the back taper shape, and the one end and the conical top of back flow are connected.

The defoaming tank is internally provided with a thorn bubble cap, and the thorn bubble cap is fixedly connected with the inner wall of the tank body and is positioned on the upper part of the conical top.

The thorn bubble cap is a hollow inverted cone-shaped structure, the opening of the thorn bubble cap faces upwards, and a plurality of thorn bubble needles with upward needle points are arranged at the bottom of the inner cone top of the cavity.

The inner wall of the pricking bubble cap is provided with a plurality of pricking needles with upward needle points which are distributed in a ring shape.

A salicylic acid ester ultraviolet absorbent defoaming device comprises an absorbent tank, a defoaming tank, a foam pipe and a return pipe; the absorbent tank and the defoaming tank are communicated with each other through a foam pipe and a return pipe, and the foam pipe and the return pipe form a loop; one end of the foam pipe is connected with the upper side face of the absorbent tank, the other end of the foam pipe is connected with the upper side face of the defoaming tank, one end of the backflow pipe is connected with the lower side face of the defoaming tank, and the other end of the backflow pipe is connected with the side face of the absorbent tank. Simple structure, through foam pipe and back flow and absorbent jar and defoaming jar UNICOM, the foam pipe forms the foam and carries the return circuit and carry absorbent foam to the defoaming jar, punctures absorbent foam defoaming through the thorn bubble cap that is located the defoaming jar, and the back flow forms absorbent return circuit, flows back in absorbent to the absorbent jar, and the absorbent foam can not be excessive, and occupation space is little, no deposit absorbent, and easy operation is convenient.

In a preferred scheme, the absorbent tank is a hollow tank body, an oil inlet pipe is arranged on the upper side surface, and a discharge pipe is arranged on the bottom side surface. Simple structure, during the use, the pipeline of finished product absorbent with advance oil pipe UNICOM, the discharge pipe that is located absorbent tank bottom discharges the absorbent and fills, the in-process that the absorbent was carried, absorbent foam is located the upper portion of absorbent jar, does not influence the filling of absorbent.

In a preferred scheme, a booster pump is arranged on the upper side surface of the absorbent tank and communicated with the tank body. Simple structure, during the use, the booster pump that is located side on the absorbent jar is opened after absorbent foam piles up in absorbent jar upper portion, and the internal malleation of jar makes the absorbent foam enter into the defoaming jar along the foam tube.

In a preferred scheme, the upper side of the defoaming tank is higher than the upper side of the absorbent tank, and the lower side of the defoaming tank is lower than the upper side of the absorbent tank. Simple structure, during the use, the defoaming jar is gone up the side and is the foam inlet port, is higher than the absorbent jar, is favorable to entering into the defoaming jar after the foam discharge smoothly in, and the downside of defoaming jar is less than the side of going up of absorbent jar, is favorable to eliminating the absorbent of back deposit in defoaming jar bottom and gets into the back flow.

In a preferred scheme, the defoaming tank is a hollow tank body, the bottom of the defoaming tank is in an inverted cone shape, and one end of the backflow pipe is connected with the conical top. Simple structure, during the use, defoaming tank bottom becomes the back taper shape structure, is favorable to compiling the absorbent foam after puncturing, makes the absorbent deposit, finally gets into the back flow and flows back to in the absorbent jar, can not form sedimentary absorbent on ground.

In a preferred scheme, a thorn bubble cap is arranged in the defoaming tank, and the thorn bubble cap is fixedly connected with the inner wall of the tank body and positioned at the upper part of the conical top. Simple structure, during the use, be located the thorn bubble cap that the defoaming jar set up and be used for puncturing absorbent foam, make a large amount of absorbent foam break in the short time, collect in the defoaming tank bottom after forming the absorbent and discharge from the back flow.

In the preferred scheme, the pricking bubble cap is of a hollow inverted cone structure, the opening of the pricking bubble cap faces upwards, and a plurality of pricking bubble needles with upward needle points are arranged at the bottom of the inner cone top of the cavity. The structure is simple, when the defoaming tank is used, absorbent foam enters from the pricking foam cover with the opening facing upwards, is pricked by the pricking foam needle with the needle point facing upwards after falling, and forms absorbent which slides downwards along the pricking foam needle and finally gathers at the bottom of the defoaming tank.

In a preferred scheme, the inner wall of the pricking cover is provided with a plurality of pricking needles with upward needle points which are arranged in a ring shape. The structure is simple, when the defoaming device is used, the pricking needle arranged on the inner wall of the pricking bubble cap is pricked by the pricking needle after absorbent foam descends, and absorbent sliding down along the pricking needle slides down along the inclined inner wall of the pricking bubble cap and is collected at the bottom of the defoaming tank.

The utility model provides a salicylate ultraviolet absorber fire fighting equipment, it includes absorbent jar, defoaming jar, foam tube and back flow, through foam tube and back flow and absorbent jar and defoaming jar UNICOM, the foam tube forms the foam and carries the return circuit and carry absorbent foam to the defoaming jar, punctures absorbent foam defoaming through the thorn bubble cap that is located the defoaming jar, the back flow forms absorbent backward flow return circuit, flows back the absorbent to in the absorbent jar. The utility model overcomes filling process is stored to the great absorbent of concentration and consistency in the former chemical production field, produces the absorbent foam and spills over, piles up, occupation space, needs carry out the problem of retreatment to the deposit absorbent, has simple structure, and the absorbent foam can not be excessive, and occupation space is little, no deposit absorbent, characteristics that easy operation is convenient.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a schematic top view of fig. 2.

Fig. 4 is a schematic sectional view at a-a of fig. 3.

Fig. 5 is a schematic structural view of the thorn bubble cap of the present invention.

Fig. 6 is a top view of fig. 5.

In the figure: the device comprises an absorbent tank 1, an oil inlet pipe 11, a discharge pipe 12, a booster pump 13, a defoaming tank 2, a puncture bubble cap 21, a puncture bubble needle 22, a foam pipe 3 and a return pipe 4.

Detailed Description

As shown in fig. 1 to 6, a defoaming device for salicylate ultraviolet absorbers comprises an absorbent tank 1, a defoaming tank 2, a foam pipe 3 and a return pipe 4; the absorbent tank 1 and the defoaming tank 2 are communicated with each other through a foam pipe 3 and a return pipe 4, and the foam pipe 3 and the return pipe 4 form a loop; one end of the foam pipe 3 is connected with the upper side surface of the absorbent tank 1, the other end of the foam pipe is connected with the upper side surface of the defoaming tank 2, one end of the return pipe 4 is connected with the lower side surface of the defoaming tank 2, and the other end of the return pipe is connected with the side surface of the absorbent tank 1. Simple structure, through foam pipe 3 and back flow 4 and absorbent jar 1 and defoaming jar 2 UNICOM, foam pipe 3 forms the foam and carries the return circuit and carry absorbent foam to defoaming jar 2, punctures absorbent foam defoaming through the thorn bubble cap 21 that is located defoaming jar 2, and back flow 4 forms absorbent return circuit, and in back flow absorbent to absorbent jar 1, the absorbent foam can not be excessive, and occupation space is little, and no deposit absorbent, easy operation is convenient.

In a preferred scheme, the absorbent tank 1 is a hollow tank body, an oil inlet pipe 11 is arranged on the upper side surface, and a discharge pipe 12 is arranged on the bottom side surface. Simple structure, during the use, finished product absorbent's pipeline and the oil pipe 11 UNICOM of advancing, the discharge pipe 12 that is located absorbent jar 1 bottom discharges the absorbent and fills, and the in-process that the absorbent was carried, absorbent foam are located the upper portion of absorbent jar 1, do not influence the filling of absorbent.

In a preferable scheme, a booster pump 13 is arranged on the upper side surface of the absorbent tank 1 and is communicated with the tank body. Simple structure, during the use, the booster pump 13 that is located absorbent jar 1 upper side is opened after absorbent foam piles up in absorbent jar 1 upper portion, and the internal malleation of jar makes absorbent foam enter into in defoaming jar 2 along foam tube 3.

Preferably, the absorbent tank 1 is made of transparent tempered glass, which is beneficial to observing the foam state in the tank body.

In a preferable scheme, the upper side surface of the defoaming tank 2 is higher than the upper side surface of the absorbent tank 1, and the lower side surface of the defoaming tank 2 is lower than the upper side surface of the absorbent tank 1. Simple structure, during the use, the side is higher than absorbent jar 1 for the foam inlet port on defoaming jar 2, is favorable to entering into defoaming jar 2 smoothly after the foam is discharged in, and the downside of defoaming jar 2 is less than the side of going up of absorbent jar 1, is favorable to eliminating the absorbent entering back flow 4 of back deposit in defoaming jar 2 bottoms.

In the preferred scheme, the defoaming tank 2 is a hollow tank body, the bottom of the tank body is in an inverted cone shape, and one end of the return pipe 4 is connected with the cone top. Simple structure, during the use, 2 bottoms of defoaming jar form the back taper shape structure, are favorable to compiling the absorbent foam after puncturing, make absorbent deposit, finally get into back flow 4 and flow back to in the absorbent jar 1, can not form sedimentary absorbent on ground.

In a preferable scheme, the defoaming tank 2 is internally provided with the pricking bubble cap 21, and the pricking bubble cap 21 is fixedly connected with the inner wall of the tank body and is positioned at the upper part of the conical top. The structure is simple, when in use, the pricking bubble cap 21 arranged in the defoaming tank 2 is used for pricking absorbent foam, so that a large amount of absorbent foam is broken in a short time, and the absorbent is collected at the bottom of the defoaming tank 2 and discharged from the return pipe 4 after being formed.

In a preferred scheme, the pricking cap 21 is a hollow inverted cone-shaped structure, the opening of the pricking cap is upward, and a plurality of pricking needles 22 with upward needle points are arranged at the bottom of the inner cone top of the cavity. Simple structure, during the use, absorbent foam gets into from opening thorn bubble lid 21 upwards, is punctured by the upward pricking needle 22 of pinpoint after the whereabouts, and the foam after the puncture forms absorbent and slides down along pricking needle 22, finally gathers in defoaming jar 2 bottom.

In a preferred scheme, a plurality of upwards-pointing puncturing needles 22 arranged in a ring shape are arranged on the inner wall of the puncturing bubble cap 21. Simple structure, during the use, the pricking needle 22 that is located the inner wall setting of pricking bubble cap 21 is punctured by pricking needle 22 after absorbent foam descends, and the absorbent that slides down along pricking needle 22 slides down along the inclined pricking bubble cap 21 inner wall and gathers in the defoaming jar 2 bottom.

When the salicylic acid ester ultraviolet absorbent defoaming device is installed and used, the foam pipe 3 and the return pipe 4 are communicated with the absorbent tank 1 and the defoaming tank 2, the foam pipe 3 forms a foam conveying loop to convey absorbent foam to the defoaming tank 2, the pricking bubble cap 21 in the defoaming tank 2 punctures the absorbent foam for defoaming, the return pipe 4 forms an absorbent return loop, the return absorbent flows to the absorbent tank 1, the absorbent foam cannot overflow, the occupied space is small, no absorbent is deposited, and the operation is simple and convenient.

When the absorbent packaging device is used, a conveying pipeline of a finished absorbent is communicated with the oil inlet pipe 11, the absorbent is discharged by the discharge pipe 12 positioned at the bottom of the absorbent tank 1 for filling, and absorbent foam is positioned at the upper part of the absorbent tank 1 in the absorbent conveying process, so that the filling of the absorbent is not influenced.

When the defoaming device is used, the booster pump 13 positioned on the upper side surface of the absorbent tank 1 is started after absorbent foam on the upper part in the absorbent tank 1 is accumulated, and the absorbent foam enters the defoaming tank 2 along the foam pipe 3 by positive pressure in the tank body.

During the use, the side is higher than absorbent jar 1 for the foam inlet port on defoaming jar 2, is favorable to entering into defoaming jar 2 smoothly after the foam is discharged in, and the downside of defoaming jar 2 is less than the side of going up of absorbent jar 1, is favorable to eliminating the absorbent entering back flow 4 of back deposit in defoaming jar 2 bottoms.

When the defoaming device is used, the bottom of the defoaming tank 2 is in an inverted cone-shaped structure, so that punctured absorbent foam can be collected, the absorbent is deposited and finally enters the return pipe 4 to return to the absorbent tank 1, and the deposited absorbent cannot be formed on the ground.

When in use, the pricking bubble cap 21 arranged in the defoaming tank 2 is used for pricking absorbent foam, so that a large amount of absorbent foam is broken in a short time, and the absorbent is collected at the bottom of the defoaming tank 2 and discharged from the return pipe 4 after being formed.

When the defoaming device is used, absorbent foam enters from the puncturing bubble cap 21 with the opening facing upwards, falls down and is punctured by the puncturing needle 22 with the needle point facing upwards, and the punctured foam forms absorbent which slides downwards along the puncturing needle 22 and finally gathers at the bottom of the defoaming tank 2.

When in use, the puncture needle 22 arranged on the inner wall of the puncture blister 21 is punctured by the puncture needle 22 after absorbent foam descends, and absorbent sliding down along the puncture needle 22 slides down along the inner wall of the inclined puncture blister 21 and collects at the bottom of the defoaming tank 2.

The above embodiments are merely preferred technical solutions of the present invention, and should not be considered as limitations of the present invention, and the features in the embodiments and the examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention shall be defined by the claims and the technical solutions described in the claims, including the technical features of the equivalent alternatives as the protection scope. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (8)

1. A salicylic acid ester ultraviolet absorbent defoaming device is characterized in that: the device comprises an absorbent tank (1), a defoaming tank (2), a foam pipe (3) and a return pipe (4); the absorbent tank (1) and the defoaming tank (2) are communicated with each other through a foam pipe (3) and a return pipe (4), and the foam pipe (3) and the return pipe (4) form a loop; one end of the foam pipe (3) is connected with the upper side face of the absorbent tank (1), the other end of the foam pipe is connected with the upper side face of the defoaming tank (2), one end of the return pipe (4) is connected with the lower side face of the defoaming tank (2), and the other end of the return pipe is connected with the side face of the absorbent tank (1).

2. The ultraviolet absorber defoaming apparatus of salicylates as set forth in claim 1, wherein: the absorbent tank (1) is a hollow tank body, an oil inlet pipe (11) is arranged on the upper side surface, and a discharge pipe (12) is arranged on the bottom side surface.

3. The ultraviolet absorber defoaming apparatus of salicylates as set forth in claim 2, wherein: the upper side surface of the absorbent tank (1) is provided with a booster pump (13) communicated with the tank body.

4. The ultraviolet absorber defoaming apparatus of salicylates as set forth in claim 1, wherein: the upper side of the defoaming tank (2) is higher than the upper side of the absorbent tank (1), and the lower side of the defoaming tank (2) is lower than the upper side of the absorbent tank (1).

5. The ultraviolet absorber defoaming apparatus of salicylates as set forth in claim 1, wherein: the defoaming tank (2) is a hollow tank body, the bottom of the tank body is in an inverted cone shape, and one end of the return pipe (4) is connected with the cone top.

6. The ultraviolet absorber defoaming apparatus of salicylates as set forth in claim 5, wherein: the defoaming tank (2) is internally provided with a barbed bubble cap (21), and the barbed bubble cap (21) is fixedly connected with the inner wall of the tank body and is positioned at the upper part of the conical top.

7. The ultraviolet absorber defoaming apparatus as set forth in claim 6, wherein: the thorn bubble cap (21) is a hollow inverted cone-shaped structure, the opening of the thorn bubble cap faces upwards, and a plurality of thorn bubble needles (22) with upward needle points are arranged at the bottom of the inner cone top of the cavity.

8. The ultraviolet absorber defoaming apparatus as set forth in claim 7, wherein: the inner wall of the pricking bubble cap (21) is provided with a plurality of pricking needles (22) which are arranged in a ring shape and have upward needle points.

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