CN215277148U - Be used for producing compound auxiliary device of sucrose fatty acid ester - Google Patents

Abstract

The utility model relates to a be used for producing compound auxiliary device of sucrose fatty acid ester, including mixing the cauldron, be provided with the supplementary subassembly that adds on a side of mixing the cauldron, supplementary subassembly that adds includes quantification case, a quantification section of thick bamboo and proportioning device, quantification case fixed mounting is on a lateral wall of mixing the cauldron, a quantification section of thick bamboo fixed mounting is at the top of quantification case and runs through the interior bottom that extends to the quantification case. The utility model discloses a compound auxiliary device of production sucrose fatty acid ester is through setting up proportioning device and one-way spacing pipe, solves, through the threaded connection of screw rod and piston dish, the sliding connection of negative pressure pipe piston dish to one-way circulation through check valve and valve body, make proportioning device be convenient for carry out ration extraction sucrose fatty acid ester, simultaneously through setting up parts such as umbrella-shaped pipe, obstruction piece, spring, baffle, make the one-way injection mixing cauldron of solution.

Description

Be used for producing compound auxiliary device of sucrose fatty acid ester

Technical Field

The utility model relates to a sucrose fatty acid ester technical field specifically is a compound auxiliary device for producing sucrose fatty acid ester.

Background

In the prior art, a mixing kettle is generally used for preparing the fatty acid sucrose ester, and the sucrose is subjected to ester exchange through a dissolving reaction of a synthetic solvent such as DMF, xylene, propylene glycol, water and the like and sucrose.

When the existing mixing kettle is used for preparation, synthetic solvent needs to be added into the mixing kettle after batch reaction production, and the existing mixing kettle is inconvenient because of the lack of an auxiliary adding device and the manual quantitative addition; patent application No. CN201911210917.3 discloses a mixing kettle, and it is through setting up vertical decurrent transfer line on the mounting bracket, and the bottom of transfer line is provided with stirring vane, and the bottom of transfer line is provided with temperature monitoring module, sets up the second on the transfer line and heats the module, can improve the cyclic utilization of heat energy, but the device still needs the manual work to carry out the ration when using and adds the material.

Therefore, the auxiliary device for compounding the sucrose fatty acid ester is provided to solve the problems.

SUMMERY OF THE UTILITY MODEL

To the not enough of prior art, the utility model provides a compound auxiliary device for producing sucrose fatty acid ester possesses advantages such as the control ration of being convenient for adds.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a be used for producing compound auxiliary device of sucrose fatty acid ester, includes mixed cauldron, be provided with the supplementary subassembly that adds on mixed cauldron's a side, supplementary subassembly that adds includes batch tank, a quantification section of thick bamboo and proportioning device, batch tank fixed mounting is on mixed cauldron's a lateral wall, a quantification section of thick bamboo fixed mounting runs through the interior bottom that extends to the batch tank at the top of batch tank, communicates the proportioning device simultaneously, the proportioning device sets up the top at the batch tank, the intercommunication has one-way spacing pipe between proportioning device and the mixed cauldron.

The proportioning device includes the ration pipe, ration pipe intercommunication ration case and quantitative section of thick bamboo, the top fixed mounting of ration pipe has the negative pressure pipe, the inside rotation of negative pressure pipe is installed and is run through the screw rod that extends to the top of negative pressure pipe, the outside movable mounting of screw rod has the piston dish, the top fixed mounting of negative pressure pipe has the motor, the bottom fixed mounting of ration pipe has the check valve, movable mounting has the valve body on the check valve.

Further, one-way spacing pipe is including being managed, even pipe intercommunication ration pipe and mixed cauldron, the inside fixed mounting of even pipe has the baffle, the one end fixed mounting that even pipe is close to the ration pipe has the umbrella-shaped pipe, the one end fixed mounting that the baffle is close to the ration pipe has the spring, the one end fixed mounting that the spring is close to the ration pipe has the blockage piece, the circulation groove has been seted up on the inner wall of even pipe, the blockage piece is close to fixed mounting on the side of baffle has the gag lever post.

Furthermore, a communicating hole is formed in the inner wall of the fixed connection between the negative pressure pipe and the quantitative pipe.

Further, the screw rod penetrates through the connection part of the negative pressure pipe and is connected with the sealing ring through a bearing.

Further, the outside cover of piston dish is equipped with the rubber sleeve, and the inseparable sliding connection of inner wall of piston dish and negative pressure pipe, the center department of piston dish is provided with thread bush and sealing washer simultaneously to with screw rod threaded connection.

Further, the check valve is a cylindrical part, the bottom end of the cylinder body of the check valve is flush with the bottom of the quantitative tube, a sliding groove is formed in the upper end of the cylinder body, and a movable hole and a circulation hole which are communicated with the quantitative tube are formed in the bottom wall of the cylinder body in a penetrating mode.

Further, the valve body is composed of a conical bottom connecting rod and a valve, the connecting rod is connected with the movable hole in a sliding mode, the conical bottom face of the conical bottom is larger than the hole face of the movable hole, and the valve is connected with the sliding groove in a sliding mode correspondingly.

Furthermore, the baffle is attached to the inner wall of the connecting pipe, and a liquid hole is formed in the center of the baffle in a penetrating mode.

Further, the width of the circulation groove is larger than the diameter of the conical lower bottom of the blocking piece.

Compared with the prior art, the technical scheme of the application has the following beneficial effects:

this be used for producing compound auxiliary device of sucrose fatty acid ester, through setting up the screw rod, including a motor, an end cap, a controller, and a cover plate, the negative pressure pipe, the check valve, parts such as valve body, threaded connection through screw rod and piston dish, the sliding connection of negative pressure pipe piston dish, and the one-way circulation through check valve and valve body, make proportioning device be convenient for carry out ration extraction solvent, through setting up the umbrella-shaped pipe, the blocking piece, a spring, parts such as baffle, through umbrella-shaped pipe and blocking piece joint, spring fixed connection promotes blocking piece and baffle and makes the device can realize one-way circulation.

Drawings

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

FIG. 2 is a top view of the valve disc of the present invention;

FIG. 3 is an exploded view of the single valve of the present invention;

fig. 4 is a schematic view of the structure of the one-way limiting pipe of the present invention.

In the figure: 1 mixing kettle, 2 quantitative box, 3 quantitative cylinder, 4 quantitative device, 401 quantitative tube, 402 negative pressure tube, 403 screw, 404 motor, 405 piston disc, 406 one-way valve, 407 valve body, 5 one-way limit tube, 501 connecting tube, 502 umbrella-shaped tube, 503 baffle, 504 spring, 505 blocking piece, 506 limit rod and 507 circulation groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1-4, the auxiliary device for producing a sucrose fatty acid ester compound in this embodiment, including mixing kettle 1, a side of mixing kettle 1 is provided with an auxiliary adding component, the auxiliary adding component includes a quantitative tank 2, a quantitative cylinder 3 and a quantitative device 4, quantitative tank 2 is fixedly mounted on a side wall of mixing kettle 1, and simultaneously, the solvent is stored through a tank cover on the side of quantitative tank 2, quantitative cylinder 3 is fixedly mounted on the top of quantitative tank 2 and runs through to extend to the inner bottom of quantitative tank 2, and simultaneously communicates quantitative device 4 for extracting the solvent to the inside of quantitative device 4, and quantitative device 4 is disposed on the top of quantitative tank 2, and is used for quantitatively extracting the solvent and injecting the liquid, and a one-way limiting pipe 5 is communicated between quantitative device 4 and mixing kettle 1, so that the solution can be injected into mixing kettle 1 through one-way limiting pipe 5.

Wherein, proportioning device 4 includes quantitative pipe 401, and quantitative pipe 401 passes through support fixed connection batch tank 2 and communicates with quantitative section of thick bamboo 3, and quantitative pipe 401 is the hyaline tube, and the pipe wall outside is provided with the scale bar, and the operating personnel of being convenient for carries out the degree ration and annotates the liquid.

And, there is a negative pressure pipe 402 fixed on the top of the quantitative pipe 401, and a communicating hole is opened on the inner wall of the fixed connection between the negative pressure pipe 402 and the quantitative pipe 401, so that the negative pressure pipe 402 and the quantitative pipe 401 are in a communicating state, and then the solvent is sucked, a screw 403 is installed inside the negative pressure pipe 402 in a rotating manner, the screw 403 penetrates and extends to the upper side of the negative pressure pipe 402, and meanwhile, the connection part where the screw 403 penetrates through the negative pressure pipe 402 is connected through a bearing and a sealing ring, so that the negative pressure pipe 402 and the top are kept in a sealing state, and negative pressure can be generated.

As shown in fig. 3, a piston disc 405 is movably mounted outside the screw 403, a rubber sleeve is sleeved outside the piston disc 405, the piston disc 405 is attached to and tightly slidably connected with the inner wall of the negative pressure tube 402 through the rubber sleeve, and a threaded sleeve and a sealing ring are arranged at the center of the piston disc 405 and are in threaded connection with the screw 403, so that the negative pressure tube 402 is internally sealed, and the piston disc 405 can be driven by the screw 403 to be lifted, so that the inside of the negative pressure tube 402 is in a negative pressure state to absorb a solvent.

At the top fixed mounting of negative pressure pipe 402 there is motor 404, the output shaft fixed connection screw 403 of motor 404, be used for driving piston disc 405 activity to form the negative pressure, the bottom fixed mounting of dosing pipe 401 has check valve 406, movable mounting has valve body 407 on the check valve 406, check valve 406 is drum type spare, its barrel bottom flushes with the bottom of dosing pipe 401, the spout has been seted up to the barrel upper end simultaneously, run through on the barrel diapire and set up the movable hole and the opening of intercommunication dosing section of thick bamboo 3, the movable hole is used for swing joint valve body 407, the opening is used for communicating dosing section of thick bamboo 3 and dosing pipe 401.

During the specific design, it is optional to set up valve body 407 to constitute by conical bottom connecting rod and valve, connecting rod and activity hole sliding connection, and the conical bottom surface that sets up the conical bottom is greater than the pore surface of activity hole, so that valve body 407 and activity hole support and close, avoid valve body 407 to break away from check valve 406, the corresponding sliding connection of valve and spout, be used for blockking the opening and close check valve 406, make dosing pipe 401 can seal under atmospheric pressure promotes, inhale at the negative pressure and take off and open and shut, reach the effect of one-way absorption solvent.

Referring to fig. 4, in order to prevent the gas-liquid in the mixing kettle from flowing backwards through the one-way limiting pipe, the one-way limiting pipe 5 in the embodiment includes a connecting pipe 501, the connecting pipe 501 is communicated with the quantitative pipe 401 and the mixing kettle 1, a baffle 503 is fixedly installed inside the connecting pipe 501, the baffle 503 is attached to the inner wall of the connecting pipe 501, and meanwhile, a liquid hole is formed in the center of the baffle 503 and is used for communicating the left side and the right side.

An umbrella-shaped tube 502 is fixedly mounted at one end of the connecting tube 501 close to the quantitative tube 401, a spring 504 is fixedly mounted at one end of the baffle 503 close to the quantitative tube 401, and can prevent metal ions of the spring 504 from being brought into the mixing kettle 1 by a solvent, a blocking piece 505 is fixedly mounted at one end of the spring 504 close to the quantitative tube 401, the blocking piece 505 corresponds to the shape of the umbrella-shaped tube 502, and is clamped with the umbrella-shaped tube 502 under the pushing of the spring 504, so that gas and liquid at the end of the mixing kettle 1 can be blocked, and unidirectional closing is realized.

Furthermore, a circulation groove 507 is formed in the inner wall of the connecting pipe 501, the groove width of the circulation groove 507 is larger than the diameter of the conical lower bottom of the blocking piece 505, so that the solvent can flow into the mixing kettle 1 through the circulation groove 507 in a single direction, a limit rod 506 is fixedly mounted on one side face, close to the baffle 503, of the blocking piece 505, the length of the limit rod 506 is smaller than the lengths of the blocking piece 505 and the baffle 503 in a clamping state, and the moving range of the blocking piece 505 can be limited.

Wherein, the utility model discloses still scribble on spring 504 surface and establish the isolated layer for spring 504 avoids receiving the corruption of solvent.

When the quantitative tube is used, a driving motor 404 is started, the motor 404 drives a screw 403 fixedly installed on an output shaft and a negative pressure tube 402 to rotate in a sealing manner, a piston disc 405 is driven to lift in the negative pressure tube 402 through threaded engagement, the inside of the negative pressure tube 402 is in a negative pressure state, the inside of the quantitative tube 401 is also in the negative pressure state through a communication hole, a connecting rod and a movable hole of a valve body 407 are made to slide relatively under the negative pressure state, a valve is made to slide to the outside of a cylinder body, and the limiting is realized under the condition that a conical bottom is abutted to the inner wall of the quantitative tube 401, so that a solvent is sucked to the inside of the quantitative tube 401 through the quantitative cylinder 3 and a circulation hole, meanwhile, a blocking piece 505 in a one-way limiting tube 5 is buckled with an umbrella-shaped tube 502 under the pushing of the elastic force of a spring 504, so that the one-way limiting tube 5 is sealed, the negative pressure state of the quantitative tube 401 is prevented from being influenced, and the motor 404 is driven reversely, so that the piston disc 405 presses the inside of the negative pressure pipe 402, and pushes the valve to be attached to the one-way valve 406 for sealing in a pressurization state, so that the solvent is pressed to the inside of the connecting pipe 501, and pushes the spring 504, so that the blocking piece 505 is separated from the clamping state with the umbrella-shaped pipe 502 and moves to the inside of the circulation groove 507, so that the connecting pipe 501 is in a communication state, and the solvent is quantitatively injected into the inside of the mixing kettle 1 through the circulation groove 507 and the liquid hole to realize quantitative addition.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a be used for producing compound auxiliary device of sucrose fatty acid ester, includes mixing kettle (1), its characterized in that: an auxiliary adding assembly is arranged on one side face of the mixing kettle (1), the auxiliary adding assembly comprises a quantitative box (2), a quantitative cylinder (3) and a quantitative device (4), the quantitative box (2) is fixedly mounted on one side wall of the mixing kettle (1), the quantitative cylinder (3) is fixedly mounted at the top of the quantitative box (2) and penetrates through the inner bottom of the quantitative box (2) to be communicated with the quantitative device (4), the quantitative device (4) is arranged at the top of the quantitative box (2), and a one-way limiting pipe (5) is communicated between the quantitative device (4) and the mixing kettle (1);

quantifying device (4) are including quantitative pipe (401), quantitative pipe (401) intercommunication quantitative case (2) and quantitative section of thick bamboo (3), the top fixed mounting of quantitative pipe (401) has negative pressure pipe (402), the inside rotation of negative pressure pipe (402) is installed and is run through screw rod (403) that extend to the top of negative pressure pipe (402), the outside movable mounting of screw rod (403) has piston dish (405), the top fixed mounting of negative pressure pipe (402) has motor (404).

2. The compounding auxiliary device for producing sucrose fatty acid ester according to claim 1, characterized in that: one-way spacing pipe (5) are including company's pipe (501), company's pipe (501) intercommunication ration pipe (401) and mixed cauldron (1), the inside fixed mounting of company's pipe (501) has baffle (503), the one end fixed mounting that company's pipe (501) are close to ration pipe (401) has umbrella-shaped pipe (502), the one end fixed mounting that baffle (503) are close to ration pipe (401) has spring (504), the one end fixed mounting that spring (504) are close to ration pipe (401) has stopper piece (505), circulation groove (507) have been seted up on the inner wall of company's pipe (501), stopper piece (505) are close to fixed mounting on the side of baffle (503) have gag lever post (506).

3. The compounding auxiliary device for producing sucrose fatty acid ester according to claim 1, characterized in that: the inner wall of the fixed connection between the negative pressure pipe (402) and the quantitative pipe (401) is provided with a communicating hole.

4. The compounding auxiliary device for producing sucrose fatty acid ester according to claim 1, characterized in that: the screw (403) penetrates through the joint of the negative pressure pipe (402) and is connected with the sealing ring through a bearing.

5. The compounding auxiliary device for producing sucrose fatty acid ester according to claim 4, wherein: the outside cover of piston dish (405) is equipped with the rubber sleeve, and piston dish (405) closely sliding connection with the inner wall of negative pressure pipe (402), and the center department of piston dish (405) is provided with thread bush and sealing washer simultaneously to with screw rod (403) threaded connection.

6. The compounding auxiliary device for producing sucrose fatty acid ester according to claim 1, characterized in that: the bottom of the dosing pipe (401) is fixedly provided with a one-way valve (406), and the one-way valve (406) is movably provided with a valve body (407).

7. The compounding auxiliary device for producing sucrose fatty acid ester according to claim 6, wherein: the check valve (406) is a cylindrical part, the bottom end of the cylinder body of the check valve is flush with the bottom of the quantitative tube (401), a sliding groove is formed in the upper end of the cylinder body, and a movable hole and a circulation hole which are communicated with the quantitative tube (3) penetrate through the bottom wall in the cylinder body.

8. The compounding auxiliary device for producing sucrose fatty acid ester according to claim 6, wherein: the valve body (407) is composed of a conical bottom connecting rod and a valve, the connecting rod is in sliding connection with the movable hole, the conical bottom surface of the conical bottom is larger than the hole surface of the movable hole, and the valve is in corresponding sliding connection with the sliding groove.

9. The compounding auxiliary device for producing sucrose fatty acid ester according to claim 2, wherein: the baffle (503) is attached to the inner wall of the connecting pipe (501), and meanwhile, a liquid hole is formed in the center of the baffle (503) in a penetrating mode.

10. The compounding auxiliary device for producing sucrose fatty acid ester according to claim 2, wherein: the width of the flow groove (507) is larger than the diameter of the conical lower bottom of the blocking piece (505).

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