CN214973844U - Transfer mechanism between sorbitol concentrate reation kettle - Google Patents

Abstract

The utility model discloses a transfer mechanism between reaction kettles for sorbitol concentrated solution, which comprises a plurality of reaction kettle bodies arranged at intervals, wherein the top of each reaction kettle body is fixed with a motor, and a transmission shaft of the motor is connected with a stirrer arranged in each reaction kettle body; the upper part of the reaction kettle body is provided with a top feeding port, the lower part of the reaction kettle body is provided with a bottom discharging port and supporting legs, wherein the top discharging port is arranged above the reaction kettle body and is connected with a material pipeline which avoids a stirring area of a stirrer, has the lower end extending into the central position of the bottom of the reaction kettle body, keeps an interval with the bottom and is used for conveying concentrated solution to the adjacent reaction kettle body by means of pressure; the other end of the material pipeline is connected to a top feeding port of the adjacent reaction kettle body. The utility model discloses not only can effectively solve because of the problem of pipeline material stock valve and pipeline jam, still make the concentrate transfer technology between the reation kettle body smooth, satisfy the bulk production demand of automatic assembly line.

Description

Transfer mechanism between sorbitol concentrate reation kettle

Technical Field

The utility model relates to a sorbitol production facility technical field, concretely relates to a transfer mechanism that is used for between sorbitol concentrate reation kettle.

Background

The sorbitol concentrated solution is transparent colorless viscous liquid and odorless, and the concentrated solution is required to be uniformly mixed in the preparation process of crystallized sorbitol and then enters the next crystallization process.

Connect the feed mode between current reation kettle and squeeze into another reation kettle with the concentrate through the pipeline from tank bottoms bleeder valve, remaining supplied materials causes the jam of valve and pipeline easily, is difficult for clearing up moreover, can often cause the feed unsmooth, and then influences production, can't satisfy automatic assembly line bulk production demand. Therefore, the transfer of the concentrated solution between the reaction kettles can be smoothly completed, which is a problem to be solved by the technical personnel at the present stage.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that needs to solve provides a transfer mechanism between sorbitol concentrate reation kettle, can unobstructed concentrated solution that accomplishes between the reation kettle shifts.

In order to solve the technical problem, the utility model adopts the following technical proposal.

The transfer mechanism between the sorbitol concentrated solution reaction kettles comprises a plurality of reaction kettle bodies arranged at intervals, wherein a motor is fixed at the top of each reaction kettle body, and a transmission shaft of the motor is connected with a stirrer arranged in each reaction kettle body; the upper part of the reaction kettle body is provided with a top feeding port, the lower part of the reaction kettle body is provided with a bottom discharging port and supporting legs for supporting the reaction kettle body, wherein the top discharging port is arranged above the reaction kettle body and is connected with a material pipeline which avoids a stirring area of a stirrer, has the lower end extending into the central position of the bottom of the reaction kettle body, keeps a gap with the bottom and is used for conveying concentrated solution to the adjacent reaction kettle body by means of pressure; the other end of the material pipeline is connected to a top feeding port of the adjacent reaction kettle body.

Preferably, the material pipeline is made of stainless steel and comprises a broken line type bent material pipeline and three straight material pipelines which are sequentially connected in a straight line shape, the upper end of the bent material pipeline is in threaded connection with the top discharge port, extends out of the top discharge port and is connected with the straight material pipeline through a first socket elbow, and the straight material pipeline is in threaded connection with the top feed inlet of the adjacent reaction kettle body through the turning of a second socket elbow.

Preferably, the connecting end of the bent material pipeline and the top discharge port is provided with a thread, and the inner wall of the top discharge port is provided with a thread matched with the thread of the bent material pipeline; the two ends of the straight material pipeline are provided with threads, and the inner wall of the top feeding port is provided with threads matched with the threads of the straight material pipeline.

Preferably, a straight material pipeline at the top discharge port end is connected with a respirator for providing clean air for the inside of the reaction kettle body through a three-way joint by using a pipeline, and the outlet end of the respirator is provided with a first electric valve for controlling the clean air to flow into the reaction kettle body.

Preferably, a second electric valve for controlling the transfer of the concentrated solution is arranged on the straight material pipeline at the rear end of the three-way joint.

Due to the adoption of the technical scheme, the utility model has the following technical progress.

The utility model discloses a top discharge gate that reation kettle body top set up and the material pipeline of reation kettle body bottom is deepened to the one end that sets up between the top discharge gate and the top pan feeding mouth of adjacent reation kettle body, rely on pressure to shift the concentrate to this internal adjacent reation kettle from the top of reation kettle body, not only can effectively solve the problem of pipeline stock, the problem of valve and pipe blockage has still been avoided, and then make the concentrate shift technology smoothness between the reation kettle body, the bulk production demand of automatic assembly line has been satisfied.

Drawings

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

Wherein: 1. the reaction kettle comprises a reaction kettle body, a top feeding port, a top discharging port, a material pipeline, a bent material pipeline, a straight material.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

A transfer mechanism between sorbitol concentrate reaction kettles is shown in a combined figure 1 and comprises a plurality of reaction kettle bodies 1, wherein the reaction kettle bodies 1 are arranged at intervals and used for containing sorbitol concentrate. The top of reation kettle body 1 is fixed with motor 9, and motor 9's transmission shaft is connected with agitator 10, and agitator 10 sets up in the inside of answering cauldron body 1, and motor 9 drive agitator 10 stirs the concentrate and carries out the homogeneous mixing.

The upper portion of reation kettle body 1 has seted up top pan feeding mouth 2 and top discharge gate 3, and bottom discharge gate 11 and be provided with supporting legs 12 have been seted up to reation kettle body 1's lower part, and supporting legs 12 is used for supporting reation kettle body 1. A material pipeline 4 is connected between a top discharge port 3 of the reaction kettle body 1 and a top feeding port 2 of the adjacent reaction kettle body 1, and the material pipeline 4 is used for conveying concentrated solution to the inside of the adjacent reaction kettle body 1 by means of pressure.

The material pipeline 4 is made of stainless steel and comprises a broken line type bent material pipeline 41 and three straight material pipelines 42 which are connected in sequence.

The bent material pipeline 41 is arranged inside the reaction kettle body 1, and the bent material pipeline 41 can avoid the stirring area of the stirrer 8. The bottom end of the bent material pipeline 41 extends into the central position of the bottom of the reaction kettle body 1 and keeps an interval with the bottom, so that the concentrated solution in the reaction kettle body 1 can be conveniently sucked and transferred; screw thread has been seted up to curved material pipeline 41's upper end, set up on the inner wall of top discharge gate 3 with the screw thread of curved material pipeline 41 screw thread looks adaptation, curved material pipeline 41's upper end and 3 threaded connection of top discharge gate and stretch out top discharge gate 3, curved material pipeline 41 and 3 threaded connection of top discharge gate, not only the leakproofness is strong, still be convenient for adjust the distance of the bottom distance reation kettle body 1 bottom of curved material pipeline 41, thereby effectively shift the concentrate of reation kettle body 1 inside.

Both ends of the straight material pipeline 42 are provided with threads, and the inner wall of the top feeding port 2 is provided with threads matched with the threads of the straight material pipeline 42. The straight material pipeline 42 is connected with the bent material pipeline 41 through a first socket elbow 6, and the straight material pipeline 42 turns to the top material inlet 2 of the adjacent reaction kettle body 1 through a second socket elbow 7 and is in threaded connection with the top material inlet 2.

The connecting end of the straight material pipeline 42 and the top discharge port 3 is connected with a respirator 5 through a three-way joint 8 by using a pipeline, the respirator 5 is used for providing clean air for the inside of the reaction kettle body 1, the outlet end of the respirator 5 is provided with a first electric valve 51, and when the concentrated solution is mixed in the reaction kettle body 1, the first electric valve 51 is opened to control the clean air to flow into the reaction kettle body 1.

Be provided with second motorised valve 43 on the straight material pipeline 42 of three way connection 8 rear ends, second motorised valve 43 is used for controlling the concentrate and shifts adjacent reation kettle body 1, when the concentrate needs to shift, first motorised valve 51 closes, second motorised valve 43 opens and controls 4 switches on of material pipeline, the concentrate flows into adjacent reation kettle body 1 through material pipeline 4 under the effect of pressure, thereby can effectively solve the problem of pipeline stock, the problem of valve and pipe blockage has been avoided, make the transfer technology smooth.

The utility model discloses when using, go deep into reation kettle body 1's bottom and be connected with adjacent reation kettle body 1's top pan feeding mouth 2 with material pipeline 4 through top discharge gate 3, rely on pressure to send into adjacent reation kettle body 1 with the concentrate from reation kettle body 1's top.

Claims (5)

1. The transfer mechanism between the sorbitol concentrated solution reaction kettles comprises a plurality of reaction kettle bodies (1) which are arranged at intervals, wherein a motor (9) is fixed at the top of each reaction kettle body (1), and a transmission shaft of each motor (9) is connected with a stirrer (10) arranged in each reaction kettle body (1); top pan feeding mouth (2) have been seted up on the upper portion of reation kettle body (1), and bottom discharge mouth (11) and supporting legs (12) that are used for supporting reation kettle body (1), its characterized in that have been seted up to the lower part of reation kettle body (1): a top discharge port (3) is formed above the reaction kettle body (1), and the top discharge port (3) is connected with a material pipeline (4) which avoids a stirring area of the stirrer (8), has the lower end extending into the central position of the bottom of the reaction kettle body (1), keeps an interval with the bottom and is used for conveying concentrated solution to the adjacent reaction kettle body (1) by means of pressure; the other end of the material pipeline (4) is connected to a top feeding port (2) of the adjacent reaction kettle body (1).

2. The transfer mechanism between sorbitol concentrate reaction kettles of claim 1, wherein: the material pipeline (4) is made of stainless steel and comprises a broken line type bent material pipeline (41) and three straight material pipelines (42) which are sequentially connected in a straight line shape, the upper end of the bent material pipeline (41) is in threaded connection with the top discharge port (3), extends out of the top discharge port (3) and is connected with the straight material pipeline (42) through a first socket elbow (6), and the straight material pipeline (42) is turned to be in threaded connection with the top feeding port (2) of the adjacent reaction kettle body (1) through a second socket elbow (7).

3. The transfer mechanism between sorbitol concentrate reaction kettles of claim 2, wherein: the connecting end of the bent material pipeline (41) and the top discharge port (3) is provided with threads, and the inner wall of the top discharge port (3) is provided with threads matched with the threads of the bent material pipeline (41); the two ends of the straight material pipeline (42) are provided with threads, and the inner wall of the top feeding port (2) is provided with threads matched with the threads of the straight material pipeline (42).

4. The transfer mechanism between sorbitol concentrate reaction kettles of claim 2, wherein: the device is characterized in that a breather (5) used for providing clean air for the interior of the reaction kettle body (1) is connected to a straight material pipeline (42) at the end of the top discharge port (3) through a three-way joint (8) by a pipeline, and a first electric valve (51) used for controlling the clean air to flow into the reaction kettle body (1) is arranged at the outlet end of the breather (5).

5. The transfer mechanism between sorbitol concentrate reaction kettles of claim 4, wherein: and a second electric valve (43) for controlling the transfer of the concentrated solution is arranged on the straight material pipeline (42) at the rear end of the three-way joint (8).

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