CN210058147U - Feeding device for dissolving kettle - Google Patents

Abstract

The utility model relates to a feed arrangement for dissolving kettle, include with dissolve the feeder hopper that the cauldron feed inlet cooperateed and used, add and establish on dissolving kettle that the control feeder hopper is close to or keeps away from the steering mechanism of dissolving the cauldron feed inlet and add and establish on dissolving the cauldron and control the feeder hopper and enter into the elevating system of dissolving the cauldron feed inlet. The utility model discloses have when feeding in to dissolving the cauldron, increase dissolving the feed inlet of cauldron, after the feeding was accomplished, can remove dissolving the feed inlet of cauldron, reached the effect of accelerating the feeding and guaranteeing its leakproofness.

Description

Feeding device for dissolving kettle

Technical Field

The utility model belongs to the technical field of the technique of dissolving kettle feeding and specifically relates to a feed arrangement for dissolving kettle is related to.

Background

Dissolution is the phase transition process by which a substance changes from a solid phase to a liquid phase. In the process of producing the glycerophosphorylcholine, solid potassium carbonate needs to be added into a dissolving kettle containing solution for dissolving, the mixture is stirred for 2 hours at the temperature of 30 +/-2 ℃, the required mixture is easy to obtain, and then the subsequent process flow is carried out.

Because solid potassium carbonate is very easy to absorb water, the step of adding the potassium carbonate into the dissolving kettle is fast, the sealing property of the dissolving kettle is ensured, the reaction temperature of the dissolving kettle is controlled to be about 30 ℃, but a feed inlet of the existing dissolving kettle is small, workers can only add the potassium carbonate solid into the dissolving kettle in batches, so that much time is spent, the potassium carbonate is exposed in the air for a long time, and the use effect of the potassium carbonate is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a feed arrangement for dissolving cauldron, it has when feeding in to dissolving the cauldron, and the feed inlet of cauldron is dissolved in the increase, and the back is accomplished in the feeding, can remove the feed inlet that dissolves the cauldron, has reached the effect of accelerating the feeding and guaranteeing its leakproofness.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: the utility model provides a feed arrangement for dissolving kettle, includes the feeder hopper that cooperatees and use with dissolving kettle feed inlet, add and establish on dissolving kettle and control the feeder hopper and be close to or keep away from the steering mechanism of dissolving kettle feed inlet and add and establish on dissolving kettle and control the feeder hopper and enter into the elevating system of dissolving kettle feed inlet.

The utility model discloses further set up to: the steering mechanism comprises a steering motor and a rotating shaft which is coaxially connected with the steering motor and drives the feed hopper to rotate.

The utility model discloses further set up to: the lifting mechanism comprises a lifting support fixedly connected to the dissolving kettle, a screw vertically fixedly connected to the lifting support, a rotating motor driving the screw to rotate, a lifting plate matched with the screw and used for fixing the steering motor, and a polished rod vertically fixedly connected to the lifting support and used for limiting the rotation of the lifting plate.

By adopting the technical scheme, when solid potassium carbonate needs to be added into the dissolving kettle, the sealing cover of the dissolving kettle feeding hole is firstly opened, then the steering motor is started in the forward direction, the rotating shaft rotates towards the direction close to the dissolving kettle feeding hole, the feeding hopper is further driven to rotate towards the direction close to the dissolving kettle feeding hole until the feeding hopper is just right above the dissolving kettle feeding hole, then the rotating motor is started in the forward direction, the screw rod rotates, the feeding hopper is further driven to move downwards towards the direction close to the dissolving kettle feeding hole until the feeding hopper is completely matched with the dissolving kettle feeding hole, then solid potassium carbonate is added into the feeding hopper, after the adding is finished, the rotating motor is started in the reverse direction, the screw rod rotates in the reverse direction, the feeding hopper is further driven to move upwards towards the direction far away from the dissolving kettle feeding hole until the initial height is reached, then the steering, and then the feed hopper is driven to move towards the direction far away from the feed inlet of the reaction kettle until the feed hopper returns to the initial position, and then the feed inlet of the dissolution kettle is sealed by the sealing cover, and the subsequent process operation is carried out. Through this feed arrangement not only accelerate the feeding, shortened the feeding time, still guarantee its leakproofness, do not influence follow-up technology operation.

The utility model discloses further set up to: the pivot passes through coupling assembling with the feeder hopper and can dismantle the connection.

The utility model discloses further set up to: coupling assembling includes the first clamp with the pivot joint, with the second clamp of feeder hopper joint and the connecting rod of connecting first clamp and second clamp.

By adopting the technical scheme, when the feeding hopper is required to be arranged on the rotating shaft, the first hoop is fixed on the rotating shaft, the circular sleeve formed by the second hoop is ensured to be in a vertical state, and the feeding hopper is placed in the second hoop and locked; when the feeder hopper is dismantled to needs and is changed, unload the second clamp pine earlier, then with the feeder hopper take away from the second clamp can, then the first clamp is unloaded to the pine, remove the pivot can. Establish coupling assembling through adding, made things convenient for the staff to change the feeder hopper.

The utility model discloses further set up to: the feeder hopper is offering the holding tank that holds the second clamp with second clamp junction.

Through adopting above-mentioned technical scheme, set up the holding tank and be when placing in the circular cover that the second clamp formed for the feeder hopper, when adding solid potassium carbonate in to the feeder hopper, the feeder hopper takes place the slope, has guaranteed the fixed feeder hopper that the second clamp can be stable.

The utility model discloses further set up to: and a material guide pipe extending towards the interior of the dissolving kettle is additionally arranged at the lower port of the feed hopper.

Through adopting above-mentioned technical scheme, when feeder hopper and dissolution kettle feed inlet cooperation were used and are added solid potassium carbonate, the passage just in time remained the same with the dissolution horizontal plane in the dissolution kettle, had prevented that solid potassium carbonate from being stained with on the puddler, had guaranteed that all solid potassium carbonate all entered into and dissolved.

The utility model discloses further set up to: and the inner surface and the outer surface of the material guide pipe are both sprayed with nano material UGT coatings.

By adopting the technical scheme, the solution is prevented from adhering to the material guide pipe when the material guide pipe leaves the dissolving kettle after the material feeding is finished.

To sum up, the utility model discloses a beneficial technological effect does:

1. by additionally arranging the feeding device, the feeding hole of the dissolving kettle is enlarged when the material is fed into the dissolving kettle, and the feeding hole of the dissolving kettle can be moved away after the material is fed, so that the effects of accelerating the material feeding and ensuring the sealing property of the material are achieved;

2. by additionally arranging the connecting assembly, workers can conveniently install and detach the feed hopper;

3. through adding the guide pipe that is equipped with to dissolving kettle inside extension at the lower port of feeder hopper, prevented that solid potassium carbonate from being stained with on the puddler, guaranteed that all solid potassium carbonate all enter into and dissolve.

Drawings

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

Fig. 2 is a cross-sectional view of the present invention.

Fig. 3 is a schematic structural diagram of the lifting mechanism of the present invention during operation.

Fig. 4 is a schematic structural view of the lifting mechanism and the steering mechanism according to the present invention.

Fig. 5 is a schematic structural view of the present invention when the feed hopper is not used.

Fig. 6 is a schematic structural view of the feeding hopper of the present invention.

In the figure, 1, a dissolving kettle; 111. a sealing cover; 112. a stirring rod; 2. a feed hopper; 3. a steering mechanism; 311. a steering motor; 312. a rotating shaft; 313. a connecting assembly; 314. a first clamp; 315. a second clamp; 316. a connecting rod; 4. a lifting mechanism; 411. a lifting support; 412. a screw; 413. rotating the motor; 414. a lifting plate; 415. a polish rod; 5. accommodating grooves; 6. a material guide pipe.

Detailed Description

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

Example (b): as shown in fig. 1, for the utility model discloses a feed arrangement for dissolving kettle adds the up end of establishing at dissolving kettle 1, and feed arrangement includes feeder hopper 2, the control feeder hopper 2 that uses with dissolving kettle 1 feed inlet cooperation and is close to or keeps away from the steering mechanism 3 and the elevating system 4 that control feeder hopper 2 entered into dissolving kettle 1 feed inlet that dissolve kettle 1 feed inlet.

As shown in fig. 4, the steering mechanism 3 includes a steering motor 311, a rotating shaft 312, and a connecting assembly 313 connecting the rotating shaft 312 and the feeding hopper 2, and the connecting assembly 313 includes a first yoke 314 engaged with the rotating shaft 312, a second yoke 315 engaged with the feeding hopper 2, and a connecting rod 316 connecting the first yoke 314 and the second yoke 315.

The lifting mechanism 4 comprises a lifting support 411 fixedly connected to the dissolving tank 1, a screw 412 vertically fixedly connected to the lifting support 411, a rotating motor 413 for driving the screw 412 to rotate, a lifting plate 414 used in cooperation with the screw 412 and used for fixing the steering motor 311, and a polished rod 415 vertically fixedly connected to the lifting support 411 and used for limiting the rotation of the lifting plate 414.

When solid potassium carbonate needs to be added into the dissolving kettle 1, with reference to fig. 1, 3 and 5, the sealing cover 111 of the feed inlet of the dissolving kettle 1 is firstly opened, then the steering motor 311 is started in the forward direction, the rotating shaft 312 rotates in the direction close to the feed inlet of the dissolving kettle 1, and further drives the feed hopper 2 to rotate in the direction close to the feed inlet of the dissolving kettle 1 until the feed hopper 2 is just above the feed inlet of the dissolving kettle 1, then the rotating motor 413 is started in the forward direction, the screw 412 rotates, and further drives the feed hopper 2 to move downwards in the direction close to the feed inlet of the dissolving kettle 1 until the feed hopper 2 is completely matched with the feed inlet of the dissolving kettle 1, then solid potassium carbonate is added into the feed hopper 2, after the addition is finished, the rotating motor 413 is started in the reverse direction, the screw 412 rotates in the reverse direction, and further drives the feed, then reverse start turns to motor 311, and pivot 312 moves to the direction of keeping away from dissolving kettle 1 feed inlet, and then drives feeder hopper 2 and moves to the direction of keeping away from dissolving kettle 1 feed inlet, and up to feeder hopper 2 gets back to initial position, then seals lid 111 good dissolving kettle 1 feed inlet, is carrying out follow-up technology operation. Through this feed arrangement not only accelerate the feeding, shortened the feeding time, still guarantee its leakproofness, do not influence follow-up technology operation.

The spindle 312 is detachably connected to the feeding hopper 2 by a connecting assembly 313. Referring to fig. 4, when the feeding hopper 2 needs to be installed on the rotating shaft 312, the first clamp 314 is fixed on the rotating shaft 312 to ensure that the circular sleeve formed by the second clamp 315 is in a vertical state, and the feeding hopper 2 is placed in the second clamp 315 and locked; when the feed hopper 2 needs to be disassembled for replacement, the second clamp 315 is disassembled first, then the feed hopper 2 is taken away from the second clamp 315, then the first clamp 314 is disassembled, and the rotating shaft 312 is removed. Through adding and establishing coupling assembling 313, made things convenient for the staff to change feeder hopper 2.

As shown in fig. 4 and 6, the hopper 2 is opened with a receiving groove 5 for receiving the second yoke 315 at a connection with the second yoke 315. Offer holding tank 5 and be when placing in the circular cover that second clamp 315 formed for feeder hopper 2, when adding solid potassium carbonate in feeder hopper 2, feeder hopper 2 takes place the slope, has guaranteed fixed feeder hopper 2 that second clamp 315 can be stable.

In order to prevent solid potassium carbonate from entering the dissolving kettle 1 through the feed hopper 2, part of the potassium carbonate is adhered to the stirring rod 112 in the dissolving kettle 1, therefore, the feed guide pipe 6 extending towards the inside of the dissolving kettle 1 is additionally arranged at the lower port of the feed hopper 2, when the feed hopper 2 is matched with the feed inlet of the dissolving kettle 1 for adding the solid potassium carbonate, the feed guide pipe 6 is just level with the dissolving horizontal surface in the dissolving kettle 1, and thus, all the solid potassium carbonate is ensured to enter the dissolving kettle.

In order to prevent the solution from adhering to the material guide pipe 6 when the material guide pipe leaves the dissolving kettle 1 after the material is completely fed, the inner surface and the outer surface of the material guide pipe 6 are both sprayed with the nanometer material UGT coating which is not stained with water and oil, so that the solution is prevented from adhering to the material guide pipe 6 when the material guide pipe leaves the dissolving kettle 1.

The implementation principle of the embodiment is as follows: when solid potassium carbonate needs to be added into the dissolving kettle 1, firstly, the sealing cover 111 of the feeding hole of the dissolving kettle 1 is opened, then the steering motor 311 is started in the forward direction, the rotating shaft 312 rotates towards the direction close to the feeding hole of the dissolving kettle 1, and then the feeding hopper 2 is driven to rotate towards the direction close to the feeding hole of the dissolving kettle 1 until the feeding hopper 2 is just right above the feeding hole of the dissolving kettle 1, then the rotating motor 413 is started in the forward direction, the screw 412 rotates, and then the feeding hopper 2 is driven to move downwards towards the direction close to the feeding hole of the dissolving kettle 1 until the feeding hopper 2 is completely matched with the feeding hole of the dissolving kettle 1, then solid potassium carbonate is added into the feeding hopper 2, after the addition is finished, the rotating motor 413 is started in the reverse direction, the screw 412 rotates in the reverse direction, and then the feeding hopper 2 is driven to, the pivot 312 is to keeping away from the direction removal of dissolving cauldron 1 feed inlet, and then drives feeder hopper 2 and removes to the direction of keeping away from the reation kettle feed inlet, gets back to initial position until feeder hopper 2, then with sealed lid 111 sealed dissolve cauldron 1 feed inlet can.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a feed arrangement for dissolving kettle, its characterized in that includes feeder hopper (2) with dissolving kettle (1) feed inlet cooperation use, add steering mechanism (3) of establishing on dissolving kettle (1) and control feeder hopper (2) to be close to or keep away from dissolving kettle (1) feed inlet and add elevating system (4) of establishing on dissolving kettle (1) and control feeder hopper (2) to enter into dissolving kettle (1) feed inlet.

2. The feeding device for the dissolving tank as claimed in claim 1, wherein the steering mechanism (3) comprises a steering motor (311) and a rotating shaft (312) which is coaxially connected with the steering motor (311) and drives the feeding hopper (2) to rotate.

3. The feeding device for the dissolving tank as claimed in claim 1, wherein the lifting mechanism (4) comprises a lifting bracket (411) fixedly connected to the dissolving tank (1), a screw (412) vertically fixedly connected to the lifting bracket (411), a rotating motor (413) for driving the screw (412) to rotate, a lifting plate (414) used in cooperation with the screw (412) and used for fixing the steering motor (311), and a polish rod (415) vertically fixedly connected to the lifting bracket (411) and used for limiting the rotation of the lifting plate (414).

4. A feeding device for a dissolution tank according to claim 2, characterized in that the rotating shaft (312) is detachably connected with the feeding hopper (2) through a connecting assembly (313).

5. A feeding device for a dissolution tank according to claim 4, characterized in that the connection assembly (313) comprises a first clamp (314) clamped to the rotation shaft (312), a second clamp (315) clamped to the feed hopper (2), and a connection rod (316) connecting the first clamp (314) and the second clamp (315).

6. A feeding device for a dissolution tank according to claim 1, characterized in that the feeding hopper (2) is provided with a receiving groove (5) for receiving the second clamp (315) at the connection with the second clamp (315).

7. The feeding device for the dissolution kettle according to claim 1, wherein a material guiding pipe (6) extending towards the interior of the dissolution kettle (1) is additionally arranged at the lower port of the feeding hopper (2).

8. The feeding device for the dissolution kettle according to claim 7, wherein the inner and outer surfaces of the material guiding pipe (6) are sprayed with a nano material UGT coating.

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