CN217154715U - A drying equipment for pymetrozine production - Google Patents

Abstract

The utility model discloses a drying equipment for pymetrozine production relates to drying equipment technical field. This a drying equipment for pymetrozine production, including drying barrel, drying barrel's lower extreme fixedly connected with supporting leg, drying barrel's upper end fixedly connected with and the inside feeder hopper that communicates each other, drying barrel's one end fixedly connected with motor, drying barrel's inside is provided with centrifugal device and agitating unit. This a drying equipment for pymetrozine production, after pymetrozine centrifugation finishes, open the solenoid valve, make pymetrozine flow out from the inside of centrifugation bucket through the discharging pipe, and then start driving motor, driving motor's output drives dwang and main puddler and vice puddler and turns over the board of mixing and rotate simultaneously, consequently turn over the board of mixing and turn over pymetrozine and mix, main puddler and vice puddler stir it, consequently, guarantee the homogeneity when it is dry, consequently, drying efficiency and drying speed are improved.

Description

A drying equipment for pymetrozine production

Technical Field

The utility model relates to a drying equipment technical field, in particular to a drying equipment for pymetrozine production.

Background

Aphidone is a non-biocidal insecticide and can be used both as foliar spray and for soil treatment. In the process of pymetrozine preparation, some wet materials need to be dried.

Application number is CN 202120284548.9's patent discloses a drying equipment for pymetrozine production, use dry chamber, dry cage, gauze, pivot, closing cap, hot-blast main in this technical scheme and cooperate, it is slower to solve current drying equipment working effect when using, and still easily mix some debris at dry in-process, lead to influencing the problem of the quality of the pymetrozine of final production, but this technical scheme is when carrying out the drying to pymetrozine, the effect of stirring does not have, therefore pymetrozine produces the caking phenomenon very easily in drying process, can produce dry inhomogeneous phenomenon simultaneously, consequently, influence drying speed and drying efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve one of the technical problem that exists among the prior art at least, provide a drying equipment for pymetrozine production, can solve pymetrozine and produce the caking phenomenon very easily in drying process, can produce dry inhomogeneous phenomenon simultaneously, consequently influence drying speed and drying efficiency's problem.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a drying equipment for pymetrozine production, includes the drying bucket, the lower extreme fixedly connected with supporting leg of drying bucket, the feeder hopper of the upper end fixedly connected with and the inside intercommunication each other of drying bucket, the one end fixedly connected with motor of drying bucket, the inside of drying bucket is provided with centrifugal device and agitating unit, and the lower extreme fixedly connected with of drying bucket arranges the material pipe with the inside finished product that communicates each other with it, and the finished product is arranged and is provided with the jam on the material pipe.

The inner wall of the drying barrel is fixedly connected with a heat preservation pad, and an electric heating wire is arranged between the heat preservation pad and the drying barrel.

Preferably, centrifugal device is including rotating the pivot of connection at the inside upper surface of drying bucket, the output fixed connection of pivot and motor, and the inside of drying bucket is provided with centrifugal bucket, is provided with the filtration pore on the centrifugal bucket, and the inside fixedly connected with connecting rod of centrifugal bucket, the pivot is not on the connecting rod with the one end fixed connection of motor contact.

Preferably, fixedly connected with is located the clearance brush on centrifugal barrel surface on the inner wall of drying bucket, and the clearance brush laminates with the centrifugal barrel each other, fixedly connected with breakwater on the inner wall of drying bucket, and the upper surface of breakwater is the arc, and the breakwater rotates with the centrifugal barrel to be connected, fixedly connected with drain pipe on the drying bucket is provided with the valve on the drain pipe, fixedly connected with discharging pipe on the centrifugal barrel, is provided with the solenoid valve on the discharging pipe.

Preferably, agitating unit is including rotating the dwang of connecting in the inside bottom surface of drying bucket, and the lower extreme fixedly connected with driving motor of drying bucket, driving motor's output and dwang fixed connection, and fixed connection is for spiral helicine stirring board that turns over on the dwang, and fixed connection is for the main puddler of horizontal L shape on the dwang, the vice puddler of fixedly connected with on the main puddler, fixedly connected with dog on the inner wall of dwang, the inside of dwang is provided with the vibrations ball.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) this a drying equipment for pymetrozine production, after pymetrozine centrifugation finishes, open the solenoid valve, make pymetrozine flow out from the inside of centrifugation bucket through the discharging pipe, and then start driving motor, driving motor's output drives dwang and main puddler and vice puddler and turns over and mix the board and rotate simultaneously, consequently turn over and mix the board and turn over pymetrozine and mix, main puddler and vice puddler stir it, consequently, guarantee the homogeneity when it is dry, consequently, drying efficiency and drying rate are improved.

(2) This a drying equipment for pymetrozine production, through the clearance brush that sets up, when consequently the centrifugation bucket rotates, the clearance brush can clear up the surface of centrifugation bucket, consequently avoids causing the jam to the filtration pore, and then ensures centrifugal effect.

(3) This a drying equipment for pymetrozine production, through the centrifuging barrel that sets up, when needs carry out the drying to pymetrozine, pour into pymetrozine to the inside of centrifuging barrel through the feeder hopper, starter motor this moment, the output of motor drives the pivot and carries out simultaneous rotation with connecting rod and centrifuging barrel, consequently under centrifugal force's state, the moisture that contains in the pymetrozine is thrown away, and then realizes primary drying, consequently improves subsequent drying efficiency and speed.

(4) This a drying equipment for pymetrozine production through the heating wire that sets up, and then when needs carry out the drying to pymetrozine, starts the heating wire, therefore the heating wire heats the inside of drying bucket, and then forms the drying to pymetrozine to and through setting up the heat preservation pad, loss that can the at utmost reduces the temperature, consequently it is extravagant to reduce the energy.

Drawings

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

fig. 1 is a schematic structural diagram of a drying device for pymetrozine production of the present invention;

fig. 2 is a schematic plan view of the drying tub of the present invention;

FIG. 3 is a schematic front view of the drying tub of the present invention;

fig. 4 is a schematic front view of the rotating rod of the present invention.

Reference numerals are as follows: 1 drying barrel, 101 supporting legs, 2 motors, 201 rotating shafts, 202 connecting rods, 203 centrifugal barrels, 204 discharging pipes, 3 feeding hoppers, 4 heating wires, 5 heat preservation cushions, 6 cleaning brushes, 7 water baffles, 8 water discharging pipes, 801 valves, 9 rotating rods, 901 stirring turning plates, 902 main stirring rods, 903 auxiliary stirring rods, 904 driving motors, 905 stoppers, 906 vibrating balls, 10 finished product discharging pipes, 11 blockage and 12 electromagnetic valves.

Detailed Description

The first embodiment is as follows:

referring to fig. 1-2, the present invention provides a technical solution: the utility model provides a drying equipment for pymetrozine production, includes drying barrel 1, drying barrel 1's lower extreme fixedly connected with supporting leg 101, drying barrel 1's upper end fixedly connected with and inside feeder hopper 3 that communicates each other, drying barrel 1's one end fixedly connected with motor 2, drying barrel 1's inside is provided with centrifugal device and agitating unit.

The lower end of the drying barrel 1 is fixedly connected with a finished product discharge pipe 10 which is communicated with the interior of the drying barrel, and a plug 11 is arranged on the finished product discharge pipe 10.

The inner wall of the drying barrel 1 is fixedly connected with a heat preservation cushion 5, and an electric heating wire 4 is arranged between the heat preservation cushion 5 and the drying barrel 1.

Through the heating wire 4 that sets up, and then when needs carry out the drying to pymetrozine, start heating wire 4, consequently heating wire 4 heats the inside of drying barrel 1, and then forms the drying to pymetrozine to and through setting up heat preservation pad 5, loss that can the at utmost reduce the temperature, consequently it is extravagant to reduce the energy.

Example two;

referring to fig. 2-4, on the basis of the first embodiment, the centrifugal device includes a rotating shaft 201 rotatably connected to the upper surface inside the drying tub 1, the rotating shaft 201 is fixedly connected to the output end of the motor 2, a centrifugal tub 203 is disposed inside the drying tub 1, a filtering hole is disposed on the centrifugal tub 203, a connecting rod 202 is fixedly connected to the inside of the centrifugal tub 203, and one end of the rotating shaft 201, which is not in contact with the motor 2, is fixedly connected to the connecting rod 202.

Further, fixedly connected with is located the clearance brush 6 on centrifugal bucket 203 surface on the inner wall of drying bucket 1, and clearance brush 6 and centrifugal bucket 203 are laminated each other, fixedly connected with breakwater 7 on the inner wall of drying bucket 1, and the upper surface of breakwater 7 is the arc, and breakwater 7 rotates with centrifugal bucket 203 to be connected.

Through the centrifugal barrel 203 that sets up, when needs carry out the drying to pymetrozine, pour into pymetrozine to the inside of centrifugal barrel 203 through feeder hopper 3, starting motor 2 this moment, motor 2's output drives pivot 201 and connecting rod 202 and centrifugal barrel 203 and carries out the rotation simultaneously, consequently under the state of centrifugal force, moisture that contains in the pymetrozine is thrown away, and then realizes primary drying, consequently improves subsequent drying efficiency and speed.

Through the clearance brush 6 that sets up, when consequently centrifugation bucket 203 rotated, clearance brush 6 can clear up the surface of centrifugation bucket 203, consequently avoids causing the jam to the filtration pore, and then ensures centrifugal effect.

Further, a drain pipe 8 is fixedly connected to the drying barrel 1, a valve 801 is arranged on the drain pipe, a discharge pipe 204 is fixedly connected to the centrifugal barrel 203, and an electromagnetic valve 12 is arranged on the discharge pipe 204.

Through the breakwater 7 that sets up, consequently the moisture that is centrifuged out drops on breakwater 7 to discharge from the inside of drying tub 1 through drain pipe 8, consequently avoid moisture and pymetrozine to carry out the remixing, and then ensure subsequent drying efficiency and drying effect.

Through the discharging pipe 204, after the pymetrozine is centrifuged, the electromagnetic valve 12 is controlled to be opened, so that the pymetrozine enters the next drying step.

Further, agitating unit is including rotating the dwang 9 of connecting at the inside bottom surface of drying bucket 1, and drying bucket 1's lower extreme fixedly connected with driving motor 904, driving motor 904's output and dwang 9 fixed connection, and fixed connection turns over for spiral helicine stirring board 901 on the dwang 9, and fixed connection is for the main puddler 902 of horizontal L shape on the dwang 9, the vice puddler 903 of fixedly connected with on the main puddler 902.

Fixedly connected with dog 905 on the inner wall of dwang 9, the inside of dwang 9 is provided with vibrations ball 906.

After the pymetrozine is centrifuged, the electromagnetic valve 12 is opened, so that the pymetrozine flows out from the inside of the centrifugal barrel 203 through the discharge pipe 204, the driving motor 904 is started, the output end of the driving motor 904 drives the rotating rod 9, the main stirring rod 902, the auxiliary stirring rod 903 and the stirring plate 901 to rotate simultaneously, the stirring plate 901 stirs the pymetrozine, the main stirring rod 902 and the auxiliary stirring rod 903 stir the pymetrozine, and therefore the uniformity of the pymetrozine during drying is ensured, and the drying efficiency and the drying speed are improved.

Simultaneously through setting up vibrations ball 906 and the dog 905 in dwang 9 inside, rotate when dwang 9 and be, vibrations ball 906 follows the rotation of dwang 9 and produces centrifugal operation, and then under the blockking of dog 905 for strike each other on the inner wall of vibrations ball 906 and dwang 9, consequently produce vibrations effect, and then can effectually avoid pymetrozine to produce the caking phenomenon, consequently ensure the homogeneity when dry.

The working principle is as follows: when pymetrozine needs to be dried, pymetrozine is injected into the inside of the centrifugal barrel 203 through the feed hopper 3, the motor 2 is started at the moment, the output end of the motor 2 drives the rotating shaft 201, the connecting rod 202 and the centrifugal barrel 203 to rotate simultaneously, therefore, in a centrifugal force state, moisture contained in pymetrozine is thrown out, and primary drying is realized, after pymetrozine centrifugation is finished, the electromagnetic valve 12 is opened, so that pymetrozine flows out from the inside of the centrifugal barrel 203 through the discharge pipe 204, and then the driving motor 904 is started, the output end of the driving motor 904 drives the rotating rod 9, the main stirring rod 902, the auxiliary stirring rod 903 and the stirring plate 901 to rotate simultaneously, so that the stirring plate 901 stirs pymetrozine, and the main stirring rod 902 and the auxiliary stirring rod 903 stir the pymetrozine, and therefore, uniformity of the pymetrozine during drying is ensured.

Claims (6)

1. The utility model provides a drying equipment for pymetrozine production, includes drying barrel (1), the lower extreme fixedly connected with supporting leg (101) of drying barrel (1), its characterized in that: the upper end of the drying barrel (1) is fixedly connected with a feed hopper (3) which is communicated with the inside, one end of the drying barrel (1) is fixedly connected with a motor (2), the inside of the drying barrel (1) is provided with a centrifugal device and a stirring device, the lower end of the drying barrel (1) is fixedly connected with a finished product discharge pipe (10) which is communicated with the inside of the drying barrel, a plug (11) is arranged on the finished product discharge pipe (10),

the inner wall of the drying barrel (1) is fixedly connected with a heat insulation pad (5), and an electric heating wire (4) is arranged between the heat insulation pad (5) and the drying barrel (1).

2. The drying equipment for pymetrozine production according to claim 1, characterized in that: the centrifugal device comprises a rotating shaft (201) which is rotatably connected to the upper surface inside the drying barrel (1), the rotating shaft (201) is fixedly connected with the output end of the motor (2), the centrifugal barrel (203) is arranged inside the drying barrel (1), a filter hole is formed in the centrifugal barrel (203), a connecting rod (202) is fixedly connected to the inside of the centrifugal barrel (203), and the rotating shaft (201) is not fixedly connected to the connecting rod (202) through one end of the motor (2) in contact with the rotating shaft.

3. A drying apparatus for pymetrozine production according to claim 2, characterized in that: fixedly connected with is located cleaning brush (6) on centrifuge bucket (203) surface on the inner wall of drying bucket (1), and cleaning brush (6) and centrifuge bucket (203) are laminated each other, fixedly connected with breakwater (7) on the inner wall of drying bucket (1), and the upper surface of breakwater (7) is the arc, and breakwater (7) rotate with centrifuge bucket (203) and are connected.

4. A drying apparatus for pymetrozine production according to claim 2, characterized in that: the drying barrel (1) is fixedly connected with a drain pipe (8), a valve (801) is arranged on the drain pipe, a discharge pipe (204) is fixedly connected onto the centrifugal barrel (203), and an electromagnetic valve (12) is arranged on the discharge pipe (204).

5. The drying equipment for pymetrozine production according to claim 1, characterized in that: agitating unit is including rotating dwang (9) of connecting in inside bottom surface of drying bucket (1), the lower extreme fixedly connected with driving motor (904) of drying bucket (1), the output and dwang (9) fixed connection of driving motor (904), fixed connection turns over to mix board (901) for the heliciform on dwang (9), fixed connection is for main puddler (902) of horizontal L shape on dwang (9), the vice puddler (903) of fixedly connected with on main puddler (902).

6. The drying equipment for pymetrozine production according to claim 5, characterized in that: fixedly connected with dog (905) on the inner wall of dwang (9), the inside of dwang (9) is provided with vibrations ball (906).

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