CN217962453U - Reation kettle solid material throws material device - Google Patents

Abstract

The utility model provides a reation kettle solid material throws material device, includes the table body and reation kettle, reation kettle is fixed in the internal portion of table, table body top surface is fixed with the support, the support top is connected with the fixed plate, the fixed plate top surface is provided with throws the storage bucket, be connected with guide mechanism that can vibrate between fixed plate top surface and the reation kettle, guide mechanism one end through connection is inside reation kettle, it is provided with two discharge gates to throw the storage bucket, guide mechanism is provided with two sets ofly, two sets of guide mechanism sets up respectively in two discharge gate bottoms. The utility model discloses to throw the material in the storage bucket and derive simultaneously through two discharge gates of throwing the storage bucket inside two sets of guide mechanisms to under the vibrations effect of guide mechanism, inside the promotion material is leading-in to reation kettle, improved and thrown material efficiency.

Description

Reation kettle solid material throws material device

Technical Field

The utility model belongs to the technical field of throw the material equipment, in particular to reation kettle solid material throws material device.

Background

The reaction kettle plays an important role in industrial production, and when materials are introduced into the reaction kettle, particularly when solid materials are put into the reaction kettle, the required solid materials need to be added into the reaction kettle by using a feeding device.

The feeding device of the solid materials adopted at present is only provided with one guide outlet and is guided into the reaction kettle through pipeline circulation, and when the solid materials are guided out, the feeding device is easy to cause the rapid accumulation of the materials, so that the guide outlet and the pipeline are blocked, and the feeding efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a reation kettle solid material throws material device to the not enough of prior art existence, concrete technical scheme as follows:

the utility model provides a reation kettle solid material throws material device, includes the table body and reation kettle, reation kettle is fixed in the internal portion of table, table body top surface is fixed with the support, the support top is connected with the fixed plate, the fixed plate top surface is provided with throws the storage bucket, be connected with guide mechanism that can vibrate between fixed plate top surface and the reation kettle, guide mechanism one end through connection is inside reation kettle, it is provided with two discharge gates to throw the storage bucket, guide mechanism is provided with two sets ofly, two sets of guide mechanism sets up respectively in two discharge gate bottoms.

Further, throw the storage bucket including pillar, discharging pipe, staving, swinging boom, ejector pad and motor, the pillar is connected in the fixed plate top surface, the pillar top is connected with the staving, staving lateral wall through connection has two discharging pipes, two the discharging pipe is located the same diameter of staving circumference, the staving bottom is provided with the motor, the fixed plate top surface is provided with the cushion, the cushion laminating is supported in the motor bottom surface, the axis of rotation of motor runs through and sets up inside the staving, the axis of rotation lateral wall of motor is connected with the swinging boom, the swinging boom bottom mounting has the ejector pad, ejector pad one side sliding fit in the staving inner wall.

Furthermore, the discharging pipe is of a three-section pipe body structure and is divided into a transverse pipe, an oblique pipe and a vertical pipe, the transverse pipe and the vertical pipe are respectively connected to two ends of the oblique pipe, and the transverse pipe and the vertical pipe are arranged in the vertical direction.

Furthermore, the feeding barrel further comprises a bump, the bump is fixed on the bottom surface inside the barrel body, the bump is of a round platform-shaped structure with a narrow upper part and a wide lower part, and a rotating shaft of the motor is connected inside the bump in a penetrating manner.

Further, the material guide mechanism comprises a material inlet pipe, a first baffle, side plates, a second inclined plate, a pneumatic rod and a bottom plate, the bottom end of the material inlet pipe is communicated with the inside of the reaction kettle, two fixing frames are arranged on the top surface of the material inlet pipe in parallel, the side plates are hinged to one sides of the two fixing frames, the bottom plate is fixed between the bottom surfaces of the two side plates in a sealing mode, the second inclined plate is connected to one side, away from the fixing frames, of the bottom plate, the first baffle is fixed to one side, away from the second inclined plate, of the side plate, and the material inlet pipe is arranged between the first baffle and the bottom plate;

the bottom plate bottom surface articulates there is the pneumatic rod, the pneumatic rod bottom is connected in the fixed plate top surface, bottom plate top surface and inlet pipe top surface opening parallel and level.

Further, the material guide mechanism further comprises a screening component, and the screening component is arranged between the two side plates;

the sieve material subassembly includes second baffle, sieve and first swash plate, the sieve is connected between two curb plates, the sieve sets up with the bottom plate interval, the sieve is close to second swash plate one side and is connected with first swash plate, first swash plate and second swash plate parallel arrangement, the sieve is kept away from first swash plate one side and is connected with the second baffle perpendicularly.

The utility model has the advantages that: the material in the charging bucket is derived to two sets of guide mechanisms through two discharge gates of the charging bucket simultaneously, and the material is promoted to be introduced into the reaction kettle under the vibration effect of the guide mechanisms, so that the charging efficiency is improved.

Drawings

Fig. 1 shows a schematic diagram of the overall structure of a solid material feeding device of a reaction kettle of the present invention;

fig. 2 shows a schematic diagram of the internal structure of the charging barrel of the present invention;

fig. 3 shows a schematic view of the connection structure of the material guiding mechanism and the fixing plate of the present invention;

fig. 4 is a schematic view showing the overall structure of a group of material guiding mechanisms in an inclined material guiding state;

fig. 5 shows an overall back connection structure diagram of the present invention;

shown in the figure: 1. a table body; 2. a support; 3. a fixing plate; 31. cushion blocks; 4. a material guiding mechanism; 41. a feed pipe; 411. a fixed mount; 42. a first baffle plate; 43. a side plate; 44. a screen assembly; 441. a second baffle; 442. a sieve plate; 443. a first swash plate; 45. a second swash plate; 46. a pneumatic rod; 47. a base plate; 5. a charging barrel; 51. a pillar; 52. a discharge pipe; 53. a barrel body; 54. a bump; 55. a rotating arm; 56. pushing a block; 57. a motor; 6. and (5) a reaction kettle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

A feeding device for solid materials of a reaction kettle comprises a table body 1 and the reaction kettle 6, wherein the reaction kettle 6 is fixed inside the table body 1, a support 2 is fixed on the top surface of the table body 1, a fixing plate 3 is connected to the top end of the support 2, a feeding barrel 5 is arranged on the top surface of the fixing plate 3, a vibratile material guide mechanism 4 is connected between the top surface of the fixing plate 3 and the reaction kettle 6, one end of the material guide mechanism 4 is connected inside the reaction kettle 6 in a penetrating manner, the feeding barrel 5 is provided with two discharge ports, the material guide mechanisms 4 are provided with two groups, and the two groups of material guide mechanisms 4 are respectively arranged at the bottoms of the two discharge ports;

the material in the feeding barrel 5 is simultaneously led out to the two groups of material guiding mechanisms 4 through the two discharge ports of the feeding barrel 5, and the material is promoted to be led into the reaction kettle 6 under the vibration action of the material guiding mechanisms 4, so that the feeding efficiency is improved.

As shown in fig. 2 and 5, the charging barrel 5 includes a pillar 51, discharge pipes 52, a barrel 53, a rotating arm 55, a pushing block 56 and a motor 57, the pillar 51 is connected to the top surface of the fixing plate 3, the top end of the pillar 51 is connected to the barrel 53, two discharge pipes 52 are connected to the side wall of the barrel 53 in a penetrating manner, the two discharge pipes 52 are located on the same diameter of the circumference of the barrel 53, the motor 57 is arranged at the bottom of the barrel 53, the cushion block 31 is arranged on the top surface of the fixing plate 3, the cushion block 31 is attached to and supported on the bottom surface of the motor 57, the rotating shaft of the motor 57 is arranged inside the barrel 53 in a penetrating manner, the rotating arm 55 is connected to the side wall of the rotating shaft of the motor 57, the pushing block 56 is fixed to the bottom end of the rotating arm 55, and one side of the pushing block 56 is attached to the inner wall of the barrel 53 in a sliding manner;

when the two discharging pipes 52 are used for guiding out and feeding materials, the rotating arm 55 is driven by the motor 57 to rotate in the barrel body 53, so that the pushing block 56 is attached to the inner wall of the barrel body 53 to slide, solid materials are promoted to flow to the positions of the discharging pipes 52, and the discharging efficiency is improved.

The discharge pipe 52 is of a three-section pipe body structure and is divided into a transverse pipe, an oblique pipe and a vertical pipe, the transverse pipe and the vertical pipe are respectively connected to two ends of the oblique pipe, and the transverse pipe and the vertical pipe are arranged in the vertical direction;

when adopting the discharging pipe 52 of three-section body structure to turn to the material and throw the material, utilize the slant pipe to make the material slope derive, it is more convenient to make the material derive.

The feeding barrel 5 further comprises a bump 54, the bump 54 is fixed on the bottom surface inside the barrel body 53, the bump 54 is in a truncated cone-shaped structure with a narrow upper part and a wide lower part, and a rotating shaft of the motor 57 is connected inside the bump 54 in a penetrating manner;

the adopted round table-shaped structure can enable the material to reach a position close to the inner wall of the barrel body along the inclined surface of the lug 54, so that the push block 56 can move to push the material out of the discharge pipe 52; the stability of the connection between the motor 57 and the rotating arm 55 can be improved by passing the rotating shaft of the motor 57 through the projection 54.

Example 2

In order to further improve the exporting efficiency of the solid materials, the following structure capable of inclining and vibrating is adopted to promote the solid materials to enter the reaction kettle 6;

as shown in fig. 3 and 4, the material guiding mechanism 4 includes a feeding pipe 41, a first baffle plate 42, a side plate 43, a second inclined plate 45, a pneumatic rod 46 and a bottom plate 47, the bottom end of the feeding pipe 41 is connected with the inside of the reaction kettle 6 in a through manner, two fixing frames 411 are arranged on the top surface of the feeding pipe 41 in parallel, the side plate 43 is hinged on one side of each of the two fixing frames 411, the bottom plate 47 is fixed between the bottom surfaces of the two side plates 43 in a sealing manner, the second inclined plate 45 is connected to one side of the bottom plate 47 far away from the fixing frame 411, the first baffle plate 42 is fixed on one side of the side plate 43 far away from the second inclined plate 45, and the feeding pipe 41 is arranged between the first baffle plate 42 and the bottom plate 47;

the bottom surface of the bottom plate 47 is hinged with a pneumatic rod 46, the bottom end of the pneumatic rod 46 is connected to the top surface of the fixing plate 3, and the top surface of the bottom plate 47 is flush with the opening of the top surface of the feeding pipe 41;

when the material is introduced into the bottom plate 47, the bottom plate 47 and the side plates 43 are driven to rotate and tilt around the fixing frame 411 by actuating the pneumatic rod 46, so that the material on the bottom plate 47 slides and falls into the feeding pipe 41 and is introduced into the reaction kettle 6.

The material guiding mechanism 4 further comprises a material sieving assembly 44, and the material sieving assembly 44 is arranged between the two side plates 43;

the screening assembly 44 comprises a second baffle 441, a screening plate 442 and a first inclined plate 443, the screening plate 442 is connected between the two side plates 43, the screening plate 442 and the bottom plate 47 are arranged at intervals, one side of the screening plate 442 close to the second inclined plate 45 is connected with the first inclined plate 443, the first inclined plate 443 and the second inclined plate 45 are arranged in parallel, and one side of the screening plate 442 away from the first inclined plate 443 is vertically connected with the second baffle 441;

export the material on sieve 442 through discharging pipe 52 earlier, utilize sieve 442 to sieve the material, can sieve out the great material that does not conform to the standard, guaranteed that the material enters into reation kettle 6's size.

When the utility model is implemented, the utility model,

firstly, solid materials are loaded into a barrel body 53 according to the figures 1 and 2 for standby feeding, when the materials need to be fed, a motor 57 is started to enable a rotating shaft to rotate in the barrel body 53, a rotating arm 55 is utilized to drive a push block 56 to be attached to the inner wall of the barrel body 53 to slide, the push block 56 rotates around the circumferential direction of the barrel body 53, the solid materials are pushed to the position of the opening of a transverse pipe of a discharge pipe 52 in the rotating process, and the solid materials enter the discharge pipe 52, move downwards along an inclined pipe of the discharge pipe 52 and are led out downwards through a turned vertical pipe;

while the solid material is led out of the discharging pipe 52, the solid material moves downwards along the circular truncated cone side wall of the bump 54 and towards the inner wall of the barrel body 53, so that the push block 56 continues to move to push the solid material out of the discharging pipe 52;

then, according to fig. 3 and fig. 4, after the material is discharged from the discharge pipe 52 and falls on the sieve plate 442, the pneumatic rod 46 is actuated again to ascend, so that the bottom plate 47 and the sieve plate 442 incline, the solid material moves downwards along the sieve plate 442 and falls on the bottom plate 47 through the through holes on the sieve plate 442, the material with an excessively large diameter is screened off on the sieve plate 442 and falls downwards to the position of the second baffle 441, the material falling on the bottom plate 47 slides into the feed pipe 41 along the bottom plate 47 and enters the reaction kettle 6, the pneumatic rod 46 pushes and pulls the bottom plate 47 to reciprocate, so that the excessively large material on the sieve plate 442 is vibrated and crushed, the material passes through the sieve plate 442 conveniently, the material is promoted to be screened and guided into the reaction kettle 6, and the feeding efficiency of the solid material is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the scope of the present invention, which is to be construed as the full breadth of the present invention and any and all modifications, equivalents, and improvements made within the spirit and scope of the present invention.

Claims (6)

1. The utility model provides a reation kettle solid material throws material device which characterized in that: including the table body (1) and reation kettle (6), reation kettle (6) are fixed in inside the table body (1), table body (1) top surface is fixed with support (2), support (2) top is connected with fixed plate (3), fixed plate (3) top surface is provided with throws storage bucket (5), be connected with guide mechanism (4) that can shake between fixed plate (3) top surface and reation kettle (6), guide mechanism (4) one end through connection is inside reation kettle (6), throw storage bucket (5) and be provided with two discharge gates, guide mechanism (4) are provided with two sets ofly, and are two sets of guide mechanism (4) set up respectively in two discharge gate bottoms.

2. The solid material feeding device of the reaction kettle as claimed in claim 1, wherein: throw storage bucket (5) and include pillar (51), discharging pipe (52), staving (53), swinging boom (55), ejector pad (56) and motor (57), pillar (51) are connected in fixed plate (3) top surface, pillar (51) top is connected with staving (53), staving (53) lateral wall through connection has two discharging pipes (52), two discharging pipe (52) are located on the same diameter of staving (53) circumference, staving (53) bottom is provided with motor (57), fixed plate (3) top surface is provided with cushion (31), cushion (31) laminating support in motor (57) bottom surface, the axis of rotation of motor (57) runs through and sets up inside staving (53), the axis of rotation lateral wall of motor (57) is connected with swinging boom (55), swinging boom (55) bottom mounting has ejector pad (56), ejector pad (56) one side sliding fit in staving (53) inner wall.

3. The solid material feeding device of the reaction kettle as claimed in claim 2, wherein: the discharging pipe (52) is of a three-section pipe body structure and is divided into a transverse pipe, an oblique pipe and a vertical pipe, the transverse pipe and the vertical pipe are respectively connected to two ends of the oblique pipe, and the transverse pipe and the vertical pipe are arranged in the vertical direction.

4. The solid material feeding device of the reaction kettle as claimed in claim 2, wherein: the feeding barrel (5) further comprises a bump (54), the bump (54) is fixed on the bottom surface inside the barrel body (53), the bump (54) is of a round platform-shaped structure with a narrow upper part and a wide lower part, and a rotating shaft of the motor (57) is connected inside the bump (54) in a penetrating mode.

5. The solid material feeding device of the reaction kettle as claimed in claim 1, wherein: the material guide mechanism (4) comprises a feeding pipe (41), a first baffle plate (42), side plates (43), a second inclined plate (45), a pneumatic rod (46) and a bottom plate (47), the bottom end of the feeding pipe (41) is communicated with the inside of the reaction kettle (6), two fixing frames (411) are arranged on the top surface of the feeding pipe (41) in parallel, the side plates (43) are hinged to one sides of the two fixing frames (411), a bottom plate (47) is fixed between the bottom surfaces of the two side plates (43) in a sealing mode, the second inclined plate (45) is connected to one side, away from the fixing frame (411), of the bottom plate (47), the first baffle plate (42) is fixed to one side, away from the second inclined plate (45), of the side plate (43), and the feeding pipe (41) is arranged between the first baffle plate (42) and the bottom plate (47);

bottom plate (47) bottom surface articulates there is pneumatic rod (46), pneumatic rod (46) bottom connection is in fixed plate (3) top surface, bottom plate (47) top surface and inlet pipe (41) top surface opening parallel and level.

6. The solid material feeding device of the reaction kettle as claimed in claim 5, wherein: the material guiding mechanism (4) further comprises a material screening assembly (44), and the material screening assembly (44) is arranged between the two side plates (43);

sieve material subassembly (44) include second baffle (441), sieve (442) and first swash plate (443), sieve (442) are connected between two curb plates (43), sieve (442) and bottom plate (47) interval set up, sieve (442) are close to second swash plate (45) one side and are connected with first swash plate (443), first swash plate (443) and second swash plate (45) parallel arrangement, first swash plate (443) one side is kept away from to sieve (442) is connected with second baffle (441) perpendicularly.

Images