CN219252527U - Extrusion granulator for producing calcium-zinc stabilizer - Google Patents

Abstract

The utility model relates to the technical field of calcium-zinc stabilizers and discloses an extrusion granulator for producing the calcium-zinc stabilizers, which comprises a device body, a feeding hole, a discharging hole and a conveying device, wherein the feeding hole and the discharging hole are formed in two sides of the outer wall of the device body; the utility model extrudes the material and cuts into particles, thereby saving the working time of the device and improving the applicability of the device.

Description

Extrusion granulator for producing calcium-zinc stabilizer

Technical Field

The utility model relates to a calcium zinc stabilizer technical field specifically is an extrusion granulator of calcium zinc stabilizer production.

Background

Calcium zinc stabilizers are closely related to human life, but they need to be extruded during production.

Through searching, chinese patent grant publication No. CN209718736U, publication day 2019, 12 and 03, discloses an extrusion molding device for calcium-zinc stabilizer, and in this document, "device body 1, workbench 2, chute 3, mounting plate 4, return spring 5, scraper 6, storage groove 7, support plate 8, pull ring 9, motor 10, driving gear 11, driven gear 12, sleeve 13, connecting rod 14, extrusion plate 15 and bearing 16 are proposed, workbench 2 is installed in device body 1, chute 3 is provided in middle position of workbench 2," when processing materials, it is necessary to divide into two parts of extrusion molding and cutting to accomplish, increase working time of device, and in view of this, intensive research is conducted to solve the above problems, and the present case is produced.

Disclosure of Invention

An object of the present utility model is to provide an extrusion granulator for producing calcium zinc stabilizer, which solves the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the extrusion granulator for producing the calcium-zinc stabilizer comprises a device body, a feeding hole, a discharging hole and a conveying device, wherein the feeding hole and the discharging hole are formed in two sides of the outer wall of the device body, a rotating device is arranged in the device body, an extrusion device is arranged below the rotating device, the outer side of the extrusion device is connected with the inner wall of the device body, a storage groove is arranged below the extrusion device, the storage groove is arranged above the conveying device, and the conveying device is fixedly connected with the device body;

the extrusion device comprises a fixed plate, an extrusion block and a fixed block, wherein the fixed plate is arranged below the rotating device, the extrusion blocks are arranged on two sides of the fixed plate, the fixed block is arranged on two sides of the extrusion block, a spring is arranged below the fixed block, the lower part of the spring is connected with the inner wall of the device body, and the extrusion block is arranged at the bottom of the extrusion block on the right side.

Preferably, the device body and the material inlet and outlet are integrally arranged, the object placing grooves are closely attached to the upper part of the conveying device, and the two object placing grooves are equidistantly arranged.

Preferably, the fixing plate is fixedly connected with the device body, and the extrusion block is fixedly connected with the fixing block.

Preferably, the lower part of the extrusion block and the lower part of the fixed plate are on the same horizontal line, and the extrusion block is in sliding connection with the fixed plate.

Preferably, the lower part of the extrusion block and the object placing groove are correspondingly arranged, and the right side of the extrusion block is in clamping connection with the cutting plate.

Preferably, the rotating device comprises a motor, a threaded rod and a second bearing, wherein the inner wall of the device body is provided with the threaded rod, the upper part of the threaded rod penetrates through the device body to be connected with the motor, the lower part of the threaded rod is connected with the fixed plate through the second bearing, the outer side of the threaded rod is provided with a threaded cap, the outer side of the threaded cap is provided with a plate body, the outer side of the plate body is provided with a sliding block, the sliding block penetrates through the device body to the inside of the sliding groove, the sliding groove is arranged on the inner side of the device body, two sides of the lower part of the device body are connected with the extrusion column through connecting columns, and the extrusion column is arranged above the extrusion block.

Preferably, the threaded rod and the motor form a rotating structure through the second bearing, and the threaded rod is in threaded connection with the threaded cap.

Preferably, the screw cap is fixedly connected with the plate body, and the sliding block is in sliding connection with the sliding groove.

Preferably, the length of the connecting column on the left side is lower than that of the connecting column on the right side, and the squeezing columns and the squeezing blocks are correspondingly arranged.

Preferably, the conveyer includes bin, conveyer and dead lever, put the top of thing groove at the conveyer, the conveyer is installed in the inside of bin, the inside both sides of conveyer are equipped with a plurality of dead levers, the both sides of dead lever are connected with the inner wall of bin through first bearing.

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

through setting up fixed plate, extrusion piece and fixed block, the user pours the material into the inside of putting the thing groove, start conveyer and remove the thing groove to extrusion device under, make the below of putting thing groove and extrusion piece corresponding, start rotating device and extrusion piece laminating mutually, make extrusion piece slide at the fixed plate, make left side extrusion piece extrude the material of thing inslot portion, the cutting board that right side extrusion piece bottom was equipped with cuts the material after the inside extrusion of thing groove simultaneously, cut into particles when carrying out the extrusion to the material, save device's operating time, still improve the suitability of device, and utilize the effect of spring, can drive the extrusion piece of extrusion piece connection and return to the position.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic cross-sectional elevation view of the present utility model using a pressing device;

fig. 3 is an enlarged schematic view of the structure of fig. 2 a according to the present utility model.

In the figure: 1. a device body; 2. a material inlet and a material outlet; 3. a rotating device; 4. a transport device; 5. an extrusion device; 6. a storage groove; 301. a motor; 302. a threaded rod; 303. a second bearing; 304. a threaded cap; 305. a plate body; 306. a sliding block; 307. a chute; 308. a connecting column; 309. an extrusion column; 401. a storage tank; 402. a conveyor; 403. a fixed rod; 501. a fixing plate; 502. extruding a block; 503. a fixed block; 504. a spring; 505. cutting the plate.

Detailed Description

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The technical solutions of the present embodiments will be clearly and completely described below with reference to the drawings in the present embodiments, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, based on the embodiments herein, which would be within the purview of one of ordinary skill in the art without the creative effort, are contemplated as falling within the scope of the present utility model.

Referring to fig. 1-3, the present utility model provides an extrusion granulator for producing calcium zinc stabilizer, which comprises: the extrusion granulator for producing the calcium-zinc stabilizer comprises a device body 1, a feeding and discharging port 2 and a conveying device 4, wherein the feeding and discharging port 2 is arranged on two sides of the outer wall of the device body 1, a rotating device 3 is arranged in the device body 1, an extrusion device 5 is arranged below the rotating device 3, the outer side of the extrusion device 5 is connected with the inner wall of the device body 1, a storage groove 6 is arranged below the extrusion device 5, the storage groove 6 is arranged above the conveying device 4, and the conveying device 4 is fixedly connected with the device body 1;

the extrusion device 5 comprises a fixed plate 501, an extrusion block 502 and a fixed block 503, wherein the fixed plate 501 is arranged below the rotating device 3, the extrusion block 502 is arranged on two sides of the fixed plate 501, the fixed block 503 is arranged on two sides of the extrusion block 502, a spring 504 is arranged below the fixed block 503, the lower part of the spring 504 is connected with the inner wall of the device body 1, and the extrusion block 502 is arranged at the bottom of the right extrusion block 502.

When the device is used, a user pours materials into the storage tank 6, starts the conveying device 4 to move the storage tank 6 to the position right below the extrusion device 5, enables the storage tank 6 to correspond to the position below the extrusion block 502, starts the rotating device 3 to be attached to the extrusion block 502, enables the extrusion block 502 to slide on the fixing plate 501, enables the left extrusion block 502 to extrude the materials in the storage tank 6, simultaneously cuts the materials extruded in the storage tank 6 through the cutting plate 505 arranged at the bottom of the right extrusion block 502, cuts the materials into particles while extruding the materials, saves the working time of the device, improves the applicability of the device, and can drive the extrusion block 502 connected with the extrusion block 502 to return by utilizing the action of the spring 504.

The device body 1 and the material inlet and outlet 2 are integrally arranged, the object placing grooves 6 are closely attached to the upper part of the conveying device 4, and the two object placing grooves 6 are equidistantly arranged.

The fixing plate 501 is fixedly connected with the device body 1, and the extrusion block 502 is fixedly connected with the fixing block 503.

The lower part of the extrusion block 502 and the lower part of the fixed plate 501 are on the same horizontal line, and the extrusion block 502 is in sliding connection with the fixed plate 501.

The lower part of the extrusion block 502 is correspondingly arranged with the object placing groove 6, and the right extrusion block 502 is in clamping connection with the cutting plate 505.

The rotating device 3 comprises a motor 301, a threaded rod 302 and a second bearing 303, wherein the threaded rod 302 is arranged on the inner wall of the device body 1, the upper portion of the threaded rod 302 penetrates through the device body 1 to be connected with the motor 301, the lower portion of the threaded rod 302 is connected with a fixing plate 501 through the second bearing 303, a threaded cap 304 is arranged on the outer side of the threaded rod 302, a plate body 305 is arranged on the outer side of the threaded cap 304, a sliding block 306 is arranged on the outer side of the plate body 305, the sliding block 306 penetrates through the device body 1 to the inside of a sliding groove 307, the sliding groove 307 is arranged on the inner side of the device body 1, two sides of the lower portion of the device body 1 are connected with a squeezing column 309 through a connecting column 308, and the squeezing column 309 is arranged above the squeezing block 502.

The threaded rod 302 and the motor 301 form a rotating structure through the second bearing 303, and the threaded rod 302 is in threaded connection with the threaded cap 304.

The screw cap 304 is fixedly connected with the plate body 305, and the sliding block 306 is in sliding connection with the sliding groove 307.

The length of the left connecting column 308 is lower than that of the right connecting column 308, and the squeezing columns 309 and the squeezing blocks 502 are correspondingly arranged.

When the device is used, a user pours materials into the interior of the object placing groove 6, starts the conveying device 4 to move the object placing groove 6 to the position right below the extruding device 5, enables the object placing groove 6 to correspond to the position below the extruding block 502, starts the motor 301 to drive the extruding block 502 to rotate in the second bearing 303, enables the sliding block 306 on the outer side of the plate body 305 to slide downwards in the sliding groove 307 through threaded connection between the threaded rod 302 and the threaded cap 304, enables the extruding column 309 connected with the connecting column 308 below the plate body 305 to be attached to the extruding block 502, enables the position below the extruding block 502 to be attached to the interior of the object placing groove 6 through the extruding column 309, and facilitates processing of the materials in the object placing groove 6.

The conveyer 4 includes bin 401, conveyer 402 and dead lever 403, and the top at conveyer 402 is established to storage tank 6, and conveyer 402 installs the inside at bin 401, and the inside both sides of conveyer 402 are equipped with a plurality of dead levers 403, and the both sides of dead lever 403 are connected with the inner wall of bin 401 through first bearing.

When the device is used, a user pours materials into the storage tank 6, then places the storage tank 6 above the conveyer 402 for transportation, starts the conveyer 402 to drive the storage tank 6 to be right below the extrusion block 502, is convenient for processing the materials in the storage tank 6, supports the storage tank 6 by the fixing rod 403, improves the quality of processing the materials by the device, and starts the conveyer 4 to convey the storage tank 6 out of the device after the processing is completed.

Working principle:

when the device is used, a user pours materials into the storage tank 6, then the storage tank 6 is placed above the conveying device 4 for conveying, the conveying device 4 is started to move the storage tank 6 to the position right below the extrusion device 5, the rotating device 3 is started to drive the extrusion device 5 to process the materials in the storage tank 6, and after the processing is completed, the conveying device 4 is started again to convey the storage tank 6 out of the outer side of the device.

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

Claims (10)

1. The utility model provides an extrusion granulator of calcium zinc stabilizer production, includes device body (1), feed inlet and outlet (2) and conveyer (4), its characterized in that: the device comprises a device body (1), wherein two sides of the outer wall of the device body (1) are provided with a feeding and discharging port (2), a rotating device (3) is arranged in the device body (1), an extruding device (5) is arranged below the rotating device (3), the outer side of the extruding device (5) is connected with the inner wall of the device body (1), a storage groove (6) is arranged below the extruding device (5), the storage groove (6) is arranged above a conveying device (4), and the conveying device (4) is fixedly connected with the device body (1);

the extrusion device comprises a fixing plate (501), an extrusion block (502) and a fixing block (503), wherein the fixing plate (501) is arranged below the rotating device (3), the extrusion block (502) is arranged on two sides of the fixing plate (501), the fixing block (503) is arranged on two sides of the extrusion block (502), a spring (504) is arranged below the fixing block (503), the lower portion of the spring (504) is connected with the inner wall of the device body (1), and the extrusion block (502) is arranged on the right side of the bottom of the extrusion block (502).

2. An extrusion granulator for the production of calcium zinc stabiliser according to claim 1 wherein: the device is characterized in that the device body (1) and the feeding and discharging openings (2) are integrally arranged, the object placing grooves (6) are tightly attached to the upper sides of the conveying devices (4), and the two object placing grooves (6) are equidistantly arranged.

3. An extrusion granulator for the production of calcium zinc stabiliser according to claim 2, wherein: the fixing plate (501) is fixedly connected with the device body (1), and the extrusion block (502) is fixedly connected with the fixing block (503).

4. An extrusion granulator for the production of calcium zinc stabiliser according to claim 3, characterised in that: the lower part of the extrusion block (502) and the lower part of the fixed plate (501) are on the same horizontal line, and the extrusion block (502) is in sliding connection with the fixed plate (501).

5. An extrusion granulator for the production of calcium zinc stabiliser according to claim 4 wherein: the lower part of the extrusion block (502) is correspondingly arranged with the object placing groove (6), and the right side of the extrusion block (502) is in clamping connection with the cutting plate (505).

6. An extrusion granulator for the production of calcium zinc stabiliser according to claim 5 wherein: the rotating device (3) comprises a motor (301), a threaded rod (302) and a second bearing (303), wherein the threaded rod (302) is arranged on the inner wall of the device body (1), the upper portion of the threaded rod (302) penetrates through the device body (1) to be connected with the motor (301), the lower portion of the threaded rod (302) is connected with a fixing plate (501) through the second bearing (303), a threaded cap (304) is arranged on the outer side of the threaded rod (302), a plate body (305) is arranged on the outer side of the threaded cap (304), a sliding block (306) is arranged on the outer side of the plate body (305), the sliding block (306) penetrates through the device body (1) to the inside of a sliding groove (307), the sliding groove (307) is arranged on the inner side of the device body (1), two sides of the lower portion of the device body (1) are connected with a squeezing column (309) through a connecting column (308), and the squeezing column (309) is arranged on the upper portion of the squeezing block (502).

7. The extrusion granulator of claim 6 wherein: the threaded rod (302) and the motor (301) form a rotating structure through the second bearing (303), and the threaded rod (302) is in threaded connection with the threaded cap (304).

8. An extrusion granulator for the production of calcium zinc stabiliser according to claim 7 wherein: the screw cap (304) is fixedly connected with the plate body (305), and the sliding block (306) is in sliding connection with the sliding groove (307).

9. The extrusion granulator of claim 8 wherein: the length of the connecting column (308) on the left side is lower than that of the connecting column (308) on the right side, and the squeezing columns (309) and the squeezing blocks (502) are correspondingly arranged.

10. The extrusion granulator of claim 9 wherein: the conveying device (4) comprises a storage box (401), a conveyor (402) and fixing rods (403), wherein the storage groove (6) is formed in the upper portion of the conveyor (402), the conveyor (402) is arranged in the storage box (401), a plurality of fixing rods (403) are arranged on two sides of the interior of the conveyor (402), and two sides of the fixing rods (403) are connected with the inner wall of the storage box (401) through first bearings.

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