CN220282340U - Spiral feeding device for ultrahigh-viscosity materials - Google Patents

Abstract

The utility model discloses a spiral feeding device for ultrahigh-viscosity materials, which comprises a storage tank, wherein a connecting pipe is arranged at the bottom of the storage tank, a feeding pipe is arranged at the bottom of the connecting pipe, a balance frame is arranged on the side surface of the feeding pipe, a driving mechanism is arranged on the storage tank, the driving mechanism is inserted into the storage tank and connected with a scraper and a first feeding screw rod, the feeding screw rod is inserted into the connecting pipe, and the driving mechanism is inserted into the feeding pipe and connected with a second feeding screw rod. Compared with the prior art, the scraper, the first feeding screw and the second feeding screw are respectively driven by the driving mechanism to feed the high-viscosity material, the scraper can be used for effectively avoiding the material from being stuck in the storage tank, the material can be cleaned without stopping the scraper, and the scraper is very convenient to use.

Description

Spiral feeding device for ultrahigh-viscosity materials

Technical Field

The utility model relates to the technical field of feeding devices, in particular to a spiral feeding device for ultrahigh-viscosity materials.

Background

In the material transportation process, corresponding feeding equipment is required to be selected according to the physical properties of different media so as to improve the production efficiency and play a great role. For the ultra-high viscosity material, a screw feeding device is usually adopted for feeding, but in the actual production process, a large amount of materials are adhered to the inner wall of a hopper for storing the materials, the materials need to be scraped by a scraper after being stopped, the feeding operation is very troublesome, and for this reason, the screw feeding device for the ultra-high viscosity material is provided.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a spiral feeding device for an ultrahigh-viscosity material.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides an ultra-high viscosity material spiral feed arrangement, includes the storage tank, the connecting pipe is installed to the bottom of storage tank, the inlet pipe is installed to the bottom of connecting pipe, the balance frame is installed to the side-mounting of inlet pipe, install actuating mechanism on the storage tank, actuating mechanism inserts the inside of storage tank and is connected with scraper and first feeding screw, feeding screw inserts the inside of connecting pipe, actuating mechanism inserts the inside of inlet pipe and is connected with the second feeding screw.

Preferably, the driving mechanism comprises a supporting frame fixed on the storage tank and a connecting shaft arranged on the balancing frame, a shell and a double-shaft motor are arranged on the supporting frame, an output shaft on one side of the double-shaft motor is inserted into the shell and connected with a first bevel gear, a rotating shaft is connected to the shell in a rotating mode, a second bevel gear is fixedly sleeved on the rotating shaft, an output shaft on the other side of the double-shaft motor penetrates through the supporting frame and is connected with a first belt pulley, a second belt pulley is arranged on the connecting shaft, and a belt is arranged between the first belt pulley and the second belt pulley.

Preferably, the first bevel gear and the second bevel gear are in meshed transmission, and the connecting shaft penetrates through the balance frame and is in rotary connection with the balance frame.

Preferably, the scraper and the first feeding screw are both fixed on the rotating shaft, and the second feeding screw is connected with the connecting shaft.

Preferably, the number of the scrapers is a plurality of groups, and the plurality of groups of scrapers are in sliding connection with the storage tank.

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

according to the utility model, the scraper, the first feeding screw and the second feeding screw are respectively driven by the driving mechanism to feed the high-viscosity material, so that the scraper can effectively prevent the material from being stuck in the storage tank, and the material can be cleaned without stopping the scraper, thereby being very convenient to use.

Drawings

FIG. 1 is a front view of a screw feeder for ultra-high viscosity materials according to the present utility model;

FIG. 2 is a front cross-sectional view of FIG. 1;

fig. 3 is a schematic view of the installation of the doctor blade of fig. 2.

In the figure: 1 storage tank, 2 connecting pipes, 3 inlet pipes, 4 balancing stand, 5 actuating mechanism, 501 support frame, 502 casing, 503 biax motor, 504 first bevel gear, 505 pivot, 506 second bevel gear, 507 first belt pulley, 508 connecting axle, 509 second belt pulley, 510 belt, 6 scraper, 7 first feeding screw, 8 second feeding screw.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 3, an ultra-high viscosity material screw feeding apparatus comprises a storage tank 1, a connection pipe 2 is installed at the bottom of the storage tank 1, a feed pipe 3 is installed at the bottom of the connection pipe 2, a balance frame 4 is installed at the side surface of the feed pipe 3, a driving mechanism 5 is installed on the storage tank 1, the driving mechanism 5 is inserted into the interior of the storage tank 1 and is connected with a scraper 6 and a first feeding screw 7, the feeding screw 7 is inserted into the interior of the connection pipe 2, the driving mechanism 5 is inserted into the interior of the feed pipe 3 and is connected with a second feeding screw 8, the driving mechanism 5 comprises a support frame 501 fixed on the storage tank 1 and a connection shaft 508 installed on the balance frame 4, a housing 502 and a double-shaft motor 503 are installed on the support frame 501, an output shaft at one side of the double-shaft motor 503 is inserted into the interior of the housing 502 and is connected with a first bevel gear 504, the interior of the housing 502 is rotatably connected with a rotation shaft 505, the rotating shaft 505 is fixedly sleeved with a second bevel gear 506, an output shaft on the other side of the double-shaft motor 503 penetrates through the supporting frame 501 and is connected with a first belt pulley 507, a second belt pulley 509 is arranged on the connecting shaft 508, a belt 510 is arranged between the first belt pulley 507 and the second belt pulley 509, the first bevel gear 504 and the second bevel gear 506 are in meshed transmission, the connecting shaft 508 penetrates through the balance frame 4 and is rotationally connected with the balance frame, the scrapers 6 and the first feeding screw 7 are both fixed on the rotating shaft 505 and connected with the second feeding screw 8 and the connecting shaft 508, the number of the scrapers 6 is a plurality of groups, the scrapers 6 are both in sliding connection with the storage tank 1, the scrapers, the first feeding screw and the second feeding screw are respectively driven by a driving mechanism to feed materials with high viscosity, the scrapers can be effectively prevented from being stuck in the storage tank, the materials can be cleaned without stopping, the use is very convenient.

When the device is used, the power supply is connected, the feeding pipe 3 is connected with processing equipment, the double-shaft motor 503 is started, the output shafts on two sides of the double-shaft motor 503 respectively drive the first bevel gear 504 and the first belt pulley 507 to rotate, the first bevel gear 504 drives the rotating shaft 505 to rotate through meshing transmission with the second bevel gear 506, the rotating shaft 505 drives the scraper 6 and the first feeding screw 7 to rotate, the first belt pulley 507 drives the second belt pulley 509 to rotate through the belt 510, the second belt pulley 509 drives the second feeding screw 8 to rotate through the connecting shaft 508, if high-viscosity materials are arranged at the top of the storage tank 1, the first feeding screw 7 and the second feeding screw 8 rotate to feed, in the process, the scraper 6 scrapes on the inner wall of the storage tank 1, the problem of material residue can be effectively avoided, and the device is very convenient to use.

In summary, compared with the prior art, the scraper, the first feeding screw and the second feeding screw are respectively driven by the driving mechanism to feed the high-viscosity material, so that the scraper can be effectively prevented from being stuck in the storage tank, the material can be cleaned without stopping the scraper, and the scraper is very convenient to use.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (5)

1. The utility model provides an ultra-high viscosity material spiral feed arrangement, includes storage tank (1), its characterized in that, connecting pipe (2) are installed to the bottom of storage tank (1), inlet pipe (3) are installed to the bottom of connecting pipe (2), balancing stand (4) are installed to the side-mounting of inlet pipe (3), install actuating mechanism (5) on storage tank (1), actuating mechanism (5) insert the inside of storage tank (1) and be connected with scraper (6) and first feeding screw (7), feeding screw (7) insert the inside of connecting pipe (2), actuating mechanism (5) insert the inside of inlet pipe (3) and be connected with second feeding screw (8).

2. The ultra-high viscosity material spiral feeding device according to claim 1, wherein the driving mechanism (5) comprises a supporting frame (501) fixed on the storage tank (1) and a connecting shaft (508) installed on the balancing frame (4), a shell (502) and a double-shaft motor (503) are installed on the supporting frame (501), an output shaft on one side of the double-shaft motor (503) is inserted into the shell (502) and connected with a first bevel gear (504), a rotating shaft (505) is rotatably connected to the shell (502), a second bevel gear (506) is fixedly sleeved on the rotating shaft (505), an output shaft on the other side of the double-shaft motor (503) penetrates through the supporting frame (501) and is connected with a first belt pulley (507), a second belt pulley (509) is installed on the connecting shaft (508), and a belt (510) is installed between the first belt pulley (507) and the second belt pulley (509).

3. The screw feeding device for ultra-high viscosity materials according to claim 2, wherein the first bevel gear (504) and the second bevel gear (506) are in meshed transmission, and the connecting shaft (508) penetrates through the balance frame (4) and is in rotary connection with the balance frame.

4. The spiral feeding device for the ultra-high-viscosity materials according to claim 2, wherein the scraper (6) and the first feeding screw (7) are both fixed on a rotating shaft (505) to be connected, and the second feeding screw (8) is connected with a connecting shaft (508).

5. The spiral feeding device for the ultra-high-viscosity materials according to claim 1, wherein the number of the scrapers (6) is a plurality of groups, and the scrapers (6) of the plurality of groups are in sliding connection with the storage tank (1).