CN220027322U - Colloid mill with automatic feeding function - Google Patents

Abstract

The utility model relates to the technical field of colloid mills, in particular to a colloid mill with an automatic feeding function, which comprises a main body device, a feeding mechanism and a material collecting mechanism, wherein a supporting component is arranged outside the main body device, the feeding mechanism is arranged above the supporting component, the material collecting mechanism is arranged on one side of the feeding mechanism far away from the main body device, the material collecting mechanism is fixedly connected with the supporting component, two sides of the feeding mechanism are provided with side plates, the side plates are fixedly connected with the supporting component, evenly distributed feeding hoppers are arranged above the feeding mechanism, and the feeding hoppers are fixedly connected with the feeding mechanism; finally, the automatic feeding of the food raw materials can be performed, the manual feeding is not needed, the working efficiency is improved, and meanwhile, the whole conveyed raw materials can be guided into the hopper, so that waste is avoided.

Description

Colloid mill with automatic feeding function

Technical Field

The utility model relates to the technical field of colloid mills, in particular to a colloid mill with an automatic feeding function.

Background

The colloid mill is suitable for the equipment in the food processing field, is composed of stainless steel and semi-stainless steel colloid mill, and has the functions of crushing, emulsifying, homogenizing and mixing food materials, and the colloid mill is driven by a motor through a belt to rotate at a high speed by rotating teeth (or called a rotor) and matched fixed teeth (or called a stator), one of the colloid mill rotates at a high speed, the other colloid mill is static, the processed materials are pressurized by the weight of the processed materials or external pressure (can be generated by a pump) to generate downward spiral impact force, and the processed materials are subjected to the physical effects of strong shearing force, friction force, high-frequency vibration, high-speed vortex and the like when passing through a gap (adjustable gap) between the fixed teeth and the rotating teeth, so that the materials are effectively emulsified, dispersed, homogenized and crushed, the emulsifying effect of a material ultrafine crusher is achieved, and various jams, fruit juices and the like are manufactured after further processing.

The existing colloid mill needs to be fed from the upper part manually during use, so that the working efficiency is limited, and the feeding of the colloid mill is conical during feeding, so that raw materials are very easy to completely enter a hopper during feeding, and waste is caused.

Disclosure of Invention

Aiming at the problems in the prior art, a colloid mill with an automatic feeding function is provided.

The specific technical scheme is as follows:

the utility model provides a colloid mill with automatic feeding function, includes main part device, feed mechanism and mechanism that gathers materials, main part device's outside is equipped with supporting component, supporting component's top is equipped with feed mechanism, feed mechanism keeps away from one side of main part device is equipped with mechanism that gathers materials, mechanism fixed connection gathers materials supporting component's both sides are equipped with the curb plate, curb plate fixed connection supporting component's top is equipped with the material loading hopper that evenly distributes, material loading hopper fixed connection feed mechanism.

Preferably, a baffle is arranged on one side of the feeding hopper, and the bottom end of the baffle is movably connected with the inside of the feeding hopper.

Preferably, a limit groove is formed in the inner side of the feeding hopper, and the inside of the limit groove is connected with the top end of the baffle in a sliding mode.

Preferably, one end of the feeding mechanism is provided with a driving assembly, the driving assembly is fixedly connected with the collecting mechanism, and an output end belt of the driving assembly is connected with the feeding mechanism.

Preferably, one end of the feeding mechanism, which is far away from the driving assembly, is provided with a guiding assembly, and the guiding assembly is fixedly connected with the lower part of the side plate.

Preferably, a feeding groove is formed in one side, close to the feeding mechanism, of the material collecting mechanism, a material collecting hopper is arranged above the material collecting mechanism, the material collecting hopper is fixedly connected with the material collecting mechanism, and a fixedly connected laser sensor is arranged above the feeding groove.

Preferably, a linkage plate is arranged in the aggregate mechanism, the linkage plate is in sliding connection with the aggregate mechanism, the linkage plate is fixedly connected with the output end of the electro-hydraulic assembly, and the electro-hydraulic assembly is fixedly connected with the supporting assembly.

The technical scheme has the following advantages or beneficial effects:

through the main part device that sets up, feed mechanism and collection material mechanism, after pouring a large amount of food raw materials into the inside of mechanism that gathers materials through the collection hopper, at first, external control ware can make drive assembly function, thereby make feed mechanism take the upper feed hopper to rotate, reach the material loading groove department when wherein, and can make electrohydraulic assembly function when being sensed by laser sensor, and then will promote the certain scope upwards at the food raw materials above the linkage plate, and so make food will lead to upper feed hopper department because the linkage plate is whole to incline, and reach the inside of feed hopper through the baffle, afterwards overturn the top of upper feed mechanism under drive assembly constantly, food raw materials can be with the feed mechanism contact, and slowly guide assembly displacement, finally, food raw materials falls to guide assembly's last convenience, and come to the inside of main part device's feed hopper under its direction, finally can carry out automatic feeding to food raw materials, need not the manual work and feed, and then improved work efficiency, the raw materials that can will carry simultaneously will lead to in the hopper, waste is avoided.

Drawings

Embodiments of the present utility model will now be described more fully with reference to the accompanying drawings. The drawings, however, are for illustration and description only and are not intended as a definition of the limits of the utility model.

Fig. 1 is a schematic diagram of the whole structure of a colloid mill with an automatic feeding function according to the present utility model;

fig. 2 is a schematic diagram of a feeding mechanism of a colloid mill with an automatic feeding function and an object thereof according to the present utility model;

FIG. 3 is a schematic diagram of a feeding mechanism of a colloid mill with an automatic feeding function and a part of the structure of the colloid mill;

fig. 4 is a schematic diagram of a collection mechanism of a colloid mill with an automatic feeding function and an object thereof according to the present utility model.

The above reference numerals denote: 10. a main body device; 20. a feeding mechanism; 21. feeding a hopper; 22. a limit groove; 23. a baffle; 24. a side plate; 25. a drive assembly; 26. a guide assembly; 30. a collection mechanism; 31. feeding a trough; 32. a collecting hopper; 33. a linkage plate; 34. an electro-hydraulic assembly; 35. a support assembly; 36. a laser sensor.

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. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other.

The utility model is further described below with reference to the drawings and specific examples, which are not intended to be limiting.

Referring to fig. 1-4, a colloid mill with automatic feeding function comprises a main body device 10, a feeding mechanism 20 and a collecting mechanism 30, wherein a supporting component 35 is arranged outside the main body device 10, the feeding mechanism 20 is arranged above the supporting component 35, the collecting mechanism 30 is arranged on one side, far away from the main body device 10, of the feeding mechanism 20, the collecting mechanism 30 is fixedly connected with the supporting component 35, side plates 24 are arranged on two sides of the feeding mechanism 20, the side plates 24 are fixedly connected with the supporting component 35, evenly distributed feeding hoppers 21 are arranged above the feeding mechanism 20, and the feeding hoppers 21 are fixedly connected with the feeding mechanism 20; the feeding mechanism 20 and the collecting mechanism 30 form an automatic feeding mechanism, and the main body device 10 is a common food colloid mill; the two ends of the interior of the feeding mechanism 20 are provided with a driving shaft and a linkage shaft, and the holes penetrate through the movable connecting side plates 24, and the side plates 24 are mainly used for preventing food raw materials from falling off; the support assembly 35 is also provided with a controller for controlling the operation of the other objects through a circuit.

Further, a baffle plate 23 is arranged on one side of the upper hopper 21, and the bottom end of the baffle plate 23 is movably connected with the inside of the upper hopper 21; the upper and lower ends of both sides of the baffle plate 23 are respectively provided with a movable rod, and the movable rods at the bottom of the baffle plate are used for movably connecting the baffle plate 23 with the inner wall of the feeding hopper 21.

Further, a limit groove 22 is formed in the inner side of the upper hopper 21, and the inside of the limit groove 22 is connected with the top end of a baffle 23 in a sliding manner; the movable rod at the upper end of the baffle plate 23 is positioned in the limit groove 22, so that after the driving assembly 25 operates, the feeding hopper 21 positioned at the bottom of the feeding mechanism 20 can dig up the food raw materials, the baffle plate 23 is used for facilitating the entry of the food raw materials but not the entry of the food raw materials, and only when the feeding hopper 21 rotates above the feeding mechanism 20, the food raw materials fall onto the surface of the feeding mechanism 20 and fall onto the guide assembly 26 after the continuously rotating feeding mechanism 20; and the feeding hopper 21, the limiting groove 22 and the baffle 23 are made of soft plastic materials, so that the feeding mechanism 20 can conveniently rotate under the driving of the feeding mechanism.

Further, one end of the feeding mechanism 20 is provided with a driving component 25, the driving component 25 is fixedly connected with the collecting mechanism 30, and an output end belt of the driving component 25 is connected with the feeding mechanism 20; the belt pulley in the belt assembly at the output end of the driving assembly 25 is fixedly connected with the driving shaft at one side inside the feeding mechanism 20, so that the feeding mechanism 20 can rotate to convey materials.

Further, a guiding component 26 is arranged at one end of the feeding mechanism 20 far away from the driving component 25, and the guiding component 26 is fixedly connected with the lower part of the side plate 24; the guide assembly 26 is inclined as a whole, and the left side is large and the right side is small in shrinkage opening, so that the food ingredients falling onto the guide assembly 26 can be intensively guided to the feeding end of the main body device 10, and waste caused by falling is prevented.

Further, a feeding groove 31 is formed in one side, close to the feeding mechanism 20, of the material collecting mechanism 30, a material collecting hopper 32 is arranged above the material collecting mechanism 30, the material collecting hopper 32 is fixedly connected with the material collecting mechanism 30, and a fixedly connected laser sensor 36 is arranged above the feeding groove 31; the laser sensor 36 is a common distance sensor, and is mainly used for sensing the distance of the feeding hopper 21, and is fed back to the controller at the supporting component 35 through a circuit to enable the electro-hydraulic component 34 to operate.

Further, a linkage plate 33 is arranged in the aggregate mechanism 30, the linkage plate 33 is in sliding connection with the aggregate mechanism 30, the linkage plate 33 is fixedly connected with the output end of an electro-hydraulic component 34, and the electro-hydraulic component 34 is fixedly connected with a supporting component 35; the linkage plate 33, the feeding mechanism 20 and the guide assembly 26 are inclined towards the main body device 10.

Working principle: when the device is used, through the main body device 10, the feeding mechanism 20 and the collecting mechanism 30, after a large amount of food raw materials are poured into the collecting mechanism 30 through the collecting hopper 32, the driving assembly 25 is enabled to operate by the external controller, so that the feeding mechanism 20 rotates with the feeding hopper 21 above, when the feeding hopper 21 reaches the feeding groove 31 and is sensed by the laser sensor 36, the electrohydraulic assembly 34 is enabled to operate, the food raw materials above the linkage plate 33 are pushed upwards to a certain extent, the linkage plate 33 is inclined, the food is led to the feeding hopper 21 and reaches the inside of the feeding hopper 21 through the baffle plate 23, then the driving assembly 25 continuously operates and rolls over the feeding mechanism 20, the food raw materials are enabled to be in contact with the feeding mechanism 20 at the moment, the food raw materials are enabled to be located in the guide assembly 26 slowly, finally the food raw materials are enabled to fall into the inside of the feeding hopper of the main body device 10 in a guiding manner, the food raw materials can be automatically fed, the manual feeding of the linkage plate 33 is enabled to be automatically fed, the feeding efficiency is improved, and the waste of the whole raw materials can be avoided.

The foregoing description is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present utility model, and are intended to be included within the scope of the present utility model.

Claims (7)

1. A colloid mill with automatic feeding function, its characterized in that: including main part device (10), feed mechanism (20) and collection material mechanism (30), the outside of main part device (10) is equipped with supporting component (35), the top of supporting component (35) is equipped with feed mechanism (20), feed mechanism (20) are kept away from one side of main part device (10) is equipped with collection material mechanism (30), collection material mechanism (30) fixed connection supporting component (35), the both sides of feed mechanism (20) are equipped with curb plate (24), curb plate (24) fixed connection supporting component (35), the top of feed mechanism (20) is equipped with evenly distributed's material loading hopper (21), material loading hopper (21) fixed connection feed mechanism (20).

2. The colloid mill with automatic feeding function according to claim 1, wherein: one side of the feeding hopper (21) is provided with a baffle plate (23), and the bottom end of the baffle plate (23) is movably connected with the inside of the feeding hopper (21).

3. A colloid mill with automatic feeding function according to claim 2, wherein: a limit groove (22) is formed in the inner side of the feeding hopper (21), and the inside of the limit groove (22) is connected with the top end of the baffle plate (23) in a sliding mode.

4. The colloid mill with automatic feeding function according to claim 1, wherein: one end of the feeding mechanism (20) is provided with a driving assembly (25), the driving assembly (25) is fixedly connected with the collecting mechanism (30), and an output end belt of the driving assembly (25) is connected with the feeding mechanism (20).

5. The colloid mill with automatic feeding function according to claim 4, wherein: one end of the feeding mechanism (20) far away from the driving assembly (25) is provided with a guiding assembly (26), and the guiding assembly (26) is fixedly connected with the lower part of the side plate (24).

6. The colloid mill with automatic feeding function according to claim 1, wherein: the feeding trough (31) is arranged on one side, close to the feeding mechanism (20), of the material collecting mechanism (30), a collecting hopper (32) is arranged above the material collecting mechanism (30), the collecting hopper (32) is fixedly connected with the material collecting mechanism (30), and a fixedly connected laser sensor (36) is arranged above the feeding trough (31).

7. The colloid mill with automatic feeding function according to claim 6, wherein: the inside of mechanism (30) gathers materials is equipped with linkage board (33), linkage board (33) sliding connection mechanism (30) gathers materials, the output of linkage board (33) fixed connection electro-hydraulic subassembly (34), electro-hydraulic subassembly (34) fixed connection supporting component (35).