CN220496478U - Smashing device for solid beverage production - Google Patents

Abstract

The utility model discloses a crushing device for producing solid beverage, which relates to the technical field of solid beverage production, and comprises a box unit, a transmission unit arranged on the side part of the box unit, a crushing unit, a vibration filtering unit and a collecting unit, wherein the crushing unit, the vibration filtering unit and the collecting unit are arranged in the box unit; the crushing unit comprises a driving shaft, a primary driven shaft, a secondary driven shaft and a tertiary driven shaft which are movably arranged to penetrate through the box body unit, and crushing rollers which are arranged on the side walls of the driving shaft, the primary driven shaft, the secondary driven shaft and the tertiary driven shaft, and the driving shaft, the primary driven shaft, the secondary driven shaft and the tertiary driven shaft are arranged in an S-shaped structure from top to bottom. The crushing device for producing the solid beverage ensures that the sizes of produced particles are consistent and the drinking taste is improved through the crushing unit and the vibration filtering unit.

Description

Smashing device for solid beverage production

Technical Field

The utility model relates to the technical field of solid beverage production, in particular to a crushing device for solid beverage production.

Background

The solid beverage is prepared by taking sugar, milk and dairy products, eggs or egg products, fruit juice or edible plant extracts and the like as main raw materials and adding a proper amount of auxiliary materials or food additives, so that a crushing device is needed in the production process of the solid beverage, and the raw materials in large blocks are crushed, so that the ratio of the raw materials is convenient, and the beverage is convenient to brew.

Retrieved under publication (bulletin) number: CN217747260U discloses a reducing mechanism for solid beverage production, including base and visor, the last fixed surface of base is connected with crushing box, and crushing box is linked together with the base, the inner wall both sides of crushing box are fixedly connected with first elementary stock guide, second elementary stock guide, one-level stock guide and second grade stock guide respectively, and first elementary stock guide, second elementary stock guide, one-level stock guide and second grade stock guide staggered arrangement, swing joint has elementary crushing wheel, initiative crushing wheel, two-level crushing wheel and three-level crushing wheel respectively between the inner wall both sides of crushing box. The utility model can crush the solid beverage raw materials for multiple times, thereby increasing the uniformity of crushing the solid beverage raw materials, ensuring the crushing effect of the solid beverage raw materials, simplifying the operation steps of crushing the solid beverage raw materials and improving the production efficiency of the solid beverage.

According to the scheme, although the solid raw materials are crushed for many times, the uniformity of crushing the solid raw materials is guaranteed, the crushed solid beverage cannot be screened, so that the condition that the particle sizes of the solid beverage are inconsistent is caused, and the drinking taste is poor.

Disclosure of Invention

The utility model mainly aims to provide a crushing device for producing solid beverage, which solves the problem that the crushed solid beverage cannot be screened through a crushing unit and a vibration filtering unit, so that the solid beverage has inconsistent particle size and has poor drinking taste.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the crushing device for producing the solid beverage comprises a box body unit, a transmission unit arranged on the side part of the box body unit, a crushing unit, a vibration filtering unit and a collecting unit, wherein the crushing unit, the vibration filtering unit and the collecting unit are arranged in the box body unit;

the crushing unit comprises a driving shaft, a primary driven shaft, a secondary driven shaft and a tertiary driven shaft which are movably arranged to penetrate through the box body unit, and crushing rollers arranged on the side walls of the driving shaft, the primary driven shaft, the secondary driven shaft and the tertiary driven shaft, wherein the driving shaft, the primary driven shaft, the secondary driven shaft and the tertiary driven shaft are arranged in an S-shaped structure from top to bottom;

the vibration filtering unit comprises a telescopic piece arranged in the box body unit, a filter plate arranged at the top of the telescopic piece, a rotating shaft movably arranged in the box body unit and positioned below the filter plate, a cam arranged on the side wall of the rotating shaft, and a second driving motor arranged at the input end of the rotating shaft.

Preferably, the case unit includes a pulverizing case, and a collecting case installed at the bottom of the pulverizing case.

Preferably, the tank unit further comprises a hopper installed at the top of the pulverizing tank.

Preferably, the crushing unit further comprises a guide plate arranged on the inner side wall of the crushing box, and the sections of the guide plate are all directed to the meshing positions of the crushing rollers.

Preferably, the transmission unit includes a first driving motor installed at an input end of the driving shaft, pulleys installed at ends of the driving shaft, the primary driven shaft, the secondary driven shaft and the tertiary driven shaft, and a belt installed between the adjacent pulleys.

Preferably, the telescopic piece comprises a fixed plate arranged on the inner side wall of the crushing box, and a spring with one end fixedly connected with the fixed plate and the other end fixedly connected with the filter plate.

Preferably, the aggregate unit comprises a collecting tank arranged on the side wall of the aggregate tank, a collecting hopper arranged in the collecting tank, a push-pull handle arranged on the side wall of the collecting hopper, a sealing groove arranged on the side wall of the crushing tank, and a sealing plate movably arranged in the sealing groove.

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

according to the utility model, when large raw materials are crushed through the crushing unit and the vibration filtering unit, firstly, the large raw materials are added into the charging hopper, firstly, the crushing rollers arranged on the side walls of the driving shaft and the primary driven shaft are subjected to primary crushing, then the crushing rollers arranged on the side walls of the primary driven shaft and the secondary driven shaft are subjected to secondary crushing through the diversion of the diversion plate, and the crushing rollers arranged on the side walls of the secondary driven shaft and the tertiary driven shaft are subjected to tertiary crushing; in the process, a driving shaft is driven to rotate by a first driving motor, and a primary driven shaft, a secondary driven shaft and a tertiary driven shaft are sequentially driven by a belt wheel and a belt; realizing the multi-stage crushing of the solid raw materials; so that the particle size is more uniform; after the crushing is finished, solid particles fall onto the filter plate under the action of gravity, and at the moment, the second driving motor drives the rotating shaft to rotate, so that the rotating shaft drives the cam to rotate, in the rotating process of the cam, when the cam moves to a high position, the cam gradually contacts with the filter plate and jacks up the filter plate, when the cam moves from a highest point to a low position, the cam is separated from the filter plate, and under the action of the combined force of gravity and the elasticity of the spring, the filter plate moves to a low position; the solid particles on the filter plate are filtered through circulation, the produced particles are guaranteed to be consistent in size, the cited taste is improved, and meanwhile the filter plate is prevented from being blocked.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is a schematic cross-sectional view of the structure of FIG. 2 at A-A in accordance with the present utility model;

FIG. 4 is a schematic cross-sectional view of the structure of the utility model at B-B in FIG. 2;

fig. 5 is a schematic perspective view of the telescopic member and the connecting member thereof according to the present utility model.

In the figure:

1. a case unit; 101. a crushing box; 102. a material collecting box; 103. a hopper;

2. a pulverizing unit; 201. a driving shaft; 202. a primary driven shaft; 203. a secondary driven shaft; 204. a third-stage driven shaft; 205. a pulverizing roller; 206. a deflector;

3. a transmission unit; 301. a first driving motor; 302. a belt wheel; 303. a belt;

4. a vibration filtering unit; 401. a telescoping member; 4011. a fixing plate; 4012. a spring; 402. a filter plate; 403. a rotation shaft; 404. a cam; 405. a second driving motor;

5. an aggregate unit; 501. a collecting hopper; 502. push-pull handle; 503. sealing grooves; 504. and (5) sealing the plate.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

Example 1

As shown in fig. 1, 2, 3 and 4, the crushing device for producing solid beverage comprises a box unit 1, a transmission unit 3 arranged at the side part of the box unit 1, a crushing unit 2, a vibration filtering unit 4 and an aggregate unit 5 arranged in the box unit 1;

as shown in fig. 4, the crushing unit 2 includes a driving shaft 201, a first-stage driven shaft 202, a second-stage driven shaft 203, a third-stage driven shaft 204, and crushing rollers 205 mounted on the side walls of the driving shaft 201, the first-stage driven shaft 202, the second-stage driven shaft 203, and the third-stage driven shaft 204, which are movably arranged in the box unit 1, wherein the driving shaft 201, the first-stage driven shaft 202, the second-stage driven shaft 203, and the third-stage driven shaft 204 are arranged in an S-shaped structure from top to bottom, the solid raw materials are subjected to primary crushing through the crushing rollers 205 mounted on the side walls of the driving shaft 201 and the first-stage driven shaft 202, the crushing rollers 205 mounted on the side walls of the first-stage driven shaft 202, the second-stage driven shaft 202, and the third-stage driven shaft 204, and the crushing rollers 205 mounted on the side walls of the third-stage driven shaft 204, respectively;

as shown in fig. 3, the vibration filtering unit 4 includes a telescopic member 401 disposed in the casing unit 1, a filter plate 402 mounted on the top of the telescopic member 401, a rotating shaft 403 movably disposed in the casing unit 1 and located below the filter plate 402, a cam 404 mounted on a side wall of the rotating shaft 403, and a second driving motor 405 mounted at an input end of the rotating shaft 403, where the second driving motor 405 drives the rotating shaft 403 to rotate, so that the rotating shaft 403 drives the cam 404 to rotate.

As shown in fig. 1, the tank unit 1 includes a pulverizing tank 101, and an aggregate tank 102 mounted at the bottom of the pulverizing tank 101, the aggregate tank 102 being for collecting the sieved solid raw materials.

As shown in fig. 1, the tank unit 1 further includes a hopper 103 mounted on the top of the pulverizing tank 101, the hopper 103 facilitating the addition of solid raw materials into the pulverizing tank 101.

The crushing unit 2 further comprises a guide plate 206 arranged on the inner side wall of the crushing box 101, and the sections of the guide plate 206 are all directed to the engagement position of the crushing roller 205, and the guide plate 206 is designed so as to guide crushed raw materials to the next crushing position.

As shown in fig. 4, the transmission unit 3 includes a first driving motor 301 installed at an input end of the driving shaft 201, pulleys 302 installed at ends of the driving shaft 201, the primary driven shaft 202, the secondary driven shaft 203 and the tertiary driven shaft 204, and a belt 303 installed between the adjacent pulleys 302; the first driving motor 301 drives the driving shaft 201 to rotate, and drives the primary driven shaft 202, the secondary driven shaft 203 and the tertiary driven shaft 204 sequentially through the belt wheels 302 and the belt 303.

As shown in fig. 1, the aggregate unit 5 includes a collecting tank formed on a side wall of the collecting tank 102, a collecting hopper 501 formed in the collecting tank, a push-pull handle 502 mounted on a side wall of the collecting hopper 501, a sealing groove 503 formed on a side wall of the pulverizing tank 101, and a sealing plate 504 movably mounted in the sealing groove 503, wherein the collecting hopper 501 is used for collecting filtered solid raw materials, and after the sealing plate 504 is opened, the large raw materials of the filter plate 402 are conveniently processed.

When the large-scale raw materials are crushed, the large-scale raw materials are firstly added into a feed hopper 103, firstly, the crushing rollers 205 arranged on the side walls of a driving shaft 201 and a primary driven shaft 202 are used for preliminary crushing, then the secondary crushing is carried out through the flow guide of a flow guide plate 206 by the crushing rollers 205 arranged on the side walls of the primary driven shaft 202 and a secondary driven shaft 203, and the tertiary crushing is carried out by the crushing rollers 205 arranged on the side walls of the secondary driven shaft 203 and a tertiary driven shaft 204; in the process, a driving shaft 201 is driven to rotate through a first driving motor 301, and a primary driven shaft 202, a secondary driven shaft 203 and a tertiary driven shaft 204 are sequentially driven through a belt wheel 302 and a belt 303; the multi-stage crushing of the solid raw materials is realized, the produced particles are ensured to be consistent in size, and the drinking taste is improved; so that the particle size is more uniform.

Example 2

As shown in fig. 1, 2, 3, 4 and 5, the crushing device for producing solid beverage comprises a box unit 1, a transmission unit 3 arranged on the side part of the box unit 1, a crushing unit 2, a vibration filtering unit 4 and an aggregate unit 5 arranged in the box unit 1;

as shown in fig. 4, the crushing unit 2 includes a driving shaft 201, a first-stage driven shaft 202, a second-stage driven shaft 203, a third-stage driven shaft 204, and crushing rollers 205 mounted on the side walls of the driving shaft 201, the first-stage driven shaft 202, the second-stage driven shaft 203, and the third-stage driven shaft 204, which are movably arranged in the box unit 1, wherein the driving shaft 201, the first-stage driven shaft 202, the second-stage driven shaft 203, and the third-stage driven shaft 204 are arranged in an S-shaped structure from top to bottom, the solid raw materials are subjected to primary crushing through the crushing rollers 205 mounted on the side walls of the driving shaft 201 and the first-stage driven shaft 202, the crushing rollers 205 mounted on the side walls of the first-stage driven shaft 202, the second-stage driven shaft 202, and the third-stage driven shaft 204, and the crushing rollers 205 mounted on the side walls of the third-stage driven shaft 204, respectively;

as shown in fig. 3, the vibration filtering unit 4 includes a telescopic member 401 disposed in the casing unit 1, a filter plate 402 mounted on the top of the telescopic member 401, a rotating shaft 403 movably disposed in the casing unit 1 and located below the filter plate 402, a cam 404 mounted on a side wall of the rotating shaft 403, and a second driving motor 405 mounted at an input end of the rotating shaft 403, where the second driving motor 405 drives the rotating shaft 403 to rotate, so that the rotating shaft 403 drives the cam 404 to rotate.

As shown in fig. 1, the tank unit 1 includes a pulverizing tank 101, and an aggregate tank 102 mounted at the bottom of the pulverizing tank 101, the aggregate tank 102 being for collecting the sieved solid raw materials.

As shown in fig. 1, the tank unit 1 further includes a hopper 103 mounted on the top of the pulverizing tank 101, the hopper 103 facilitating the addition of solid raw materials into the pulverizing tank 101.

The crushing unit 2 further comprises a guide plate 206 arranged on the inner side wall of the crushing box 101, and the sections of the guide plate 206 are all directed to the engagement position of the crushing roller 205, and the guide plate 206 is designed so as to guide crushed raw materials to the next crushing position.

As shown in fig. 4, the transmission unit 3 includes a first driving motor 301 installed at an input end of the driving shaft 201, pulleys 302 installed at ends of the driving shaft 201, the primary driven shaft 202, the secondary driven shaft 203 and the tertiary driven shaft 204, and a belt 303 installed between the adjacent pulleys 302; the first driving motor 301 drives the driving shaft 201 to rotate, and drives the primary driven shaft 202, the secondary driven shaft 203 and the tertiary driven shaft 204 sequentially through the belt wheels 302 and the belt 303.

As shown in fig. 5, the telescopic member 401 includes a fixing plate 4011 installed on the inner side wall of the pulverizing box 101, and a spring 4012 having one end fixedly connected to the fixing plate 4011 and the other end fixedly connected to the filter plate 402, and the design of the spring 4012 has a buffering effect on sudden falling of the filter plate 402.

As shown in fig. 1, the aggregate unit 5 includes a collecting tank formed on a side wall of the collecting tank 102, a collecting hopper 501 formed in the collecting tank, a push-pull handle 502 mounted on a side wall of the collecting hopper 501, a sealing groove 503 formed on a side wall of the pulverizing tank 101, and a sealing plate 504 movably mounted in the sealing groove 503, wherein the collecting hopper 501 is used for collecting filtered solid raw materials, and after the sealing plate 504 is opened, the large raw materials of the filter plate 402 are conveniently processed.

When the crushing of the solid raw materials is completed, the solid particles fall onto the filter plate 402 under the action of gravity, and at the moment, the second driving motor 405 drives the rotating shaft 403 to rotate, so that the rotating shaft 403 drives the cam 404 to rotate, and in the rotating process of the cam 404, when the cam 404 moves to a high position, the cam 404 gradually contacts with the filter plate 402 and jacks up the same, and when the cam 404 moves to a low position from the highest point, the cam 404 is separated from the filter plate 402, and under the action of the combined force of gravity and the elasticity of the spring 4012, the filter plate 402 moves to a low position; the circulation is such that solid particles on the filter plate 402 are filtered while clogging of the filter plate 402 is avoided.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The crushing device for producing the solid beverage comprises a box body unit (1) and a transmission unit (3) arranged on the side part of the box body unit (1), and is characterized by further comprising a crushing unit (2), a vibration filtering unit (4) and an aggregate unit (5) which are arranged in the box body unit (1);

the crushing unit (2) comprises a driving shaft (201), a primary driven shaft (202), a secondary driven shaft (203) and a tertiary driven shaft (204) which are movably arranged and penetrate through the box body unit (1), and crushing rollers (205) arranged on the side walls of the driving shaft (201), the primary driven shaft (202), the secondary driven shaft (203) and the tertiary driven shaft (204), wherein the driving shaft (201), the primary driven shaft (202), the secondary driven shaft (203) and the tertiary driven shaft (204) are arranged in an S-shaped structure from top to bottom;

the vibration filtering unit (4) comprises a telescopic piece (401) arranged in the box body unit (1), a filter plate (402) arranged at the top of the telescopic piece (401), a rotating shaft (403) movably arranged in the box body unit (1) and positioned below the filter plate (402), a cam (404) arranged on the side wall of the rotating shaft (403), and a second driving motor (405) arranged at the input end of the rotating shaft (403).

2. A pulverizing apparatus for producing a solid beverage according to claim 1, wherein: the box body unit (1) comprises a crushing box (101) and a collecting box (102) arranged at the bottom of the crushing box (101).

3. A crushing apparatus for producing a solid beverage according to claim 2, wherein: the box body unit (1) further comprises a hopper (103) arranged at the top of the crushing box (101).

4. A crushing apparatus for producing a solid beverage according to claim 3, wherein: the crushing unit (2) further comprises a guide plate (206) arranged on the inner side wall of the crushing box (101), and the sections of the guide plate (206) are all directed to the meshing positions of the crushing rollers (205).

5. A pulverizing apparatus for producing a solid beverage according to claim 1, wherein: the transmission unit (3) comprises a first driving motor (301) arranged at the input end of the driving shaft (201), belt wheels (302) arranged at the ends of the driving shaft (201), the primary driven shaft (202), the secondary driven shaft (203) and the tertiary driven shaft (204), and a belt (303) arranged between the adjacent belt wheels (302).

6. A crushing apparatus for producing a solid beverage according to claim 2, wherein: the telescopic piece (401) comprises a fixed plate (4011) arranged on the inner side wall of the crushing box (101), and a spring (4012) with one end fixedly connected with the fixed plate (4011) and the other end fixedly connected with the filter plate (402).

7. A crushing apparatus for producing a solid beverage according to claim 2, wherein: the collecting unit (5) comprises a collecting tank arranged on the side wall of the collecting tank (102), a collecting hopper (501) arranged in the collecting tank, a push-pull handle (502) arranged on the side wall of the collecting hopper (501), a sealing groove (503) arranged on the side wall of the crushing tank (101), and a sealing plate (504) movably arranged in the sealing groove (503).