CN215088727U - Probiotics solid beverage distributing device - Google Patents

Abstract

The utility model discloses a probiotic solid beverage distributor, which comprises a base; the vibration frame is supported on the base through a spring; the vibration motor is arranged on the vibration frame; the screening unit, the screening unit passes through coupling assembling detachable and installs on the vibration frame, just the vibration frame has set gradually the multiunit along the direction of height, the screening unit includes sieve and collecting board, the collecting board is located the below of sieve. The utility model discloses a benefit fungus solid beverage distributing device of living changes through the mode that sets up sieve and collecting plate on the vibration frame to can carry out multistage screening to the raw materials and sieve the raw materials at the same level through a plurality of sieves simultaneously, improve screening efficiency.

Description

Probiotics solid beverage distributing device

Technical Field

The utility model relates to a food production technical field especially relates to a probiotics solid drink distributing device.

Background

Probiotics, which is an active microorganism beneficial to a host, is also called as solid beverage because probiotics are complex substances composed of various microorganisms and used in bioengineering, agricultural product food safety and life health, and sugar, milk, dairy products or egg products in our daily life belong to solid beverages, and probiotics are widely present in these articles, and some fruit juices also contain probiotics.

Probiotic solid drink raw materials are in production manufacture in-process, can sieve the raw materials through the distributing device, put into the sieve with the raw materials, drive the sieve through vibrating motor and continuously vibrate, the sieve mesh that the material of suitable size of a dimension passes through the sieve flows to and collects on the collecting board that is located the sieve below, so that subsequent processing, current sieve and collecting board generally all fix on the vibration frame of distributing device, can't increase the sieve and collect the board in order to carry out the multistage screening of raw materials and can a plurality of sieve screening materials simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a benefit fungus solid beverage distributing device of living, through changing the sieve and the mode that sets up of collecting plate on the vibration frame, can carry out multistage screening and sieve the raw materials at the same level through a plurality of sieves simultaneously to the raw materials, improve screening efficiency.

In order to solve the technical problem, the utility model provides a probiotic solid beverage distributing device, include:

a base;

the vibration frame is supported on the base through a spring;

the vibration motor is arranged on the vibration frame;

the screening unit, the screening unit passes through coupling assembling detachable and installs on the vibration frame, just the vibration frame has set gradually the multiunit along the direction of height, the screening unit includes sieve and collecting board, the collecting board is located the below of sieve.

Preferably, the connection assembly comprises:

the supporting plate is fixed on the vibration frame;

the limiting grooves are formed in the supporting plates, and the two sides of the sieve plate and the two sides of the collecting plate are inserted into the corresponding limiting grooves in the supporting plates;

the bolt is in threaded connection with the supporting plate, and the threaded end of the bolt enters the corresponding limiting groove to fix the corresponding sieve plate or collecting plate.

Preferably, the number of the limiting grooves in the supporting plate is one, the limiting grooves correspond to the same screening unit, and the sieve plate and the collecting plate are arranged on the same side and supported by the supporting plate.

Preferably, the number of the limiting grooves in the supporting plate is two, the limiting grooves correspond to the same screening unit, and the screen plate and the collecting plate in the supporting plate are supported by the same supporting plate on the same side.

Preferably, the method further comprises the following steps:

the discharging device comprises a first discharging unit and a second discharging unit;

the first discharging unit is arranged at the discharging end of the sieve plate and used for discharging the sieve plate;

and the second discharging unit is arranged on one side of the collecting plate and used for discharging the collecting plate.

Preferably, the first discharging unit comprises:

the guide plate is connected to the discharge end of the sieve plate and is provided with a discharge hole;

the receiving hopper is positioned right below the discharge port and is connected to the material guide plate in a rotating manner;

the discharging pipe, the one end of discharging pipe is connected connect the export of hopper, just the discharging pipe is the slope setting.

Preferably, the second discharging unit is an arc-shaped discharging part formed by bending one side of the collecting plate downwards.

Preferably, when the collecting plate is provided with two or more than two, the two or more than two discharging units are distributed in sequence in the circumferential direction of the collecting plate.

Preferably, when the sieve plate is provided with two or more than two sieve plates, the discharge ends of the two or more than two discharge pipes are distributed in sequence in the width direction of the sieve plate.

The utility model discloses a benefit fungus solid drink distributing device, through changing the sieve and the mode that sets up of collecting board on the vibration frame, fix sieve and collecting board on the vibration frame for prior art, this scheme can be convenient for install and dismantle sieve and collecting board from the vibration frame, adjusts according to raw materials screening demand, can realize carrying out multistage screening to the raw materials, can also sieve the raw materials at the same level through a plurality of sieves simultaneously, improves screening efficiency.

Drawings

Fig. 1 is a schematic structural view of the distributor for probiotic solid beverage of the present invention.

Fig. 2 is a schematic structural diagram of a first embodiment of the distributor for probiotic solid beverages of the present invention.

Fig. 3 is a schematic structural diagram of a second embodiment of the distributor for probiotic solid beverages of the present invention.

Fig. 4 is an enlarged view of the part a in fig. 2 of the distributor for probiotic solid beverage of the present invention.

Fig. 5 is an enlarged view of the part B in fig. 2 of the distributor for probiotic solid beverage of the present invention.

Fig. 6 is an enlarged view of the part C in fig. 3 of the distributor for probiotic solid beverage of the present invention.

The reference numbers illustrate:

1. a base; 2. a vibration frame; 3. a spring; 4. a vibration motor; 5. a screening unit; 6. a sieve plate; 7. a collection plate; 8. a connecting assembly; 9. a support plate; 10. a limiting groove; 11. a bolt; 12. a discharging device; 13. a first discharging unit; 14. a second discharging unit; 15. a material guide plate; 16. a discharge port; 17. a receiving hopper; 18. a discharge pipe; 19. an arc-shaped discharging part; 20. an L-shaped rod; 21. a support ring; 22. a movable ring; 23. a movable block; 24. a groove; 25. adjusting the bolt; 26. a threaded bore.

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 to 6, the utility model provides a probiotic solid beverage distributor, which comprises:

a base 1;

the vibration frame 2 is supported on the base 1 through the springs 3, the elasticity of the springs 3 is utilized to prevent the vibration frame 2 from driving the base 1 to vibrate or swing when vibrating, the overall stability of the device is improved, and in addition, the elastic effect of the springs 3 promotes the vibration frequency or amplitude of the vibration frame 2 and improves the vibration effect;

the vibration motor 4 is arranged on the vibration frame 2;

screening unit 5, screening unit 5 passes through coupling assembling 8 detachable and installs on vibration frame 2, and has set gradually the multiunit on vibration frame 2 along the direction of height, and screening unit 5 includes sieve 6 and collecting plate 7, and collecting plate 7 is located the below of sieve 6.

In the use process of the scheme, the arrangement mode of the sieve plate 6 and the collecting plate 7 on the vibration frame 2 is changed by changing the arrangement mode of the sieve plate 6 and the collecting plate 7 on the vibration frame 2 in the prior art, and the sieve plate 6 and the collecting plate 7 are detachably arranged on the vibration frame 2 and are correspondingly adjusted according to different sieving requirements of raw materials, for example, when the raw materials are required to be sieved in multiple stages, the sieving units 5 are sequentially arranged from bottom to top along the height direction of the vibration frame 2 according to the sequence of the sieve holes of the corresponding sieve plates 6 in the sieving units 5 from small to large, the collecting plates 7 in the bottommost sieving units 5 are reserved, all the collecting plates 7 in other sieving units 5 are detached and taken out, the raw materials to be sieved are added into the sieve plate 6 of the sieving unit 5 positioned at the top after the installation is finished, the vibration motor 4 is started to drive the vibration frame 2 to vibrate to sieve the raw materials, the raw materials sequentially pass through the sieve holes on the sieve plate 6 from large to low, so that multi-stage sieving can be realized; in order to improve the screening efficiency of raw materials at the same level, can install screening unit 5 on vibration frame 2 in proper order, the installation is accomplished the back, on adding each sieve 6 in screening unit 5 respectively with the raw materials at the same level that need screen, start vibrating motor 4 and drive vibration frame 2 vibration, can carry out screening at the same level to the material in the sieve 6 in each screening unit 5 simultaneously, improves screening efficiency.

The connecting assembly 8 includes:

the supporting plate 9 is fixed on the vibrating frame 2, and supports the screening unit 5;

the limiting groove 10 is formed in the supporting plate 9, the two sides of the sieve plate 6 and the two sides of the collecting plate 7 are inserted into the corresponding limiting grooves 10 in the supporting plate 9, and the sieve plate 6 and the collecting plate 7 are limited by the limiting grooves 10;

bolt 11, 11 threaded connection of bolt are in backup pad 9, and the screwed end of bolt 11 gets into the spacing inslot 10 that corresponds to fixed sieve 6 or the collecting plate 7 that corresponds, through rotating bolt 11, the screwed end of bolt 11 can contact with sieve 6 or collecting plate 7, and extrudees sieve 6 or collecting plate 7, makes sieve 6 or collecting plate 7 stably fix in spacing inslot 10.

Referring to fig. 2 and 4, in the first embodiment, the number of the limiting grooves 10 on the supporting plate 9 is one, and the corresponding supporting plate 9 is disposed on the same side of the sieve plate 6 and the collecting plate 7 inside the corresponding sieving unit 5, and specifically, the corresponding sieving unit 5 presses the sieve plate 6 and the collecting plate 7 through the two supporting plates 9 by bolts 11 on the same side of the sieve plate 6 and the collecting plate 7, so that the sieve plate 6 and the collecting plate 7 are fixed in the corresponding limiting grooves 10 of the supporting plate 9.

Referring to fig. 3 and 6, in the second embodiment, the number of the limiting grooves 10 on the supporting plate 9 is two, and the two limiting grooves correspond to the same screening unit 5, the screening plate 6 and the collecting plate 7 inside the two screening units are supported by the same supporting plate 9 on the same side, specifically, the two limiting grooves correspond to the same screening unit 5, and the two limiting grooves respectively penetrate through the upper end and the lower end of the same supporting plate 9 through bolts 11 on the same side of the screening plate 6 and the same collecting plate 7, so that the screening plate 6 and the collecting plate 7 are fixed in the corresponding limiting grooves 10 on the same supporting plate 9.

Further comprising:

the discharging device 12, the discharging device 12 includes a first discharging unit 13 and a second discharging unit 14;

a discharge unit 13, a discharge unit 13 sets up the discharge end at sieve 6 for the 6 ejection of compact of sieve, a discharge unit 13 includes:

the material guide plate 15 is connected to the discharge end of the sieve plate 6, and the material guide plate 15 is provided with a discharge hole 16;

the receiving hopper 17 is positioned right below the discharge port 16, and the receiving hopper 17 is rotatably connected to the material guide plate 15;

a discharge pipe 18, one end of the discharge pipe 18 is connected to the outlet of the receiving hopper 17, the discharge pipe 18 is arranged obliquely, specifically, one end of an L-shaped rod 20 is fixedly connected with the material guide plate 15, the other end of the L-shaped rod 20 is fixedly connected with the outer surface of a support ring 21, a movable ring 22 is sleeved on the outer surface of the receiving hopper 17, an annular movable block 23 is fixedly connected to the lower surface of the movable ring 22, the movable block 23 is in an inverted T shape, a groove 24 matched with the movable block 23 is formed in the upper surface of the support ring 21, the groove 24 is in an inverted T shape, the movable block 23 slides in the groove 24, an adjusting bolt 25 is mounted on the support ring 21, a plurality of threaded holes 26 are formed in the movable ring 22 corresponding to the positions of the adjusting bolts 25, the movable ring 22 is used as a circle center, the circular ring is circumferentially distributed with a plurality of threaded holes 26, the adjusting bolt 25 is in one of the threaded holes 26, when at least two sieving units 5 are mounted on the vibration frame 2, the materials in the sieve plates 6 in each sieving unit 5 flow into the corresponding material receiving hopper 17 through the material guide plate 15 respectively and are discharged through the material discharging pipes 18, the positions of the material receiving hoppers 17 corresponding to the material discharging pipes 18 are adjusted, and the material discharging pipes 18 corresponding to the sieving units 5 are prevented from being on the same vertical line, so that the materials in the sieve plates 6 of the sieving units 5 above the vibrating rack 2 and the materials in the sieve plates 6 of the sieving units 5 below are prevented from being mixed in a staggered mode;

two 14 of discharge unit, two 14 of discharge unit set up in one side of collecting plate 7 for the discharging of collecting plate 7, two 14 of discharge unit are collecting plate 7 one side through the crooked arc ejection of compact portion 19 that forms of downward sloping, and the material in the collecting plate 7 can assemble arc ejection of compact portion 19, is convenient for discharge in the collecting plate 7.

When the collecting plates 7 are provided with two or more than two, the two or more than two discharging units 14 are sequentially distributed in the circumferential direction of the collecting plates 7, the arc-shaped discharging parts 19 of the collecting plates 7 are staggered, and the materials are prevented from being mixed in a staggered manner when the collecting plates 7 are discharged.

When the sieve plate 6 is provided with two or more than two, the discharge ends of the two or more than two discharge pipes 18 are distributed in the width direction of the sieve plate 6 in sequence, the discharge ends of the discharge pipes 18 are staggered, and the materials in the discharge pipes 18 are prevented from being mixed in a staggered mode.

The above is only the preferred embodiment of the present invention, not limiting the scope of the present invention, all of which are under the concept of the present invention, the equivalent structure transformation made by the contents of the specification and the drawings is utilized, or the direct/indirect application in other related technical fields is included in the patent protection scope of the present invention.

Claims (9)

1. A probiotic solid beverage dispenser, comprising:

a base;

the vibration frame is supported on the base through a spring;

the vibration motor is arranged on the vibration frame;

the screening unit, the screening unit passes through coupling assembling detachable and installs on the vibration frame, just the vibration frame has set gradually the multiunit along the direction of height, the screening unit includes sieve and collecting board, the collecting board is located the below of sieve.

2. The probiotic solid beverage dispenser of claim 1, wherein the connecting assembly includes:

the supporting plate is fixed on the vibration frame;

the limiting grooves are formed in the supporting plates, and the two sides of the sieve plate and the two sides of the collecting plate are inserted into the corresponding limiting grooves in the supporting plates;

the bolt is in threaded connection with the supporting plate, and the threaded end of the bolt enters the corresponding limiting groove to fix the corresponding sieve plate or collecting plate.

3. The probiotic solid beverage distributor according to claim 2, wherein the number of the limiting grooves on the supporting plate is one, corresponding to the same screening unit, and the supporting plate supports the screening plate and the collecting plate inside the same side.

4. The probiotic solid beverage distributor according to claim 2, characterized in that the number of the limiting grooves on the supporting plate is two, corresponding to the same screening unit, and the screening plate and the collecting plate inside the same supporting plate are supported on the same side.

5. The probiotic solid beverage dispenser of any one of claims 1-4, further comprising:

the discharging device comprises a first discharging unit and a second discharging unit;

the first discharging unit is arranged at the discharging end of the sieve plate and used for discharging the sieve plate;

and the second discharging unit is arranged on one side of the collecting plate and used for discharging the collecting plate.

6. The probiotic solid beverage dispenser of claim 5, wherein the first discharge unit comprises:

the guide plate is connected to the discharge end of the sieve plate and is provided with a discharge hole;

the receiving hopper is positioned right below the discharge port and is connected to the material guide plate in a rotating manner;

the discharging pipe, the one end of discharging pipe is connected connect the export of hopper, just the discharging pipe is the slope setting.

7. The probiotic solid beverage distributor according to claim 5, wherein the second discharging unit is an arc-shaped discharging part formed by bending one side of the collecting plate downwards.

8. The probiotic solid beverage distributor according to claim 7, characterized in that when two or more than two collecting plates are provided, two or more than two discharging units are sequentially distributed in the circumferential direction of the collecting plates.

9. The probiotic solid beverage distributor according to claim 7, wherein when two or more sieve plates are provided, the discharge ends of two or more discharge pipes are sequentially distributed in the width direction of the sieve plate.

Images