CN214416103U - Raw material mixer is used in bean vermicelli production - Google Patents

Abstract

The utility model relates to a raw material mixing machine is used in bean vermicelli production belongs to the agitated vessel field, and it includes the teeter chamber, sets up at the feed inlet of teeter chamber up end and sets firmly the inlet tube on the teeter chamber lateral wall, the teeter chamber up end has set firmly the support frame, set firmly the spray pipe that is located directly over the feed inlet on the support frame, the spray pipe includes the shower and sets firmly the atomizing pipe in the shower tip, the shower has set firmly the shower nozzle towards one side of teeter chamber. This application has the effect that prevents that the powder from wafting influence operational environment in the air.

Description

Raw material mixer is used in bean vermicelli production

Technical Field

The application relates to the field of stirring equipment, in particular to a raw material stirring machine for producing vermicelli.

Background

At present, vermicelli is produced by using Hongsha, pea or mung bean starch as raw materials, and one of the methods adopted for producing the vermicelli is a vermicelli leakage method. Before powder leakage, the powder needs to be poured into a stirring chamber and fully mixed with water to form an arc shape, and the stirrer is a device for stirring the powder.

In the related art, reference is made to a utility model patent with an authorization publication number of CN208972573U, which discloses a vermicelli machine, comprising a feeding hopper, a processing part, a heating part, a vermicelli forming part and a frame, wherein a motor of the processing part is arranged at one end of a processing chamber, a rotating shaft is arranged in the processing chamber, one end of the rotating shaft is connected with the motor, the rotating shaft is divided into three equal parts, wherein, the left and right equal parts are provided with helical blades, and the middle equal part is provided with a front blade and a reverse blade; the heating chamber of the heating part is arranged on the periphery of the processing chamber, a water inlet and a thermometer are arranged at the upper part of the heating chamber, a water outlet is arranged at the lower part of the heating chamber, and the electric heating tube is arranged in the heating chamber.

In view of the above-mentioned related technologies, the applicant found that when powder is poured into the processing chamber through the feeding hopper, a part of the powder will float upwards and float in the surrounding environment, and at this time, the part of the powder is easily sucked into the nose by a worker, which affects the physical and mental health of the worker.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the dust in the mixer use easily floats, this application provides a raw materials mixer for bean vermicelli production.

The application provides a raw material mixing machine for vermicelli production adopts following technical scheme:

the utility model provides a raw material mixer is used in bean vermicelli production, includes the teeter chamber, sets up the feed inlet at the teeter chamber up end and sets firmly the inlet tube on the teeter chamber lateral wall, the teeter chamber up end has set firmly the support frame, set firmly the spray pipe that is located directly over the feed inlet on the support frame, the spray pipe includes the shower and sets firmly the atomizing pipe at the shower tip, the shower has set firmly the shower nozzle towards one side of teeter chamber.

By adopting the technical scheme, when the powder stirring device is used, powder is firstly poured into the stirring chamber through the feeding hole, and meanwhile, clear water is added into the stirring chamber through the water inlet pipe. And then spray water is added into the water inlet pipe, the spray water firstly enters the atomizing pipe and is atomized into water vapor, and the atomized water vapor continuously moves into the spraying pipe and is finally sprayed out downwards through the spray head. When the powder material floats upwards, the powder material can quickly absorb moisture and settle under the action of water vapor, so that the powder material is prevented from continuously floating to the surrounding environment.

Optionally, the shower nozzle is round platform form, the less one end of shower nozzle bore and shower fixed connection, the thin pole has set firmly in the shower nozzle, thin pole tip rotates and is connected with the disc, set firmly the helical blade that the slope set up on the disc.

By adopting the technical scheme, the spray range of water vapor can be enlarged by the circular truncated cone-shaped spray head. After steam entered into the shower nozzle, can promote the carousel and rotate, and then make steam outwards move out along helical blade's inclined plane, make steam can contact with more dust.

Optionally, at least two spray pipes are arranged in parallel, and the spray heads on the two spray pipes are arranged in a staggered manner.

Through adopting above-mentioned technical scheme, set up the shower nozzle crisscross, also played the technological effect that increases the scope of spraying.

Optionally, the (mixing) shaft that the level set up is connected in the agitator chamber rotates, the (mixing) shaft includes interior axle and rotates the cover and establish epaxial outer axle in interior, interior axle stretches out outer axle and tip cover and is equipped with first bevel gear, the epaxial cover of outer is equipped with second bevel gear, the common meshing has third bevel gear between first bevel gear and the second bevel gear.

Through adopting above-mentioned technical scheme, third bevel gear rotates, drives first bevel gear and second bevel gear through the meshing and rotates to opposite direction, makes interior axle and outer axle antiport, can stir the powder in two different directions, has increased stirring effect.

Optionally, a first stirring blade is fixedly arranged on the outer shaft, a second stirring blade is fixedly arranged on the inner shaft, the first stirring blade and the second stirring blade are spirally arranged, and the spiral directions of the first stirring blade and the second stirring blade are opposite.

Through adopting above-mentioned technical scheme, first stirring leaf and second stirring leaf rotate, can promote the powder forward or backward simultaneously for the powder reaches the state of disorder in transportation process, guarantees the powder intensive mixing.

Optionally, a first stirring tooth is fixedly arranged at a position, located in a gap, of the first stirring blade on the outer shaft, a second stirring tooth is fixedly arranged at a position, located in a gap, of the second stirring blade on the inner shaft, and the first stirring tooth and the second stirring tooth are perpendicular to the axial direction of the stirring shaft.

Through adopting above-mentioned technical scheme, when the (mixing) shaft rotated, first stirring tooth and second stirring tooth can be in footpath and break up the material, make powder and water intensive mixing, improve stirring effect.

Optionally, the side surfaces of the first stirring tooth and the second stirring tooth are provided with through holes in a penetrating mode.

Through adopting above-mentioned technical scheme, first stirring tooth and second stirring tooth are when stirring the powder, and partial powder can pass the through-hole, have correspondingly reduced the resistance that first stirring tooth and second stirring tooth received, have prolonged life.

Optionally, a heating cavity is formed in the outer wall of the stirring chamber, and a heating coil is fixedly arranged in the heating cavity.

Through adopting above-mentioned technical scheme, heating coil heats powder and water in the teeter chamber, can accelerate the mixed effect between powder and the water to a certain extent.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the powder stirring device is used, powder is firstly poured into the stirring chamber through the feed hopper, and meanwhile, clear water is added into the stirring chamber through the water inlet pipe. And then spray water is added into the water inlet pipe, the spray water firstly enters the atomizing pipe and is atomized into water vapor, and the atomized water vapor continuously moves into the spraying pipe and is finally sprayed out downwards through the spray head. When the powder material floats upwards, the powder material can quickly absorb moisture and settle under the action of water vapor, so that the powder material is prevented from continuously floating to the surrounding environment;

2. the circular truncated cone-shaped spray head can enlarge the spray range of water vapor. When water vapor enters the spray head, the rotary disc is pushed to rotate, and the water vapor moves outwards along the inclined surface of the spiral blade, so that the water vapor can be contacted with more dust;

3. the third bevel gear rotates, the first bevel gear and the second bevel gear are driven to rotate in opposite directions through meshing, the inner shaft and the outer shaft rotate in opposite directions, powder can be stirred in two different directions, and the stirring effect is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of a raw material mixer for producing vermicelli in the embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of a blender according to an embodiment of the present application;

FIG. 3 is a schematic view showing the structure of a stirring shaft in the embodiment of the present application;

FIG. 4 is a schematic structural diagram of a highlighted showerhead in an embodiment of the present application.

Description of reference numerals: 1. a stirring chamber; 11. a feed inlet; 12. a heating cavity; 2. a discharge pipe; 3. a water inlet pipe; 4. a water tank; 5. a stirring shaft; 51. an inner shaft; 52. an outer shaft; 6. a heating coil; 7. a first stirring blade; 8. a second stirring blade; 9. a first bevel gear; 10. a second bevel gear; 13. a third bevel gear; 14. a stirring motor; 15. a first stirring tooth; 16. a second stirring tooth; 161. a through hole; 17. a support frame; 18. a water spray pipe; 181. an atomizing tube; 182. a shower pipe; 19. a water outlet pipe; 20. a spray head; 21. a thin rod; 22. a disc; 23. a helical blade.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a raw material stirring machine for vermicelli production. Referring to fig. 1, a raw material stirring machine for producing vermicelli comprises a rectangular stirring chamber 1, wherein a stirring cavity is arranged in the stirring chamber 1. The stirring chamber 1 is open at the upper end, and the opening is provided as a feed port 11. The lower extreme of teeter chamber 1 sets firmly discharging pipe 2 and sets firmly on the lateral wall inlet tube 3, and inlet tube 3 level extends, and 3 tip of inlet tube pass 1 lateral wall of teeter chamber and with the intracavity portion intercommunication of teeter chamber. One end of the water inlet pipe 3 far away from the stirring chamber 1 is fixedly provided with a water tank 4.

Referring to fig. 1 and 2, a stirring shaft 5 for stirring the powder is rotatably connected to the stirring chamber 1. The powder is poured into the stirring chamber 1 through the feeding hole 11, simultaneously, water in the water tank 4 is added into the stirring chamber 1 through the water inlet pipe 3, and the powder and the water are fully mixed by the rotation of the stirring shaft 5, so that the raw material of the vermicelli is stirred.

Referring to fig. 2, a heating cavity 12 is formed in the side wall of the stirring chamber 1, and a heating coil 6 for providing heat is fixedly arranged in the heating cavity 12. When the temperature in the stirring cavity rises, the mixing effect between the powder and the water can be improved.

Referring to fig. 2 and 3, the stirring shaft 5 includes an inner shaft 51 and an outer shaft 52 rotatably sleeved on the inner shaft 51, and the inner shaft 51 and the outer shaft 52 are both horizontally arranged and extend along the length direction of the stirring chamber 1. The length of the inner shaft 51 is larger than that of the outer shaft 52, and both ends of the inner shaft 51 extend out of the outer shaft 52, and one end of the inner shaft 51 far away from the outer shaft 52 is rotatably connected to the side wall of the stirring chamber 1. The outer shaft 52 is fixedly provided with a first stirring blade 7, and the first stirring blade 7 is spirally arranged along the axial direction of the outer shaft 52. The inner shaft 51 is fixedly provided with a second stirring blade 8, the second stirring blade 8 is spirally arranged along the axial direction of the inner shaft 51, and the spiral directions of the first stirring blade 7 and the second stirring blade 8 are opposite.

Referring to fig. 2 and 3, both the inner shaft 51 and the outer shaft 52 extend out of the side wall of the stirring chamber 1 at one end close to the water tank 4, a first bevel gear 9 is fixedly arranged on the inner shaft 51, a second bevel gear 10 is fixedly arranged on the outer shaft 52 between the first bevel gear 9 and the side wall of the stirring chamber 1, the first bevel gear 9 and the second bevel gear 10 are arranged oppositely, and a third bevel gear 13 is meshed between the first bevel gear 9 and the second bevel gear 10. And a stirring motor 14 coaxially fixed with the third bevel gear 13 is fixedly arranged on the side wall of the stirring chamber 1.

Referring to fig. 2 and 3, the stirring motor 14 drives the third bevel gear 13 to rotate, and the first bevel gear 9 and the second bevel gear 10 are driven to rotate by meshing action, so that the inner shaft 51 and the outer shaft 52 rotate in opposite directions. When rotating, the first stirring blade 7 and the second stirring blade 8 can simultaneously push the materials to two ends or the middle position of the stirring chamber 1, so that the powder material reaches a disordered state in the movement process, and the stirring effect on the powder material is improved.

Referring to fig. 3, in order to further improve the stirring effect, a first stirring tooth 15 is vertically and fixedly arranged on the outer shaft 52 at the gap of the first stirring blade 7, and the length of the first stirring tooth 15 is greater than the width of the first stirring blade 7. And a second stirring tooth 16 is vertically and fixedly arranged on the inner shaft 51 at the gap of the second stirring blade 8, and the length of the second stirring tooth 16 is greater than the width of the second stirring blade 8. When the stirring shaft 5 rotates, the first stirring teeth 15 and the second stirring teeth 16 can scatter the powder in the radial direction, so that the powder is prevented from being in a relatively static state.

Referring to fig. 3, the through holes 161 penetrating the surfaces of the first stirring tooth 15 and the second stirring tooth 16 are formed in the first stirring tooth 15 and the second stirring tooth 16, and during stirring, part of powder can pass through the through holes 161, so that the resistance action on the first stirring tooth 15 and the second stirring tooth 16 is correspondingly reduced, and the service lives of the first stirring tooth and the second stirring tooth are prolonged.

Referring to fig. 1, when powder is poured into the feeding hole 11, a part of the powder will float upwards, and in order to avoid affecting the surrounding environment, a support frame 17 is fixedly arranged on the upper end surface of the stirring chamber 1, and the two support frames 17 are respectively arranged at two ends of the stirring chamber 1. A horizontally arranged spray pipe 18 is fixedly arranged between the two support frames 17, and the spray pipe 18 is arranged right above the feed port 11. The spray pipe 18 includes an atomizing pipe 181 and a spray pipe 182 fixedly connected to the atomizing pipe 181.

Referring to fig. 1, one end of the atomizing pipe 181 is fixedly provided with a water outlet pipe 19, and the end of the water outlet pipe 19 is inserted into the water tank 4. A plurality of nozzles 20 facing the feed inlet 11 are fixedly arranged on the spray pipe 182 at equal intervals along the axial direction thereof.

Referring to fig. 1, after entering the atomizing pipe 181 through the water outlet pipe 19, the water in the water tank 4 is atomized into water vapor, and then is ejected outwards through the spray head 20. When the powder drifts upward, the powder mixes with the water vapor ejected from the nozzle 20, so that the powder absorbs water to settle, and the powder is prevented from drifting to the surrounding environment.

Referring to fig. 1, in order to improve the spraying effect, two spray pipes 18 are fixedly arranged in parallel, and the end parts of two atomization pipes 181 are communicated with each other and converged to form a water outlet pipe 19. The spray heads 20 on the two spray pipes 182 are arranged in a staggered way.

Referring to fig. 4, the nozzle 20 is in the shape of a circular truncated cone, and one end of the nozzle 20 with a smaller diameter is fixedly connected to the shower pipe 182. A thin rod 21 is fixedly arranged in the spray head 20, a disk 22 is rotatably connected to the middle of the thin rod 21, and a plurality of obliquely arranged helical blades 23 are fixedly arranged at equal intervals on the outer edge of the disk 22. The water vapor enters the spray head 20 and pushes the disc 22, and the disc 22 generates centrifugal force when rotating, so that the water vapor is sprayed outwards along the inclined surface of the helical blade 23 and can be contacted with more dust.

The implementation principle of the raw material stirring machine for producing the vermicelli in the embodiment of the application is as follows: first, the water in the water tank 4 enters the atomizing pipe 181 to be atomized, and is then ejected from the head 20. Then, the powder is poured into the stirring chamber 1 through the feeding hole 11, and simultaneously, the water outlet pipe 19 adds clean water into the stirring chamber 1. Finally, the stirring motor 14 drives the inner shaft 51 and the outer shaft 52 to rotate, so as to stir the powder. And after the stirring is finished, the material in the stirring chamber 1 is poured out through the discharge pipe 2.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a raw material mixer is used in bean vermicelli production, includes teeter chamber (1), sets up feed inlet (11) at teeter chamber (1) up end and sets firmly inlet tube (3) on teeter chamber (1) lateral wall, its characterized in that: the stirring chamber is characterized in that a support frame (17) is fixedly arranged on the upper end face of the stirring chamber (1), a water spray pipe (18) located right above the feeding hole (11) is fixedly arranged on the support frame (17), the water spray pipe (18) comprises a spray pipe (182) and an atomization pipe (181) fixedly arranged at the end part of the spray pipe (182), and a spray head (20) is fixedly arranged on one side, facing the stirring chamber (1), of the spray pipe (182).

2. The raw material mixer for producing vermicelli according to claim 1, wherein: shower nozzle (20) are the round platform form, the less one end of shower nozzle (20) bore and shower (182) fixed connection, thin pole (21) have set firmly in shower nozzle (20), thin pole (21) tip rotates and is connected with disc (22), helical blade (23) that the slope set up have set firmly on disc (22).

3. The raw material mixer for producing vermicelli according to claim 2, wherein: at least two spray pipes (182) are arranged in parallel, and the spray heads (20) on the two spray pipes (182) are arranged in a staggered manner.

4. The raw material mixer for producing vermicelli according to claim 1, wherein: stirring chamber (1) internal rotation is connected with (mixing) shaft (5) that the level set up, outer axle (52) on interior axle (51) are established including interior axle (51) and rotation cover to (mixing) shaft (5), interior axle (51) stretch out outer axle (52) and the tip cover is equipped with first bevel gear (9), the cover is equipped with second bevel gear (10) on outer axle (52), it has third bevel gear (13) to mesh jointly between first bevel gear (9) and second bevel gear (10).

5. The raw material mixer for producing vermicelli according to claim 4, wherein: the outer shaft (52) is fixedly provided with a first stirring blade (7), the inner shaft (51) is fixedly provided with a second stirring blade (8), and the first stirring blade (7) and the second stirring blade (8) are spirally arranged and are opposite in spiral direction.

6. The raw material mixer for producing vermicelli according to claim 5, wherein: the outer shaft (52) is provided with a first stirring tooth (15) at the position of a gap between the first stirring blades (7), the inner shaft (51) is provided with a second stirring tooth (16) at the position of a gap between the second stirring blades (8), and the first stirring tooth (15) and the second stirring tooth (16) are both vertical to the axial direction of the stirring shaft (5).

7. The raw material mixer for producing vermicelli according to claim 6, wherein: and through holes (161) are formed in the side surfaces of the first stirring teeth (15) and the second stirring teeth (16) in a penetrating mode.

8. The raw material mixer for producing vermicelli according to claim 1, wherein: heating chamber (12) have been seted up in teeter chamber (1) outer wall, heating coil (6) have set firmly in heating chamber (12).

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