CN218688648U - Shrimp paste raw material mixing low-temperature stirring beater - Google Patents

Abstract

The application relates to a shrimp paste raw material mixing low-temperature stirring beater, which comprises a tank body and a stirring shaft arranged in the tank body, wherein the tank body comprises an inner tank and an outer tank, and a gap is formed between the inner tank and the outer tank; a water inlet is arranged on the stirring shaft, and a water outlet is arranged on the outer tank; the tank bottom of inner tank is opened has the limbers, the (mixing) shaft is coaxial to rotate and inlays in the limbers, just rotation seal between the periphery of (mixing) shaft and the inner periphery of limbers. And cooling water is continuously injected into the water inlet hole, and when the cooling water flows out of the water outlet, raw materials are added into the feed inlet. The raw materials contact with the stirring paddle and are stirred into slurry under the action of the stirring paddle. In the stirring process, the raw materials exchange heat with the continuously flowing cooling water through the inner tank and the stirring shaft to maintain low temperature. The application has the effect of controlling the temperature of the raw materials so as to reduce the probability of the raw materials going bad.

Description

Shrimp paste raw material mixing low-temperature stirring beating machine

Technical Field

The utility model belongs to the technical field of the shrimp paste production technique and specifically relates to a shrimp paste raw materials mixes stirring beating machine is related to.

Background

In the production process of the shrimp paste, firstly, the shrimp meat and the shrimp shell are separated, then the separated shrimp meat and other raw materials are put into a mixing and stirring beater to be beaten to form meat pulp, and then the next processing is carried out. However, in the conventional mixing beater, when beating the raw material, the machine is operated, which tends to cause a temperature rise of the raw material, and in the food processing, the temperature rise tends to deteriorate the raw material.

SUMMERY OF THE UTILITY MODEL

In order to control raw materials temperature in order to reduce the probability that the raw materials takes place to deteriorate, this application provides a shrimp paste raw materials mixes low temperature stirring beating machine.

The application provides a mixed low temperature stirring beating machine of shrimp paste raw materials adopts following technical scheme:

a shrimp paste raw material mixing low-temperature stirring beater comprises a tank body and a stirring shaft arranged in the tank body; the tank body comprises an inner tank and an outer tank, and a gap is formed between the inner tank and the outer tank to form a cooling cavity; the stirring shaft is provided with a water inlet hole, and the water inlet hole penetrates through the stirring shaft along the axial direction of the stirring shaft; the outer tank is provided with a water outlet; the tank bottom of inner tank is equipped with the limbers, just delivery port and limbers all communicate the cooling chamber, the coaxial rotation of (mixing) shaft inlays in the limbers, just it is sealed to rotate between the periphery of (mixing) shaft and the inner periphery of limbers.

By adopting the technical scheme, when the stirring machine runs, cooling water enters from the water inlet hole and reaches the limber hole after passing through the whole stirring shaft. After passing through the limber hole, the cooling water enters the gap between the inner tank and the outer tank, and does not flow into the inner tank to pollute the raw materials. And when the liquid level of the cooling water reaches the water outlet, the cooling water flows out from the water outlet. The temperature of the stirred raw material is lowered by the flow of the cooling water.

Preferably, the tank bottoms department fixedly connected with location stick of outer jar, the limbers and inlet opening are passed in proper order to the location stick, the inner periphery of sliding fit inlet opening in the periphery of location stick, the periphery of location stick is equipped with the intercommunication groove, the intercommunication groove runs through the location stick along the axial of location stick.

By adopting the technical scheme, the limber hole and the water inlet hole are two holes which are opposite in position and communicated, and after cooling water is injected into the water inlet hole, the cooling water injected into the water inlet hole can smoothly enter the cooling cavity between the inner tank and the outer tank through the communicating groove. The positioning rod is fixedly connected with the outer tank, and the outer periphery of the positioning rod is attached to the inner periphery of the water inlet hole, so that the relative position between the stirring shaft and the outer tank is kept stable; meanwhile, the outer periphery of the stirring shaft and the inner periphery of the water through hole are sealed in a rotating mode, so that the relative position between the inner tank and the stirring shaft is kept stable.

Preferably, a plurality of connecting columns are connected between the bottom of the inner tank and the bottom of the outer tank, and a space exists between every two connecting columns.

Through adopting above-mentioned technical scheme, connect inner tank and outer jar through the spliced pole, make to have the clearance between inner tank and the outer jar, and maintain the clearance size unchangeable, when the mixer function, inner tank and outer jar are in the state of stablizing motionless. The gap between the connecting columns is used for the circulation of cooling liquid.

Preferably, the opening of the inner tank and the opening of the outer tank are connected with annular covers.

Through adopting above-mentioned technical scheme, inner tank opening and outer jar opening are connected to the annular lid, maintain the clearance size between the periphery of inner tank and the inner periphery of outer jar unchangeable. The annular cover prevents the coolant from overflowing when the coolant is present in the gap between the inner and outer tanks.

Preferably, the annular lid be equipped with the caulking groove, the caulking groove is used for supplying the embedding of interior and outer jar, the cell wall of caulking groove, the periphery of outer jar and the interior week of inner tank are equipped with the screw thread, annular lid threaded connection is in inner tank and outer jar.

Through adopting above-mentioned technical scheme, under the effect of screw thread, the annular lid can be fixed at the opening of inner tank and the opening part of outer jar, maintains the clearance size and does not change.

Preferably, a sealing ring is arranged on the stirring shaft and is positioned between the periphery of the stirring shaft and the wall of the water through hole.

By adopting the technical scheme, the elastic deformation of the sealing ring is utilized to fill the gap at the joint of the stirring shaft and the water through hole, and cooling water enters the water inlet hole and passes through the water through hole to reach the gap between the inner tank and the outer tank in the process. The sealing ring prevents cooling water from entering the inner tank to pollute raw materials.

Preferably, the tank body further comprises a tank cover, wherein the tank cover is provided with a feed inlet, and the feed inlet penetrates through the tank cover.

Through adopting above-mentioned technical scheme, put into the raw materials to the feed inlet, the raw materials enters into the inner tank from the feed inlet, contacts with (mixing) shaft and the epaxial stirring rake of stirring to under the effect of stirring rake, become required slurry.

Preferably, the beater further comprises a discharge pipe, one end of the discharge pipe is communicated with the inner tank, and the other end of the discharge pipe extends out of the outer tank after penetrating through the cooling cavity.

Through taking out the technical scheme of complaining, the raw materials enters into the inner tank from the feed inlet, contacts with (mixing) shaft and the epaxial stirring rake of stirring, under the effect of stirring rake, becomes required slurry, and the slurry reaches the inner tank bottom, then flows from the discharging pipe.

Preferably, the beater further comprises a motor and a gear set, and a motor shaft of the motor is not coaxial with the stirring shaft. The motor is connected with the stirring shaft through a gear set and transmits power.

Through adopting above-mentioned technical scheme, after putting into the raw materials in the agitator tank, for the motor circular telegram back, the motor operation, the epaxial gear that drives the motor and connect rotates, and the gear train begins to rotate afterwards, then, the gear revolve who is connected with the agitator shaft and drive the (mixing) shaft and rotate to stir. Meanwhile, the gear set is arranged, so that a motor shaft of the motor is not coaxial with the stirring shaft, and the motor avoids the water inlet hole, so that cooling water can be conveniently injected into the water inlet hole.

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

1. the utility model discloses a low temperature mixing beating machine is mixed to shrimp paste raw materials leads to the cooling water to the inlet opening of (mixing) shaft, and the cooling water gets into by the inlet opening, through whole (mixing) shaft after, reachs the limbers, through the limbers after, gets into in the clearance between inner tank and the outer jar, flows from the delivery port at last. The temperature of the stirred raw material is lowered by the flow of the cooling water.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a cross-sectional view of an embodiment of the present application.

Fig. 3 is a partially enlarged view of a point a in fig. 2.

Description of the reference numerals: 1. a motor; 11. a gear set; 2. a tank body; 21. an inner tank; 211. a water through hole; 22. an outer tank; 23. a water outlet; 24. connecting columns; 25. a positioning rod; 26. a communicating groove; 27. an annular cover; 271. caulking grooves; 28. a cooling chamber; 29. a stirring chamber; 3. a feed inlet; 4. a discharge pipe; 5. a can lid; 6. a stirring device; 61. a stirring shaft; 62. a stirring paddle; 63. a seal ring; 64. a water inlet hole; 7. a support frame.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Referring to fig. 1 and 2, the embodiment of the application discloses a shrimp paste raw material mixing low-temperature stirring beater, which comprises a motor 1, a tank body 2, a support frame 7, a stirring shaft 61, a tank cover 5 and a gear set 11.

The bottom of the tank body 2 may be provided with a support frame 7 so as to be placed on the ground.

Referring to fig. 2, the vessel body 2 is provided with a stirring chamber 29, and the opening of the stirring chamber 29 is upward. A can lid 5 is attached to the upper end of the can body 2, and the can lid 5 covers the opening of the agitation chamber 29. The tank cover 5 is provided with a feed inlet 3, the feed inlet 3 penetrates through the tank cover 5, and the feed inlet 3 is communicated with the stirring cavity 29. The circumferential side wall of the tank body 2 is provided with a discharge pipe 4, and the discharge pipe 4 is positioned at one end of the tank body 2 close to the bottom of the tank. The discharge pipe 4 is communicated with the stirring cavity 29.

The stirring shaft 61 is vertically arranged in the stirring cavity 29, and the upper end of the stirring shaft 61 upwards penetrates through the tank cover 5 and then extends out.

The motor 1 is placed on the tank cover 5, and a motor shell of the motor 1 is fixedly connected to the tank cover 5. The motor shaft of the motor 1 is connected with the stirring shaft 61 through a gear set 11.

In one embodiment, the gear set 11 includes a pair of bevel gears engaged with each other, one of which is coaxially connected to the motor shaft of the motor 1 and the other of which is coaxially connected to the outer circumference of the stirring shaft 61. The rotation of the motor shaft drives a bevel gear to rotate, thereby driving the stirring shaft 61 to rotate.

It should be noted that the feed port 3 is located at one side of the stirring shaft 61, and the motor 1 is retracted from the feed port 3; for example, the feed port 3 and the motor 1 are respectively located on both sides of the stirring shaft 61.

Referring to fig. 2, the can body 2 includes an inner can 21 and an outer can 22. The outer diameter of inner tank 21 is less than the inner diameter of outer tank 22, inner tank 21 is embedded in outer tank 22, and the cavity of inner tank 21 is stir chamber 29.

A plurality of connecting columns 24 with the same specification are connected between the lower end of the bottom of the inner tank 21 and the upper end of the bottom of the outer tank 22, so that the bottom of the inner tank 21 is parallel to the bottom of the outer tank 22, and a gap is formed between the bottom of the inner tank 21 and the bottom of the outer tank 22. At the same time, there is a spacing between any two connecting posts 24.

Inner tank 21 opening and outer jar 22 opening detachable are connected with annular lid 27, and annular lid 27 is equipped with annular caulking groove 271, and caulking groove 271 is used for supplying inner tank 21 and outer jar 22 embedding, and caulking groove 271 inner wall is equipped with the screw thread, and outer jar 22 periphery and inner tank 21 are interior also to be equipped with the screw thread, and the screw thread supplies inner tank 21 opening and outer jar 22 opening to be connected with annular lid 27 for there is the gap in the periphery of inner tank 21 and the interior week of outer jar 22.

The clearance between the bottom of the inner tank 21 and the bottom of the outer tank 22 and the clearance between the outer periphery of the inner tank 21 and the inner periphery of the outer tank 22 together constitute a cooling chamber 28.

Meanwhile, one end of the discharge pipe 4 is communicated with the stirring cavity 29, and the other end of the discharge pipe 4 passes through the cooling cavity 28 and then extends out of the outer tank 22.

Referring to fig. 2 and 3, the stirring shaft 61 is coaxially provided with a water inlet hole 64, and the water inlet hole 64 penetrates through the stirring shaft 61 in the axial direction of the stirring shaft 61. The tank bottom of the inner tank 21 is provided with a water through hole 211, and the water through hole 211 is communicated with the cooling cavity 28. The stirring shaft 61 is coaxially and rotatably embedded in the water through hole 211, a sealing ring 63 is arranged between the outer periphery of the stirring shaft 61 and the inner periphery of the water through hole 211, and the sealing ring 63 realizes the rotary sealing between the outer periphery of the stirring shaft 61 and the inner periphery of the water through hole 211. After entering from the inlet hole 64, the cooling water passes through the water passage hole 211 and reaches the cooling chamber 28.

The upper end of the bottom of the outer tank 22 is fixedly connected with a positioning rod 25. The positioning rod 25 passes through the water through hole 211 and extends into the water inlet hole 64, and the outer periphery of the positioning rod 25 is in sliding fit with the inner periphery of the water inlet hole 64. The positioning rod 25 is provided with a communication groove 26 on the outer periphery thereof, and the communication groove 26 penetrates both ends of the positioning rod 25 in the axial direction of the positioning rod 25. The communication groove 26 allows cooling water to pass through the water inlet hole 64. The wall of the outer tank 22 is provided with a water outlet 23 so that the cooling water in the cooling chamber 28 can be discharged. When the beater runs, the cooling water exchanges heat with the tank body 2 and the stirring shaft 61, and the tank body 2 and the stirring shaft 61 exchange heat with the raw materials, so that the temperature of the raw materials is reduced.

Referring to fig. 2, the stirring shaft 61 is further connected with stirring paddles 62, and nine stirring paddles 62 are divided into three groups, and fixedly mounted on the periphery of the stirring shaft 61 in sequence from top to bottom. When the stirring shaft 61 rotates, the stirring paddles 62 are driven to rotate to stir the raw materials, and the three groups of stirring paddles 62 are arranged to stir the raw materials more fully.

The embodiment of this application embodiment a shrimp paste raw materials mixes low temperature stirring beating machine's implementation principle does: and cooling water is continuously injected into the water inlet hole, and when the cooling water flows out from the water outlet 23, raw materials are added into the feed inlet 3. The raw material contacts the stirring paddle 62 and is stirred into slurry under the action of the stirring paddle 62. During the stirring process, the raw materials continuously exchange heat with the continuously flowing cooling water through the inner tank 21 and the stirring shaft 61, and the low temperature is maintained.

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 (9)

1. The utility model provides a shrimp paste raw materials mixes low temperature stirring beating machine which characterized in that: comprises a tank body (2) and a stirring shaft (61) arranged in the tank body (2); the tank body (2) comprises an inner tank (21) and an outer tank (22), and a gap is formed between the inner tank (21) and the outer tank (22) to form a cooling cavity (28); the stirring shaft (61) is provided with a water inlet hole (64), and the water inlet hole (64) penetrates through the stirring shaft (61) along the axial direction of the stirring shaft (61); the outer tank (22) is provided with a water outlet (23); the tank bottom of inner tank (21) is equipped with limbers (211), just delivery port (23) and limbers (211) all communicate cooling chamber (28), coaxial rotation of (mixing) shaft (61) is inlayed in limbers (211), just rotation seal between the periphery of (mixing) shaft (61) and the interior periphery of limbers (211).

2. The shrimp paste raw material mixing low-temperature stirring beater of claim 1, wherein: tank bottoms fixedly connected with location stick (25) of outer jar (22), limbers (211) and inlet opening (64) are passed in proper order in location stick (25), the inner periphery of laminating inlet opening (64) is slided to the periphery of location stick (25), the periphery of location stick (25) is equipped with intercommunication groove (26), location stick (25) are run through along the axial of location stick (25) in intercommunication groove (26).

3. The shrimp paste raw material mixing low-temperature stirring beater of claim 1, characterized in that: a plurality of connecting columns (24) are connected between the bottom of the inner tank (21) and the bottom of the outer tank (22), and a space exists between every two connecting columns (24).

4. The shrimp paste raw material mixing low-temperature stirring beater of claim 1, wherein: the opening of the inner tank (21) and the opening of the outer tank (22) are connected with an annular cover (27).

5. The shrimp paste raw material mixing low-temperature stirring beater of claim 4, characterized in that: annular lid (27) be equipped with caulking groove (271), caulking groove (271) are used for supplying inner tank (21) and outer jar (22) embedding, the cell wall of caulking groove (271), the periphery of outer jar (22) and the interior week of inner tank (21) are equipped with the screw thread, annular lid (27) threaded connection is in inner tank (21) and outer jar (22).

6. The shrimp paste raw material mixing low-temperature stirring beater of claim 1, characterized in that: and a sealing ring (63) is arranged on the stirring shaft (61), and the sealing ring (63) is positioned between the periphery of the stirring shaft (61) and the wall of the water through hole (211).

7. The shrimp paste raw material mixing low-temperature stirring beater of claim 1, characterized in that: the tank body (2) further comprises a tank cover (5), the tank cover (5) is provided with a feed port (3), and the feed port (3) penetrates through the tank cover (5).

8. The shrimp paste raw material mixing low-temperature stirring beater of claim 1, wherein: still include discharging pipe (4), the one end of discharging pipe (4) communicates in inner tank (21), the other end of discharging pipe (4) stretches out outer jar (22) after passing cooling chamber (28).

9. The shrimp paste raw material mixing low-temperature stirring beater of claim 1, wherein: the beating machine further comprises a motor (1) and a gear set (11), a motor shaft of the motor (1) is not coaxial with the stirring shaft (61), and the motor (1) is connected with the stirring shaft (61) through the gear set (11) and transmits power.

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