CN212087921U - Take ball-milling function's heat preservation jar for food production - Google Patents

Abstract

The utility model discloses a take heat preservation jar for food production of ball-milling function, include the vertical cylinder body of arranging that supports and have the heat preservation water intermediate layer by the support, the cylinder body top is equipped with the feed inlet and uncaps, its characterized in that still includes ball-milling rabbling mechanism, this mechanism is including the supporting beam who locates the cylinder body top, fix agitator motor on it, link to each other with agitator motor output shaft and stretch into the (mixing) shaft in the cylinder body, a plurality of horizontal ball-milling stirring rod that sets up along the (mixing) shaft longitudinal separation and locate a plurality of steel balls in the cylinder body, still including fixing the rotation supporting seat of bottom in the cylinder body, the bottom cover of (mixing) shaft is established in bearing or axle sleeve rotate the supporting seat in order to pack into, and cylinder body lower part side is equipped with the discharge gate. The utility model discloses can directly carry out efficient ball-milling stirring operation when implementing heat preservation to chocolate thick liquids can drop into follow-up application with better state faster.

Description

Take ball-milling function's heat preservation jar for food production

Technical Field

The utility model relates to a take heat preservation jar for food production of ball-milling function.

Background

The chocolate mass produced in the known chocolate production process usually needs to be transferred to a heat preservation cylinder for heating and heat preservation before the next molding or dripping process, and the heat preservation process needs to ensure that sugar cannot be separated out and crystallized quickly, grease cannot be separated and the like so as to avoid influencing the appearance and the texture of the subsequent chocolate product.

However, even if the chocolate paste is placed in the heat preservation tank for a long time, the internal components of the chocolate paste still cannot be precipitated and coagulated, and the processing quality of subsequent products is influenced. It is common practice in the industry to grind chocolate mass in a holding tank by external grinding equipment (e.g., ball mill mechanism) before use, but this process has the following disadvantages:

1) chocolate slurry is easy to adhere to the wall of the retained pipe, so that raw materials are wasted;

2) a connecting pipeline is needed to lead out the chocolate slurry, the preparation time is long in the early stage, and the production efficiency is influenced; especially for a part of raw materials for experimental properties of food, the residence time of the raw materials in the heat preservation cylinder is short, the use frequency is high, and if the raw materials are externally connected with a fine grinding device, the use efficiency is greatly influenced.

Therefore, a heat preservation cylinder with a stirring mechanism is provided in the industry, and the chocolate slurry in the heat preservation cylinder can be directly stirred, so that the slurry can be ensured to be put into use more quickly. At present, the core structure of the insulation cylinder on the market is generally provided with a rotating shaft which is driven by an external driving device and extends into the cylinder body from the top of the cylinder body and is suspended, a stirring blade is arranged on the rotating shaft, and the rotating shaft drives the stirring blade to rotate under the driving of the driving device to stir chocolate slurry. Although the added stirring mechanism plays a certain role in stirring the chocolate paste, the stirring effect of the stirring mechanism cannot be compared with that of an external fine grinding device.

Certainly, the industry also has the assumption and experiments that the steel balls are placed in the heat preservation cylinder with the stirring mechanism to introduce a ball milling system, but as is known to all, the weight of the steel balls is larger, the torque acted on the stirring blades together with the original slurry in the stirring process is also very large, and the bottom of a rotating shaft of the existing equipment is not stably supported, so the steel balls are easy to break after running for a period of time, and the steel balls cannot be effectively stirred, so the prior art still has no mature design for the steel balls.

Disclosure of Invention

The utility model discloses the purpose is: the utility model provides a take heat preservation jar for food production of ball-milling function, it can directly carry out efficient ball-milling stirring operation when implementing heat preservation to chocolate thick liquids can put into follow-up application with better state sooner.

The technical scheme of the utility model is that: the utility model provides a take heat preservation jar for food production of ball-milling function, include the cylinder body that is supported by the support and has the vertical arrangement of heat preservation water intermediate layer, the cylinder body top is equipped with the feed inlet and uncaps, its characterized in that still includes ball-milling rabbling mechanism, this mechanism is including the supporting beam who locates the cylinder body top, fix agitator motor on the supporting beam, link to each other with agitator motor output shaft and stretch into the (mixing) shaft in the cylinder body, a plurality of horizontal ball-milling stirring poles that set up along the (mixing) shaft longitudinal separation and locate a plurality of steel balls in the cylinder body, still including fixing the rotation supporting seat in the bottom in the cylinder body, the bottom cover of (mixing) shaft is established in bearing or the axle sleeve rotates the supporting seat in order to pack into, and cylinder body lower.

Further, the utility model discloses in the horizontal ball-milling stirring rod bottom of below be fixed with a plurality of stirring wings, these stirring wings on horizontal with it is relative to rotate the supporting seat.

Furthermore, in the utility model discloses in the interval of stirring wing bottom distance bottom surface in the cylinder body is H, H =2d ~3d, and d is the radius of steel ball.

Further, in the utility model discloses in vertical distance between the horizontal ball-milling stirring rod of upper and lower adjacent is L, L =2d ~4 d.

Further, the utility model discloses have radial contained angle a between the horizontal ball-milling stirring rod of well upper and lower adjacent, this radial contained angle a is 20~ 40.

Further, the utility model discloses well cylinder body inner bottom surface is the inclined plane, and the lower on this inclined plane is equipped with the steel ball discharge port, and is fixed with the closing cap on the steel ball discharge port, simultaneously the discharge gate sets up with this steel ball discharge port homonymy.

Further, the utility model discloses in the cylinder body includes the inner bag and is located inner bag outlying lagging casing, the heat preservation water intermediate layer is located between lagging casing and the inner bag, and lagging casing lower part side is fixed with the temperature probe that stretches into in the heat preservation water intermediate layer and be located the inner bag below, and lagging casing upper portion side is fixed with the liquid level probe that stretches into in the inner bag simultaneously, rotate the bottom in the inner bag of supporting seat fixing.

Further, the utility model discloses in supporting beam fixes in the middle of the cylinder body top, uncap and locate supporting beam's both sides for two difference symmetries, and every uncap and all be equipped with the pull handle.

Further, in the utility model discloses in the cylinder body side is fixed with the water inlet that is located the top and the delivery port that is located the below, is fixed with the inlet tube on the water inlet, is equipped with the water pump on the inlet tube, and is fixed with the outlet pipe on the delivery port, and water inlet and delivery port radially stagger the setting at the cylinder body.

The utility model has the advantages that:

1. the utility model discloses can directly carry out efficient ball-milling stirring operation when implementing heat preservation to chocolate thick liquids can drop into follow-up application with better state faster. The chocolate paste stirring machine is particularly suitable for heat preservation and stirring of chocolate paste for experimental use, can be put into use more efficiently, and is very practical and convenient.

2. The utility model discloses further design has a plurality of stirring wings in horizontal ball-milling stirring rod bottom of below, can strengthen the stirring to the steel ball of bottom in the cylinder body, improves the active nature of steel ball in the cylinder body to strengthen the stirring effect to chocolate thick liquids.

3. The utility model discloses a carry out optimal design to the interval and the radial angle of the horizontal ball-milling stirring rod of (mixing) epaxial to its stirring effect to the steel ball of furthest's reinforcing finally improves the stirring effect of chocolate thick liquids.

4. The utility model discloses well cylinder body is vertical arranging, and we design into the inclined plane with its interior bottom surface to be equipped with the steel ball discharge port in the lower on inclined plane, thereby help better discharge steel ball. Simultaneously discharge gate and steel ball discharge port separately design, and the inboard fixed grid tray that prevents the steel ball and deviate from of discharge gate, avoid arranging the material and discharge and disturb between the steel ball, have more the rationality.

5. The utility model discloses to the improvement of having the heat preservation jar less, keep the structural feature of heat preservation jar basically, easily production manufacturing, its manufacturing cost is lower.

Drawings

The invention will be further described with reference to the following drawings and examples:

FIG. 1 is a front view of the structure of an embodiment of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

fig. 3 is a view from the direction B-B of fig. 1.

Wherein: 1. a support; 2. a cylinder body; 2a, an inner container; 2b, a heat preservation shell; 3. a heat-preservation water interlayer; 4. opening the cover; 4a, pulling a handle; 5. a support beam; 6. a stirring motor; 7. a stirring shaft; 8. a transverse ball milling stirring rod; 9. rotating the supporting seat; 10. a shaft sleeve; 11. a discharge port; 12. a grid plate; 13. a discharge valve; 14. a stirring wing; 15. a steel ball discharge port; 16. sealing the cover; 17. a temperature measuring probe; 18. a liquid level probe; 19. a water inlet; 20. a water outlet; 21. a water inlet pipe; 22. a water pump; 23. and (5) discharging a water pipe.

Detailed Description

Example (b): referring to fig. 1 to 3, the following will be described in detail for the heat preservation cylinder for food production with ball milling function according to the present invention:

like the existing heat preservation cylinder, the cylinder body 2 is supported by a support 1 and is vertically arranged with a heat preservation water interlayer 3, the cylinder body 2 is composed of an inner container 2a with an open top and a heat preservation shell 2b positioned at the periphery of the inner container 2a, and the heat preservation water interlayer 3 is positioned between the heat preservation shell 2b and the inner container 2 a. A temperature measuring probe 17 which extends into the heat preservation water interlayer 3 and is positioned below the inner container 2a is fixed on the side surface of the lower part of the heat preservation shell 2b, and a liquid level probe 18 which extends into the inner container 2a is fixed on the side surface of the upper part of the heat preservation shell 2 b. As shown in fig. 1, a water inlet 19 and a water outlet 20 are fixed on the side of the cylinder 2, a water inlet pipe 21 is fixed on the water inlet 19, a water pump 22 is arranged on the water inlet pipe 21, a water outlet pipe 23 is fixed on the water outlet 20, and the water inlet 19 and the water outlet 20 are arranged in a staggered manner in the radial direction of the cylinder 2.

And the utility model discloses a core improves and has add ball-milling rabbling mechanism for cylinder body 2, combine fig. 2~ fig. 3, this kind of ball-milling rabbling mechanism is by the supporting beam 5 of locating 2 tops of cylinder body, fix agitator motor 6 on supporting beam 5, link to each other and stretch into the (mixing) shaft 7 in the cylinder body 2 with 6 output shafts of agitator motor, 5 horizontal ball-milling stirring rods 8 that set up along the (mixing) shaft 7 longitudinal separation, locate a plurality of steel balls in the cylinder body 2, fix the rotation supporting seat 9 of bottom in the cylinder body 2, overlap in the (mixing) shaft 7 bottom and pack into the axle sleeve 10 in the rotation supporting seat 9 and fix the stirring wing 14 of two symmetries in the horizontal ball-milling stirring rod 8 bottom of below and constitute.

In this embodiment, the supporting beam 5 is fixed in the middle of the top of the cylinder body 2, the open area at the top of the liner 2a of the cylinder body 2 is divided into two parts which are bilaterally symmetrical by the supporting beam 5 and respectively serve as the feed inlets, each feed inlet is provided with a cover 4, and each cover 4 is provided with a pull handle 4a, as shown in fig. 1 and 2.

Still as shown in fig. 2, in this embodiment, the stirring shaft 7 is located at the center of the cylinder 2, an assembly post (not shown) is milled at the bottom center of the stirring shaft 7, the shaft sleeve 10 is sleeved on the assembly post and then placed in the rotating support 9, and the rotating support 9 is also fixed at the bottom center in the inner container 2 a.

As shown in fig. 2, the inner bottom surface of the cylinder 2 in this embodiment is an inclined surface, the lowest part of the inclined surface is provided with a steel ball discharge port 15, a steel ball outlet pipe sequentially penetrating through the bottom walls of the inner container 2a and the heat preservation housing 2b is embedded in the steel ball discharge port 15, and a sealing cover 16 is screwed and fixed to the outer part of the steel ball outlet pipe. Meanwhile, the side surface of the lower part of the cylinder body 2 is provided with a discharge port 11, a discharge outlet pipe which sequentially penetrates through the inner container 2a and the heat preservation shell 2b is also embedded in the discharge port 11, a grid plate 12 for preventing the steel balls from separating out is fixed on the inner wall of the inner container 2a at the inner side of the discharge port 11 in the embodiment, and a discharge valve 13 is arranged at the outer side (on the discharge outlet pipe) of the discharge port 11. In this embodiment, the discharge port 11 is disposed on the same side as the steel ball discharge port 15, so that the chocolate paste flows out along the inclined surface.

Referring to fig. 2 and 3, the transverse ball milling stirring rod 8 in this embodiment is fixedly disposed transversely and vertically through the stirring shaft 7, and the stirring shaft 7 is located at the midpoint of the transverse ball milling stirring rod 8. Wherein, two stirring wings 14 fixed at the bottom of the lowest transverse ball milling stirring rod 8 are bilaterally symmetrical about the stirring shaft 7, and the stirring wings 14 are opposite to the rotary supporting seat 9 in the transverse direction due to downward extension.

In this embodiment, the distance between the bottom of the stirring wing 14 and the inner bottom surface of the cylinder 2 (i.e. the inner bottom surface of the inner container 2 a) is H, and since the inner bottom surface is an inclined surface as described above, H has a minimum value and a maximum value, where H is 2d as the minimum value and 3d as the maximum value, and d is the radius of the steel ball.

Meanwhile, the vertical distance between the upper and lower adjacent transverse ball milling stirring rods 8 is L, and the value range of L is 2 d-4 d. In the embodiment, the vertical distances L between the adjacent transverse ball milling stirring rods 8 are all equal and are all 4 d.

Referring to fig. 3, a radial included angle a is formed between the upper and lower adjacent transverse ball milling stirring rods 8, and the radial included angle a is 20-40 °. In this embodiment, the radial included angles a of the adjacent transverse ball milling stirring rods 8 are all equal and all have a value of 22 °.

The above-mentioned embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, which should not be construed as limiting the scope of the present invention. All modifications made according to the spirit of the main technical scheme of the present invention shall be covered within the protection scope of the present invention.

Claims (9)

1. A heat preservation cylinder with a ball milling function for food production comprises a vertically arranged cylinder body (2) which is supported by a bracket (1) and is provided with a heat preservation water interlayer (3), the top of the cylinder body (2) is provided with a feed inlet and a cover (4), and the heat preservation cylinder is characterized by also comprising a ball milling stirring mechanism, the mechanism comprises a supporting beam (5) arranged at the top of the cylinder body (2), a stirring motor (6) fixed on the supporting beam (5), a stirring shaft (7) connected with an output shaft of the stirring motor (6) and extending into the cylinder body (2), a plurality of transverse ball milling stirring rods (8) arranged at intervals along the longitudinal direction of the stirring shaft (7), a plurality of steel balls arranged in the cylinder body (2), and a rotating support seat (9) fixed at the inner bottom of the cylinder body (2), a bearing or a shaft sleeve (10) is sleeved at the bottom end of the stirring shaft (7) to be arranged in the rotating support seat (9), and, a grid plate (12) for preventing the steel ball from falling off is fixed on the inner side of the discharge port (11), and a discharge valve (13) is arranged on the outer side of the discharge port (11).

2. The heat preservation cylinder with the ball milling function for food production as claimed in claim 1, wherein a plurality of stirring wings (14) are fixed at the bottom of the transverse ball milling stirring rod (8) at the lowest position, and the stirring wings (14) are transversely opposite to the rotary supporting seat (9).

3. The heat preservation cylinder with the ball milling function for food production as claimed in claim 2, wherein the distance between the bottom of the stirring wing (14) and the inner bottom surface of the cylinder body (2) is H, H =2 d-3 d, and d is the radius of the steel ball.

4. The heat preservation cylinder with the ball milling function for food production as claimed in claim 1, wherein the vertical distance between the upper and lower adjacent transverse ball milling stirring rods (8) is L, and L =2 d-4 d.

5. The heat preservation cylinder with the ball milling function for food production as claimed in claim 1, wherein a radial included angle a is formed between the adjacent transverse ball milling stirring rods (8), and the radial included angle a is 20-40 °.

6. The heat preservation cylinder with the ball milling function for food production as claimed in claim 1, wherein the inner bottom surface of the cylinder body (2) is an inclined surface, the lowest part of the inclined surface is provided with a steel ball discharge port (15), a sealing cover (16) is fixed on the steel ball discharge port (15), and the discharge port (11) and the steel ball discharge port (15) are arranged on the same side.

7. The heat preservation cylinder with the ball milling function for food production is characterized in that the cylinder body (2) comprises an inner container (2 a) and a heat preservation shell (2 b) arranged on the periphery of the inner container (2 a), the heat preservation water interlayer (3) is arranged between the heat preservation shell (2 b) and the inner container (2 a), a temperature measuring probe (17) extending into the heat preservation water interlayer (3) and arranged below the inner container (2 a) is fixed on the side surface of the lower portion of the heat preservation shell (2 b), a liquid level probe (18) extending into the inner container (2 a) is fixed on the side surface of the upper portion of the heat preservation shell (2 b), and the rotary supporting seat (9) is fixed at the inner bottom of the inner container (2 a).

8. The heat preservation cylinder with the ball milling function for the food production as claimed in claim 1 or 7, wherein the supporting beam (5) is fixed in the middle of the top of the cylinder body (2), the two lids (4) are respectively and symmetrically arranged on two sides of the supporting beam (5), and each lid (4) is provided with a pull handle (4 a).

9. The heat preservation cylinder with the ball milling function for food production as claimed in claim 1 or 7, wherein a water inlet (19) and a water outlet (20) are fixed on the side of the cylinder body (2), the water inlet (19) is fixed with a water inlet pipe (21), the water inlet pipe (21) is provided with a water pump (22), the water outlet (20) is fixed with a water outlet pipe (23), and the water inlet (19) and the water outlet (20) are arranged in a staggered manner in the radial direction of the cylinder body (2).

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