CN211983614U - Chocolate salt spreading device - Google Patents

Abstract

The utility model discloses a chocolate spills salt device, include the support and fix the material jar on the support, its characterized in that support includes the main tributary strut and connects the vibration frame on the main tributary strut, the vibration frame is including vibrating the sheet metal, this vibration sheet metal adopts a plurality of sheet metal connecting bolt to fix the top at the main tributary strut, the material jar is fixed or integrated into one piece is in the vibration sheet metal bottom, it has the communicating charge door with the material jar to open on the vibrating sheet metal, still include the feeder that shakes always, the top and the lower part of this feeder that directly shakes are fixed with main tributary strut and material jar wall respectively, the bottom of material jar is opened simultaneously has a plurality of salt holes, the diameter that goes out the salt hole is 0.3~2 mm. The utility model discloses be used for specially spilling sea salt to the chocolate surface, simple structure, work is high-efficient.

Description

Chocolate salt spreading device

Technical Field

The utility model relates to a chocolate spills salt device.

Background

One type of chocolate food currently on the market requires spreading sea salt on the surface to provide a particular flavor and mouthfeel. The corresponding plants for producing such chocolate products require the addition of sea salt in the latter part of the production process. However, the conventional technology lacks such equipment, and the operation is usually carried out manually, so that the defects are obvious, the efficiency is low, the sea salt particles are not uniformly distributed, the labor intensity of workers is high, and the labor cost of enterprises is increased.

Some enterprises in the industry sprinkle salt by using original nut sprinkling equipment for sprinkling materials on the surface of chocolate, so that the labor is saved, the efficiency is improved, and the following problems are solved:

1) the specifications of the nuts and the sea salt are different, even if the crushed nuts have the particle size far larger than that of the sea salt, the adding amount of the sea salt is difficult to control by a nut scattering device, and the taste of the chocolate is poor when the sea salt is added excessively;

2) in order to avoid the mutual interference of the two raw materials, the nut scattering equipment must be cleaned and maintained when the nut scattering process needs to be recovered, so that the burden of an enterprise is increased, and the production efficiency of the enterprise is influenced.

Therefore, a chocolate salting device specially used for salting the surface of chocolate is urgently needed in the industry.

Disclosure of Invention

The utility model discloses the purpose is: the chocolate salt spreading device is specially used for spreading sea salt on the surface of chocolate, and is simple in structure and efficient in work.

The technical scheme of the utility model is that: the utility model provides a chocolate spills salt device, include the support and fix the material jar on the support, its characterized in that support includes the main tributary strut and connects the vibration frame on the main tributary strut, the vibration frame is including vibrating the sheet metal, this vibrating the sheet metal adopts a plurality of sheet metal connecting bolt to fix the top at the main tributary strut, the material jar is fixed or integrated into one piece is in vibrating the sheet metal bottom, it has the communicating charge door with the material jar to open on the vibrating the sheet metal, still include the feeder that shakes always, the top and the lower part of the feeder that should directly shake are fixed with main tributary strut and material jar wall respectively, the bottom of material jar is opened simultaneously has a plurality of salt holes, the diameter in salt hole is 0.3 ~.

Further, every in the utility model the last all cover of sheet metal connecting bolt has the shock attenuation cover that both ends offset with vibration sheet metal and main tributary strut respectively.

Further, in the utility model discloses in the main tributary support frame includes the bottom support frame, is located the upper strata support frame of its top and connects many support posts between them, the vibration sheet metal adopts the top of a plurality of sheet metal connecting bolt vertical fixation at the upper strata support frame, directly shake the top and the upper strata support frame of feeder and fix.

Furthermore, in the utility model, the bottom layer supporting frame comprises two rectangular bottom pipes which are arranged in parallel and are symmetrical about the material cylinder, the upper layer supporting frame comprises a first supporting main beam and a second supporting main beam which are arranged in parallel, the first supporting main beam and the second supporting main beam are both arranged perpendicular to the two rectangular bottom pipes, and the material cylinder is positioned between the first supporting main beam and the second supporting main beam; each rectangular bottom pipe is provided with a plurality of support columns which are respectively connected with the first support main beam and the second support main beam, the bottoms of the support columns are welded with the rectangular bottom pipes, the upper part of each support column is provided with a table part which supports the first support main beam or the second support main beam, a screw section is formed on the table part, and the screw section is locked and fixed with the first support main beam or the second support main beam by adopting a nut after penetrating through a positioning hole formed in the first support main beam or the second support main beam; the vibrating sheet is fixed with the first supporting main beam and the second supporting main beam respectively by adopting a plurality of sheet connecting bolts, and the top of the direct vibration feeder is fixed with the second supporting main beam.

Preferably, in the utility model discloses in the material jar is the axisymmetric design, and its symmetry axis is perpendicular with the second support girder, and the midpoint of girder is supported through the second, and the feeder that directly shakes is just located the midpoint position that the girder was supported to the second.

More preferably, in the utility model discloses in the second supports and expects jar one side shaping dorsad on the girder and has the convex part, the top of directly shaking the feeder adopts a plurality of feeder connecting screw and second to support the girder and the convex part on it is fixed.

More preferably, in the present invention, the thin plate connecting bolts are divided into two groups symmetrical about the symmetry axis.

Furthermore, in the utility model discloses in the diameter of going out the salt hole is 0.5~1 mm.

The working principle of the utility model is as follows:

when specifically using, the utility model discloses the installation is fixed on current food chain conveyor, and the material jar is located the top of carrying the chain, and fashioned chocolate is put in the template and is carried by the chain. The direct vibration feeder is a known technology, and drives the material cylinder to regularly vibrate after being started, so that sea salt in the material cylinder is uniformly scattered to chocolate below from a salt outlet hole at the bottom.

The utility model has the advantages that:

1. the utility model discloses be used for specially spilling sea salt to the chocolate surface, its simple structure and work are high-efficient, compare at present borrow in spilling the kernel equipment of salt, the volume of spilling of control sea salt that can be fine avoids adding too much and leads to chocolate taste variation.

2. The utility model discloses with the design of material jar on the vibration sheet metal, after the feeder vibration that directly shakes, its vibration energy drives the vibration sheet metal and together vibrates on the transmission of material jar to the vibration sheet metal, strengthens the vibration of material jar again in reverse to improve out salt efficiency and effect.

3. The utility model discloses an independent equipment can not interfere original nut equipment that spills, avoids the raw materials to disturb, alleviates enterprise's unnecessary burden, can not influence enterprise production efficiency yet.

4. The utility model discloses in all adopt the symmetry design with support and material jar to the feeder design that will directly shake is at the symmetry axis of material jar and the mid point position of second supporting beam, and it is more even to ensure to directly shake the vibration transmission of feeder, avoids the inside salt pile of material jar on the one hand, improves salt and spills out efficiency, and on the other hand then prevents that support local vibration is too big and reduce its support stability and life-span.

5. The utility model discloses in all overlap on sheet metal connecting bolt and have the shock attenuation cover, further effectively reduce the vibration that the support received to strengthen the support stability and the life-span of support.

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 left side view of FIG. 1;

fig. 3 is a top view of fig. 1.

Wherein: 1. a material cylinder; 1a, salt outlet holes; 2. vibrating the thin plate; 3. a thin plate connecting bolt; 4. a feed inlet; 5. a direct vibration feeder; 6. a shock-absorbing sleeve; 7. supporting the upright post; 7a, a screw section; 8. a rectangular bottom tube; 9. a first support main beam; 10. a second support main beam; 10a, a convex portion; 11. a feeder connecting screw; a. an axis of symmetry.

Detailed Description

Example (b): with reference to fig. 1 to 3, the chocolate salt spreading device provided by the present invention is specifically described as follows:

the utility model provides a salt device is spilt to this kind of chocolate comprises support, material jar 1 and directly shake feeder 5 jointly, and the support is whole to be designed into bilateral symmetry structure in this embodiment, comprises main tributary strut and the vibration frame of connecting on the main tributary strut. The vibrating frame is composed of a vibrating thin plate 2 and 4 thin plate connecting bolts 3 for fixing the vibrating thin plate 2 above a main supporting frame. The material cylinder 1 is integrally formed at the bottom of the vibrating thin plate 2, and the vibrating thin plate 2 is provided with a feeding port 4 communicated with the material cylinder 1, as shown in fig. 1. The top and the lower part of the direct vibration feeder 5 are respectively fixed with the main support frame and the wall of the material cylinder 1, meanwhile, the bottom of the material cylinder 1 is provided with two salt discharging holes 1a, and the number of the salt discharging holes 1a is 9. The diameter of each salt outlet hole 1a is 0.5-1 mm.

In this embodiment, the main support frame is composed of a bottom support frame, an upper support frame located above the bottom support frame, and 4 support columns 7 connecting the bottom support frame and the upper support frame. Specifically, as shown in fig. 1 and 3, the bottom layer supporting frame is composed of two rectangular bottom pipes 8 which are arranged in parallel and are symmetrical with respect to the material cylinder 1, the upper layer supporting frame is composed of a first supporting main beam 9 and a second supporting main beam 10 which are arranged in parallel, the first supporting main beam 9 and the second supporting main beam 10 are both arranged perpendicular to the two rectangular bottom pipes 8, and the material cylinder 1 is located between the first supporting main beam 9 and the second supporting main beam 10.

Referring to fig. 2 and 3, in this embodiment, each rectangular bottom tube 8 is provided with 2 support columns 7 connected to a first support main beam 9 and a second support main beam 10, respectively, the bottoms of the support columns 7 are welded to the rectangular bottom tubes 8, the upper portion of each support column is provided with a table portion for supporting the first support main beam 9 or the second support main beam 10, the table portion is formed with a screw section 7a, and the screw section passes through a positioning hole formed in the first support main beam 9 or the second support main beam 10 and is locked and fixed with the first support main beam 9 or the second support main beam 10 by a nut.

The 4 thin plate connecting bolts 3 in this embodiment are divided into a left group and a right group, the two thin plate connecting bolts 3 of each group respectively fix the first supporting main beam 9 and the second supporting main beam 10 with the vibrating thin plate 2, and each thin plate connecting bolt 3 in this embodiment is sleeved with a damping sleeve 6, two ends of which respectively abut against the vibrating thin plate 2 and the main supporting frame.

In this embodiment, the top of the vertical vibration feeder 5 is fixed to the second main support beam 10.

As shown in fig. 3, (the horizontal projection of) the material cylinder in this embodiment is designed to be axisymmetric, and the symmetry axis a is perpendicular to (the horizontal projection of) the second main support beam 10 and passes through the midpoint of (the horizontal projection of) the second main support beam 10, and the direct vibration feeder 5 is located at the midpoint of the second main support beam 10. As shown in fig. 2 and 3, a convex portion 10a is formed on the second main support beam 10 on the side away from the material cylinder 1, and the top of the vertical vibration feeder 5 is fixed to the second main support beam 10 and the convex portion 10a thereon by using 4 feeder connection screws 11. The two aforementioned sets of thin plate connecting bolts 3 are symmetrical about the axis of symmetry a.

The working principle of the utility model is as follows:

when specifically using, the utility model discloses the installation is fixed on current food chain conveyor, and material jar 1 is located the top of carrying the chain, and fashioned chocolate is put in the template and is carried by the chain. The direct vibration feeder 5 is a known technology, and drives the material cylinder 1 to regularly vibrate after being started, so that the sea salt in the material cylinder 1 is uniformly scattered on the chocolate below from the salt outlet hole 1a at the bottom.

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 (8)

1. The utility model provides a chocolate spills salt device, include the support and fix material jar (1) on the support, its characterized in that support includes the main tributary strut and connects the vibration frame on the main tributary strut, vibration frame is including vibrating sheet (2), should vibrate sheet (2) and adopt a plurality of sheet connecting bolt (3) to fix the top at the main tributary strut, material jar (1) is fixed or integrated into one piece is in vibrating sheet (2) bottom, it has communicating charge door (4) with material jar (1) to open on vibrating sheet (2), still include feeder (5) of shaking always, the top and the lower part of this feeder (5) of shaking directly are fixed with main tributary strut and material jar (1) wall respectively, the bottom of material jar (1) is opened if dry out salt hole (1 a) simultaneously, the diameter that goes out salt hole (1 a) is 0.3~2 mm.

2. The chocolate salting device according to claim 1, wherein each of the plate connecting bolts (3) is sleeved with a damping sleeve (6) having two ends respectively abutting against the vibrating plate (2) and the main support frame.

3. The chocolate salting device according to claim 1 or 2, wherein the main support frame comprises a bottom support frame, an upper support frame positioned above the bottom support frame, and a plurality of support columns (7) connecting the bottom support frame and the upper support frame, the vibrating sheet (2) is longitudinally fixed above the upper support frame by a plurality of sheet connecting bolts (3), and the top of the vertical vibration feeder (5) is fixed with the upper support frame.

4. A chocolate salting device according to claim 3, characterized in that the bottom support frame comprises two rectangular bottom tubes (8) arranged in parallel and symmetrical with respect to the material cylinder (1), while the upper support frame comprises a first support main beam (9) and a second support main beam (10) arranged in parallel, and the first support main beam (9) and the second support main beam (10) are both arranged perpendicular to the two rectangular bottom tubes (8), the material cylinder (1) being located between the first support main beam (9) and the second support main beam (10); each rectangular bottom pipe (8) is provided with a plurality of supporting columns (7) which are respectively connected with a first supporting main beam (9) and a second supporting main beam (10), the bottoms of the supporting columns (7) are welded with the rectangular bottom pipes (8), the upper part of each supporting column is provided with a table part which supports the first supporting main beam (9) or the second supporting main beam (10), a screw section (7 a) is formed on the table part, and the supporting columns penetrate through positioning holes formed in the first supporting main beam (9) or the second supporting main beam (10) and are locked and fixed with the first supporting main beam (9) or the second supporting main beam (10) by nuts; the vibrating sheet (2) is fixed with a first supporting main beam (9) and a second supporting main beam (10) respectively by adopting a plurality of sheet connecting bolts (3), and the top of the direct vibration feeder (5) is fixed with the second supporting main beam (10).

5. A chocolate salting device according to claim 4, characterized in that the bowl is of axisymmetric design, with the axis of symmetry (a) perpendicular to the second support girder (10) and passing through the midpoint of the second support girder (10), and the direct vibration feeder (5) is located just at the midpoint of the second support girder (10).

6. A chocolate salting device according to claim 5, characterized in that a protrusion (10 a) is formed on the second support girder (10) on the side facing away from the material cylinder (1), and the top of the vertical vibration feeder (5) is fixed with the second support girder (10) and the protrusion (10 a) thereon by a plurality of feeder connection screws (11).

7. Chocolate salting device according to claim 5, characterized in that the sheet connecting bolts (3) are divided into two groups symmetrical about the symmetry axis (a).

8. The chocolate salting device according to claim 1, wherein the diameter of the salt outlet hole (1 a) is 0.5-1 mm.

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