CN220192105U

CN220192105U - Automatic powdering device

Info

Publication number: CN220192105U
Application number: CN202321655498.6U
Authority: CN
Inventors: 庄元均; 赵鑫; 王海燕
Original assignee: Ruixing Coffee Technology Hainan Co ltd
Current assignee: Ruixing Coffee Technology Hainan Co ltd
Priority date: 2023-06-27
Filing date: 2023-06-27
Publication date: 2023-12-19
Anticipated expiration: 2033-06-27

Abstract

The utility model provides an automatic powdering device which comprises a storage container for storing materials and a vibrating mechanism detachably connected with the storage container, wherein a plurality of through holes for the materials to pass through are formed in the bottom of the storage container, vibrating pieces are arranged in the vibrating mechanism, and the vibrating pieces drive the materials to pass through the through holes from the storage container. The powder scattering device can realize automatic scattering of fine powder and other scattering materials in the food processing process, improves the working efficiency and reduces the requirement of manual operation. In addition, due to the control of the vibration mechanism, the accurate control and uniform spreading of materials can be realized, and the appearance and the taste of milk tea or other foods are improved.

Description

Automatic powdering device

Technical Field

The utility model relates to the technical field of food processing, in particular to an automatic powdering device.

Background

In modern society, along with the improvement of living standard and the increasing demands of people on food, the food processing industry faces increasing demands and challenges, people expect that food not only has good taste and nutritional value, but also has attractive and unique presentation modes, people can add some powder or other materials on the food to increase the delicacy and the attractive appearance of the food, however, the manual powdering efficiency is low, time and labor are wasted, in addition, the situation of uneven powdering easily occurs in manual powdering, and the appearance and taste experience of the food are affected. Therefore, improvements are needed.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides an automatic powdering device which can realize an efficient, accurate and automatic powdering process.

The utility model provides an automatic powdering device which comprises a storage container for storing materials and a vibrating mechanism detachably connected with the storage container, wherein a plurality of through holes for the materials to pass through are formed in the bottom of the storage container, vibrating pieces are arranged in the vibrating mechanism, and the vibrating pieces drive the materials to pass through the through holes from the storage container.

Further, the vibration mechanism includes a housing forming a vibration cavity in which the vibrating member is connected.

Further, the material storage container is connected with the vibration mechanism through an annular connecting piece; or the material storage container is connected with the vibration mechanism through a clamping piece or threads; or the material storage container is spliced with the vibration mechanism.

Further, the vibrating piece is fixedly connected to the annular connecting piece.

Further, the annular connecting piece is detachably connected with the vibration mechanism.

Further, a flange is arranged on the storage container, a groove is arranged on the annular connecting piece, and the flange is detachably connected with the groove.

Further, a fixing frame is arranged in the vibration cavity, one end of the fixing frame is connected with the shell, and the other end of the fixing frame protrudes towards the direction of the vibration piece and is abutted to the vibration piece.

Further, the fixing frame is detachably connected with the annular connecting piece.

Further, the vibrator includes an eccentric and a motor driving the eccentric to generate a reciprocating vibratory force.

Further, an upper cover is arranged at the top of the vibration mechanism, and the vibration mechanism is detachably connected with the upper cover.

Further, the vibration mechanism is connected with a control mechanism, and the control mechanism controls the vibration piece to generate vibration force.

Further, a plurality of through holes positioned at the bottom of the material storage container are in a net shape.

Further, an extension ring for preventing powder from being blown away by wind is arranged on the storage container, and the extension ring is connected with the bottom end of the storage container.

After the technical scheme is adopted, the method has the following beneficial effects:

the utility model is provided with the vibration mechanism to drive the material storage container to discharge, so that the automatic spreading of fine powder and other material scattering materials in the food processing process can be realized, the working efficiency is improved, and the manual operation requirement is reduced. In addition, due to the control of the vibration mechanism, the accurate control and uniform spreading of materials can be realized, and the appearance and the taste of milk tea or other foods are improved.

Drawings

The present disclosure will become more readily understood with reference to the accompanying drawings. It should be understood that: the drawings are for illustrative purposes only and are not intended to limit the scope of the present utility model. In the figure:

FIG. 1 is a schematic view of an automatic powdering device according to an embodiment of the present utility model;

FIG. 2 is an exploded view of an automatic powdering device according to one embodiment of the present utility model;

FIG. 3 is a schematic view of a magazine and annular connector in an embodiment of the utility model;

FIG. 4 is a schematic view of a magazine according to an embodiment of the present utility model.

Reference numeral control table:

the material storage container 1 comprises a through hole 11, a flange 12 and an extension ring 13;

vibration mechanism 2: a vibrating member 21, a fixing frame 22;

annular connector 3: a groove 31;

an upper cover 4;

and a control mechanism 5.

Detailed Description

Specific embodiments of the present utility model will be further described below with reference to the accompanying drawings.

It is to be readily understood that, according to the technical solutions of the present utility model, those skilled in the art may replace various structural modes and implementation modes with each other without changing the true spirit of the present utility model. Accordingly, the following detailed description and drawings are merely illustrative of the utility model and are not intended to be exhaustive or to limit the utility model to the precise form disclosed.

Terms of orientation such as up, down, left, right, front, rear, front, back, top, bottom, etc. mentioned or possible to be mentioned in the present specification are defined with respect to the configurations shown in the drawings, which are relative concepts, and thus may be changed according to different positions and different use states thereof. These and other directional terms should not be construed as limiting terms. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between the two components. The above-described specific meanings belonging to the present utility model are understood as appropriate by those of ordinary skill in the art.

In some embodiments of the present utility model, the material storage device comprises a material storage container 1 for storing materials and a vibration mechanism 2 detachably connected with the material storage container 1, wherein a plurality of through holes 11 for the materials to pass through are formed in the bottom of the material storage container 1, vibration pieces 21 are arranged in the vibration mechanism 2, and the vibration mechanism 2 drives the materials to pass through the through holes 11 from the material storage container 1.

Specifically, the storage container 1 is a container for storing materials, and may be any suitable container having a proper capacity and shape, the vibration mechanism 2 is a device connected to the storage container 1 for providing vibration force, and the through hole 11 is a small hole in the bottom of the storage container 1 for passing materials. The vibration mechanism 2 is connected to the magazine 1, and may be connected by screw threads, snap fasteners, welding, or the like. The vibration mechanism 2 is closely arranged at the bottom of the storage container 1, when vibration force is transmitted to the bottom of the storage container 1, the material can be subjected to the action of vibration force, so that flow is generated, a plurality of through holes 11 are formed in the bottom of the storage container 1, the material is allowed to pass through and spread to a target area, the material can gradually flow out from the storage container 1 through the through holes 11 under the action of the vibration force, the effect of automatic powder spreading is realized, the through holes 11 are formed in the bottom of the storage container 1, and the position distribution is uniform.

In actual use, materials are placed in the storage container 1, the vibration mechanism 2 is connected with the storage container 1, stable connection is ensured, the vibration mechanism 2 is started, vibration force is generated, the vibration force is transmitted to the bottom of the storage container 1, and the materials flow and are spread to a target area through the through holes 11.

Through this automatic dusting device, can realize the automatic dispersion and the spread of material, improve work efficiency and reduce manual operation's demand, the control of vibratory force can realize the accurate control and the even spread of material to satisfy different requirements, in addition, automatic dusting device can also improve the accuracy and the uniformity of dusting, promotes food processing's effect and quality. The automatic powdering device can be widely applied to the field of food processing, for example, fine powder is scattered on milk tea, sugar powder for decoration is scattered on cakes and the like, and the automatic powdering device can improve the working efficiency and ensure the uniformity and the accuracy of powdering, so that the requirements of people on the appearance and the taste of food are met.

Alternatively, the shape of the through hole 11 may be circular, square, oval, etc., and for granular materials, a circular shape may be adopted, and for fine powdery materials, a square or oval shape of a small size may be adopted to ensure smooth flow and spreading effect of the materials.

In some embodiments of the utility model, the vibrating mechanism 2 comprises a housing forming a vibrating cavity in which the vibrating member 21 is connected.

Specifically, the vibration force generated by the vibration member 21 in the vibration cavity can be transmitted to the housing, and the housing can transmit the vibration force to the material storage container 1, so that the material in the material storage container 1 can flow through the through hole 11 when being vibrated.

In some embodiments of the utility model, the storage container 1 is connected with the vibration mechanism 2 through an annular connecting piece 3; or the material storage container 1 is connected with the vibration mechanism 2 through a clamping piece or threads; or the material storage container 1 is inserted into the vibration mechanism 2.

Specifically, through adding annular connecting piece 3 in vibration mechanism 2 bottom, can provide stable connection and fixed, ensure the stability between magazine 1 and the vibration mechanism 2, this kind of design can prevent that vibration mechanism 2 from taking place not hard up or breaking away from in the course of the work, improves the stability and the reliability of whole device. Meanwhile, the annular connecting piece 3 can provide proper space and position, so that the through hole 11 at the bottom of the material storage container 1 can be coordinated with the vibration mechanism 2, and smooth flow and uniform spreading of materials are realized. The detachable connection mode can facilitate cleaning and maintenance, and the service life of the device is prolonged.

In some embodiments of the utility model, the vibrating member 21 is fixedly attached to the annular connecting member 3.

Specifically, the annular connecting member 3 may not only function to connect the magazine 1 and the vibrating mechanism 2, but also function to fix the vibrating member 21 and conduct the vibrating force, and when the vibrating member 21 is fixed to the annular connecting member 3, the vibrating member 21 generates the vibrating force to be conducted to the annular connecting member 3, thereby conducting the vibrating force to the magazine 1.

In some embodiments of the utility model, the annular coupling 3 is detachably connected to the vibration mechanism 2.

Specifically, the mode of detachable connection can make things convenient for maintenance and washing, when maintenance and washing are needed, can dismantle annular connecting piece 3 from vibration mechanism 2, and vibration piece 21 on the annular connecting piece 3 also takes out from the vibration chamber this moment, and convenient washing and maintenance vibration piece 21 simultaneously convenient equipment.

In some embodiments of the utility model, the material storage container 1 is provided with a flange 12, the annular connecting piece 3 is provided with a groove 31, and the flange 12 is detachably connected with the groove 31.

In particular, the flange 12 is a protruding part on the magazine 1, which can be connected to other components, and the recess 31 is a deep and narrow groove on the annular connecting member 3 for receiving the flange 12 of the magazine 1. The magazine 1 is detachably connected to the recess 31 of the annular connecting member 3 by means of the flange 12, and the flange 12 is inserted into the recess 31 during assembly, forming a connection of the magazine 1 to the annular connecting member 3. By inserting the flange 12 into the recess 31, the magazine 1 can be firmly connected to the annular connection 3, which detachable connection enables the magazine 1 to be easily installed and removed for cleaning, replacement or repair. The main function of the annular connecting piece 3 is a fixing piece, stability and accurate vibration transmission of the vibrating piece 21 are ensured, and the bottom of the material storage container 1 is connected with the vibrating mechanism 2 through connection of the annular connecting piece 3 and the material storage container 1, so that vibrating force can be effectively transmitted to materials in the material storage container 1.

In actual use, the flange 12 is inserted into the groove 31 of the annular connector 3, ensuring that the flange 12 is tightly connected with the groove 31. By the detachable connection of the flange 12 and the recess 31, the magazine 1 can be easily installed, removed and cleaned, improving the maintenance convenience of the device. The connection of the flange 12 and the groove 31 provides a stable support, ensuring the fixability of the vibration mechanism 2, thereby improving the accuracy and performance stability of vibration transmission. The design of the detachable connection allows the magazine 1 to be paired with different sizes or types of ring connectors 3 and vibration mechanisms 2, providing greater flexibility and adaptability.

In some embodiments of the present utility model, a fixing frame 22 is disposed in the vibration cavity, the fixing frame 22 is detachably connected with the annular connecting piece 3, one end of the fixing frame 22 is connected with the housing, and the other end protrudes towards the direction of the vibration piece 21 and abuts against the vibration piece 21.

Specifically, the fixing frame 22 is disposed in the vibration cavity, and may be used for fixing a power supply, and may also be used for preventing the vibration member 21 from being displaced, so that the device is more stable, and is a firm structure, having functions of supporting and fixing, wherein one end of the fixing frame 22 is connected with the housing, which may be achieved by a screw, a nut, a buckle or other suitable connection means, and the other end of the fixing frame 22 protrudes toward the vibration member 21 and the protruding portion abuts against the vibration member 21, the vibration member 21 transmits the vibration force to the fixing frame 22, and the fixing frame 22 transmits the vibration force to the housing again, and the protruding may be linear, curved or other shapes.

In some embodiments of the utility model, the holder 22 is detachably connected to the annular connecting member 3.

Specifically, when the annular connecting piece 3 is detached from the vibrating mechanism 2, the vibrating piece 21 and the fixing frame 22 connected to the annular connecting piece 3 can be taken out from the vibrating cavity together, and at the moment, if the vibrating piece 21 needs to be taken out, the fixing frame 22 above the vibrating piece 21 can be detached from the annular connecting piece 3, and then the vibrating piece 21 is taken out, so that the cleaning and the replacement are convenient.

In some embodiments of the utility model, the vibration mechanism 2 includes an eccentric and a motor that drives the eccentric to generate a reciprocating vibratory force.

In particular, the eccentric is a critical component of the vibration mechanism 2, typically a circular wheel disc, the spokes or rims of which are offset from the central axis, creating an eccentric effect. The motor is another important component of the vibration mechanism 2, typically a driving device, which drives the eccentric to generate vibration force by converting electric energy into mechanical energy.

The eccentric is connected to the motor by a shaft so that the rotation of the motor can be transmitted to the eccentric, which motor can be connected to the holder 22 of the vibration mechanism 2, the ring-shaped connection 3 or other suitable parts by means of bolts, screw connections or other fixing means. The eccentric is located at the bottom of the vibrating mechanism 2 so as to generate a vibration force to be transmitted to the material and the through hole 11, and the motor is located at the bottom or side of the vibrating mechanism 2 so as to be connected with the eccentric through a shaft. The motor rotates the eccentric wheel to make the eccentric wheel generate centrifugal force in the rotating process, and under the action of the eccentric force, the materials in the material storage container 1 can be subjected to the action of reciprocating vibration force, so that the materials are scattered out through the through hole 11. An operator starts, stops or adjusts the motor through the control mechanism 5 to control the rotating speed of the eccentric wheel and the intensity of the vibration force. By adopting the eccentric wheel and the motor as the components of the vibrating mechanism 2, reliable and accurate reciprocating vibrating force can be realized, and the reciprocating vibrating force can effectively promote the material to be scattered from the material storage container 1 through the through hole 11, thereby improving the precision and uniformity of powder scattering.

In some embodiments of the present utility model, the top of the vibration mechanism 2 is provided with an upper cover 4, and the vibration mechanism 2 is detachably connected with the upper cover 4.

Specifically, the top of the device is provided with an upper cover 4, which is used as a cover of the vibration mechanism 2, the upper cover 4 is usually a fixed or movable structure for protecting the vibration mechanism 2 and elements therein and providing isolation for external environment, and a detachable connection mode is adopted between the vibration mechanism 2 and the upper cover 4, which means that the vibration mechanism 2 and the upper cover 4 can be easily separated or connected, so that maintenance and cleaning are convenient, and the specific connection mode can be selected according to design, such as threaded connection, snap connection or other detachable connection devices. When the connection is intact, the upper cover 4 provides a protective effect against foreign substances entering the vibration mechanism 2 and damaging the internal components, and when maintenance or cleaning is required, the detachable connection allows the upper cover 4 to be easily separated, thereby facilitating the operation required by the operator.

In some embodiments of the present utility model, the vibration mechanism 2 is connected to the control mechanism 5, and the control mechanism 5 controls the vibration member 21 to generate a vibration force.

Specifically, the control mechanism 5 is an integral part of the automatic powdering device for controlling the operation of the vibrating member 21 and generating the vibrating force, and the control mechanism 5 generally includes an electronic component, a circuit board, a sensor, an actuator, and the like.

The control mechanism 5 is typically connected to the vibration mechanism 2 by a wire, cable or wireless signal to enable transmission of the signal and execution of the control instructions. The control mechanism 5 is located on a control panel, main control box or console of the automatic dusting device so that an operator can conveniently control and monitor the working state of the device. The control mechanism 5 controls the vibrating member 21 to generate proper vibrating force by receiving input from an operator or feedback signals from a sensor, and the control mechanism 5 can adjust the intensity, frequency and duration of vibration as required to realize accurate material spreading control, and the operator inputs and sets the required vibrating parameters through buttons, switches or interfaces on the control mechanism 5. After receiving the input signal, the control mechanism 5 sends a corresponding control signal to the vibrating member 21 through the control circuit, triggering the generation of the vibrating force. The control mechanism 5 enables an operator to conveniently control the work of the vibrating member 21, and precise material scattering control is achieved.

In some embodiments of the utility model, the plurality of through holes 11 at the bottom of the magazine 1 are net-shaped.

Specifically, the distribution of the plurality of through holes 11 in a net shape can increase the uniformity and the accuracy of powder spraying, ensure that materials can uniformly pass through the bottom of the storage container 1, and the structure of the net-shaped through holes 11 can prevent the materials from blocking or excessively accumulating on certain specific through holes 11, so that the powder spraying stability is improved.

In some embodiments of the present utility model, the storage container 1 is provided with an extension ring 13 for preventing powder from being blown away by wind, and the extension ring 13 is connected to the bottom end of the storage container 1.

Specifically, the extension ring 13 is an annular structure with the same radius as the storage container 1, and is integrally formed with the storage container 1, and powder enters the extension ring 13 again by reaching the through hole 11 from the storage container 1, so that the extension ring 13 can reduce the influence of wind force on the powdering process.

According to the utility model, the vibration mechanism 2 is arranged to drive the material storage container 1 to discharge, so that automatic spreading of fine powder and other material scattering materials in the food processing process can be realized, the working efficiency is improved, and the manual operation requirement is reduced. In addition, due to the control of the vibrating mechanism 2, the accurate control and uniform spreading of materials can be realized, and the appearance and the taste of milk tea or other foods are improved.

The foregoing is only illustrative of the principles and preferred embodiments of the present utility model. It should be noted that several other variants are possible to those skilled in the art on the basis of the principle of the utility model and should also be considered as the scope of protection of the present utility model.

Claims

1. The automatic powdering device is characterized by comprising a storage container for storing materials and a vibrating mechanism detachably connected with the storage container, wherein a plurality of through holes for the materials to pass through are formed in the bottom of the storage container, vibrating pieces are arranged in the vibrating mechanism, and the vibrating pieces drive the materials to pass through the through holes from the storage container.

2. The automatic powdering device of claim 1 wherein the vibration mechanism includes a housing that forms a vibration cavity in which the vibrating member is connected.

3. The automatic powdering device of claim 2 wherein the magazine is connected to the vibratory mechanism by an annular connector; or the material storage container is connected with the vibration mechanism through a clamping piece or threads; or the material storage container is spliced with the vibration mechanism.

4. An automatic powdering device according to claim 3, wherein the vibrating member is fixedly attached to the annular connecting member.

5. The automatic powdering device of claim 4 wherein the annular connector is removably coupled to the vibratory mechanism.

6. The automatic powdering device of claim 5, wherein the magazine is provided with a flange and the annular connector is provided with a recess, the flange being removably connected to the recess.

7. The automatic powdering device according to claim 5, wherein a fixing frame is provided in the vibration chamber, one end of the fixing frame is connected to the housing, and the other end of the fixing frame protrudes toward the direction of the vibrating member and abuts against the vibrating member.

8. The automatic powdering device of claim 7, wherein the mount is removably connected to the annular connector.

9. The automatic powdering device of claim 1 wherein the vibrating member includes an eccentric and a motor that drives the eccentric to produce the reciprocating vibratory force.

10. The automatic powdering device of claim 1, wherein an upper cover is provided on top of the vibrating mechanism, and wherein the vibrating mechanism is detachably connected to the upper cover.

11. The automatic powdering device of claim 1, wherein the vibration mechanism is coupled to a control mechanism that controls the vibrating member to generate a vibratory force.

12. The automatic powdering device of claim 1, wherein a plurality of the through holes in the bottom of the magazine are net-shaped.

13. The automatic powdering device of claim 1, wherein the magazine is provided with an extension ring for preventing powder from being blown away by wind, and wherein the extension ring is connected to a bottom end of the magazine.