CN210869827U - Powder wrapping machine capable of screening powder - Google Patents

Abstract

The utility model discloses a but powder of sieving wraps up in powder machine, wrap up in the powder container including setting up in the first powder container of wrapping up in of frame, sieve powder container and second, the powder mouth has been seted up to the first bottom of wrapping up in the powder container, it is provided with the powder separating plate that is used for shielding out the powder mouth to go out powder mouth department, sieve powder container is located go out powder mouth below, sieve powder container is connected with the drive arrangement who is used for driving sieve powder container shake, the second wraps up in powder container and is located sieve powder container's below. The utility model discloses a bottom at the first powder container of wrapping up in sets up a sieve powder container, and the first dry wet mixture of wrapping up in the powder container wraps up in the powder and drops to sieve powder container through going out the powder mouth to accomplish sieve powder, wrap up in the powder futilely and is collected to the second and wrap up in the powder container with reuse. The device can realize the separation of dry and wet mixed powder wrapping, greatly improves the utilization rate of the powder wrapping, and reduces the production cost.

Description

Powder wrapping machine capable of screening powder

Technical Field

The utility model relates to a powder wrapping machine, in particular to a powder wrapping machine capable of screening powder.

Background

In the existing powder wrapping machine, food is wrapped by a powder wrapping container filled with wrapped powder. The food is put into the powder wrapping container to be wrapped with the powder, and the food is in a wet and percolated state due to the moisture, and after the powder wrapping of the food is finished, the part of the wrapped powder remaining in the powder wrapping container can be wetted by the food.

The food is wrapped by the partially wet wrapping powder, and the wetted wrapping powder is difficult to stick to the food again, so that the working efficiency is greatly reduced, and the wrapping quality of the food is influenced. Moreover, as the dry coating powder is less and less, the food cannot be coated effectively. In order to continue to effectively wrap the food, the dry and wet mixed wrapping powder needs to be discarded at the same time, and a new dry wrapping powder is replaced, so that the waste of the wrapping powder is caused, and the production cost is increased.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but powder coating machine of sieve to solve the problem that provides among the above-mentioned background art.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a but powder wrap up in powder machine of sieve, includes that the first powder container, the powder container of sieve and the second that set up in the frame wrap up in the powder container, the powder outlet has been seted up to the first bottom of wrapping up in the powder container, powder outlet department is provided with the powder partition board that is used for shielding the powder outlet, the powder container of sieve is located powder outlet below, the powder container of sieve is connected with the drive arrangement who is used for driving the shake of powder container of sieve, the second is wrapped up in the powder container and is located the below of powder container of sieve.

As an improvement of the scheme, the middle of the bottom of the first powder wrapping container is downwards sunken to form a sunken part, the powder outlet is arranged in the sunken part, and the powder separating plate is placed in the sunken part.

In an improvement of the above scheme, the shape of the powder separating plate is consistent with that of the concave part and is tightly embedded in the concave part, and the thickness of the powder separating plate is less than or equal to the concave depth of the concave part.

As an improvement of the above scheme, the second powder wrapping container and the first powder wrapping container are containers with the same structure.

As an improvement of the above scheme, the driving device comprises a motor, a belt transmission mechanism, a rotating rod and a connecting rod, the motor drives the rotating rod to rotate through the belt transmission mechanism, one end of the connecting rod is hinged with the free end of the rotating rod, and the other end of the connecting rod is hinged to the periphery of the powder sieving container.

As the improvement of above-mentioned scheme, still include sieve powder chamber wall and movable partition plate, sieve powder chamber wall set up in sieve powder container with between the drive arrangement, movable partition plate and the activity laminating of sieve powder chamber wall, the bar groove has been seted up on the sieve powder chamber wall, the last perforation of having seted up of movable partition plate, the connecting rod passes perforation and bar groove, when the connecting rod drives movable partition plate and pastes sieve powder chamber wall and remove, movable partition plate remains throughout and covers the bar groove.

As an improvement of the scheme, the strip-shaped groove is horizontally formed, the connecting rod swings in the horizontal plane, and the movable partition plate reciprocates along the axial direction of the strip-shaped groove.

As an improvement of the above scheme, a guide compression structure is arranged on the powder sieving cavity wall, the guide compression structure comprises a first guide compression plate and a second guide compression plate, the first guide compression plate and the second guide compression plate are respectively installed on the upper side and the lower side of the strip-shaped groove, the opposite sides of the first guide compression plate and the second guide compression plate form a bending structure along the axial direction of the strip-shaped groove, and the two side parts of the movable partition plate are respectively embedded into the bending structure.

As an improvement of the scheme, the foldable extension rack further comprises a movable extension rack and a cover plate, wherein the movable extension rack is arranged on the side portion of the machine frame and can extend or contract relative to the machine frame, and when the movable extension rack is in the extending state, the cover plate is placed on the extending portion of the movable extension rack.

As an improvement of the above scheme, the peripheral size of the cover plate is matched with the size of the opening of the first powder wrapping container, so that the cover plate can be covered and buckled on the opening of the first powder wrapping container.

Has the advantages that: the utility model discloses a bottom at the first powder container of wrapping up in sets up a sieve powder container, and the first dry wet mixture of wrapping up in the powder container wraps up in the powder and drops to sieve powder container through going out the powder mouth to accomplish sieve powder, wrap up in the powder futilely and is collected to the second and wrap up in the powder container with reuse. The device can realize the separation of dry and wet mixed powder wrapping, greatly improves the utilization rate of the powder wrapping, and reduces the production cost.

Drawings

The invention is further described with reference to the following figures and examples:

FIG. 1 is a schematic view of an overall structure of a powder sieving and wrapping machine;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a schematic diagram of a structure of a driving device for driving a powder sieving container to shake;

fig. 4 is a schematic longitudinal sectional structure of a powder sieving wrapping machine.

Detailed Description

Referring to fig. 1 to 4, the utility model provides a but powder screening's powder coating machine, this powder coating machine includes the frame, makes respectively in the frame and forms the first position of placing that is used for placing first powder coating container 60 and the second that is used for placing second powder coating container 70 and places the position to and the preparation forms the powder screening chamber that is used for placing powder screening container 40. Wherein the first powder coating container 60, the sifter container 40 and the second powder coating container 70 are placed from top to bottom. The sifter container 40 may be a screen with a dense mesh to ensure separation of the dry and wet mixed breading.

The first powder wrapping container 60 is filled with wrapping powder for wrapping food. The bottom of the first powder wrapping container 60 is provided with a powder outlet 611, the powder outlet 611 is provided with a powder separating plate 100 for shielding the powder outlet 611, and when food is wrapped with powder, the powder separating plate 100 shields the powder outlet 611 to ensure that the wrapped powder does not fall.

The powder sieving container 40 is positioned below the powder outlet 611, the powder sieving container 40 is connected with a driving device 50 for driving the powder sieving container 40 to shake, and the second powder wrapping container 70 is positioned below the powder sieving container 40. When the powder wrapping ratio of the wet powder in the first powder wrapping container 60 is large and the powder wrapping of food is affected, the powder separating plate 100 is moved away, so that the dry and wet mixed powder in the first powder wrapping container 60 falls to the powder sieving container 40 through the powder outlet 611, and the driving device 50 drives the powder sieving container 40 to shake, thereby completing powder sieving. Wherein, the wet powder remains in the powder sieving container 40 and can be discarded; the dry coating is sifted into the second coating container 70 for reuse. The device can realize the separation of dry and wet mixed powder wrapping, greatly improves the utilization rate of the powder wrapping, and reduces the production cost.

Preferably, the bottom of the first powder wrapping container 60 is recessed downwards to form a recess 61, the powder outlet 611 is arranged in the recess 61, and the powder separating plate 100 is placed in the recess 61. The powder isolation plate 100 can be a stainless steel plate, which is convenient to clean and does not pollute the powder wrapping. When wrapping up in the powder to food, the steel sheet is embedded into depressed part 61, can not take place to remove easily, avoids wrapping up in the maloperation when powder for wrap up in the powder too early and drop to sieve powder container 40. Further, the shape of the powder separation plate 100 is consistent with the shape of the concave part 61 and is tightly embedded in the concave part 61, and the thickness of the powder separation plate 100 is smaller than or equal to the concave depth of the concave part 61. In this embodiment, the powder separating plate 100 is square, the size of the powder separating plate 100 is slightly smaller than the size of the recess 61, and the powder separating plate 100 is completely located in the recess 61, so that the stability of placing the powder separating plate 100 in the recess 61 is further improved.

For convenience of manufacture and replacement, the second powder coating container 70 is a container with the same structure as the first powder coating container 60. After the powder container 70 has collected certain dry parcel powder when wrapping up in the second, directly wrap up in the powder container 70 with the second and place the position from the second and take out to install to first placing the position in, avoid wrapping up in the middle transfer link of powder, improved the efficiency of production greatly. Meanwhile, due to the fact that the size structure is the same, interchangeability is high, and use is convenient and fast.

In addition, the driving device 50 is installed in the electric cavity, and the driving device 50 is isolated from the powder sieving container 40 through the powder sieving cavity wall 20. Specifically, the driving device 50 is composed of a motor 51, a belt transmission mechanism 52, a transmission shaft 53, a rotating rod 54 and the like, an output shaft of the motor 51 is connected with the transmission shaft 53 through the belt transmission mechanism 52, and the rotating rod 54 is fixedly installed at the end of the transmission shaft 53. One end of the connecting rod 30 is hinged with the free end of the rotating rod 54, the powder sieving container 40 is a sieve, and the other end of the connecting rod 30 is hinged on the periphery of the sieve. The motor 51 can drive the dwang 54 to rotate when rotating, and then drives the connecting rod 30 and swing in the horizontal plane, and the other end of connecting rod 30 is used in the periphery of screen cloth, is equivalent to and applys moment to the screen cloth for the periodic clockwise and anticlockwise rotation of doing of screen cloth, and then realize the sieve powder function.

In order to transmit the power of the driving device 50 to the powder sieving container 40, a strip-shaped groove is formed on the powder sieving chamber wall 20. Meanwhile, the movable partition plate 10 is movably mounted close to the powder sieving cavity wall 20, a through hole 11 is formed in the movable partition plate 10, the connecting rod 30 penetrates through the through hole 11 and the strip-shaped groove, one end of the connecting rod 30 is connected with the driving device 50, and the other end of the connecting rod 30 is connected with the powder sieving container 40. Wherein the aperture of the through hole 11 is slightly larger than the diameter of the connecting rod 30. The movable partition plate 10 is thin, the aperture of the through hole 11 is set to be 1-2 mm larger than the diameter of the connecting rod 30 in the manufacturing stage, the movable partition plate 10 cannot interfere with the normal swing of the connecting rod 30, and meanwhile good sealing performance is achieved.

Because the movable partition board 10 is movably installed, the connecting rod 30 can drive the movable partition board 10 to move along the powder sieving chamber wall 20, and the movable partition board 10 cannot block the power transmission of the connecting rod 30. At this moment, the movable partition plate 10 always covers the strip-shaped groove, and the sealing between the powder sieving cavity and the electric cavity is ensured.

On one hand, the movable partition plate 10 can swing along with the connecting rod 30, so that the connecting rod 30 can smoothly drive the powder sieving container 40 to sieve powder; on the other hand, the movable partition plate 10 is closely attached to the powder sieving chamber wall 20 and always covers the strip-shaped groove, so that the sealing performance of the powder sieving system is ensured, and the powder in the powder sieving chamber is difficult to pass through the strip-shaped groove and then fall on the driving device 50. Meanwhile, compared with the existing rubber sleeve, the movable partition plate 10 does not need to deform, the service life of the movable partition plate 10 is greatly prolonged, and the problem of rubber slag caused by fatigue damage of the rubber sleeve can be solved.

Preferably, the movable partition 10 is made of a polycarbonate material, and the movable partition 10 has characteristics of high strength, fatigue resistance, dimensional stability, and small creep.

In order to ensure the stability of power transmission, the present embodiment provides the link 30 to swing in the horizontal plane to realize power transmission. Specifically, the strip-shaped groove is horizontally formed, and the length of the strip-shaped groove should satisfy the maximum swing amplitude of the connecting rod 30 at the powder sieving cavity wall 20, so that the blocking phenomenon is avoided. When the connecting rod 30 swings in the horizontal plane, the movable partition 10 reciprocates along the axial direction of the strip-shaped groove. This movable partition plate 10 also sets up long banding, and the length and the width of movable partition plate 10 all are greater than the length and the width in bar groove to guarantee that movable partition plate 10 all can cover the bar groove in all home ranges.

Meanwhile, a guiding and compressing structure is arranged on the powder sieving cavity wall 20, and the guiding and compressing structure can realize horizontal guiding of the movable partition plate 10 on one hand and limit the movable partition plate 10 to be tightly attached to the powder sieving cavity wall 20 on the other hand. Specifically, direction compact structure includes first direction pressure strip 21 and second direction pressure strip 22, and first direction pressure strip 21 and second direction pressure strip 22 are installed respectively in the upper and lower both sides in bar groove, and the opposite side of first direction pressure strip 21 and second direction pressure strip 22 all forms the structure of buckling along the axial in bar groove, and the both sides portion of adjustable partition board 10 is embedded into to the structure of buckling respectively, and then realizes adjustable partition board 10 spacing.

Preferably, the powder coating machine is also provided with a movable extension frame 80. Specifically, the movable extension frame 80 is installed at the left side or the right side of the frame, or one movable extension frame 80 may be installed at both the left and right sides. The movable extension frame 80 can extend or retract relative to the frame, thereby conveniently reducing the occupied space of the whole device.

In particular, may be mounted on the frame by means of a slide. When the movable extension frame is needed, the movable extension frame 80 is only required to be pulled out along the slide rail; when the device is not needed to be used, the device can be pushed into the rack along the sliding rail.

The movable extension frame 80 may also be made to include a horizontal support portion and a vertical support portion, wherein the bottom end of the vertical support portion is hinged to the bottom of the frame, one end of the horizontal support portion is hinged to the top end of the vertical support portion, and the other end of the horizontal support portion can be movably clamped to the side portion of the frame. When the movable extension frame 80 is used, only the other end of the horizontal support part needs to be fixedly clamped on the side part of the frame. At this moment, horizontal support portion and vertical support portion form triangular support structure, can place apron 90 on the horizontal support portion for hold other materials.

Preferably, the peripheral dimensions of the cover plate 90 are configured to match the dimensions of the opening of the first powder wrapping container 60 such that the cover plate 90 can be snapped over the opening of the first powder wrapping container 60. When wrapping up in the powder, need not use apron 90 to hold the material this moment, can dismantle apron 90, cover apron 90 simultaneously and detain in the opening part of first powder container 60 of wrapping up in for the sealed first powder of wrapping up in powder container 60, ensure the sanitary safety of wrapping up in the powder.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the gist of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (10)

1. The utility model provides a but powder coating machine of sieve which characterized in that: wrap up in powder container, sieve powder container and second including setting up in the first powder container, the first powder mouth of having seted up in the bottom of wrapping up in the powder container, powder mouth department is provided with the powder partition plate that is used for shielding the powder mouth, sieve powder container is located go out powder mouth below, sieve powder container is connected with the drive arrangement who is used for driving sieve powder container shake, the second is wrapped up in powder container and is located sieve powder container's below.

2. The siftable powder breading machine of claim 1 further characterized by: sunken formation depressed part down in the middle of the first powder container of wrapping up in's bottom, the setting of powder outlet is in the depressed part, separate the powder board and place in the depressed part.

3. The siftable powder breading machine of claim 2 further characterized by: the shape of the powder separating plate is consistent with that of the concave part and is tightly embedded in the concave part, and the thickness of the powder separating plate is smaller than or equal to the concave depth of the concave part.

4. The siftable powder breading machine of claim 3 further characterized by: the second powder wrapping container and the first powder wrapping container are containers with the same structure.

5. The siftable powder breading machine of claim 1 further characterized by: the drive arrangement includes motor, belt drive, dwang and connecting rod, the motor passes through belt drive dwang and rotates, connecting rod one end is articulated with the free end of dwang, the other end of connecting rod articulates the periphery at the sieve powder container.

6. The siftable powder breading machine of claim 5 further characterized by: still include sieve powder chamber wall and floating slab, sieve powder chamber wall set up in sieve powder container with between the drive arrangement, floating slab and the activity laminating of sieve powder chamber wall, the bar groove has been seted up on the sieve powder chamber wall, the last perforation of having seted up of floating slab, the connecting rod passes perforation and bar groove, when the connecting rod drives floating slab and pastes sieve powder chamber wall and remove, the floating slab remains throughout and covers the bar groove.

7. The siftable powder breading machine of claim 6 further characterized by: the strip-shaped groove is horizontally formed, the connecting rod swings in the horizontal plane, and the movable partition plate reciprocates along the axial direction of the strip-shaped groove.

8. The siftable powder breading machine of claim 6 further characterized by: the powder sieving chamber is characterized in that a guide compression structure is arranged on the wall of the powder sieving chamber, the guide compression structure comprises a first guide compression plate and a second guide compression plate, the first guide compression plate and the second guide compression plate are respectively arranged on the upper side and the lower side of the strip-shaped groove, the opposite sides of the first guide compression plate and the second guide compression plate are respectively bent along the axial direction of the strip-shaped groove, and the two side parts of the movable partition plate are respectively embedded into the bent structure.

9. The siftable powder breading machine of claim 1 further characterized by: the movable extension frame is arranged on the side of the rack and can extend or contract relative to the rack, and when the movable extension frame is in an extending state, the cover plate is placed on the extending part of the movable extension frame.

10. The siftable powder breading machine of claim 9 further characterized by: the periphery size cooperation of apron the first opening size setting of wrapping up in powder container makes but the apron lid is buckled in the first opening part of wrapping up in powder container.

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