CN111846298A

CN111846298A - Solid particle subpackaging structure

Info

Publication number: CN111846298A
Application number: CN202010628235.0A
Authority: CN
Inventors: 黄毅华; 郑炜成; 陈建刚; 刘彩云; 王刚; 钟文俊; 韦毅; 潘志刚; 杨嘉嘉; 丛飞
Original assignee: Hangzhou Wahaha Precision Machinery Co ltd
Current assignee: Hangzhou Wahaha Precision Machinery Co ltd
Priority date: 2020-07-01
Filing date: 2020-07-01
Publication date: 2020-10-30

Abstract

The invention discloses a solid particle subpackaging structure which comprises a tray base plate and a blanking plate, wherein the blanking plate is arranged above the tray base plate and rotates relative to the tray base plate, a plurality of blanking ports are arranged on the blanking plate, the blanking ports are of inverted cone structures, and openings at the upper ends of the blanking ports are smaller than openings at the lower ends of the blanking ports. The invention provides a solid particle subpackaging structure which can ensure that particle raw materials can be stably and temporarily stored in a blanking port in a high-speed rotation state.

Description

Solid particle subpackaging structure

Technical Field

The invention relates to the technical field of food filling equipment, in particular to a solid particle subpackaging structure.

Background

When canned food is filled, the food quantity in each food can needs to be ensured to be consistent as much as possible, and particularly, the solid particle quantity in each food can needs to be ensured to be consistent when solid particles are filled. Among the prior art, in order to guarantee that the solid particle is even, generally need carry out the partial shipment, the centrifugal force that the blanking dish produced is rotated through high-speed to the partial shipment equipment among the prior art, goes into the even dispersion of granule in the charging tray and inlays the blanking mouth around the charging tray, and the granule is kept in and waits for the filling in the blanking mouth of back taper structure. The prior blanking openings are generally straight-through or tapered. Adopt direct blanking mouth structure, under blanking dish quiescent condition, the granule can normally get into the blanking mouth and buffer memory, nevertheless after the blanking dish begins high-speed gyration, the intraoral granule of blanking receives centrifugal force and holds in the palm under the dual function of the frictional force of chassis, begins the collision of blanking mouth inner wall, beats, breaks away from the blanking mouth at last, and the result is that the granule can not keep in the blanking mouth, can't normally wait for the filling. The conical blanking port is also the same, so that the particles can more easily enter the blanking port, but the particles cannot be temporarily stored under the high-speed rotation of the blanking disk. Eventually resulting in a portion of the food can being free of the solid particles. Therefore, a solid particle split charging structure is needed to be designed, so that the particle raw materials can be stably and temporarily stored in the blanking port in a high-speed rotation state, and possibility is provided for subsequent high-speed addition.

Chinese patent application publication No. CN106697343A, the publication date is 2017, 05 and 24 days, the name is "a granule partial shipment device of traditional chinese medicine solid particle", a granule partial shipment device of traditional chinese medicine solid particle is disclosed, which comprises a frame, the helicla flute, granule passageway and partial shipment mechanism, the top of frame is provided with a plurality of helicla flutes, a plurality of helicla flutes respectively with install a plurality of granule passageways through connection in the frame, same partial shipment mechanism is connected jointly to the bottom of a plurality of granule passageways, partial shipment mechanism's overall structure is hourglass hopper-shaped, partial shipment mechanism is enclosed by roof and curb plate, and a plurality of gussets are installed to the inner wall of curb plate, all overlap on the excircle terminal surface of every granule passageway and be equipped with one section support portion. But this device is not suitable for portioning when filling food.

Disclosure of Invention

The invention provides a solid particle subpackaging structure which can ensure that particle raw materials can be stably and temporarily stored in a blanking port in a high-speed rotation state in order to overcome the problems that after the blanking disk starts to rotate at a high speed, particles in the blanking port begin to collide with the inner wall of the blanking port under the dual action of centrifugal force and friction force of a supporting bottom disk, and then jump and finally separate from the blanking port in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a solid particle partial shipment structure, includes and holds in the palm chassis and blanking dish, and the blanking dish sets up and holds in the palm the chassis rotation above holding in the palm the chassis relatively, is equipped with a plurality of blanking mouth on the blanking dish, the blanking mouth is the back taper structure, and blanking mouth upper end opening is less than the lower extreme opening.

Among the above-mentioned technical scheme, the blanking dish is rotating the axis, the solid particle who treats the partial shipment has been put on the blanking dish, when blanking dish is static or rotatory, solid particle can get into the blanking mouth from the blanking mouth upper end, after solid particle got into the blanking mouth, when the blanking dish rotates, under the effect of centrifugal force, solid particle hugs closely the blanking mouth and leans on the interior lateral wall that revolves in the outside, because the existence of back taper, solid particle has received inside and decurrent reaction force, and rotation rate is big more, centrifugal force's increase, the downward pressure that solid particle received also increases, make the stable saving of solid particle wait to add in the blanking mouth. Meanwhile, due to the design that the blanking port is small at the top and big at the bottom, solid particles in the blanking port can deviate from the center of the blanking port under the dual actions of friction and centrifugal force and are close to the outer side of the blanking port, so that the solid particles are not easy to separate. When the blanking port rotates to a specified position, the through hole is arranged on the tray bottom, and solid particles fall into the bottle below from the through hole to realize split charging.

Preferably, the taper of the blanking opening is 10-20 °. The proper inverted cone angle of 10-20 degrees is obtained through design calculation and multiple tests, and the stable addition of solid particles at a higher speed is ensured. The solid particles are not easy to separate from the blanking port, and the solid particles can be ensured to easily enter the blanking port.

Preferably, the blanking ports are uniformly distributed along the outer edge of the blanking disc. When the blanking plate rotates, the solid particles move towards the outer edge of the blanking plate under the action of centrifugal force, and the structure can enable the solid particles to easily enter the blanking port.

Preferably, a gap is arranged between the tray base plate and the blanking plate. The gap is smaller than the size of the solid particles, so that the machining and mounting precision between the tray base and the blanking tray can be reduced.

Preferably, a stop block is arranged at the top of the blanking opening close to the outer side. The solid particle in the blanking port can deviate from the center of the blanking port under the dual action of friction and centrifugal force, and is close to the outer side of the blanking port, and the stop block can advance one pen to avoid the solid particle from jumping upwards and popping out of the blanking port.

Preferably, the upper end face of the blanking plate is provided with a guide taper hole, and the lower end of the guide taper hole is communicated with the blanking port. The guiding taper hole facilitates solid particles on the blanking disc to enter the blanking port, and the situation that no solid particles exist in the blanking port is reduced.

Preferably, the upper end surface of the supporting base plate is provided with an inclined surface, the inclined surface is arranged at a position corresponding to the blanking port, and the height of the outer side of the inclined surface is lower than the height of the inner side of the inclined surface. The inclined surface can guide the solid particles to the outer side, and the possibility that the solid particles are ejected out of the blanking port is further reduced.

The utility model provides a solid particle partial shipment structure, includes and holds in the palm chassis and blanking dish, the blanking dish sets up and holds in the palm the chassis rotation above holding in the palm the chassis relatively, is equipped with a plurality of blanking mouth on the blanking dish, the lateral wall that the blanking mouth is close to the outside is the toper lateral wall, and blanking mouth upper end opening is less than the lower extreme opening.

Among the above-mentioned technical scheme, the blanking dish is rotating the axis, the solid particle who treats the partial shipment has been put on the blanking dish, when the blanking dish is static or rotatory, solid particle can get into the blanking mouth from the blanking mouth upper end, after solid particle got into the blanking mouth, when the blanking dish rotates, under the effect of centrifugal force, the solid particle hugs closely outer one side of leaning on of blanking mouth inside wall, because the existence of toper lateral wall, solid particle has received inside decurrent reaction force, the rotation rate is big more, centrifugal force's increase, the downward pressure that solid particle received also increases, make the stable saving of solid particle wait to add in the blanking mouth. Meanwhile, due to the design that the blanking port is small at the top and big at the bottom, solid particles in the blanking port can deviate from the center of the blanking port under the dual actions of friction and centrifugal force and are close to the outer side of the blanking port, so that the solid particles are not easy to separate. When the blanking port rotates to a specified position, the through hole is arranged on the tray bottom, and solid particles fall into the bottle below from the through hole to realize split charging.

The utility model provides a solid particle partial shipment structure, includes and holds in the palm chassis and blanking dish, blanking dish setting just holds in the palm the chassis rotation relatively in the support chassis top, is equipped with a plurality of blanking mouth on the blanking dish, the top that blanking mouth is close to the outside is equipped with the dog.

Among the above-mentioned technical scheme, the blanking dish is rotating the axis, has put the solid particle who treats the partial shipment on the blanking dish, when the blanking dish is static or rotatory, the solid particle can get into the blanking mouth from the blanking mouth upper end, after the solid particle got into the blanking mouth, when the blanking dish rotated, under the effect of centrifugal force, the solid particle hugged closely outer one side that leans on of blanking mouth inside wall, the position of dog below promptly, because the existence of dog, the solid particle is difficult to pop out the blanking mouth, make the stable saving of solid particle wait for in the blanking mouth to add. When the blanking port rotates to a specified position, the through hole is arranged on the tray bottom, and solid particles fall into the bottle below from the through hole to realize split charging.

The invention has the beneficial effects that: (1) the particle raw materials can be ensured to be stably and temporarily stored in the blanking port in a high-speed rotation state, and possibility is provided for subsequent high-speed addition. (2) The structure is simple, the processing is convenient, and only the blanking disc needs to be replaced when the existing equipment is modified and released; (3) the solid particle raw materials with different particle sizes can be adapted by changing the size and the taper of the blanking port.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of example 2;

FIG. 3 is a schematic structural view of example 4;

FIG. 4 is a schematic structural view of example 5.

In the figure: the automatic blanking device comprises a support chassis 1, an inclined surface 1.1, a blanking disc 2, a blanking port 2.1, a stop block 2.2, a guide taper hole 2.3, a tapered side wall 2.4 and a blanking block 3.

Detailed Description

The invention is further described with reference to the following figures and specific embodiments.

Example 1:

as shown in fig. 1, a solid particle split charging structure comprises a tray base 1 and a blanking disc 2, wherein the blanking disc 2 is arranged above the tray base 1 and rotates relative to the tray base 1, and a gap is arranged between the tray base 1 and the blanking disc 2; the blanking disc 2 is provided with a plurality of blanking ports 2.1, the blanking ports 2.1 are uniformly distributed along the outer edge of the blanking disc 2, the blanking ports 2.1 are in an inverted cone structure, and the conicity of the blanking ports 2.1 is 10-20 degrees; the opening at the upper end of the blanking port 2.1 is smaller than the opening at the lower end.

Among the above-mentioned technical scheme, blanking disc 2 rotates round the axis, the solid particle who treats the partial shipment has been put on blanking disc 2, when blanking disc 2 is static or rotatory, solid particle can follow blanking mouth 2.1 upper end and get into blanking mouth 2.1, solid particle gets into behind the blanking mouth 2.1, blanking disc 2 is rotatory, under the effect of centrifugal force, solid particle hugs closely the interior lateral wall of spiraling that blanking mouth 2.1 leans on the outside, because the existence of back taper, solid particle has received inside and decurrent reaction force, and rotation rate is big more, centrifugal force's increase, the downward pressure that solid particle received also increases, make the stable saving of solid particle wait to add in blanking mouth 2.1. Meanwhile, due to the design that the blanking port 2.1 is small at the top and big at the bottom, solid particles in the blanking port 2.1 can deviate from the center of the blanking port 2.1 under the double actions of friction force and centrifugal force and are close to the outer side of the blanking port 2.1, so that the solid particles are not easy to separate. When the blanking port 2.1 rotates to a specified position, the supporting base plate 1 is provided with a through hole, and solid particles fall into a bottle below from the through hole to realize split charging. In the description of the present document, the side close to the rotation center is the inner side, and the side far from the rotation center is the outer side.

Example 2:

as shown in fig. 2, on the basis of embodiment 1, a stopper 2.2 is arranged at the top of the blanking port 2.1 close to the outer side; the upper end face of blanking plate 2 is equipped with direction taper hole 2.3, and the lower extreme and the blanking mouth 2.1 intercommunication of direction taper hole 2.3. An inclined surface 1.1 is arranged on the upper end surface of the supporting base plate 1, the inclined surface 1.1 is arranged at a position corresponding to the blanking port 2.1, and the height of the outer side of the inclined surface 1.1 is lower than the height of the inner side of the inclined surface 1.1.

Example 3:

as shown in fig. 2, on the basis of embodiment 1, a blanking block 3 is arranged on the blanking disc 2, the blanking block 3 is in threaded connection or clamped connection with the blanking disc 2, and a blanking port 2.1 is arranged on the blanking block 3. The structure can conveniently replace the blanking block 3 to adapt to different solid particles.

Solid particles in the blanking port 2.1 can deviate from the center of the blanking port 2.1 under the dual action of friction force and centrifugal force, and are close to the outer side of the blanking port 2.1, and the stop block 2.2 can prevent the solid particles from bouncing up and bouncing out of the blanking port 2.1. The guiding taper hole 2.3 is convenient for solid particles on the blanking disc 2 to enter the blanking port 2.1, and the situation that no solid particles exist in the blanking port 2.1 is reduced. The inclined surface 1.1 can guide the solid particles to the outside, and further reduces the possibility that the solid particles are ejected out of the blanking port 2.1.

Example 4:

as shown in fig. 3, a solid particle partial shipment structure, including holding in the palm chassis 1 and blanking disc 2, blanking disc 2 sets up and holds in the palm chassis 1 top and rotate relatively, is equipped with a plurality of blanking mouth 2.1 on blanking disc 2, the lateral wall that blanking mouth 2.1 is close to the outside is toper lateral wall 2.4, and blanking mouth 2.1 upper end opening is less than the lower extreme opening.

Among the above-mentioned technical scheme, blanking disc 2 rotates around the axis, the solid particle who treats the partial shipment has been put on blanking disc 2, when blanking disc 2 is static or rotatory, solid particle can follow blanking mouth 2.1 upper end and get into blanking mouth 2.1, solid particle gets into behind the blanking mouth 2.1, blanking disc 2 is rotatory, under the effect of centrifugal force, solid particle hugs closely outer one side of 2.1 inside walls of blanking mouth, because the existence of toper lateral wall 2.4, solid particle has received inside decurrent reaction force, the rotation rate is big more, centrifugal force's increase, the downward pressure that solid particle received also increases, make stable the preserving of solid particle wait to add in blanking mouth 2.1. Meanwhile, due to the design that the blanking port 2.1 is small at the top and big at the bottom, solid particles in the blanking port 2.1 can deviate from the center of the blanking port 2.1 under the double actions of friction force and centrifugal force and are close to the outer side of the blanking port 2.1, so that the solid particles are not easy to separate. When the blanking port 2.1 rotates to a specified position, the supporting base plate 1 is provided with a through hole, and solid particles fall into a bottle below from the through hole to realize split charging.

Example 5:

as shown in fig. 4, a solid particle subpackage structure comprises a supporting base plate 1 and a blanking plate 2, wherein the blanking plate 2 is arranged above the supporting base plate 1 and rotates relative to the supporting base plate 1, a plurality of blanking openings 2.1 are formed in the blanking plate 2, and a stop block 2.2 is arranged at the top of each blanking opening 2.1, which is close to the outer side.

Among the above-mentioned technical scheme, blanking disc 2 rotates round the axis, the solid particle who treats the partial shipment has been put on blanking disc 2, when blanking disc 2 is static or rotatory, solid particle can follow blanking mouth 2.1 upper end and get into blanking mouth 2.1, solid particle gets into behind the blanking mouth 2.1, blanking disc 2 is rotatory, under the effect of centrifugal force, solid particle hugs closely outer one side of leaning on of blanking mouth 2.1 inside wall, the position of dog 2.2 below promptly, because the existence of dog 2.2, solid particle is difficult to pop out blanking mouth 2.1, make stable the preserving of solid particle wait to add in blanking mouth 2.1. When the blanking port 2.1 rotates to a specified position, the supporting base plate 1 is provided with a through hole, and solid particles fall into a bottle below from the through hole to realize split charging.

Example 6:

on the basis of embodiment 1, a blanking through groove is formed in the tray, the blanking through groove is an arc-shaped long groove, and a plurality of blanking ports are arranged above the blanking through groove correspondingly. A blowing device is arranged right above the blanking through groove and fixed with the support frame, the blowing device is arranged above the blanking disc, and a blowing port is arranged on the blowing device and is right opposite to the blanking through groove. The structure can control the blanking time by increasing the length of the blanking through groove, and can ensure that the enough time of solid particles falls into the food can, thereby avoiding the condition of neglected loading. Blow off aseptic compressed gas through gas blowing device, blow off the raw materials from the blanking mouth in, the raw materials is successfully added and is got into the food jar, for falling by gravity nature, above-mentioned scheme can shorten the blanking time, raises the efficiency. The blowing means also prevent solid particles from entering the blanking opening there.

Claims

1. The utility model provides a solid particle partial shipment structure, includes and holds in the palm chassis and blanking dish, blanking dish setting just holds in the palm the chassis rotation relatively in the support chassis top, is equipped with a plurality of blanking mouth on the blanking dish, characterized by, blanking mouth is the back taper structure, and blanking mouth upper end opening is less than the lower extreme opening.

2. A solid particulate dispensing structure as claimed in claim 1 wherein the blanking opening is tapered at an angle of between 10 ° and 20 °.

3. A solid particulate dispensing structure as claimed in claim 1 wherein the blanking openings are evenly distributed along the outer edge of the blanking tray.

4. A solid particle dispensing structure as claimed in claim 1, 2 or 3, wherein a gap is provided between said base plate and said blanking plate.

5. A solid particle dispensing structure as claimed in claim 1, 2 or 3, wherein the top of the blanking port near the outer side is provided with a stop.

6. A solid particle dispensing structure as claimed in claim 1, 2 or 3, wherein the upper end surface of the blanking plate is provided with a guiding taper hole, and the lower end of the guiding taper hole is communicated with the blanking port.

7. A solid particle dispensing structure as claimed in claim 1, 2 or 3, wherein the upper end surface of the tray is provided with an inclined surface, the inclined surface is arranged at a position corresponding to the discharging port, and the height of the outer side of the inclined surface is lower than the height of the inner side of the inclined surface.

8. The utility model provides a solid particle partial shipment structure, includes and holds in the palm chassis and blanking dish, the blanking dish sets up and holds in the palm the chassis rotation above holding in the palm the chassis and relatively, is equipped with a plurality of blanking mouth on the blanking dish, characterized by, the lateral wall that the blanking mouth is close to the outside is the toper lateral wall, and blanking mouth upper end opening is less than the lower extreme opening.