CN210332902U

CN210332902U - Linkage device of rotary cutting mechanism and material tray and particle spray generating device

Info

Publication number: CN210332902U
Application number: CN201920259426.7U
Authority: CN
Inventors: 林欲晓
Original assignee: Xiamen Jinruiyi Industry And Trade Co ltd
Current assignee: Xiamen Jinruiyi Industry And Trade Co ltd
Priority date: 2019-02-28
Filing date: 2019-02-28
Publication date: 2020-04-17
Anticipated expiration: 2029-02-28

Abstract

The utility model provides a linkage of rotary-cut mechanism and charging tray, include: the drive device drives the material tray to rotate around the horizontal direction. The reversing linkage device reverses the horizontal rotation output by the driving device into rotation in the vertical direction, so that the rotary cutting mechanism is driven to rotate in the vertical direction. The utility model also provides a granule spraying generating device, include: a container for placing dry ice, a rotary cutting mechanism, a material tray and the linkage device. The utility model provides a linkage device of rotary-cut mechanism and charging tray for rotary-cut mechanism and charging tray form the interlock.

Description

Linkage device of rotary cutting mechanism and material tray and particle spray generating device

Technical Field

The utility model relates to a grind into device that the granule is fit for spraying medium and sprays with the cubic.

Background

The dry ice has sublimation property, and is used in the fields of precision injection polishing and edge removing, electronic element cleaning and the like. The finished dry ice product is generally blocky, blocky carbon dioxide needs to be ground into small particles, and then the carbon dioxide particles are sprayed towards the workpiece direction through an accelerating air pump by adopting a spraying device.

In order to achieve the effect, the receiving tray needs to be linked with the rotary cutting mechanism to rotate, so that after the rotary cutting mechanism rotates for a circle to complete rotary cutting, the receiving tray is just rotated to the receiving position to receive the materials.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the main technical problem of providing a linkage device of rotary-cut mechanism and charging tray for rotary-cut mechanism and charging tray form the interlock.

In order to solve the above technical problem, the utility model provides a linkage of rotary-cut mechanism and charging tray, include: the drive device drives the material tray to rotate around the horizontal direction. The reversing linkage device reverses the horizontal rotation output by the driving device into rotation in the vertical direction, so that the rotary cutting mechanism is driven to rotate in the vertical direction.

In a preferred embodiment: the reversing linkage device comprises a first gear linked with a rotating shaft of the driving device and a second gear vertically placed and meshed with the first gear.

The utility model also provides a granule spraying generating device, include: a container for placing dry ice, a rotary cutting mechanism, a material tray and the linkage device.

In a preferred embodiment: the material tray is provided with a material storage area, and the material storage area moves to a blanking position or a discharging position along with the material tray in the rotating process; when the material tray moves to a blanking position, the blanking area is communicated with the back of the rotary cutting mechanism through a blanking channel; when the charging tray moves to the discharging position, one side of the blanking area is communicated with the accelerating air pump, and the other side of the blanking area is communicated with the discharging nozzle.

In a preferred embodiment: the cross section of the container along the vertical direction is quadrilateral, and two diagonal lines of the container respectively extend along the horizontal direction and the vertical direction.

In a preferred embodiment: a first side of the container is provided with a compaction device which pushes the dry ice to a second side opposite to the first side; the rotary cutting mechanism is arranged on the second side; the rotary cutting mechanism comprises a rotary cutting plate, a blade and a supporting plate are fixed on the rotary cutting plate, and the blade inclines from the second side to the first side and exceeds the supporting plate; a gap is reserved among the blade, the supporting plate and the rotary cutting mechanism, an opening is correspondingly formed in the bottom surface of the container below the gap, and the rotary cut dry ice particles fall into the blanking channel from the opening.

In a preferred embodiment: the container is provided with a blowing port above the rotary cutting mechanism.

In a preferred embodiment: the blade and the supporting plate are in the same plane, and the blade tip end of the blade extends outwards to form 0.5-2mm of the supporting plate.

In a preferred embodiment: a first side of the container is provided with a compaction device which pushes the dry ice to a second side opposite to the first side; the rotary cutting mechanism is arranged on the second side; the rotary cutting mechanism comprises a rotary cutting plate, a scraper is fixed on the rotary cutting plate, the scraper is provided with a plane, an opening and a blade point, and the blade point extends out of the opening; a gap is reserved between the scraper and the rotary cutting mechanism, an opening is correspondingly formed in the bottom surface of the container below the gap, and the rotary cut dry ice particles fall into the blanking channel from the opening.

Compared with the prior art, the technical scheme of the utility model possess following beneficial effect:

1. the utility model provides a pair of interlock of rotary-cut mechanism and charging tray drives charging tray and rotary-cut mechanism simultaneously and rotates along different directions through a drive arrangement and switching-over interlock, ensures that rotary-cut mechanism rotates a week and accomplishes a rotary-cut back, and the take-up (stock) pan just in time goes to the material position of connecing and connects the material.

2. The utility model provides a pair of granule spraying generating device, the container is the quadrangle along the cross-section of vertical direction, and its two diagonals extend along horizontal direction and vertical direction respectively. Therefore, the dry ice blocks can be effectively prevented from rotating in the rotary cutting process.

3. The utility model provides a pair of granule spraying generating device, the utility model discloses a carry out the rotary-cut in the container that the design was concentrated with the dry ice to it is regional to establish the collection when the export is direct to be exported bottom the container, and the route is simple controllable, can be airtight in whole passageway, introduces the rotary-cut environment with the negative pressure of jet pump like this, makes the transport of dry ice granule even unanimous.

Drawings

Fig. 1 is a structural view of a particle spray generating apparatus according to a preferred embodiment 1 of the present invention;

FIG. 2 is another perspective view of a particle spray generating apparatus according to a preferred embodiment of the present invention;

fig. 3 is a schematic view of a rotary cutting mechanism in the preferred embodiment 1 of the present invention;

fig. 4 is an exploded view of the rotary cutting mechanism in the preferred embodiment 1 of the present invention;

fig. 5 is a schematic view of a rotary cutting mechanism in a preferred embodiment 2 of the present invention;

fig. 6 is an exploded view of the rotary cutting mechanism in the preferred embodiment 2 of the present invention;

fig. 7 is a sectional view of a doctor blade according to a preferred embodiment 2 of the present invention.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and the detailed description.

Example 1

Referring to fig. 1-4, a particle spray generating device, comprising: the device comprises a container 2 for placing dry ice 1, a rotary cutting mechanism 3, a material tray 4 and a linkage device 5 for linking the rotary cutting mechanism 3 and the material tray 4; the interlocking device 5 is used for interlocking the rotary cutting mechanism 3 and the material tray 4 to rotate.

The interlocking device 5 includes: the drive device drives the material tray to rotate around the horizontal direction. The reversing linkage device reverses the horizontal rotation output by the driving device into rotation in the vertical direction, so as to drive the rotary cutting mechanism 3 to rotate in the vertical direction.

Specifically, the reversing linkage device comprises a first gear 51 linked with a rotating shaft of the driving device, and a second gear 52 vertically arranged and meshed with the first gear 51. The particle spray generating device is further provided with a movable third gear 53, and the rotary cutting mechanism 3 is coaxially and synchronously arranged with a fourth gear 54 through a rotating shaft 31. When the third gear 53 moves to the meshing position, the third gear 53 meshes with the second gear 52 and the fourth gear 31, respectively, and is in action and linkage engagement. When the rotary cutting mechanism 3 is required to stop rotating, the third gear 53 is only required to be moved out of the meshing position.

The material tray 4 is provided with a material storage area, and the material storage area moves to a blanking position or a discharging position along with the material tray 4 in the rotating process; when the material tray 4 moves to the blanking position, the blanking area is communicated with the back surface of the rotary cutting mechanism 3 through the blanking channel, so that dry ice cut by the rotary cutting mechanism 3 is collected into the material tray; when the material tray 4 moves to the discharging position, one side of the blanking area is communicated with the accelerating air pump, and the other side of the blanking area is communicated with the discharging nozzle. Therefore, when the tray 4 moves to the discharging position, the dry ice particles in the tray 4 are accelerated by the acceleration air pump and then are ejected from the discharging nozzle.

The device can be used as a cleaning machine, when in use, only the discharge nozzle is put into a container to be cleaned, high-pressure dry ice particles enter the container to be cleaned, and dirty objects in the container are blown out, so that the cleaning purpose is realized.

The cross-section of the container 2 along the vertical direction is quadrangular, and two diagonal lines thereof extend along the horizontal direction and the vertical direction, respectively. Therefore, the dry ice 1 can be effectively prevented from rotating in the rotary cutting process.

A first side of the container 2 is provided with a compacting device 21 which pushes the dry ice 1 towards a second side opposite to the first side; the rotary cutting mechanism 3 is arranged on the second side; the rotary cutting mechanism 3 comprises a rotary cutting plate 34, and the blade 32 and the support plate 33 are fixed on the rotary cutting plate 34, so that the support plate 33 and the rotary cutting plate 34 are arranged in parallel at intervals. The blade 32 and the support plate 33 are in the same plane, and the blade 32 inclines from the second side to the first side and exceeds the support plate 33; such that the blade end of the blade 32 extends outwardly beyond the support plate 330.5-2 mm.

A gap is reserved among the blade 32, the supporting plate 33 and the rotary cutting plate 34, an opening is correspondingly arranged on the bottom surface of the container 1 below the gap, and the rotary cut dry ice particles fall into the blanking channel from the opening.

The container 2 is provided with an air blowing port 22 above the rotary cutting mechanism 3. The air blowing port 22 is arranged, air pressure can be pumped into the air inlet end of the air blowing port 22, dry ice blanking is facilitated, the dry ice agglomeration is avoided, and discharging is not uniform.

Example 2

Referring to fig. 5 to 7, in the present embodiment: a first side of said container 2 is provided with a compacting device 21 which pushes the dry ice towards a second side opposite to the first side; the rotary cutting mechanism 3 is arranged on the second side; the rotary cutting mechanism 3 comprises a rotary cutting plate 34, a scraper 35 is fixed on the rotary cutting plate 34, the scraper 35 has a plane 351, an opening 352 and a blade 353, and the blade 353 extends out of the opening 352; a gap is reserved between the scraper 35 and the rotary cutting mechanism 3, an opening is correspondingly formed in the bottom surface of the container 2 below the gap, the scraper 35 rotates along with the rotary cutting mechanism 3, so that the scraper 35 and the side surface of the dry ice 1 are subjected to rotary cutting, and the rotary-cut dry ice particles fall into the blanking channel from the opening.

The above is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and variations or technical scope of the present invention disclosed may be easily conceived by those skilled in the art. Alternatives are intended to be within the scope of the invention. Therefore, the protection scope of the present invention should be determined by the scope of the claims.

Claims

1. The utility model provides a linkage of rotary-cut mechanism and charging tray which characterized in that includes: the driving device drives the material tray to rotate around the horizontal direction; the reversing linkage device reverses the horizontal rotation output by the driving device into rotation in the vertical direction and drives the rotary cutting mechanism to rotate in the vertical direction.

2. The interlocking device of a rotary cutting mechanism and a material tray according to claim 1, characterized in that: the reversing linkage device comprises a first gear linked with a rotating shaft of the driving device and a second gear vertically placed and meshed with the first gear.

3. A particle spray generating device, comprising: a container for placing dry ice, a rotary cutting mechanism, a tray and a linkage device according to claim 1 or 2.

4. A particulate spray generating apparatus as claimed in claim 3, wherein: the material tray is provided with a material storage area, and the material storage area moves to a blanking position or a discharging position along with the material tray in the rotating process; when the material tray moves to a blanking position, the blanking area is communicated with the back of the rotary cutting mechanism through a blanking channel; when the charging tray moves to the discharging position, one side of the blanking area is communicated with the accelerating air pump, and the other side of the blanking area is communicated with the discharging nozzle.

5. A particulate spray generating apparatus as claimed in claim 3, wherein: the cross section of the container along the vertical direction is quadrilateral, and two diagonal lines of the container respectively extend along the horizontal direction and the vertical direction.

6. A particle spray generating apparatus as claimed in any one of claims 3 to 5, wherein: a first side of the container is provided with a compaction device which pushes the dry ice to a second side opposite to the first side; the rotary cutting mechanism is arranged on the second side; the rotary cutting mechanism comprises a rotary cutting plate, a blade and a supporting plate are fixed on the rotary cutting plate, and the blade inclines from the second side to the first side and exceeds the supporting plate; a gap is reserved among the blade, the supporting plate and the rotary cutting mechanism, an opening is correspondingly formed in the bottom surface of the container below the gap, and the rotary cut dry ice particles fall into the blanking channel from the opening.

7. A particulate spray generating apparatus as claimed in claim 6, wherein: the container is provided with a blowing port above the rotary cutting mechanism.

8. A particulate spray generating apparatus as claimed in claim 6, wherein: the blade and the supporting plate are in the same plane, and the blade tip end of the blade extends outwards to form 0.5-2mm of the supporting plate.

9. A particle spray generating apparatus as claimed in any one of claims 3 to 5, wherein: a first side of the container is provided with a compaction device which pushes the dry ice to a second side opposite to the first side; the rotary cutting mechanism is arranged on the second side; the rotary cutting mechanism comprises a rotary cutting plate, a scraper is fixed on the rotary cutting plate, the scraper is provided with a plane, an opening and a blade point, and the blade point extends out of the opening; a gap is reserved between the scraper and the rotary cutting mechanism, an opening is correspondingly formed in the bottom surface of the container below the gap, and the rotary cut dry ice particles fall into the blanking channel from the opening.