CN218464912U - Powder transfer mechanism and powder conveying system - Google Patents

Abstract

A powder transfer mechanism and powder transport system, the powder transfer mechanism comprising: the powder container comprises a supporting bottom plate, a limiting shaft, a transfer plate and a powder container; the transfer plate is provided with an offset port, the limiting shaft extends into the offset port, and the bottom of the transfer plate is in contact with the supporting bottom plate; the transfer plate is provided with a plurality of container mounting stations, and the powder containers are respectively arranged at the container mounting stations; the transfer plate drives the powder container to rotate to different positions of the support base plate. And the powder conveying system conveys the powder transfer mechanism to different powder processing mechanisms through a conveying device. This scheme can rotate the transfer board in the data send process of powder, and the powder container that drives container installation station arranges different positions in, and then drives the powder container and aims at or avoid the processing region of powder processing mechanism, and then avoids the powder to need tear out in order to avoid the condition of powder processing mechanism in the course of working to the solution adds the problem that needs to shift other powders in addition and lead to machining efficiency low to the powder.

Description

Powder transfer mechanism and powder conveying system

Technical Field

The utility model relates to a powder processing device technical field especially relates to a powder shifts mechanism and powder conveying system.

Background

In the existing powder processing device, in order to realize that a plurality of powders are in the same processing environment, the interference of different environmental factors on different powders is eliminated; thereby, the transfer mechanism for transferring powder is provided with a plurality of powder containers, and the powder containers at different positions are used for placing different kinds of powder or different processing modes of powder; in the prior art, in order to make part of the powder containers perform a certain processing procedure, other powder containers are often required to be detached; on one hand, it takes a lot of time to remove and install the powder container, and on the other hand, the removal and non-removal of the powder container can cause the difference of the powder processing parameters due to the different environment of the powder, and it is difficult to examine the performance of the powder under the analysis of the control variables.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a powder shifts mechanism, it can rotate the board with shifting in the data send process of powder, and the powder container that drives container installation station arranges different positions in, and then drives the powder container and aims at or avoid the processing region of powder processing mechanism, and then avoids the powder to need tear open out in order to avoid the condition of powder processing mechanism in the course of working.

The utility model discloses still provide a powder conveying system, it conveys foretell powder transfer mechanism to different powder processing mechanism through conveyer.

To achieve the purpose, the utility model adopts the following technical proposal:

a powder transfer mechanism comprising: the device comprises a support bottom plate, a limiting shaft, a transfer plate and a powder container;

the bottom end of the limiting shaft is arranged on the supporting bottom plate; the transfer plate is provided with an offset port, the limiting shaft extends into the offset port, and the bottom of the transfer plate is in contact with the support bottom plate;

the transfer plate is provided with a plurality of container mounting stations, and the powder containers are respectively arranged at the container mounting stations; the transfer plate rotates around the limiting shaft to drive the powder container to rotate to different positions of the supporting bottom plate.

Preferably, the supporting bottom plate is provided with limiting grooves with upward openings on a plurality of side edges; the transfer board is connected to at least one limiting groove;

the transfer plate firstly rises along the length direction of the limiting shaft, so that after the transfer plate is separated from one limiting groove, the transfer plate rotates and is adjusted to descend to abut against the other limiting groove.

Preferably, the method further comprises the following steps: a handle member;

the handle piece is arranged on the transfer plate and used for driving the transfer plate to move.

Preferably, the upper end of the limiting shaft is provided with a limiting head.

Preferably, the limiting head is provided with a handle groove; the handle piece is clamped in the handle groove, so that the transfer plate is suspended and fixed.

Preferably, the two handle grooves intersect at an included angle, and each handle groove is correspondingly parallel to one of the limiting grooves.

Preferably, the handle member comprises: a middle connecting piece and a handle part;

the two handle parts are symmetrically connected to two ends of the middle connecting piece; the upper end of the handle part is connected with the middle connecting piece, and the lower end of the handle part is rotatably connected with the transfer plate; the middle connecting piece is parallel to the transfer plate and clamped in the handle groove.

Preferably, a metal piece is arranged on the bottom surface of the transfer plate; the upper surface of the supporting bottom plate is provided with a magnet; the transfer plate is magnetically limited on the upper surface of the supporting bottom plate.

A powder transport system comprising: a conveying device, a powder processing mechanism and the powder transferring mechanism;

the powder transfer mechanism is arranged at the conveying end of the conveying device, and the conveying device is used for conveying the powder transfer mechanism to the processing area of the powder processing mechanism; the transfer plate rotates around a limiting shaft until the powder containers in partial areas are aligned to the processing area, and the powder containers in the rest areas avoid the processing area.

Preferably, the method further comprises the following steps: a manipulator; the manipulator is used for driving the transfer plate to rotate and move up and down.

The utility model provides a technical scheme can include following beneficial effect:

this scheme provides a powder transfer mechanism, it can rotate the transfer board in the data send process of powder, the powder container that drives container installation station arranges different positions in, and then the powder that drives the powder container aims at or avoids the processing area of powder treatment mechanism, and then avoid the powder to need tear out in order to avoid the condition of powder treatment mechanism in the course of working, thereby the solution adds the problem that needs shift other powders in addition and lead to machining efficiency low to the powder, this scheme can reduce the time that the powder shifted.

Drawings

FIG. 1 is a schematic diagram of one embodiment of a powder processing device being transported to a transport device;

FIG. 2 is a schematic structural diagram of one embodiment of a transfer plate suspended above a support base;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a top view of one embodiment of a powder transport system.

Wherein:

a conveying device 01, a powder transfer mechanism 02, a powder processing mechanism 03, and a manipulator 04; a processing region 021;

the device comprises a supporting bottom plate 1, a limiting shaft 2, a transfer plate 3 and a powder container 4; a handle member 5;

a limiting groove 11;

an offset port 31; a container mounting station 32;

a stopper head 51; a handle groove 52; a middle connecting piece 53, a handle part 54; a metal piece 55; and a magnet 56.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, features defined as "first", "second", may explicitly or implicitly include one or more of the described features. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The technical solution of the present solution is further explained by the following embodiments with reference to the accompanying drawings.

A powder transfer mechanism comprising: the device comprises a supporting bottom plate 1, a limiting shaft 2, a transfer plate 3 and a powder container 4;

the bottom end of the limiting shaft 2 is arranged on the supporting bottom plate 1; the transfer plate 3 is provided with an offset opening 31, the limiting shaft 2 extends into the offset opening 31, and the bottom of the transfer plate 3 is in contact with the support bottom plate 1;

the transfer plate 3 is provided with a plurality of container mounting stations 32, and the powder containers 4 are respectively arranged at the container mounting stations 32; the transfer plate 3 rotates around the limiting shaft 2 to drive the powder container 4 to rotate to different positions of the supporting bottom plate 1.

This scheme provides a powder transfer mechanism, it can be in the data send process of powder with transfer board 3 rotates, the powder container 4 that drives container installation station 32 arranges different positions in, and then the powder that drives powder container 4 aligns or avoids the treatment area 021 of powder treatment mechanism 03, and then avoid the powder to need tear out in order to avoid the condition of powder treatment mechanism 03 in the course of working, thereby the solution adds the problem that needs to shift other powders in addition and lead to machining efficiency low to the powder, this scheme can reduce the time that the powder shifted.

Specifically, the transfer plate 3 is provided with a plurality of container mounting stations 32, the container mounting stations 32 being for mounting the powder containers 4; in the initial state, the bottom of the transfer plate 3 contacts the supporting base plate 1, for example, as shown in fig. 4, the powder container 4 located at the right container mounting station 32 enters the processing region 021 of the powder processing mechanism 03 under the driving of the conveyor 01; if the right-side powder container 4 does not need to be processed and needs to avoid the processing area 021, the transfer plate 3 may be rotated, the transfer plate 3 may rotate around the limiting shaft 2 as a rotation axis, the position of the original right-side powder container 4 may change, and when the conveyor 01 moves to the processing area 021, the original right-side powder container 4 may deviate from the processing area 021. Simultaneously, this scheme also can be at the in-process that shifts board 3 and rotate the regulation, adjusts the former left side powder container 4 that needs to handle to aim at in processing region 021, has both realized the processing of partial powder, has avoided partial powder to get into processing region 021 again, has improved the flexibility of multiple powder when processing simultaneously, and then avoids the powder to tear out in order to avoid the condition of powder processing mechanism 03 in the course of working to solve the problem that powder machining efficiency is low.

Preferably, the supporting base plate 1 is provided with limiting grooves 11 with upward openings on a plurality of side edges; the transfer plate 3 is clamped in at least one limiting groove 11;

the transfer plate 3 firstly rises along the length direction of the limiting shaft 2, so that after the transfer plate 3 is separated from one of the limiting grooves 11, the transfer plate 3 descends to abut against the other limiting groove 11 after being adjusted by rotation.

Limiting groove 11 is used for spacing the position of transferring board 3, and the inner wall of limiting groove 11 contacts in the lateral wall of transferring board 3 to the position of fixed transferring board 3, and then avoids transferring board 3 to have the tendency of rotating in powder transfer mechanism 02's data send process, stabilizes the position of a plurality of powder container 4 from this.

Preferably, the method further comprises the following steps: a handle member 5;

the handle piece 5 is arranged on the transfer plate 3 and used for driving the transfer plate 3 to move.

According to the scheme, the handle part 5 can be driven manually or mechanically, so that the transfer plate 3 is driven to move by the handle part 5; when powder container 4 is shifted to needs, handle 5 can drive and shift board 3 and rise along spacing axle 2's direction of height, shifts board 3 and breaks away from one of them spacing groove 11, and handle 5 drives again and shifts board 3 around spacing axle 2 rotation, shifts board 3 and rotates certain angle after, and handle 5 drives again and shifts board 3 and descend to make and shift board 3 spacing in another spacing groove 11.

Preferably, the upper end of the limiting shaft 2 is provided with a limiting head 51.

When the handle part 5 drives the transfer plate 3 to adjust the position, the limiting head 51 on the limiting shaft 2 can limit the transfer plate 3, so that the transfer plate 3 is prevented from being separated from the limiting shaft 2 in the transfer process, and the stability of the transfer plate 3 is improved.

Preferably, the limiting head 51 is provided with a handle slot 52; the handle piece 5 is clamped in the handle groove 52, so that the transfer plate 3 is suspended and fixed.

The handle groove 52 can fix the handle member 5, and the handle member 5 holds up the transfer plate 3 to suspend the transfer plate 3, and further suspend the powder container 4 to allow the powder of part of the powder container 4 to avoid the processing region 021 located below, or allow the powder of part of the powder container 4 to be closer to the processing region 021 located above, thereby transferring the powder to different orientations.

Preferably, two handle grooves 52 intersect at an included angle, and each handle groove 52 is correspondingly parallel to one of the limiting grooves 11.

The handle grooves 52 are intersected at an included angle to form a cross-shaped combined groove body, one handle groove 52 in the combined groove body corresponds to one limiting groove 11, and the other handle groove 52 in the combined groove body corresponds to the other limiting groove 11; after the handle piece 5 drives the transfer plate 3 to be lifted upwards, the handle piece 5 can be directly placed in one of the handle grooves 52; when the powder container 4 needs to be rotated and transferred, the handle piece 5 drives the transfer plate 3 to be transferred, and after the transfer plate 3 is transferred, the handle piece 5 can be directly clamped in another handle groove 52, so that the handle piece 5 is finally limited in the handle groove 52, and the position of the transfer plate 3 is fixed. From this, two spacing grooves 11 are crossing the setting, can make transfer board 3 rotate and adjust the back quick fixation to the angle of fixed transfer board 3.

Preferably, the handle member 5 comprises: a middle link 53 and a handle portion 54;

the two handle parts 54 are symmetrically connected to both ends of the middle connecting member 53; the upper end of the handle part 54 is connected to the middle connecting part 53, and the lower end of the handle part 54 is rotatably connected to the transfer plate 3; the middle connecting piece 53 is parallel to the transfer plate 3, and the middle connecting piece 53 is clamped in the handle groove 52.

Middle part connecting piece 53 connects handle portion 54, and handle portion 54 connects respectively in shifting board 3, can artifical handheld or manipulator centre gripping middle part connecting piece 53 lift movement to and drive shifting board 3 and rotate, middle part connecting piece 53 joint in handle groove 52, so that shift board 3 is spacing in unsettled position, so that the powder container is unsettled to be hung.

Preferably, the bottom surface of the transfer plate 3 is provided with a metal piece 55; the upper surface of the supporting bottom plate 1 is provided with a magnet 56; the transfer plate 3 is magnetically restrained on the upper surface of the support base plate 1.

Magnet 56 that supporting baseplate 1 set up can pass through magnetic force and adsorb transfer board 3, can improve the fixed action to supporting baseplate 1 to transfer board 3, avoids transferring board 3 to have and rocks.

A powder transport system comprising: a conveying device 01, a powder processing mechanism 03, and the above-described powder transfer mechanism 02;

the powder transfer mechanism 02 is arranged at the conveying end of the conveying device 01, and the conveying device 01 is used for conveying the powder transfer mechanism 02 to a processing area 021 of the powder processing mechanism 03; the transfer plate 3 rotates around the limiting shaft 2 to align the powder containers 4 of a partial region with the processing region 021, and the powder containers 4 of the rest regions avoid the processing region 021.

The transfer device 01 is a mechanism having a known driving function, such as a transfer belt structure, a transfer roller structure, a moving cart, or the like; the conveying device 01 drives the powder transfer mechanism 02 to move, so that the powder transfer mechanism 02 drives the powder to be conveyed to the powder processing mechanism 03; the number of the powder processing mechanisms 03 can be several, such as a powder additive adding device, a powder optical processing device, a powder stirring device and the like; when the powder processing mechanism 03 needs to process one of the powder transfer mechanisms 02, the transfer plate 3 can be manually or mechanically driven to perform angle adjustment so that the transfer plate 3 rotates to align the powder to be processed with the processing region 021 of the powder processing mechanism 03, and the powder not to be processed rotates to a position far away from the processing region 021, so that the powder can be rapidly transferred, the powder container 4 can be prevented from being detached from the conveying device 01, and the position of the powder can be rapidly adjusted.

Preferably, the method further comprises the following steps: a manipulator 04; the manipulator 04 is used for driving the transfer plate 3 to rotate and move up and down.

The manipulator 04 can drive the transfer plate 3 to move, for example, the clamping opening of the manipulator 04 can clamp the handle part 5 to drive the transfer plate 3 to move up and down and rotate, and the handle part 5 can be clamped in the handle groove 52 to finally fix the position of the transfer plate 3.

The technical principle of the present solution is described above with reference to specific embodiments. These descriptions are made for the purpose of illustrating the principles of the present solution and are not to be construed in any way as limiting the scope of the present solution. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present solution without any inventive effort, which would fall within the scope of the present solution.

Claims (10)

1. A powder transfer mechanism, comprising: the device comprises a support bottom plate, a limiting shaft, a transfer plate and a powder container;

the bottom end of the limiting shaft is arranged on the supporting bottom plate; the transfer plate is provided with an offset opening, the limiting shaft extends into the offset opening, and the bottom of the transfer plate is in contact with the support bottom plate;

the transfer plate is provided with a plurality of container mounting stations, and the powder containers are respectively arranged at the container mounting stations; the transfer plate rotates around the limiting shaft to drive the powder container to rotate to different positions of the supporting bottom plate.

2. The powder transfer mechanism of claim 1, wherein the support base has upwardly opening retaining grooves on a plurality of sides; the transfer board is connected to at least one limiting groove;

the transfer plate firstly rises along the length direction of the limiting shaft, so that after the transfer plate is separated from one limiting groove, the transfer plate rotates and is adjusted to descend to abut against the other limiting groove.

3. The powder transfer mechanism of claim 2, further comprising: a handle member;

the handle piece is arranged on the transfer plate and used for driving the transfer plate to move.

4. The powder transfer mechanism of claim 3, wherein the upper end of the retainer shaft is provided with a retainer head.

5. The powder transfer mechanism of claim 4, wherein said retaining head is provided with a handle slot; the handle piece is clamped in the handle groove, so that the transfer plate is suspended and fixed.

6. A powder transfer mechanism according to claim 5, wherein two of said handle grooves intersect at an angle, each said handle groove being parallel to one of said retaining grooves.

7. A powder transfer mechanism according to claim 5 or 6, wherein the handle member comprises: a middle connecting piece and a handle part;

the two handle parts are symmetrically connected to two ends of the middle connecting piece; the upper end of the handle part is connected with the middle connecting piece, and the lower end of the handle part is rotatably connected with the transfer plate; the middle connecting piece is parallel to the transfer plate and clamped in the handle groove.

8. The powder transfer mechanism of any one of claims 1-6, wherein a metal member is provided on a bottom surface of the transfer plate; the upper surface of the supporting bottom plate is provided with a magnet; the transfer plate is limited on the upper surface of the support bottom plate through magnetism.

9. A powder transport system, comprising: a conveyor, a powder handling mechanism and a powder transfer mechanism as claimed in any one of claims 1 to 8;

the powder transfer mechanism is arranged at the conveying end of the conveying device, and the conveying device is used for conveying the powder transfer mechanism to the processing area of the powder processing mechanism; the transfer plate rotates around a limiting shaft until the powder containers in partial areas are aligned to the processing area, and the powder containers in the rest areas avoid the processing area.

10. A powder transport system as defined in claim 9, further comprising: a manipulator; the manipulator is used for driving the transfer plate to rotate and move up and down.

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