CN113213129B - Powder acquisition device with adjustable quantification - Google Patents

Abstract

The invention relates to a powder quantifying device, in particular to an adjustable and quantitative powder obtaining device, which comprises a material box cylinder, an installation base, an adjustable quantifying mechanism, a pushing mechanism, an anti-cavity mechanism and an anti-adhesion mechanism, wherein the material box cylinder is fixedly installed on the installation base; this device can carry out acquireing of powder material by the ration, can adjust quantitative how much simultaneously, and the device can avoid appearing the condition of cavity and taking place simultaneously, avoids the condition that the appearance volume is few to take place, possesses the function of clearing the wall simultaneously, avoids inner wall adhesion powder.

Description

Powder acquisition device with adjustable quantification

Technical Field

The invention relates to a powder quantifying device, in particular to a powder obtaining device capable of adjusting quantification.

Background

In the production and processing processes of a plurality of materials, the powdery material is required to be quantitatively added frequently, and the inventor finds that in the prior art, only fixed-quantity addition can be carried out on the quantitative addition of the powdery material, and adjustment of any quantity cannot be carried out, and meanwhile, the problem that cavities are easy to appear in the falling and stacking process of the powdery material in a container, so that the addition quantity is reduced, the powdery material has the problem of adhesion to the inner wall, and the problem of inaccurate addition quantity is also caused.

Disclosure of Invention

The invention mainly solves the technical problem of providing an adjustable quantitative powder acquisition device, which can acquire powder materials quantitatively, adjust the quantitative quantity, avoid the occurrence of cavities and the occurrence of small quantity, and simultaneously has the wall cleaning function and avoids the powder from being adhered to the inner wall.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an adjustable quantitative powder acquisition device, includes a workbin section of thick bamboo, installation base, adjustable dosing mechanism, pushing mechanism, anti-cavity mechanism and anti-sticking mechanism, workbin section of thick bamboo fixed mounting on the installation base, anti-sticking mechanism fixed mounting is on the installation base, adjustable dosing mechanism slidable mounting is on the installation base, adjustable dosing mechanism and pushing mechanism fixed connection, pushing mechanism fixed mounting is on the installation base, anti-cavity mechanism fixed mounting is on the installation base.

As a further optimization of the technical solution, the mounting base of the quantitative adjustable powder obtaining device of the present invention includes a first base, a second base, and a mounting frame, wherein the first base is fixedly connected to the second base, and the second base is fixedly connected to the mounting frame.

As a further optimization of the technical scheme, the adjustable quantitative mechanism of the powder acquisition device comprises a half box body, a regulating plate, a first threaded rod, a first sprocket, a chain, a driving gear, a second sprocket, a second threaded rod, a hidden motor, a chute plate, a transverse plate and a motor for rotation, wherein the hidden motor is fixedly installed in a groove of the half box body, the output end of the hidden motor is fixedly provided with the driving gear, the driving gear is meshed with the second sprocket, the second sprocket is meshed with the chain, the chain is meshed with the first sprocket, the first sprocket is fixedly installed on the first threaded rod, the second sprocket is fixedly installed on the second threaded rod, the second threaded rod is rotatably installed in a groove arranged on the half box body, the first threaded rod is rotatably installed in a groove arranged on the half box body, the second threaded rod is in threaded connection with the regulating plate, the regulating plate is in threaded connection with the first threaded rod, the chute plate is fixedly installed on the regulating plate, the chute plate is slidably installed on the half box body, the rotating motor is fixedly installed in a groove arranged on the half box body, the contact barrel is connected with the regulating box body, and the connecting frame is connected with the regulating box.

As a further optimization of the technical scheme, the pushing mechanism of the powder acquisition device with adjustable quantity comprises a pushing threaded rod, an internal thread ring gear, an external motor and a driving gear, wherein the external motor is fixedly installed on the installation frame, the output end of the external motor is fixedly provided with the driving gear, the driving gear is meshed with the internal thread ring gear, the internal thread ring gear is rotatably installed in a groove formed in the installation frame, the pushing threaded rod is in threaded connection with the internal thread ring gear, and the pushing threaded rod penetrates through a through hole formed in the installation frame and is fixedly installed on the half box body.

As a further optimization of the technical scheme, the cavity-preventing mechanism of the quantitative adjustable powder acquisition device comprises a motor for swinging, a cam, a swinging bottom plate and a support spring, wherein the motor for swinging is fixedly arranged in a through hole formed in the second base, the cam is fixedly arranged at the output end of the motor for swinging, the cam is in contact connection with the swinging bottom plate, the swinging bottom plate is slidably arranged in a groove formed in the second base, the support spring is fixedly arranged on the swinging bottom plate, the other end of the support spring is fixedly arranged on the second base, the swinging bottom plate is slidably arranged in a groove formed in the mounting frame, the swinging bottom plate is in contact connection with the half box body, and the swinging bottom plate is in contact connection with the adjusting plate.

As a further optimization of the technical scheme, the anti-adhesion mechanism of the powder acquisition device with adjustable quantity comprises an adjusting threaded rod, a spring adjusting plate, an side-opening box body, an impact spring, a T-shaped pushing plate and an impact column, wherein the spring adjusting plate is slidably mounted in a groove formed in the side-opening box body, the impact spring is fixedly mounted on the spring adjusting plate, the other end of the impact spring is fixedly mounted on the T-shaped pushing plate, the T-shaped pushing plate is slidably mounted in a groove formed in the side-opening box body, the impact column is fixedly mounted on the T-shaped pushing plate and slidably mounted in a through hole formed in the side-opening box body, the adjusting threaded rod is rotatably mounted in the groove of the spring adjusting plate and is in threaded connection with a first base, and the side-opening box body is fixedly mounted on the first base.

The powder acquisition device with adjustable ration has the beneficial effects that:

1. in pouring powdered material into a material case section of thick bamboo, the powder gets into half box, transfer the board and rock in the container that the bottom plate formed, start the swing and use the motor, the swing drives the cam rotation with the motor, the cam is rotatory to be stirred and is rocked the bottom plate, thereby it rocks thereby to rock the bottom plate and makes the powdered material on it rock to the effectual powder of having avoided appears the phenomenon of cavity at the accumulational in-process that falls, supporting spring plays the messenger and rocks the effect that the bottom plate resets, thereby the messenger rocks the bottom plate and reaches the purpose of motion repeatedly.

2. Start external motor, external motor drives the driving gear rotatory, the driving gear drives the internal thread ring gear rotatory, internal thread ring gear and promotion threaded rod threaded connection, promote the threaded rod this moment and remove and promote adjustable dosing mechanism wholly to the anti-sticking mechanism direction and remove, thereby make the powder material of half box and accent board parcel drop, the position of half box extension removes the bottom of workbin section of thick bamboo, play the effect of temporary sealing, the in-process that the diaphragm removed promotes T shape slurcam extrusion striking spring, make the striking post shrink, when half box and accent board remove the assigned position, start the motor for the rotation, the motor for the rotation drives the diaphragm rotatory, the diaphragm breaks away from T shape slurcam, striking spring supports T shape slurcam and removes, thereby make the striking post strike half box, make the half box produce vibrations, make the powder of adhesion on half box and accent inboard wall drop, thereby make the powder ration accurate.

3. The hidden motor is started, the hidden motor enables the driving gear to rotate, the driving gear drives the chain wheel II to rotate, the chain wheel II drives the chain wheel I to rotate through the chain, so that the first threaded rod and the second threaded rod are made to rotate, the first threaded rod and the second threaded rod are both in threaded connection with the adjusting plate, the adjusting plate moves to change the capacity of the half box body, and the purpose of controlling the device to quantify is achieved.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic perspective view of an adjustable quantitative powder obtaining apparatus according to the present invention.

Fig. 2 is a schematic perspective view of an adjustable quantitative powder obtaining apparatus according to the present invention.

Fig. 3 is a schematic perspective view of a material box cylinder 1 of the adjustable quantitative powder obtaining device of the present invention.

Fig. 4 is a schematic perspective view of the mounting base 2 of the adjustable quantitative powder obtaining apparatus according to the present invention.

Fig. 5 is a schematic supplementary perspective view of the mounting base 2 of the adjustable quantitative powder obtaining apparatus according to the present invention.

Fig. 6 is a schematic perspective view of the adjustable quantitative mechanism 3 of the powder obtaining apparatus with adjustable quantitative ratio according to the present invention.

Fig. 7 is a schematic perspective view of the adjustable quantitative mechanism 3 of the adjustable quantitative powder obtaining apparatus of the present invention.

Fig. 8 is a schematic perspective view of a half-case 3-1 of the powder obtaining apparatus with adjustable quantity according to the present invention.

FIG. 9 is a schematic perspective view of the adjustment plate 3-2 and the chute plate 3-10 of the powder obtaining apparatus with adjustable quantity according to the present invention.

Fig. 10 is a schematic partial perspective view of the adjustable quantitative mechanism 3 of the adjustable quantitative powder obtaining apparatus of the present invention.

Fig. 11 is a schematic perspective view of the pushing mechanism 4 of the adjustable quantitative powder obtaining apparatus of the present invention.

Fig. 12 is a schematic perspective view of the mounting base 2 and the cavity-preventing mechanism 5 of the adjustable quantitative powder obtaining apparatus according to the present invention.

Fig. 13 is a schematic perspective view of the cavity-preventing mechanism 5 of the adjustable quantitative powder obtaining apparatus according to the present invention.

Fig. 14 is a perspective view of the anti-adhesion mechanism 6 of the adjustable quantitative powder obtaining apparatus according to the present invention.

Fig. 15 is a schematic cross-sectional view of the anti-adhesion mechanism 6 of the adjustable quantitative powder obtaining apparatus of the present invention.

In the figure: a material box cylinder 1; mounting a base 2; a first chassis 2-1; a second chassis 2-2; mounting frames 2-3; an adjustable dosing mechanism 3; 3-1 of a half box body; 3-2 of a regulating plate; a first threaded rod 3-3; 3-4 parts of a first chain wheel; 3-5 parts of a chain; driving gears 3-6; 3-7 parts of a second chain wheel; 3-8 parts of a second threaded rod; hiding the motors 3-9; 3-10 parts of a chute plate; 3-11 of a transverse plate; 3-12 of a motor for rotation; a pushing mechanism 4; pushing the threaded rod 4-1; an internal thread ring gear 4-2; an external motor 4-3; a driving gear 4-4; a cavity-preventing mechanism 5; a swing motor 5-1; 5-2 of the cam; shaking the bottom plate 5-3; 5-4 of a supporting spring; an anti-adhesion mechanism 6; adjusting the threaded rod 6-1; a spring adjusting plate 6-2; side opening box 6-3; 6-4 of an impact spring; 6-5 of a T-shaped push plate; impact posts 6-6.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 15, and an adjustable quantitative powder obtaining apparatus includes a material box barrel 1, an installation base 2, an adjustable quantitative mechanism 3, a pushing mechanism 4, an anti-cavity mechanism 5, and an anti-adhesion mechanism 6, wherein the material box barrel 1 is fixedly installed on the installation base 2, the anti-adhesion mechanism 6 is fixedly installed on the installation base 2, the adjustable quantitative mechanism 3 is slidably installed on the installation base 2, the adjustable quantitative mechanism 3 is fixedly connected to the pushing mechanism 4, the pushing mechanism 4 is fixedly installed on the installation base 2, and the anti-cavity mechanism 5 is fixedly installed on the installation base 2.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 15, and the present embodiment further describes the first embodiment, where the mounting base 2 includes a first base 2-1, a second base 2-2, and a mounting rack 2-3, the first base 2-1 is fixedly connected to the second base 2-2, and the second base 2-2 is fixedly connected to the mounting rack 2-3.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1-15, and the embodiment will be further described, wherein the adjustable quantitative mechanism 3 comprises a half box body 3-1, an adjusting plate 3-2, a first threaded rod 3-3, a first chain wheel 3-4, a chain 3-5, a driving gear 3-6, a second chain wheel 3-7, a second threaded rod 3-8, a hidden motor 3-9, a chute plate 3-10, a transverse plate 3-11, and a motor 3-12 for rotation, the hidden motor 3-9 is fixedly arranged in a groove of the half box body 3-1, the driving gear 3-6 is fixedly arranged at an output end of the hidden motor 3-9, the driving gear 3-6 is meshed with the second chain wheel 3-7, the second chain wheel 3-7 is meshed with the chain 3-5, the chain 3-5 is meshed with the first chain wheel 3-4, a chain wheel I3-4 is fixedly arranged on a first threaded rod 3-3, a chain wheel II 3-7 is fixedly arranged on a second threaded rod 3-8, the second threaded rod 3-8 is rotatably arranged in a groove arranged on a half box body 3-1, the first threaded rod 3-3 is rotatably arranged in a groove arranged on the half box body 3-1, the second threaded rod 3-8 is in threaded connection with an adjusting plate 3-2, the adjusting plate 3-2 is in threaded connection with the first threaded rod 3-3, a sliding groove plate 3-10 is fixedly arranged on the adjusting plate 3-2, the sliding groove plate 3-10 is slidably arranged on the half box body 3-1, a rotating motor 3-12 is fixedly arranged in the groove arranged on the half box body 3-1, a transverse plate 3-11 is fixedly arranged at the output end of the rotating motor 3-12, the half box body 3-1 is slidably mounted in a groove formed in the mounting frame 2-3, the half box body 3-1 is in contact connection with the material box barrel 1, and the adjusting plate 3-2 is in contact connection with the material box barrel 1.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-15, in which the pushing mechanism 4 includes a pushing threaded rod 4-1, an internal thread ring gear 4-2, an external motor 4-3, and a driving gear 4-4, the external motor 4-3 is fixedly mounted on the mounting bracket 2-3, the driving gear 4-4 is fixedly mounted at an output end of the external motor 4-3, the driving gear 4-4 is engaged with the internal thread ring gear 4-2, the internal thread ring gear 4-2 is rotatably mounted in a groove formed in the mounting bracket 2-3, the pushing threaded rod 4-1 is in threaded connection with the internal thread ring gear 4-2, and the pushing threaded rod 4-1 passes through a through hole formed in the mounting bracket 2-3 and is fixedly mounted on the half case 3-1.

The fifth concrete implementation mode:

the third embodiment is described below with reference to fig. 1-15, and the third embodiment is further described, where the cavity-preventing mechanism 5 includes a swinging motor 5-1, a cam 5-2, a swinging bottom plate 5-3, and a support spring 5-4, the swinging motor 5-1 is fixedly installed in a through hole provided on the second base 2-2, the output end of the swinging motor 5-1 is fixedly installed with the cam 5-2, the cam 5-2 is connected with the swinging bottom plate 5-3 in a contact manner, the swinging bottom plate 5-3 is slidably installed in a groove provided on the second base 2-2, the support spring 5-4 is fixedly installed on the swinging bottom plate 5-3, the other end of the support spring 5-4 is fixedly installed on the second base 2-2, the swinging bottom plate 5-3 is slidably installed in a groove provided on the mounting frame 2-3, the swinging bottom plate 5-3 is connected with the half box 3-1 in a contact manner, and the swinging bottom plate 5-3 is connected with the adjusting plate 3-2 in a contact manner.

The sixth specific implementation mode:

the following describes the present embodiment with reference to fig. 1 to 15, and the present embodiment further describes an embodiment two, where the adhesion preventing mechanism 6 includes an adjusting threaded rod 6-1, a spring adjusting plate 6-2, a side-opening box 6-3, an impact spring 6-4, a T-shaped push plate 6-5, and an impact post 6-6, the spring adjusting plate 6-2 is slidably mounted in a groove provided on the side-opening box 6-3, the spring adjusting plate 6-2 is fixedly mounted with the impact spring 6-4, the other end of the impact spring 6-4 is fixedly mounted on the T-shaped push plate 6-5, the T-shaped push plate 6-5 is slidably mounted in a groove provided on the side-opening box 6-3, the impact post 6-6 is slidably mounted in a through hole provided on the side-opening box 6-3, the adjusting threaded rod 6-1 is rotatably mounted in the groove of the spring 6-2, the adjusting threaded rod 6-1 is threadedly connected to the first base 2-1, and the side-opening box 6-3 is fixedly mounted on the first base 2-1.

The invention relates to a powder acquisition device with adjustable quantity, which has the working principle that:

powder materials are poured into a box barrel 1, the powder enters a container formed by a half box body 3-1, a plate adjusting body 3-2 and a shaking bottom plate 5-3, a motor 5-1 for swinging is started, a motor 5-1 for swinging drives a cam 5-2 to rotate, the cam 5-2 rotates to stir the shaking bottom plate 5-3, the shaking bottom plate 5-3 shakes to shake the powder materials on the shaking bottom plate 5-3, and therefore the phenomenon that the powder materials are in cavities in the falling and accumulating process is effectively avoided, a supporting spring 5-4 plays a role in resetting the shaking bottom plate 5-3, and the shaking bottom plate 5-3 can move repeatedly.

An external motor 4-3 is started, the external motor 4-3 drives a driving gear 4-4 to rotate, the driving gear 4-4 drives an internal thread ring gear 4-2 to rotate, the internal thread ring gear 4-2 is in threaded connection with a pushing threaded rod 4-1, the pushing threaded rod 4-1 moves and pushes an adjustable quantitative mechanism 3 to integrally move towards an anti-adhesion mechanism 6, so that powder materials wrapped by a half box body 3-1 and an adjusting plate 3-2 fall off, the extended position of the half box body 3-1 moves to the bottom of a bin barrel 1 to play a temporary sealing effect, a T-shaped pushing plate 6-5 is pushed to extrude an impact spring 6-4 in the moving process of a transverse plate 3-11, so that an impact column 6-6 contracts, when the half box body 3-1 and the adjusting plate 3-2 move to the specified positions, a rotating motor 3-12 is started, the rotating motor 3-12 drives the transverse plate 3-11 to rotate, the transverse plate 3-11 is separated from the T-shaped pushing plate 6-5, the impact spring 6-4 supports the T-shaped pushing plate 6-5 to move, so that the impact column 6-1 impacts the adjusting plate 3-1 to enable the powder to be adhered to the inner wall of the half box body 3-1, and the powder materials to accurately fall off, and the powder materials on the inner wall of the box body can accurately fall off.

The hidden motor 3-9 is started, the hidden motor 3-9 drives the driving gear 3-6 to rotate, the driving gear 3-6 drives the chain wheel II 3-7 to rotate, the chain wheel II 3-7 drives the chain wheel I3-4 to rotate through the chain 3-5, so that the first threaded rod 3-3 and the second threaded rod 3-8 rotate, the first threaded rod 3-3 and the second threaded rod 3-8 are both in threaded connection with the adjusting plate 3-2, and the adjusting plate 3-2 moves to change the capacity of the half box body 3-1, so that the purpose of controlling the quantitative amount of the device is achieved.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (1)

1. The utility model provides a powder acquisition device of adjustable ration, includes feed box section of thick bamboo (1), installation base (2), adjustable dosing mechanism (3), pushing mechanism (4), prevents cavity mechanism (5) and antiseized mechanism (6), its characterized in that: the feeding box barrel (1) is fixedly installed on the installation base (2), the anti-adhesion mechanism (6) is fixedly installed on the installation base (2), the adjustable quantifying mechanism (3) is installed on the installation base (2) in a sliding mode, the adjustable quantifying mechanism (3) is fixedly connected with the pushing mechanism (4), the pushing mechanism (4) is fixedly installed on the installation base (2), and the anti-cavity mechanism (5) is fixedly installed on the installation base (2);

the mounting base (2) comprises a first base (2-1), a second base (2-2) and a mounting rack (2-3), the first base (2-1) is fixedly connected with the second base (2-2), and the second base (2-2) is fixedly connected with the mounting rack (2-3);

the adjustable quantitative mechanism (3) comprises a half box body (3-1), an adjusting plate (3-2), a first threaded rod (3-3), a chain wheel (3-4), a chain (3-5), a driving gear (3-6), a chain wheel (3-7), a second threaded rod (3-8), a hidden motor (3-9), a sliding groove plate (3-10), a transverse plate (3-11) and a motor (3-12) for rotation, wherein the hidden motor (3-9) is fixedly arranged in a groove of the half box body (3-1), the driving gear (3-6) is fixedly arranged at the output end of the hidden motor (3-9), the driving gear (3-6) is meshed with the chain wheel (3-7), the chain wheel (3-7) is meshed with the chain (3-5), the chain (3-5) is meshed with the chain wheel (3-4), the chain wheel (3-4) is fixedly arranged on the first threaded rod (3-3), the chain wheel (3-7) is fixedly arranged on the second threaded rod (3-8), the groove of the half box body (3-1) is provided with the groove (3-3, and the groove of the half box body (3-4) is arranged on the second threaded rod (3-8), the second threaded rod (3-8) is in threaded connection with the adjusting plate (3-2), the adjusting plate (3-2) is in threaded connection with the first threaded rod (3-3), a sliding groove plate (3-10) is fixedly installed on the adjusting plate (3-2), the sliding groove plate (3-10) is slidably installed on the half box body (3-1), a rotating motor (3-12) is fixedly installed in a groove formed in the half box body (3-1), a transverse plate (3-11) is fixedly installed at the output end of the rotating motor (3-12), the half box body (3-1) is slidably installed in a groove formed in the installation frame (2-3), the half box body (3-1) is in contact connection with the material box barrel (1), and the adjusting plate (3-2) is in contact connection with the material box barrel (1);

the pushing mechanism (4) comprises a pushing threaded rod (4-1), an internal thread ring gear (4-2), an external motor (4-3) and a driving gear (4-4), the external motor (4-3) is fixedly installed on the installation frame (2-3), the driving gear (4-4) is fixedly installed at the output end of the external motor (4-3), the driving gear (4-4) is meshed with the internal thread ring gear (4-2), the internal thread ring gear (4-2) is rotatably installed in a groove formed in the installation frame (2-3), the pushing threaded rod (4-1) is in threaded connection with the internal thread ring gear (4-2), and the pushing threaded rod (4-1) penetrates through a through hole formed in the installation frame (2-3) and is fixedly installed on the half box body (3-1);

the cavity-preventing mechanism (5) comprises a swing motor (5-1), a cam (5-2), a swinging bottom plate (5-3) and a supporting spring (5-4), wherein the swing motor (5-1) is fixedly arranged in a through hole formed in a second base (2-2), the cam (5-2) is fixedly arranged at the output end of the swing motor (5-1), the cam (5-2) is in contact connection with the swinging bottom plate (5-3), the swinging bottom plate (5-3) is slidably arranged in a groove formed in the second base (2-2), the supporting spring (5-4) is fixedly arranged on the swinging bottom plate (5-3), the other end of the supporting spring (5-4) is fixedly arranged on the second base (2-2), the swinging bottom plate (5-3) is slidably arranged in a groove formed in a mounting frame (2-3), the swinging bottom plate (5-3) is in contact connection with a half box body (3-1), and the swinging bottom plate (5-3) is in contact connection with a regulating plate (3-2);

the anti-adhesion mechanism (6) comprises an adjusting threaded rod (6-1), a spring adjusting plate (6-2), a side-opening box body (6-3), an impact spring (6-4), a T-shaped pushing plate (6-5) and an impact column (6-6), wherein the spring adjusting plate (6-2) is slidably mounted in a groove formed in the side-opening box body (6-3), the impact spring (6-4) is fixedly mounted on the spring adjusting plate (6-2), the other end of the impact spring (6-4) is fixedly mounted on the T-shaped pushing plate (6-5), the T-shaped pushing plate (6-5) is slidably mounted in a groove formed in the side-opening box body (6-3), the impact column (6-6) is fixedly mounted on the T-shaped pushing plate (6-5), the impact column (6-6) is slidably mounted in a through hole formed in the side-opening box body (6-3), the adjusting threaded rod (6-1) is rotatably mounted in the groove of the spring adjusting threaded rod (6-1), and the adjusting threaded rod (6-1) is fixedly mounted on the first base (2-3).

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