CN210874903U - Mixed copper alloy powder dusting device - Google Patents

Abstract

The utility model relates to a mix copper alloy powder dusting device. The powder receiving hopper of the recovery mechanism of the powder scattering device is positioned below the output part of the powder scattering mechanism, and the upper end of the powder receiving hopper is communicated with the output part of the powder scattering mechanism; the powder mixer is positioned below the powder receiving hopper, an input port of the powder mixer is communicated with the powder receiving hopper through a conveying pipeline, and the control valve is arranged in the conveying pipeline; the output part of the first linear motion unit can do linear reciprocating motion along the vertical direction; the second linear motion unit is arranged on the output part of the first linear motion unit, and the output part of the second linear motion unit can do linear reciprocating motion along the horizontal direction; the movable powder loading box is arranged on the output part of the second linear motion unit, and the movable powder loading box can be operatively positioned below the output port of the powder mixer or above the input part of the powder scattering mechanism. The utility model discloses can guarantee the homogeneity that copper alloy powder mixes, prevent mixed copper alloy powder segregation to guarantee product quality.

Description

Mixed copper alloy powder dusting device

Technical Field

The utility model belongs to the technical field of the copper alloy powder uses, especially, relate to a mix copper alloy powder dusting device.

Background

In the field of manufacturing oil-impregnated bearings, copper-based friction materials, copper alloy friction supports and the like, when copper powder needs to be paved, sprayed and the like in the process of using mixed copper alloy powder, more or less mixed copper alloy powder does not effectively fall on a workpiece, but the copper powder which is not effectively used needs to be recycled in order to reduce the cost in the production process.

Because the copper alloy powder is mixed powder, metal or nonmetal particle components exist in the mixed powder, and because the specific gravity and the particle diameter of the copper alloy powder are different, after the primary spraying process, if the copper alloy powder is simply recycled, the mixed copper alloy powder is segregated, the particle components in the mixed powder are not uniform, and the product is likely to be unqualified due to the fact that the copper alloy powder is not uniform when the copper alloy powder is used next time.

SUMMERY OF THE UTILITY MODEL

To the problem that above-mentioned prior art exists, the utility model provides a mix copper alloy powder dusting device to the copper alloy mixed powder who makes the recovery is even, with assurance product quality.

The utility model discloses a following technical scheme realizes above-mentioned purpose:

in one aspect, the utility model provides a mix copper alloy powder dusting device, the dusting device includes frame, dusting mechanism and retrieves the mechanism, dusting mechanism and it all installs to retrieve the mechanism in the frame, retrieve the mechanism including connecing powder fill, pipeline, control valve, mixing powder ware, removal dress powder box, first linear motion unit and second linear motion mechanism, wherein:

the powder receiving hopper is positioned below the output part of the powder spreading mechanism, and the upper end of the powder receiving hopper is communicated with the output part of the powder spreading mechanism;

the powder mixer is arranged on the rack, the powder mixer is positioned below the powder receiving hopper, an input port of the powder mixer is communicated with the powder receiving hopper through the conveying pipeline, and the control valve is arranged in the conveying pipeline;

the first linear motion unit is arranged on the outer side of the rack, and an output part of the first linear motion unit can do linear reciprocating motion along the vertical direction;

the second linear motion unit is arranged on the output part of the first linear motion unit, and the output part of the second linear motion unit can do linear reciprocating motion along the horizontal direction;

the movable powder loading box is arranged on the output part of the second linear motion unit, and the movable powder loading box is operatively positioned below the output port of the powder mixer or above the input part of the powder scattering mechanism.

Further, the control valve is arranged in one end of the conveying pipeline close to the powder mixer, so that the storage capacity of the mixed copper powder in the conveying pipeline can be improved.

Further, the first linear motion unit includes:

the two support plates are arranged on the outer side of the rack oppositely, and one opposite side of each support plate is provided with a sliding groove;

the bearing table is an output part of the first linear motion unit, and two ends of the bearing table are arranged in the sliding grooves of the two supporting plates in a sliding manner;

the output part of the driving component can move back and forth along the vertical direction, and the bearing table is fixedly arranged on the output part of the driving component.

Further, the second linear motion unit includes:

the feeding cylinder is fixedly arranged on the bearing table, the output part of the feeding cylinder can move back and forth along the horizontal direction, the output part of the feeding cylinder is the output part of the second linear motion unit, and the movable powder loading box is fixedly arranged on the output part of the feeding cylinder.

Still further, the second linear motion unit further includes:

two movable guide rails are arranged on the bearing table oppositely and positioned on two sides of the feeding cylinder;

the linear bearings are arranged in one-to-one correspondence with the movable guide rails, the linear bearings are arranged on the output parts of the corresponding movable guide rails, and each linear bearing is connected with the movable powder containing box.

Further, dusting mechanism is including storing box, dusting gyro wheel, reciprocating sieve and guipure, wherein:

the storage box is fixedly arranged on the rack, openings are formed in the upper end and the lower end of the storage box, and the upper end of the storage box is an input part of the dusting mechanism;

the dusting roller is rotatably arranged on the rack and is positioned right below the opening at the lower end of the storage box;

the vibrating screen is arranged on the rack and is positioned right below the dusting roller;

the guipure is the crawler-type, the guipure is movably to be set up in the frame, the guipure is located the reciprocating sieve below, the guipure is the output of dusting mechanism.

Further, the movable powder containing box is operatively located above the storage box, and a powder containing box valve is arranged on the side wall of the movable powder containing box close to one side of the storage box.

Further, the dusting mechanism further comprises a dust cover, the dust cover covers the storage box, and an inlet is formed in the upper portion of the dust cover.

Further, the frame is the box, dusting device still includes negative-pressure air fan, negative-pressure air fan sets up the frame outside, negative-pressure air fan's input portion with the inside intercommunication of frame.

On the other hand, the utility model also provides a mixed copper alloy powder dusting method, dusting method is based on foretell dusting device goes on, dusting method includes:

closing a control valve of a conveying pipeline, and controlling a first linear motion unit to enable a movable powder containing box to be positioned below an output port of the powder mixer;

the output part of the powder scattering mechanism outputs mixed copper powder to be scattered on the workpiece, and the copper powder scattering work of the workpiece is finished;

collecting redundant mixed copper powder into a conveying pipeline, and starting a powder mixer after the mixed copper powder is filled in the conveying pipeline;

opening a control valve of a conveying pipeline, fully and uniformly mixing the mixed copper powder through a powder mixer, then dropping the mixed copper powder into a movable powder loading box, closing the control valve of the conveying pipeline again after the mixed copper powder of the conveying pipeline is conveyed, and stopping the powder mixer;

controlling the first linear motion unit and the second linear motion unit to enable the movable powder containing box to be positioned above the input part of the powder scattering mechanism;

and pouring the movable powder loading box into an input part of the powder scattering mechanism, and continuously utilizing the recovered mixed copper powder.

The utility model has the advantages that:

the utility model provides a mix copper alloy powder dusting device when carrying out copper alloy powder dusting operation to the work piece, can make the dusting operation of accomplishing the work piece and unnecessary copper alloy powder keep in pipeline, treat that copper alloy powder fills up the back in pipeline, open pipeline's control valve, with copper alloy powder after mixing powder ware intensive mixing, retrieve again to the input of dusting mechanism in, continue to utilize, promptly the utility model discloses a stop copper alloy powder at the accumulation of certain time, collect the ration promptly, then mix, shift again to can guarantee the homogeneity that copper alloy powder mixes, prevent to mix copper alloy powder segregation, in order to guarantee product quality.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a mixed copper alloy powder dusting device according to an embodiment of the present invention in a first state;

FIG. 2 is a schematic structural view of a second state of the apparatus for powdering a mixed copper alloy powder according to the embodiment of the present invention;

FIG. 3 is a schematic view of the internal structure of FIG. 1;

fig. 4 is a schematic flow chart of a method for dusting mixed copper alloy powder according to an embodiment of the present invention.

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 only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

On the one hand, the utility model provides a mix copper alloy powder dusting device.

Fig. 1 is the structural schematic diagram of the first state of a mixed copper alloy powder dusting device of the embodiment of the present invention, and fig. 2 is the structural schematic diagram of the second state of the mixed copper alloy powder dusting device of the embodiment of the present invention. With reference to fig. 1 and 2, the powdering device includes a frame 1, a powdering mechanism, and a recovery mechanism, both of which are mounted on the frame 1.

Fig. 3 is an internal schematic view of fig. 1, and with reference to fig. 1, fig. 2 and fig. 3, the dusting mechanism of the embodiment of the present invention includes a storage box 2, a dusting roller 3, a vibrating screen 4 and a mesh belt 5, wherein the storage box 2 is fixedly disposed on the frame 1 for storing copper alloy powder, openings are disposed at the upper end and the lower end of the storage box 2, and the upper end of the storage box 2 is an input portion of the dusting mechanism; the dusting roller 3 is rotatably arranged on the frame 1, and the dusting roller 3 is positioned right below the opening at the lower end of the storage box 2; the vibrating screen 4 is arranged on the frame 1, and the vibrating screen 4 is positioned right below the dusting roller 3; the guipure 5 is the crawler-type, and guipure 5 is movably setting up in frame 1, and guipure 5 is located the reciprocating sieve 4 below, and guipure 5 is the output portion of dusting mechanism.

The utility model discloses storage box 2 can be for leaking hopper-shaped, and dusting gyro wheel 3's rotation can be driven by driving motor, and guipure 5 can be stainless steel.

Further, combine fig. 1, fig. 2 and fig. 3, the dusting mechanism of the embodiment of the present invention further includes a dust cover 15, the dust cover 15 covers on the storage box 2, and the upper portion of the dust cover 15 is provided with an inlet, and the copper alloy powder can be sent into the storage box 2 through the inlet, and the scattering of the copper alloy powder with small particles is avoided, which affects the environment.

When carrying out the dusting operation to work piece 6, will need the work piece of dusting earlier, place on guipure 5, copper alloy powder is through storing box 2, on the roll surface of dusting gyro wheel 3 falls, dusting gyro wheel 3 rotates, will fall on reciprocating sieve 4 through the copper alloy powder of roll surface, on reciprocating sieve 4 evenly falls work piece 6 with the copper powder dispersion, unnecessary copper alloy powder can pass guipure 5, the utility model discloses a recovery mechanism is the mechanism that will pass the unnecessary copper alloy powder of guipure 5 and retrieve the reuse promptly.

With reference to fig. 1, fig. 2 and fig. 3, the recycling mechanism of the embodiment of the present invention includes a powder receiving hopper 7, a conveying pipeline 8, a control valve 9, a powder mixer 10, a movable powder loading box 13, a first linear motion unit 11 and a second linear motion unit 12.

Specifically, the powder receiving hopper 7 of the embodiment of the present invention is located below the output portion of the powder spreading mechanism, i.e., below the mesh belt 5, and the upper end of the powder receiving hopper 7 is communicated with the output portion of the powder spreading mechanism to receive the excess copper alloy powder; the powder mixer 10 is arranged on the frame 1, the powder mixer 10 is positioned below the powder receiving hopper 7, the input port of the powder mixer 10 is communicated with the powder receiving hopper 7 through the conveying pipeline 8, and the control valve 9 is arranged in the conveying pipeline 8; the first linear motion unit 11 is arranged at the outer side of the frame 1, the output part of the first linear motion unit 11 can do linear reciprocating motion along the vertical direction, the second linear motion mechanism 12 is arranged on the output part of the first linear motion unit 11, and the output part of the second linear motion mechanism 12 can do linear reciprocating motion along the horizontal direction; a moving powder loading box 13 is provided on the output portion of the second linear motion mechanism 12, and the moving powder loading box 13 may be located either below the output port of the powder mixer 10 (shown in fig. 2) or above the input portion of the dusting mechanism (shown in fig. 1).

The utility model discloses in implementing, control valve 9 sets up in pipeline 8 is close to the one end of mixing powder ware 10, like this, can improve the storage capacity of the mixed copper powder in the pipeline 8.

With reference to fig. 1, 2 and 3, the first linear motion unit 11 of the embodiment of the present invention includes two support plates 11.1, two bearing tables 11.2 and a driving part, the two support plates 11.1 are disposed at the outer side of the frame 1, and the opposite sides of the two support plates 11.1 are respectively provided with a sliding groove 11.3; the plummer 11.2 is the output portion of first linear motion unit, and the both ends of plummer 11.2 slide and set up in the spout 11.3 of two backup pads 11.1, and the output portion of drive part can vertically reciprocate, and plummer 11.2 is fixed to be set up on the output portion of drive part, through the work of control drive part, can drive plummer 11.2 along vertical reciprocating motion in spout 11.3.

The embodiment of the utility model provides an in, drive unit can be for telescopic cylinder, flexible hydro-cylinder and flexible motor etc, the embodiment of the utility model provides a do not limit to this.

Combine fig. 1, fig. 2 and fig. 3, the utility model discloses second linear motion unit 12 mainly includes feeding cylinder 12.1, feeding cylinder 12.1 is fixed to be set up on plummer 11.2, feeding cylinder 12.1's output can be followed the level to back and forth movement, feeding cylinder 12.1's output is second linear motion unit's output, remove powder charge box 13 and fix the setting on feeding cylinder 12.1's output, under feeding cylinder 12.1's effect, it can be located the top of dusting mechanism's input to remove powder charge box 13.

Further, with reference to fig. 1, fig. 2 and fig. 3, the second linear motion unit of the embodiment of the present invention may further include two moving guide rails 12.2 and two linear bearings 12.3, where the two moving guide rails 12.2 are relatively disposed on the plummer 11.2, and the two moving guide rails 12.2 are located at two sides of the feeding cylinder 12.1; linear bearing 12.3 and movable guide 12.2 one-to-one set up, linear bearing 12.3 sets up on the output of the movable guide 12.2 that corresponds, and every linear bearing 12.3 all is connected with removal powder loading box 13, and at the during operation of pay-off cylinder 12.1, movable guide 12.2 and linear bearing 12.3 mutually support, can improve and remove powder loading box 13 and carry and lead to improve smooth and easy degree.

Specifically, combine fig. 1, fig. 2 and fig. 3, the utility model discloses the removal powder loading box 13 maneuverability be located and store box 2 top, remove powder loading box 13 and be close to the lateral wall of storing box 2 one side and be provided with powder loading box valve 14, can control opening of powder loading box valve 14, to storing box 2 and carry the mixed copper powder of the recovery of collecting by removing powder loading box 13.

Further, combine fig. 1, fig. 2 and fig. 3, the utility model discloses frame 1 of embodiment can be the box, and the dusting device still includes negative-pressure air fan 16, and this negative-pressure air fan 16 sets up in the frame 1 outside, and negative-pressure air fan 16's input portion and the inside intercommunication of frame 1 can be collected the less powder of dusting in-process granule like this to centralized processing.

On the other hand, the utility model also provides a mixed copper alloy powder dusting method, this dusting method is based on foretell dusting device goes on.

Fig. 4 is a schematic flow chart of a dusting method for mixed copper alloy powder according to an embodiment of the present invention, and with reference to fig. 4, the dusting method includes:

closing the control valve 9 of the conveying pipeline 8 and controlling the first linear motion unit 11 to enable the movable powder loading box 13 to be positioned below the output port of the powder mixer 10;

the output part of the powder scattering mechanism outputs the mixed copper powder to scatter the powder on the workpiece 6, and the powder scattering work of the copper powder on the workpiece 6 is completed;

collecting redundant mixed copper powder into the conveying pipeline 8, and starting the powder mixer 10 after the mixed copper powder is filled in the conveying pipeline 8;

opening a control valve 9 of a conveying pipeline 8, fully and uniformly mixing the mixed copper powder through a powder mixer 10, then dropping the mixed copper powder into a movable powder loading box 13, closing the control valve 9 of the conveying pipeline 8 again after the mixed copper powder of the conveying pipeline 8 is conveyed, and stopping the powder mixer 10;

controlling the first linear motion unit 11 and the second linear motion unit 12 to enable the movable powder loading box 13 to be positioned above the input part of the powder scattering mechanism;

the mobile powder loading box 13 is poured into the input part of the powder scattering mechanism, and the recovered mixed copper powder is continuously used.

It should be noted that, in the embodiment of the present invention, a certain time may be set through a manual observation mode or according to statistics to determine that the mixed copper powder is filled in the conveying pipeline 8.

The utility model provides a mix copper alloy powder dusting device and dusting method, when carrying out copper alloy powder dusting operation to the work piece, can make the dusting operation of accomplishing the work piece and unnecessary copper alloy powder keep in pipeline, treat that copper alloy powder fills up the back in pipeline, open pipeline's control valve, with copper alloy powder after mixing powder ware intensive mixing is even, retrieve again to the input of dusting mechanism in, continue to utilize, promptly the utility model discloses a dwell the copper alloy powder at the accumulation of certain time, the ration is collected promptly, then mixes, retransfer to can guarantee the homogeneity that copper alloy powder mixes, prevent mixed copper alloy powder segregation, with assurance product quality.

The following embodiments are preferred embodiments of the present invention, which are only used to facilitate the description of the present invention, and are not intended to limit the present invention in any form, and any person who knows commonly in the art can use the present invention to make local changes or modifications within the scope of the technical features of the present invention, and the technical features of the present invention are not separated from the present invention.

Claims (9)

1. The utility model provides a mix copper alloy powder dusting device, its characterized in that, the dusting device includes frame, dusting mechanism and retrieves the mechanism, dusting mechanism and it all installs to retrieve the mechanism in the frame, retrieve the mechanism including connecing powder fill, pipeline, control valve, mixing powder ware, removal dress powder box, first linear motion unit and second linear motion mechanism, wherein:

the powder receiving hopper is positioned below the output part of the powder spreading mechanism, and the upper end of the powder receiving hopper is communicated with the output part of the powder spreading mechanism;

the powder mixer is arranged on the rack, the powder mixer is positioned below the powder receiving hopper, an input port of the powder mixer is communicated with the powder receiving hopper through the conveying pipeline, and the control valve is arranged in the conveying pipeline;

the first linear motion unit is arranged on the outer side of the rack, and an output part of the first linear motion unit can do linear reciprocating motion along the vertical direction;

the second linear motion unit is arranged on the output part of the first linear motion unit, and the output part of the second linear motion unit can do linear reciprocating motion along the horizontal direction;

the movable powder loading box is arranged on the output part of the second linear motion unit, and the movable powder loading box is operatively positioned below the output port of the powder mixer or above the input part of the powder scattering mechanism.

2. A mixed copper alloy powder dusting apparatus according to claim 1 wherein said control valve is located in an end of said delivery pipe near said mixer.

3. A mixed copper alloy powder dusting apparatus according to claim 1, whereby said first linear motion unit comprises:

the two support plates are arranged on the outer side of the rack oppositely, and one opposite side of each support plate is provided with a sliding groove;

the bearing table is an output part of the first linear motion unit, and two ends of the bearing table are arranged in the sliding grooves of the two supporting plates in a sliding manner;

the output part of the driving component can move back and forth along the vertical direction, and the bearing table is fixedly arranged on the output part of the driving component.

4. A hybrid copper alloy powder dusting apparatus according to claim 3 wherein said second linear motion unit comprises:

the feeding cylinder is fixedly arranged on the bearing table, the output part of the feeding cylinder can move back and forth along the horizontal direction, the output part of the feeding cylinder is the output part of the second linear motion unit, and the movable powder loading box is fixedly arranged on the output part of the feeding cylinder.

5. The hybrid copper alloy powder dusting apparatus of claim 4 wherein said second linear motion unit further comprises:

two movable guide rails are arranged on the bearing table oppositely and positioned on two sides of the feeding cylinder;

the linear bearings are arranged in one-to-one correspondence with the movable guide rails, the linear bearings are arranged on the output parts of the corresponding movable guide rails, and each linear bearing is connected with the movable powder containing box.

6. A mixed copper alloy powder dusting device according to claim 1 wherein the dusting mechanism comprises a storage box, dusting rollers, a vibrating screen and a mesh belt, wherein:

the storage box is fixedly arranged on the rack, openings are formed in the upper end and the lower end of the storage box, and the upper end of the storage box is an input part of the dusting mechanism;

the dusting roller is rotatably arranged on the rack and is positioned right below the opening at the lower end of the storage box;

the vibrating screen is arranged on the rack and is positioned right below the dusting roller;

the guipure is the crawler-type, the guipure is movably to be set up in the frame, the guipure is located the reciprocating sieve below, the guipure is the output of dusting mechanism.

7. A mixed copper alloy powder dusting device according to claim 6 characterised in that the mobile powder loading box is operatively located above the storage box, and a powder loading box valve is arranged on a side wall of the mobile powder loading box near one side of the storage box.

8. The hybrid copper alloy powder dusting device of claim 6 wherein said dusting mechanism further comprises a dust cover covering said storage box, and wherein an inlet is provided at an upper portion of said dust cover.

9. The hybrid copper alloy powder dusting device of claim 1 wherein the frame is box-shaped, the dusting device further comprising a negative pressure fan disposed outside the frame, an input of the negative pressure fan communicating with the inside of the frame.

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