CN212603443U - Automatic cleaning structure for powder inside forming machine - Google Patents

Abstract

The utility model provides an automatic powder cleaning structure in a forming machine, which comprises a forming machine workpiece table, wherein a left baffle, a front baffle, a rear baffle and a right baffle are respectively arranged around the forming machine workpiece table; wherein, the inner side of the left baffle is connected with a dust collection groove, the dust collection groove is connected with a dust collector through a dust collection pipe, the outer side of the front baffle is fixedly provided with a first high-pressure air pipe assembly, the inner side of the rear baffle is provided with a powder groove, and the outer side of the right baffle is fixedly provided with a second high-pressure air pipe assembly; the powder groove is obliquely arranged to form a slope, and the horizontal height of the powder groove is higher than that of the dust suction groove connected with the powder groove. The utility model discloses an use the high-pressure gas to clean the inside powder of make-up machine, the convenient dust that will adhere to at the dead angle effectively blows off to use the dust catcher to absorb the powder, can swiftly realize the collection and the recycle to the powder. Meanwhile, the baffles are arranged around the workbench to protect operators and prevent powder from flying.

Description

Automatic cleaning structure for powder inside forming machine

Technical Field

The utility model relates to an inside automatic clearance structure of powder of make-up machine belongs to the machining field.

Background

The forming machine belongs to an additive manufacturing method and has the advantage of high material efficiency, but in actual production, dust is generated in the working process of the forming machine.

As publication number CN205614056U discloses a powder cleaning device, including installed part, rotatable mechanism and supporting seat, the metal 3D printing part grows on the growth substrate, the installed part is used for the fixed mounting growth substrate, the installed part is connected with the supporting seat through the rotatable mechanism, through the rotation of rotatable mechanism, make the metal 3D printing part can rotate around at least one rotation axis. The utility model discloses install the growth substrate that has metal 3D to print the part on the installed part, but under rotary mechanism's rotation, make metal 3D print the part and can rotate around an at least rotation axis, can replace the manual work to move growth substrate like this, make the direction that transform metal 3D printed the part become easier, be convenient for print the rotatory in-process of part at metal 3D, thoroughly clear up the aperture that metal 3D printed the part or the remaining powder in the slot through means such as strike.

Also, for example, publication No. CN208758037U discloses an adjustable powder vibrating screen, which includes a variable frequency feeder, a vibrating screen body, a micro-leveling material plate, a powder monitoring groove, and a control module; the variable frequency feeder is used for carrying the material to the shale shaker body, and the shale shaker body is used for screening the material, finely tunes the material height that flat flitch is used for controlling on the sifting surface of shale shaker body, and powder monitoring groove is used for accepting and monitoring the powder that shale shaker body afterbody was sieved down, and control module is used for receiving and handling variable frequency feeder's feed frequency conversion information and the alarm information and the powder clearance time information in powder monitoring groove. The utility model discloses a powder sieve that shakes with adjustable can carry out real-time supervision to the screening condition of material through setting up frequency conversion batcher, little leveling flitch and powder monitoring groove to when material screening appears unusually, send out the police dispatch newspaper and in time adjust the sieve that shakes, ensure the screening effect of material, guarantee blast furnace production efficiency and quality.

The dust of the forming machine can be attached to the working table of the forming machine, particularly in certain dead corner areas, and the cleaning is difficult.

SUMMERY OF THE UTILITY MODEL

To the above, the utility model provides an inside powder automatic clearance structure of make-up machine, the utility model discloses an use high-pressurepipe to blow and penetrate for powder gathering on attaching to the workstation blows the powder of gathering to the dust catcher dust absorption mouth again, accomplishes the clearance and the collection to the dust.

The utility model discloses specific technical scheme as follows:

the utility model provides an inside powder automatic clearance structure of make-up machine, includes make-up machine work piece platform, its characterized in that: a left baffle, a front baffle, a rear baffle and a right baffle are respectively arranged on the periphery of the workpiece table of the forming machine; wherein, the inner side of the left baffle is connected with a dust collection groove, the dust collection groove is connected with a dust collector through a dust collection pipe, the outer side of the front baffle is fixedly provided with a first high-pressure air pipe assembly, the inner side of the rear baffle is provided with a powder groove, and the outer side of the right baffle is fixedly provided with a second high-pressure air pipe assembly; the powder groove is obliquely arranged to form a slope, and the horizontal height of the powder groove is higher than that of the dust suction groove connected with the powder groove.

The first high-pressure air pipe assembly comprises a first fixed block arranged on the workpiece table of the forming machine, a first high-pressure air pipeline arranged on the first fixed block, and a first high-pressure air outlet connected with the front baffle plate and arranged on the first high-pressure air pipeline, and the first high-pressure air outlet is aligned to the working plane of the workpiece table of the forming machine.

And a first high-pressure air pipe switch valve is arranged on the first high-pressure air pipe.

The second high-pressure air pipe assembly comprises a second fixed block arranged on the workpiece table of the forming machine, a second high-pressure air pipeline arranged on the second fixed block, and a second high-pressure air outlet connected with the right baffle plate and arranged on the second high-pressure air pipeline, and the second high-pressure air outlet is aligned to the working plane of the workpiece table of the forming machine.

And a second high-pressure air pipe switch valve is arranged on the second high-pressure air pipe.

The left baffle, the front baffle, the rear baffle and the right baffle are made of plastics.

The utility model has the advantages that: the utility model discloses an use the high-pressure gas to clean the inside powder of make-up machine, the convenient dust that will adhere to at the dead angle effectively blows off to use the dust catcher to absorb the powder, can swiftly realize the collection and the recycle to the powder. Meanwhile, the baffles are arranged around the workbench to protect operators and prevent powder from flying.

Drawings

FIG. 1 is a front side view of the installation of the present invention;

FIG. 2 is a rear side view angle mounting diagram of the present invention;

FIG. 3 is a view showing the installation position of the dust tank of the present invention;

FIG. 4 is a view showing the structure of the vacuum cleaner;

Detailed Description

The automatic powder cleaning structure inside the forming machine according to the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, 2 and 3, an automatic powder cleaning structure inside a molding machine comprises a molding machine workpiece table 103, wherein a left baffle 101, a front baffle 102, a rear baffle 106 and a right baffle 105 are respectively installed on the periphery of the molding machine workpiece table 103, and the left baffle 101, the front baffle 102, the rear baffle 106 and the right baffle 105 are made of plastics; wherein, the inner side of the left baffle 101 is connected with a dust suction groove 205, the dust suction groove 205 is connected with a dust collector 200 through a dust suction pipe 204, the outer side of the front baffle 102 is fixedly provided with a first high-pressure air pipe assembly 300, the inner side of the rear baffle 106 is provided with a powder groove 108, and the outer side of the right baffle 105 is fixedly provided with a second high-pressure air pipe assembly 500; the powder groove 108 is arranged obliquely to form a slope and is higher in level than the dust suction groove 205 connected thereto.

As shown in fig. 2 and 3, the first high-pressure air pipe assembly 300 includes a first fixed block 306 installed on the molding machine workpiece table 103, a first high-pressure air pipe 305 installed on the first fixed block 306, and a first high-pressure air outlet 307 connected to the front baffle 102 and arranged on the first high-pressure air pipe 305, wherein the first high-pressure air outlet 307 is aligned with the working plane of the molding machine workpiece table 103. The first high-pressure gas pipeline 305 is provided with a first high-pressure gas pipe switch valve 401, one end of the first high-pressure gas pipe switch valve 401 is connected with the first high-pressure gas pipeline 305, and the other end of the first high-pressure gas pipe switch valve is connected with a high-pressure gas pump. When the first high-pressure air pipe switch valve 401 is opened, high-pressure air is blown out from the first high-pressure air outlet 307 through the first high-pressure air pipe 305, and the high-pressure air blown out from the first high-pressure air outlet 307 blows powder attached to the molding machine workpiece stage 103 into the powder tank 108. When the first high-pressure gas pipe switch valve 401 is closed, the first high-pressure gas outlet 307 does not blow out high-pressure gas.

As shown in fig. 2 and 3, the second high-pressure air pipe assembly 500 includes a second fixed block 503 mounted on the molding machine workpiece table 103, a second high-pressure air pipe 502 mounted on the second fixed block 503, and a second high-pressure air outlet 504 connected to the right baffle 105 and provided on the second high-pressure air pipe 502, wherein the second high-pressure air outlet 504 is aligned with the working plane of the molding machine workpiece table 103. And a second high-pressure gas pipe switch valve 402 is arranged on the second high-pressure gas pipe 502, one end of the second high-pressure gas pipe switch valve 402 is connected with the second high-pressure gas pipe 502, and the other end of the second high-pressure gas pipe switch valve is connected with a high-pressure gas pump. When the second high-pressure air pipe switch valve 402 is opened, high-pressure air is blown out from the second high-pressure air outlet 504 through the second high-pressure air pipe switch valve 402, and the powder attached to the workpiece stage 103 of the molding machine and the powder collected in the powder tank 108 are blown to the dust collection tank 205 by the high-pressure air blown out from the second high-pressure air pipe switch valve 504. When the second high-pressure air pipe switch valve 402 is closed, the second high-pressure air outlet 504 does not blow out high-pressure air.

As shown in fig. 4, the dust suction groove 205 is connected to a dust collector 200 through a dust suction pipe 204, and the dust collector 200 sucks powder in the dust suction groove 205 through the dust suction pipe 204. The dust collector 200 should be an explosion-proof dust collector with a static electricity removing function, and meanwhile, the dust collector 200 is provided with a pressure gauge 202, and the pressure gauge 202 monitors the pressure in the dust collector 200 in real time.

The left baffle 101, the front baffle 102, the rear baffle 106 and the right baffle 105 are mounted around the molding machine workpiece table 103 and above the molding machine workpiece table 103 by using an adhesive, or magnetic strips are mounted on the baffles and adsorbed on the molding machine workpiece table 103, and the magnetic strips are preferably strong magnets. The left baffle 101 prevents powder from flying out of the dust chute 205. The front baffle 102 protects the operator and prevents powder from adhering to the first high pressure gas line assembly 300. The right baffle 105 prevents powder from adhering to the second high pressure gas pipe assembly 500. The tailgate 106 may prevent powder from flying out of the powder chute 108.

The operation method of the utility model is as follows: when powder needs to be cleaned, the workpiece table 103 of the forming machine and each baffle plate are covered by the cover plate to form a sealed space. Then, the first high-pressure gas pipe switch valve 401 is opened, the high-pressure gas is blown out from the first high-pressure gas outlet 307 through the first high-pressure gas pipeline 305, and after the high-pressure gas blown out from the first high-pressure gas outlet 307 blows the powder attached to the workpiece stage 103 of the molding machine into the powder tank 108, the first high-pressure gas pipe switch valve 401 is closed. When the vacuum cleaner 200 is turned on, and then the second high-pressure air pipe switch valve 402 is turned on, high-pressure air is blown out from the second high-pressure air outlet 504 through the second high-pressure air pipe switch valve 402, the high-pressure air blown out from the second high-pressure air outlet 504 blows powder attached to the workpiece stage 103 of the molding machine and powder collected in the powder tank 108 to the dust collection tank 205, and the vacuum cleaner 200 absorbs the powder in the dust collection tank 205 through the dust collection pipe 204. The pressure gauge 202 monitors the pressure in the vacuum cleaner 200 in real time, and when the pressure gauge 202 indicates that the pressure in the vacuum cleaner 200 is too high, the powder in the vacuum cleaner 200 should be cleaned in time.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an inside powder automatic clearance structure of make-up machine, includes make-up machine work piece platform (103), its characterized in that: a left baffle (101), a front baffle (102), a rear baffle (106) and a right baffle (105) are respectively arranged on the periphery of the workpiece table (103) of the forming machine; wherein the inner side of the left baffle (101) is connected with a dust collection groove (205), the dust collection groove (205) is connected with a dust collector (200) through a dust collection pipe (204), the outer side of the front baffle (102) is fixedly provided with a first high-pressure air pipe component (300), the inner side of the rear baffle (106) is provided with a powder groove (108), and the outer side of the right baffle (105) is fixedly provided with a second high-pressure air pipe component (500); the powder groove (108) is obliquely arranged to form a slope, and the horizontal height of the powder groove is higher than that of the dust suction groove (205) connected with the powder groove.

2. The automatic cleaning structure for powder inside a forming machine according to claim 1, characterized in that: the first high-pressure air pipe assembly (300) comprises a first fixed block (306) arranged on the workpiece table (103) of the forming machine, a first high-pressure air pipeline (305) arranged on the first fixed block (306), and a first high-pressure air outlet (307) connected with the front baffle (102) and arranged on the first high-pressure air pipeline (305), wherein the first high-pressure air outlet (307) is aligned to the working plane of the workpiece table (103) of the forming machine.

3. The automatic cleaning structure for powder inside a forming machine according to claim 2, characterized in that: and a first high-pressure gas pipe switch valve (401) is arranged on the first high-pressure gas pipeline (305).

4. The automatic cleaning structure for powder inside a forming machine according to claim 1, characterized in that: the second high-pressure air pipe assembly (500) comprises a second fixed block (503) arranged on the forming machine workpiece table (103), a second high-pressure air pipeline (502) arranged on the second fixed block (503), and a second high-pressure air outlet (504) connected with the right baffle (105) and arranged on the second high-pressure air pipeline (502), wherein the second high-pressure air outlet (504) is aligned to the working plane of the forming machine workpiece table (103).

5. The automatic cleaning structure for powder inside a forming machine according to claim 4, characterized in that: and a second high-pressure gas pipe switch valve (402) is arranged on the second high-pressure gas pipeline (502).

6. The automatic cleaning structure for powder inside a forming machine according to any one of claims 1 to 5, characterized in that: the left baffle (101), the front baffle (102), the rear baffle (106) and the right baffle (105) are made of plastics.

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