CN210993882U - Quick mediation device of raw materials is used in production of high performance laser marking powder - Google Patents

Abstract

The utility model relates to a laser marking powder apparatus for producing technical field discloses a high performance laser marking powder production is with quick mediation device of raw materials, including compounding case main part, the controller is installed to the front side of compounding case main part, and the four corners of the bottom of compounding case main part all is connected with the supporting legs, the bottom of compounding case main part is provided with the discharging pipe, the top of the both sides of compounding case main part all is connected with impurity screening collection device, the motor is installed to the intermediate position on the top of compounding case main part, one side on the top of compounding case main part is provided with the inlet pipe. The utility model discloses a slider, spout, electric cylinder, screening frame and sieve pour the mixing box back into in raw materials and batching, again through stirring leaf, puddler mix between the stirring can be convenient with the impurity screening of raw materials batching fall, avoid the raw materials to mix impurity influence radium carving powder's quality to this raw materials mediation device's work efficiency has been improved.

Description

Quick mediation device of raw materials is used in production of high performance laser marking powder

Technical Field

The utility model relates to a laser marking powder apparatus for producing field specifically is a high performance laser marking powder production is with quick mediation device of raw materials.

Background

Laser marking is a novel marking method, and high-energy of laser is used for irradiating the surface of plastic to cause carbonization, foaming, color change reaction and the like, so that a mark with a color different from that of a matrix is obtained. At present, laser marking is mainly applied to permanent marking, product anti-counterfeiting, tracking of important parts and the like, and has great advantages compared with the traditional printing and marking technology. The laser marking powder is also called laser carving powder, and the laser carving powder can enable plastic to be easily marked/coded by laser, or greatly improve the definition of laser identification of plastic materials. Where in the past it has been possible to create tiny marks, it is now possible to obtain high definition marks, laser engraving powder being suitable not only for laser coding but also for laser welding. In the process of producing the laser etching powder, various ingredients of the laser etching powder are required to be mixed and blended together due to production.

At present, a plurality of raw material rapid blending devices for producing laser marking powder exist in the market, but the raw material blending devices generally exist and can not conveniently screen and collect part of impurities mixed in raw materials and ingredients before the raw materials and the ingredients are mixed. Therefore, the technical personnel in the field provide a raw material fast blending device for producing high-performance laser marking powder to solve the problems in the background technology.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mark powder production of high performance laser is with raw materials quick mediation device to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a raw material fast blending device for producing high-performance laser marking powder comprises a mixing box main body, wherein a controller is installed on the front side of the mixing box main body, supporting legs are connected to four corners of the bottom end of the mixing box main body, a discharging pipe is arranged at the bottom end of the mixing box main body, impurity screening and collecting devices are connected to the tops of two sides of the mixing box main body, a motor is installed in the middle of the top end of the mixing box main body, a feeding pipe is arranged on one side of the top end of the mixing box main body, a batching pipe is arranged on the other side of the top end of the mixing box main body, a square hole is formed in the top end of the rear side of the mixing box main body, a sealing plate is connected to the position, close to the square hole, of the rear side of the mixing box main body, four sliding grooves are formed in the top end of the inner wall of the mixing box main body, the bottom end of the stirring rod is provided with an arc-shaped material stirring rod.

As a further aspect of the present invention: impurity screening collection device is including screening frame, one side of screening frame is connected with electric cylinder, the bottom of the inner wall of screening frame is connected with the attachment strap, the slider is all installed to the intermediate position on the both sides on the top of screening frame, first screw has all been seted up on the both sides of the front side of screening frame, the top of attachment strap is connected with the sieve, the front side of sieve is connected with the fly leaf, the second screw has all been seted up on the both sides of the front side of fly leaf, the front side of fly leaf is connected with two stop screw.

As a further aspect of the present invention: the limiting screw penetrates through the inner sides of the second screw hole and the first screw hole in sequence, the movable plate and the screening frame are connected through the limiting screw, the second screw hole and the first screw hole in a fastening mode, and the cross section of the screening plate is identical to the cross section of the inner side of the screening frame.

As a further aspect of the present invention: the slider is connected with the inner side of the sliding groove, and the screening frame and the mixing box main body are connected through the slider and the sliding groove in a sliding mode.

As a further aspect of the present invention: the upper half of arc kickoff rod sets up in the inside of compounding case main part, the latter half of arc kickoff rod sets up in the inside of discharging pipe.

As a further aspect of the present invention: one side of the junction of shrouding and mixing box main part is provided with the damping hinge, the opposite side of the junction of shrouding and mixing box main part is provided with the hasp structure.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through slider, spout, electric cylinder, screening frame and sieve, pour the mixing box back into in raw materials and batching, again through stirring leaf, puddler mix between the stirring can be convenient with the impurity screening of raw materials batching fall, avoid the raw materials to mix impurity influence radium carving powder's quality to the work efficiency of this raw materials mediation device has been improved.

2. Through stop screw, first screw, second screw, square hole and shrouding, long-pending behind more impurity of staying in the screening frame, people can be convenient take out the impurity on the sieve from the compounding box main part in order to collect the processing, dial the material pole through motor and arc, when arranging the material, can make the unobstructed discharge pipe of following of raw materials discharge to improve the device's practicality, made things convenient for people's use.

Drawings

FIG. 1 is a schematic structural diagram of a raw material rapid blending device for producing high-performance laser marking powder;

FIG. 2 is a front partial cross-sectional view of a mixing box body in a raw material rapid-blending device for producing high-performance laser marking powder;

FIG. 3 is a side partial cross-sectional view of a mixing box body in a raw material rapid-tempering device for producing high-performance laser marking powder;

fig. 4 is a partial explosion diagram of an impurity screening and collecting device in a raw material rapid blending device for producing high-performance laser marking powder.

In the figure: 1. supporting legs; 2. a mixing box main body; 3. an impurity screening and collecting device; 4. a feed pipe; 5. a motor; 6. a material distribution pipe; 7. a controller; 8. stirring blades; 9. a stirring rod; 10. an arc-shaped material poking rod; 11. a discharge pipe; 12. a chute; 13. a square hole; 14. closing the plate; 31. an electric cylinder; 32. a butt strap; 33. a slider; 34. a first screw hole; 35. a second screw hole; 36. a limit screw; 37. a movable plate; 38. a sieve plate; 39. and (4) screening the frame.

Detailed Description

Referring to fig. 1-4, in the embodiment of the present invention, a raw material fast blending device for producing high performance laser marking powder comprises a mixing box main body 2, a controller 7 is installed on the front side of the mixing box main body 2, four corners of the bottom of the mixing box main body 2 are connected with supporting legs 1, a discharging pipe 11 is installed on the bottom of the mixing box main body 2, impurity screening and collecting devices 3 are connected to the tops of two sides of the mixing box main body 2, a motor 5 is installed in the middle of the top of the mixing box main body 2, a feeding pipe 4 is installed on one side of the top of the mixing box main body 2, a blending pipe 6 is installed on the other side of the top of the mixing box main body 2, a square hole 13 is opened on the top of the rear side of the mixing box main body 2, a closing plate 14 is connected to the position of the rear side of the mixing box main body 2 close to the square, puddler 9 is installed to the bottom of motor 5, and the impartial distance in both sides of puddler 9 is connected with a plurality of stirring leaf 8, and arc setting lever 10 is installed to the bottom of puddler 9.

In fig. 4: impurity screening collection device 3 is including screening frame 39, one side of screening frame 39 is connected with electric cylinder 31, the bottom of the inner wall of screening frame 39 is connected with attachment strap 32, slider 33 is all installed to the intermediate position on both sides on the top of screening frame 39, first screw 34 has all been seted up on both sides of the front side of screening frame 39, the top of attachment strap 32 is connected with sieve 38, the front side of sieve 38 is connected with fly leaf 37, second screw 35 has all been seted up on both sides of the front side of fly leaf 37, the front side of fly leaf 37 is connected with two stop screw 36, thereby the raw materials with fall into batching level back and forth movement's screening frame 39 in back, raw materials and batching can sieve through sieve 38, make impurity screen stay on sieve 38, raw materials and batching fall into mixing box main part 2 bottom.

In fig. 4: the limit screw 36 penetrates through the inner sides of the second screw hole 35 and the first screw hole 34 in sequence, the movable plate 37 and the screening frame 39 are fixedly connected through the limit screw 36, the second screw hole 35 and the first screw hole 34, the cross section of the screening plate 38 is the same as that of the inner side of the screening frame 39, therefore, the limit screw 36 can be rotated out of the first screw hole 34 and the second screw hole 35 in sequence, the movable plate 37 is held and pulled by hand, and the screening plate 38 is pulled out of the screening frame 39 to process impurities on the screening plate 38.

In fig. 2: the sliding block 33 is connected with the inner side of the sliding groove 12, the screening frame 39 and the mixing box main body 2 are in sliding connection through the sliding block 33 and the sliding groove 12, and therefore a piston rod of the electric cylinder 31 can drive the screening frame 39 and the screening plate 38 connected with the inside of the screening frame 39 to horizontally move back and forth in the mixing box main body 2 under the action of the sliding block 33 and the sliding groove 12.

In fig. 2: the upper half part of the arc stirring rod 10 is arranged inside the mixing box main body 2, the lower half part of the arc stirring rod 10 is arranged inside the discharge pipe 11, so that raw materials can be smoothly discharged from the discharge pipe 11, the motor 5 can be opened for several times, the output shaft of the motor 5 rotates at a lower rotating speed, the arc stirring rod 10 continuously rotates at the discharge pipe 11 for stirring, the situation that the raw materials are blocked on the discharge pipe under the action of gravity is avoided, the electric cylinder 31, the controller 7 and the motor 5 are all connected with an external power supply, the model of the electric cylinder 31 is MHZ216-D, the model of the controller 7 is TE4-RB10, and the model of the motor 5 is Y132S 1-2.

In fig. 3: one side of the junction of shrouding 14 and mixing box main part 2 is provided with the damping hinge, and the opposite side of the junction of shrouding 14 and mixing box main part 2 is provided with the hasp structure to when needs will sieve frame 39 interior volume leave more impurity and take out, can open the hasp structure between shrouding 14 and the mixing box main part 2, and overturn square hole 13 department with shrouding 14 through the damping hinge and clear up the impurity on the sieve 38.

The utility model discloses a theory of operation is: when the raw material mixing device is required to be used for mixing raw materials and ingredients, firstly, the electric cylinder 31 is opened, the piston rod of the electric cylinder 31 drives the screen plate 38 connected with the inside of the screen frame 39 and the screen frame 39 to horizontally move back and forth in the mixing box main body 2 under the action of the slide block 33 and the slide groove 12, then the raw materials are poured into the mixing box main body 2 through the feeding pipe 4, the ingredients are poured into the mixing box main body 2 through the ingredient pipe 6, the raw materials and the ingredients respectively fall into the screen frame 39 arranged below the feeding pipe 4 and the ingredient pipe 6, after the raw materials and the ingredients fall into the screen frame 39 which horizontally moves back and forth, the raw materials and the ingredients are screened through the screen plate 38, so that the impurity screen is remained on the screen plate 38, the raw materials and the ingredients fall into the bottom of the mixing box main body 2, then the motor 5 is opened, the output shaft of the motor 5 drives the stirring rod 9 and the stirring blade 8 to rotate, after the raw materials and the ingredients are blended, the motor 5 is closed and the valve on the discharge pipe 11 is opened to discharge the raw materials from the discharge pipe 11, in order to discharge the raw materials from the discharge pipe 11 smoothly, the motor 5 is opened again and the output shaft of the motor 5 is rotated at a lower rotating speed, the arc-shaped material stirring rod 10 continuously rotates and stirs the materials at the discharge pipe 11, so that the raw materials are prevented from being blocked at the discharge pipe under the action of gravity, after more impurities are accumulated in the sieving frame 39, the locking structure between the sealing plate 14 and the mixing box main body 2 is opened, the sealing plate 14 is turned over to the square hole 13 through the damping hinge, then the limit screw 36 is sequentially turned out of the first screw hole 34 and the second screw hole 35, and then the movable plate 37 is manually held and pulled, so that the sieve plate 38 is pulled out from the sieving frame 39 to process the impurities on the.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A raw material fast blending device for producing high-performance laser marking powder comprises a mixing box main body (2) and is characterized in that a controller (7) is installed on the front side of the mixing box main body (2), supporting legs (1) are connected to four corners of the bottom of the mixing box main body (2), a discharging pipe (11) is arranged at the bottom of the mixing box main body (2), impurity screening and collecting devices (3) are connected to the tops of two sides of the mixing box main body (2), a motor (5) is installed in the middle of the top of the mixing box main body (2), a feeding pipe (4) is arranged on one side of the top of the mixing box main body (2), a material mixing pipe (6) is arranged on the other side of the top of the mixing box main body (2), a square hole (13) is formed in the top of the rear side of the mixing box main body (2), and a sealing plate (14) is connected to the position, close to the square hole (13), of the rear side, four spouts (12) have been seted up on the top of the inner wall of compounding case main part (2), puddler (9) are installed to the bottom of motor (5), the impartial distance in both sides of puddler (9) is connected with a plurality of stirring leaf (8), arc stirring rod (10) are installed to the bottom of puddler (9).

2. The high-performance laser marking powder production is with raw materials quick mediation device of claim 1, characterized in that, impurity screening collection device (3) is including screening frame (39), one side of screening frame (39) is connected with electric cylinder (31), the bottom of the inner wall of screening frame (39) is connected with attachment strap (32), slider (33) are all installed to the intermediate position on both sides on the top of screening frame (39), first screw (34) have all been seted up on both sides of the front side of screening frame (39), the top of attachment strap (32) is connected with sieve (38), the front side of sieve (38) is connected with fly leaf (37), second screw (35) have all been seted up on both sides of the front side of fly leaf (37), the front side of fly leaf (37) is connected with two stop screw (36).

3. The raw material fast blending device for producing the high-performance laser marking powder as claimed in claim 2, wherein the limit screw (36) sequentially penetrates through the inner sides of the second screw hole (35) and the first screw hole (34), the movable plate (37) and the screening frame (39) are fixedly connected through the limit screw (36), the second screw hole (35) and the first screw hole (34), and the cross section of the screening plate (38) is the same as that of the inner side of the screening frame (39).

4. The raw material fast-blending device for producing the high-performance laser marking powder as claimed in claim 2, wherein the sliding block (33) is connected with the inner side of the sliding groove (12), and the sieving frame (39) and the mixing box main body (2) are connected with the sliding groove (12) through the sliding block (33) in a sliding manner.

5. The raw material fast blending device for producing the high-performance laser marking powder as claimed in claim 1, wherein the upper half part of the arc-shaped stirring rod (10) is arranged inside the mixing box main body (2), and the lower half part of the arc-shaped stirring rod (10) is arranged inside the discharge pipe (11).

6. The device for quickly blending the raw materials for producing the high-performance laser marking powder as claimed in claim 1, wherein a damping hinge is arranged on one side of the joint of the sealing plate (14) and the mixing box main body (2), and a locking structure is arranged on the other side of the joint of the sealing plate (14) and the mixing box main body (2).

Images