CN215492750U - Metallographic phase embedding machine - Google Patents

Abstract

The utility model discloses a metallographic phase embedding machine, which is applied to the field of embedding machines, and the technical scheme is as follows: the processing assembly is embedded in the material receiving disc, a through hole for discharging is formed in the material receiving disc, and the through hole is communicated with a material receiving drawer arranged at the bottom of the front box body through a guide pipe; has the technical effects that: through setting up the receipts charging tray in material loading department to set up the receipts material drawer that uses with it in coordination, can collect and discharge unrestrained molding material powder when reinforced, deposit the material cup simultaneously and can collect adnexed molding powder on the shaping part, optimized the hourglass material and collected, alleviateed operating personnel's working strength.

Description

Metallographic phase embedding machine

Technical Field

The utility model relates to the field of inlaying machines, in particular to a metallographic inlaying machine.

Background

At present, the utility model discloses a chinese utility model patent of publication number CN213673355U has announced a metallographic specimen insertion machine, including the organism, the upper end of organism is provided with the dog-house, and the organism sets up dust extraction, and dust extraction is including inhaling the material hose, collecting the frame and being used for inhaling the power component that the material hose provided suction, collects the frame and inhale the material hose and be linked together, and power component includes the motor and sets up in the axis of rotation of motor output end, and the axis of rotation extends to the inside of collecting the frame, and the axis of rotation is provided with helical blade.

This kind of metallography inlay machine with dust extraction can only suck the shaping material powder near the dog-house, but after processing, still can be stained with a large amount of powders on the part that is used for the shaping that takes off, and these powders are difficult for being sucked by dust extraction under uncooled condition, can exert an influence to further operation, adopt electric dust extraction can promote the cost of inlay machine by a wide margin simultaneously.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a metallographic embedding machine which has the advantage that formed materials scattered during processing and after processing can be collected.

The technical purpose of the utility model is realized by the following technical scheme:

the utility model provides a metallography inlaying machine, includes preceding box and the inside processing subassembly of installation box in the front, preceding box includes the detachable upper cover plate, be provided with on the upper cover plate and receive the charging tray and be used for depositing the material storage cup of remaining waste material, the embedded installation of processing subassembly is in receiving the charging tray, be provided with the through-hole that is used for row material on receiving the charging tray, the through-hole switches on through pipe and the receipts material drawer that sets up bottom half in the front.

Through the technical scheme: the detachable upper cover plate can be maintained quickly after equipment inside the front box body breaks down, the processing assembly is used for processing and forming molding material powder, material leakage is inevitable in the feeding process, the material receiving tray is used for collecting scattered powder and discharging the scattered powder into the material receiving drawer through the through holes and the guide pipe, after processing is completed, the powder attached to the part can be removed, the part can be placed into the material storing cup, after the part is cooled, the powder can be separated from the material storing cup by itself and fall into the material storing cup, and pollution to a table top is avoided.

The utility model is further configured to: the processing assembly comprises a die tube seat, a die tube for insert molding is arranged in the middle of the die tube seat, a lower die head is fixedly embedded in the lower end of the die tube, a pressurizing screw rod penetrates through the bottom edge of the lower die head, and an upper die head is detachably arranged at the upper end of the die tube in a sliding manner.

Through the technical scheme: the die tube is a powder processing molding area, and the upper die head and the lower die head are used for limiting the shape of a molded product.

The utility model is further configured to: the upper end of the die tube is provided with a screwing head, a die tube cover is sleeved on the screwing head, and a compression screw rod used for pressing the upper die head down is arranged inside the die tube cover.

Through the technical scheme: when processing, mould tube cap cooperation compression screw compresses tightly the mould head and can prevent that the mould pipe from making its inside shaping powder blowout after the pressurized, guarantees the success rate of processing.

The utility model is further configured to: the surface of screwing the head is provided with the groove of screwing, the inside of mould tube cap sets up the arch of screwing, the arch of screwing can with the groove of screwing joint.

Through the technical scheme: after molding powder is filled into the die tube, the die tube cover is tightly connected with the screwing head through the screwing protrusion and the screwing groove, and the stability of the machining process is ensured.

The utility model is further configured to: the mould tube cover is sleeved with an anti-scald cover, the anti-scald cover is provided with at least one rotating handle, and the rotating handle penetrates through the anti-scald cover and then is screwed with the mould tube cover.

Through the technical scheme: need heat the processing subassembly man-hour, the heat can lead to mould tube cap temperature to rise after the conduction, and the cover of preventing scalding of cover put on it can avoid operating personnel to scald, and rotatory handle can carry out the dismouting operation to it without contacting mould tube cap simultaneously.

The utility model is further configured to: and the power mechanism is arranged in the front box body and comprises a pressurizing assembly and a heating assembly, and the pressurizing assembly and the heating assembly are respectively connected with the processing assembly.

Through the technical scheme: the heating assembly is used for heating and melting the molding material powder, and the pressurizing assembly pressurizes the molding material powder after the molding material is melted and molds the molding material powder under the action of pressure.

The utility model is further configured to: the water cooling device is characterized by further comprising a rear box body, the rear box body is in conduction connection with the inside of the front box body, a water cooling mechanism is arranged on the lower portion of the rear box body, and a water inlet pipe and a water outlet pipe of the water cooling mechanism penetrate out of the rear box body.

Through the technical scheme: after the molding material is pressurized to be molded, it is necessary to cool and solidify the molding material by a water cooling mechanism to mold the product.

The utility model is further configured to: the upper part of the rear box body is provided with a control mechanism, the control mechanism comprises a touch screen controller and a button controller, and the touch screen controller and the button controller are respectively and electrically connected with the power mechanism.

Through the technical scheme: the touch screen controller and the button controller can control heating and pressurizing operations of the power mechanism, the touch screen controller and the button controller can alternately control the power mechanism in a machining process, the influence on durability caused by long-term use of one controller can be prevented, meanwhile, if one controller breaks down due to long-term use, the other controller can be used for operation, and the machining process is guaranteed not to stop due to equipment failure.

In conclusion, the utility model has the following beneficial effects: through setting up in material loading department and receiving the charging tray to the material drawer is received in the setting with it cooperation use, can collect and discharge unrestrained molding material powder when reinforced, deposit the material cup simultaneously and can collect adnexed molding powder on the shaping part, can guarantee to process the clean and tidy of whole equipment, guarantee the yields of processing product.

Drawings

FIG. 1 is a schematic view of the whole of the damascene machine of the present embodiment;

FIG. 2 is a cross-sectional view of the tooling assembly of the present embodiment;

FIG. 3 is an exploded view of the processing assembly of the present embodiment;

fig. 4 is a schematic diagram of the power mechanism of the embodiment.

Reference numerals: 1. a front box body; 11. an upper cover plate; 12. a material receiving disc; 121. a through hole; 13. a material storage cup; 14. a material receiving drawer; 2. processing the assembly; 21. a mold tube seat; 22. a mold tube; 23. a lower die head; 231. a pressurizing screw; 24. an upper die head; 25. screwing the head; 251. screwing the groove; 26. a mold tube cover; 261. screwing the bulge; 262. a compression screw; 27. an anti-scald cover; 271. rotating the handle; 3. a power mechanism; 4. a rear box body; 41. a water inlet pipe; 42. a water outlet pipe; 43. a touch screen controller; 44. a button controller.

Detailed Description

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

Example (b):

referring to fig. 1, a metallographic mosaic machine comprises a front box 1 and a processing assembly 2 arranged in the front box 1, wherein the front box 1 comprises a detachable upper cover plate 11, the upper cover plate 11 is fixedly screwed on the front box 1 through eight drops, a material receiving tray 12 and a material storage cup 13 for storing residual waste materials are arranged in the middle of the upper cover plate 11, the material storage cup 13 is arranged at the upper corner of the upper cover plate 11 and penetrates through the upper cover plate 11 downwards, the upper cover plate 11 is erected on the upper cover plate 11 through the upper flange of the material storage cup, the processing assembly 2 is embedded in the material receiving tray 12, the material receiving tray 12 is recessed by 2cm deep, so that scattered molding material powder can be collected, a through hole 121 for discharging the material is arranged on the material receiving tray 12, the through hole 121 is communicated with a material receiving drawer 14 arranged at the bottom of the front box 1 through a guide pipe arranged in the front box 1, the material receiving drawer 14 is connected with the front box 1 in a sliding manner, when the powder in the material receiving drawer is filled, the operator can pull out the powder through a handle arranged on the side edge of the operator and clean the collected powder.

Referring to fig. 2 and 3, the processing assembly 2 includes a mold tube seat 21, the mold tube seat 21 is located inside the front box body 1, a mold tube 22 extending upward and used for forming powder is arranged in the middle of the mold tube seat 21, a lower die head 23 is fixedly embedded in the lower end of the mold tube 22, a pressurizing screw 231 is arranged on the lower die head 23 in a penetrating mode and penetrates through the bottom edge of the lower die head, an upper die head 24 is detachably arranged at the upper end of the mold tube 22 in a sliding mode, and an opening used for applying force to the upper die head 24 is formed in the top of the upper die head 24.

Referring to fig. 3, a screwing head 25 is arranged at the upper end of a mold tube 22, a processing assembly 2 is fixedly connected to a material receiving tray 12 through a lower flange of the screwing head 25, a mold tube cover 26 is sleeved on the screwing head 25, an opening of the screwing head 25 is a circular opening, the problem that the mold tube cover 26 is not easy to detach after long-time cold and heat exchange is solved, a compression screw 262 for pressing down a die head 24 is arranged inside the mold tube cover 26, the compression screw 262 can slide up and down in the mold tube cover 26, screwing grooves 251 are arranged on the surface of the screwing head 25, the screwing grooves 251 are two and are staggered and stacked on the screwing head 25, two screwing protrusions 261 are arranged inside the mold tube cover 26 and can be screwed into the screwing grooves 251 to realize screwing and clamping of the two screwing protrusions, and after the clamping is completed, the mold tube cover 26 and the screwing head 25 are locked, and the stability of the processing process can be guaranteed.

Referring to fig. 1 and 2, the anti-scalding cover 27 is sleeved on the mold pipe cover 26, when heating and processing are performed, the temperature can be conducted to the mold pipe cover 26 along with the mold pipe 22, the anti-scalding cover 27 can prevent an operator from mistakenly touching the mold pipe cover 26 to cause scalding, two rotary handles 271 are arranged on the anti-scalding cover 27, the rotary handles 271 penetrate through the anti-scalding cover 27 and are screwed with the mold pipe cover 26, and the operator can screw the mold pipe cover 26 from the screwing head 25 through the rotary handles 271.

Referring to fig. 3 and 4, a power mechanism 3 is disposed inside the front case 1, the power mechanism 3 is disposed below the processing assembly 2, the power mechanism 3 includes a pressurizing assembly and a heating assembly, the pressurizing assembly and the heating assembly are respectively connected to the processing assembly 2, the heating assembly is used for heating the mold tube 22, after powder of the molding material in the mold tube is hot-melted, the pressurizing assembly presses down the die head 23 on the pressurizing assembly through the pressurizing screw 231, the hot-melted molding material can be extruded and molded after being pressed, and after the mold tube 22 is cooled, the hot-melted molding material can be cooled and molded.

Referring to fig. 4, a rear box 4 is disposed on one side of a front box 1, the rear box 4 is in conduction connection with the inside of the front box 1, a water cooling mechanism is disposed on the lower portion of the rear box 4, a water inlet pipe 41 and a water outlet pipe 42 of the water cooling mechanism penetrate through the rear box 4, after a molding material is extruded by a pressurizing assembly, the processing assembly 2 needs to be cooled down, the water cooling mechanism can ensure that the processing assembly 2 is rapidly cooled down, and the processing efficiency is improved, a control mechanism is disposed on the upper portion of the rear box 4, the control mechanism comprises a touch screen controller 43 and a button controller 44, the touch screen controller 43 and the button controller 44 are electrically connected with a power mechanism 3 respectively, the touch screen controller 43 and the button controller 44 can simultaneously heat and pressurize the power mechanism, the button controller is provided with start, rise, power, finish, fall and emergency stop buttons, and can completely control the power mechanism, since the touch screen controller 43 may have degraded performance or be damaged after a long time of operation, the button controller 44 may control the power mechanism individually.

The working process and principle of the embodiment are as follows:

when the working procedure is started, an operator unscrews the mold tube cover 26 from the screwing head 25 by rotating the handle 271, takes out the upper die head 24, puts a product to be inlaid, then fills molding material powder into the mold tube 22 to wrap the product, discharges residual powder scattered on the material receiving tray 12 into the material receiving drawer 14 through the through hole 121, puts the upper die head 24 into the mold tube 22, locks the mold tube cover 26 and the screwing head 25, controls the power mechanism to heat and pressurize the processing assembly by the operator through the touch screen controller 43 or the button controller 44, cools the processing assembly 2 by the water cooling mechanism after pressurization is completed, shapes the product, then unscrews the mold tube cover 26 and puts the mold tube cover into the material storage cup 13, and after the mold tube cover 26 is completely cooled and the powder attached to the mold tube cover is removed, the material storage cup 13 can collect scattered powder, and at the moment, the embedded product can be taken out after the upper die head 24 is taken out by an operator, so that the processing process is completed.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a metallography inlaying machine, its characterized in that, including preceding box (1) and installation box (1) inside processing subassembly (2) in the front, preceding box (1) includes detachable upper cover plate (11), be provided with on upper cover plate (11) and receive charging tray (12) and be used for depositing material storage cup (13) of remaining waste material, embedded the installing in receiving charging tray (12) of processing subassembly (2), be provided with on receiving charging tray (12) and be used for arranging through-hole (121) of material, through-hole (121) switch on through pipe and material receiving drawer (14) that set up box (1) bottom in the front.

2. The metallographic embedding machine according to claim 1, wherein the processing assembly (2) comprises a die tube seat (21), a die tube (22) for embedding and forming is arranged in the middle of the die tube seat (21), a lower die head (23) is arranged at the lower end of the die tube (22) in an embedded and sliding mode, a pressurizing screw rod (231) is arranged on the lower die head (23) in a penetrating mode and penetrates through the bottom edge of the lower die head, and an upper die head (24) is arranged at the upper end of the die tube (22) in an embedded and sliding mode.

3. A metallographic embedding machine according to claim 2, wherein a screwing head (25) is arranged at the upper end of the mould tube (22), a mould tube cover (26) is sleeved on the screwing head (25), and a compression screw (262) for pressing the upper mould head (24) is arranged in the mould tube cover (26).

4. A metallographic embedding machine according to claim 3, wherein the surface of said screwing head (25) is provided with a screwing groove (251), the inside of said mold tube cover (26) is provided with a screwing projection (261), and said screwing projection (261) can be screwed and clamped with said screwing groove (251).

5. A metallographic phase embedding machine according to claim 3, wherein an anti-scalding cover (27) is sleeved on the mold tube cover (26), at least one rotating handle (271) is arranged on the anti-scalding cover (27), and the rotating handle (271) is screwed with the mold tube cover (26) after penetrating through the anti-scalding cover (27).

6. A metallographic mosaic machine according to claim 5, characterized in that power unit (3) is arranged in front box (1), said power unit (3) comprises a pressurizing assembly and a heating assembly, and the pressurizing assembly and the heating assembly are respectively connected with said processing assembly (2).

7. The metallographic phase embedding machine according to claim 6, further comprising a rear box body (4), wherein the rear box body (4) is in conduction connection with the inside of the front box body (1), a water cooling mechanism is arranged on the lower portion of the rear box body (4), and a water inlet pipe (41) and a water outlet pipe (42) of the water cooling mechanism penetrate out of the rear box body (4).

8. A metallographic phase embedding machine according to claim 7, characterized in that the upper part of the rear box body (4) is provided with a control mechanism, the control mechanism comprises a touch screen controller (43) and a button controller (44), and the touch screen controller (43) and the button controller (44) are respectively electrically connected with the power mechanism (3).

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