CN217372607U - Numerical control machining center for plastic mold machining - Google Patents

Abstract

The utility model discloses a numerical control machining center for plastic mould processing relates to plastic mould processing technology field. Including base and numerical control machining center organism, base one side fixedly connected with support, support top fixedly connected with fan, fan bottom fixedly connected with reducing pipe, reducing pipe bottom fixedly connected with hose, the support top is provided with removes the subassembly, it is provided with the lifter to remove the subassembly bottom, the lifter bottom is provided with the second motor, second motor output end fixedly connected with turning block, the bar hole has been seted up to base one side, opposite side fixedly connected with fixed plate, fixed plate bilateral symmetry fixedly connected with electric putter. The utility model discloses a fan that sets up, with reducer pipe fixed connection's hose, second motor output end fixed connection's turning block, fixed plate one side symmetry fixed connection's electric putter, mutually supporting between the bar hole that push pedal and chassis one side were seted up can carry out the automation to the piece and clear up.

Description

Numerical control machining center for plastic mold machining

Technical Field

The utility model relates to a plastic mould processing technology field specifically is a numerical control machining center for plastic mould processing.

Background

The plastic mold processing needs to be completed by a numerical control processing center, and the numerical control processing center is a high-efficiency automatic machine tool which consists of mechanical equipment and a numerical control system and is suitable for processing complex parts.

After the plastic mould was processed and is accomplished on numerical control machining center, there were many pieces on numerical control machining center organism and the base, need artifical manual clearance, waste time and energy, for this, the utility model provides a novel can clear up clastic numerical control machining center automatically that is used for plastic mould processing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a numerical control machining center for plastic mould processing 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 numerical control machining center for plastic mould processing, including base and numerical control machining center organism, base one side fixedly connected with support, support top fixedly connected with fan, fan bottom fixedly connected with reducing pipe, reducing pipe bottom fixedly connected with hose, the support top is provided with the removal subassembly, it is provided with the lifter to remove the subassembly bottom, lifter bottom fixedly connected with connecting plate, connecting plate one side is provided with the second motor, the second motor passes through connecting block and connecting plate fixed connection, second motor output end fixedly connected with turning block, turning block and hose one end fixed connection, the bar hole has been seted up to base one side, opposite side fixedly connected with fixed plate, fixed plate one side symmetry fixedly connected with electric putter, the equal fixedly connected with push pedal of electric putter catch.

Preferably, the moving assembly comprises a conveyor belt, a moving block is fixedly connected to the bottom of the conveyor belt, a rotating shaft is movably connected to one side of the conveyor belt, a fixing shaft is movably connected to the other side of the conveyor belt, a first motor is fixedly connected to one end of the rotating shaft, and the first motor is fixedly connected with the support through an L-shaped plate.

Preferably, base top fixedly connected with baffle, baffle one side fixed mounting have the controller, and removal subassembly, second motor, fan and lifter all with controller electric connection.

Preferably, the bottom of the base is fixedly connected with a fixing frame, the top of the fixing frame is provided with a collecting box, and the collecting box is positioned under the strip-shaped hole.

Preferably, the top of the bracket is provided with an air hole, and the fan is positioned right below the air hole.

Preferably, a square groove is formed in one side of the support, the conveyor belt is located inside the square groove, and the retention shaft and the rotating shaft are movably connected with the support.

Preferably, the fixed end of the lifting rod is fixedly connected with the moving block.

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

this a numerical control machining center for plastic mould processing, fan through setting up, with reducer pipe fixed connection's hose, remove the subassembly, lifter bottom fixed connection's connecting plate, connecting block one side fixed connection's second motor, second motor output end fixed connection's turning block, fixed plate one side symmetry fixed connection's electric putter, mutually support between the strip hole that electric putter catch end fixed connection's push pedal and chassis one side were seted up, can carry out automatic clearance to the piece on numerical control machining center organism and the base, time saving and labor saving.

This a numerical control machining center for plastic mould processing, through base bottom fixed connection's mount, the strip hole that swing joint's collecting box and base one side were seted up on the mount can be collected the piece.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic view of the three-dimensional structure of the removing baffle, the fixing plate and the controller of the present invention;

fig. 3 is a schematic view of the three-dimensional structure of the removing baffle, the fixing plate, the numerical control machining center body and the controller of the present invention;

fig. 4 is a schematic view of the three-dimensional split structure of the numerical control machining center body and the controller of the present invention with the baffle removed;

fig. 5 is a schematic perspective view of the horizontal movement assembly of the present invention;

fig. 6 is an enlarged schematic structural diagram of a portion a in fig. 3 according to the present invention.

In the figure: 1. a base; 101. a baffle plate; 102. a strip-shaped hole; 103. a fixed mount; 104. a collection box; 2. a support; 201. a wind hole; 202. a square groove; 3. a fan; 301. a reducer pipe; 302. a hose; 4. a moving assembly; 401. a first motor; 402. a rotating shaft; 403. a conveyor belt; 404. a retention shaft; 405. a moving block; 5. a lifting rod; 501. a connecting plate; 502. connecting blocks; 503. a second motor; 504. rotating the block; 6. a fixing plate; 601. an electric push rod; 602. pushing the plate; 7. a controller; 8. a numerical control machining center body.

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.

It should be noted that, in the description of the present invention, the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for the convenience of description and simplification of the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Further, it will be appreciated that the dimensions of the various elements shown in the figures are not drawn to scale, for ease of description, and that the thickness or width of some layers may be exaggerated relative to other layers, for example.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus, once an item is defined or illustrated in one figure, it will not need to be further discussed or illustrated in detail in the description of the following figure.

As shown in fig. 1-6, the utility model provides a technical solution: a numerical control machining center for processing a plastic mold is disclosed, wherein a base 1 and a numerical control machining center body 8 are provided, one side of the base 1 is fixedly connected with a support 2, the support 2 can be made of stainless steel with excellent corrosion resistance, formability and toughness, so that the service life of the support 2 is longer, the top of the support 2 is fixedly connected with a fan 3, the top of the support 2 is provided with an air hole 201, the fan 3 is positioned under the air hole 201, the bottom end of the fan 3 is fixedly connected with a reducer 301, the bottom end of the reducer 301 is fixedly connected with a hose 302, the top of the support 2 is provided with a moving component 4, the bottom of the moving component 4 is provided with a lifting rod 5, the bottom of the lifting rod 5 is fixedly connected with a connecting plate 501, one side of the connecting plate 501 is provided with a second motor 503, the second motor 503 is fixedly connected with the connecting plate 501 through a connecting block 502, the connecting block 502 can be simply cured through a curing process, the curing degree can be adjusted and the shadowless glue material which can be repeatedly applied and cured for multiple times can be repeatedly, can make connecting block 502 more durable firm with the connecting plate 501 adhesive, second motor 503 output end fixedly connected with turning block 504, turning block 504 and hose 302 one end fixed connection, bar hole 102 has been seted up to base 1 one side, opposite side fixedly connected with fixed plate 6, fixed plate 6 one side symmetry fixedly connected with electric putter 601, in this embodiment, electric putter 601 adopts electric putter as actuating mechanism, electric putter not only reducible required air supply unit and the auxiliary assembly of adopting pneumatic actuator, also reducible actuating mechanism's weight. Because the pneumatic actuator needs to have certain air pressure in the whole control operation process, the air consumption is large, and the electric push rod is used as the actuator, when the control opening degree is changed, power needs to be supplied, and the power can not be supplied when the required opening degree is reached, so that the electric push rod has the obvious energy-saving advantage compared with the pneumatic actuator from the aspect of energy saving, therefore, the electric push rod is preferably used as the actuator in the embodiment, and the pushing ends of the electric push rods 601 are fixedly connected with the push plates 602.

As a specific example, the moving assembly 4 includes a conveyor belt 403, a moving block 405 is fixedly connected to the bottom of the conveyor belt 403, one side of the conveyor belt 403 is movably connected to a rotating shaft 402, and the other side of the conveyor belt 403 is movably connected to a retaining shaft 404, the retaining shaft 404 can be made of polypropylene material with chemical resistance, heat resistance, electrical insulation, high-strength mechanical properties and good high wear-resistant processability, so that the retaining shaft 404 has a long service life, and the polypropylene material price is less, and the cost performance is higher, pivot 402 one end fixedly connected with first motor 401, and first motor 401 passes through L template and support 2 fixed connection, 5 stiff ends of lifter and movable block 405 fixed connection, and the theory of operation of removal subassembly 4 is that first motor 401 rotates, and first motor 401 drives output end fixed connection's pivot 402 and rotates, and pivot 402 drives conveyer belt 403 and rotates, and the fixed connection's of conveyer belt 403 bottom movable block 405 moves.

As a specific embodiment, the top of the base 1 is fixedly connected with a baffle 101, the baffle 101 is used for blocking debris when the fan 3 blows, a controller 7 is fixedly mounted on one side of the baffle 101, and the moving assembly 4, the second motor 503, the fan 3 and the lifting rod 5 are electrically connected with the controller 7.

As a specific embodiment, the bottom of the base 1 is fixedly connected with a fixing frame 103, the top of the fixing frame 103 is provided with a collecting box 104, and the collecting box 104 is positioned under the strip-shaped hole 102.

As a specific example, a square groove 202 is formed on one side of the support 2, the conveyor belt 403 is located inside the square groove 202, and the retention shaft 404 and the rotation shaft 402 are movably connected with the support 2. It should be noted that the size of the conveyor belt 403 is matched with the square groove 202, and the bracket 2 is provided with circular holes matched with the rotating shaft 402 and the retaining shaft 404.

In particular, after the plastic mold is processed on the numerical control processing center body 8, the controller 7 controls the fan 3 to blow air which passes through the inside of the reducer pipe 301, the air is blown out through the hose 302, meanwhile, the controller 7 controls the moving assembly 4 to move, the second motor 503 rotates to drive the rotating block 504 fixedly connected with the output end of the second motor 503 to rotate, the rotating block 504 drives the hose 302 to rotate, the lifting rod 5 starts to move downwards, the wind blows off the chips on the numerical control machining center body 8, the chips fall on the top of the base 1, after the fan 3 works for a period of time, controller 7 control fan 3, removal subassembly 4 and second motor 503 stop, and lifter 5 resets, and controller 7 control electric putter 601 promotes, and electric putter 601 drives push pedal 602 that promotes end fixed connection and promotes forward, pushes the piece on the base 1 to the direction in bar hole 102 for the piece falls into inside the completion clearance of collecting box 104.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A numerical control machining center for plastic mould processing, including base (1) and numerical control machining center organism (8), its characterized in that: one side of a base (1) is fixedly connected with a support (2), the top of the support (2) is fixedly connected with a fan (3), the bottom of the fan (3) is fixedly connected with a reducer pipe (301), the bottom of the reducer pipe (301) is fixedly connected with a hose (302), the top of the support (2) is provided with a moving assembly (4), the bottom of the moving assembly (4) is provided with a lifting rod (5), the bottom of the lifting rod (5) is fixedly connected with a connecting plate (501), one side of the connecting plate (501) is provided with a second motor (503), the second motor (503) is fixedly connected with the connecting plate (501) through a connecting block (502), the output end of the second motor (503) is fixedly connected with a rotating block (504), the rotating block (504) is fixedly connected with one end of the hose (302), one side of the base (1) is provided with a strip-shaped hole (102), the other side of the base is fixedly connected with a fixing plate (6), one side of the fixing plate (6) is symmetrically and fixedly connected with an electric push rod (601), the pushing ends of the electric push rods (601) are fixedly connected with push plates (602).

2. The numerical control machining center for plastic mold machining according to claim 1, characterized in that: the moving assembly (4) comprises a conveyor belt (403), a moving block (405) is fixedly connected to the bottom of the conveyor belt (403), a rotating shaft (402) is movably connected to one side of the conveyor belt (403), a fixing shaft (404) is movably connected to the other side of the conveyor belt, a first motor (401) is fixedly connected to one end of the rotating shaft (402), and the first motor (401) is fixedly connected with the support (2) through an L-shaped plate.

3. The numerical control machining center for plastic mold machining according to claim 1, characterized in that: base (1) top fixedly connected with baffle (101), baffle (101) one side fixed mounting have controller (7), remove subassembly (4), second motor (503), fan (3) and lifter (5) all with controller (7) electric connection.

4. The numerical control machining center for plastic mold machining according to claim 1, characterized in that: the base (1) bottom fixedly connected with mount (103), collecting box (104) have been placed at mount (103) top, and collecting box (104) are located bar hole (102) under.

5. The numerical control machining center for plastic mold machining according to claim 1, characterized in that: the top of the support (2) is provided with an air hole (201), and the fan (3) is located under the air hole (201).

6. The numerical control machining center for plastic mold machining according to claim 2, characterized in that: the square groove (202) is formed in one side of the support (2), the conveyor belt (403) is located inside the square groove (202), and the fixing shaft (404) and the rotating shaft (402) are both movably connected with the support (2).

7. The numerical control machining center for plastic mold machining according to claim 2, characterized in that: the fixed end of the lifting rod (5) is fixedly connected with the moving block (405).

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