CN210362120U

CN210362120U - Injection molding burr removal equipment

Info

Publication number: CN210362120U
Application number: CN201920953539.7U
Authority: CN
Inventors: 赵化军; 殷喜东; 王明月
Original assignee: Xinxiang Zhongda Plastic Electronics Co ltd
Current assignee: Xinxiang Zhongda Plastic Electronics Co ltd
Priority date: 2019-06-24
Filing date: 2019-06-24
Publication date: 2020-04-21
Anticipated expiration: 2029-06-24

Abstract

The utility model discloses an injection molding burr removing device, which comprises a frame, a longitudinal feeding mechanism, a transverse feeding mechanism, a vertical feeding mechanism and a cutter adjusting mechanism, longitudinal slide rails are respectively arranged on two sides of the upper end of the machine frame along the longitudinal direction, a longitudinal feeding mechanism is arranged outside the longitudinal slide rails in a sliding manner, a transverse sliding rail is arranged in the longitudinal feeding mechanism, the transverse feeding mechanism is arranged outside the transverse sliding rail in a sliding way, the inside fixed cutter guiding mechanism that sets up can angle regulation of transverse feeding mechanism, the horizontal both ends intermediate position of frame sets up vertical slide rail, and this injection molding burr removal equipment adopts the cutter guiding mechanism and the design of rotatable burr sword of multidimension motion, realizes the laminating work piece edge of burr sword multi-angle, guarantees the clearance of burr, promotes machining efficiency, avoids the problem of neglected components, eliminates the potential safety hazard in the production simultaneously.

Description

Injection molding burr removal equipment

Technical Field

The utility model relates to a burr removal equipment technical field specifically is an injection molding burr removal equipment.

Background

Carry out the plastic casing spare and pour the in-process, overlap burr scheduling problem can appear at the casing edge, for the assembly precision of guaranteeing the final product, need get rid of the burr at casing edge, because the randomness that the burr appears and the variety of work piece shape, in the current production process, most rely on the manual work to carry out the burring, its process is carried out the burring with the help of sharp burr sword for manual work, the efficiency is lower, and there is the problem of neglected part, and the burr sword is comparatively sharp, cause workman's hand fish tail easily, there is the potential safety hazard, therefore, need develop a mechanical equipment and replace the manual work to carry out the burr and get rid of.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide an injection molding burr removal equipment, adopt the cutter guiding mechanism and the design of rotatable burr sword of multidimension motion, realize the laminating work piece edge of burr sword multi-angle, guarantee the clearance of burr, promote machining efficiency, avoid the problem of piece that leaks, eliminate the potential safety hazard in the production simultaneously, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: an injection molding burr removing device comprises a rack, a longitudinal feeding mechanism, a transverse feeding mechanism, a vertical feeding mechanism and a cutter adjusting mechanism, wherein longitudinal slide rails are respectively arranged on two sides of the upper end of the rack along the longitudinal direction, the longitudinal feeding mechanism is installed outside the longitudinal slide rails in a sliding manner, a transverse slide rail is arranged inside the longitudinal feeding mechanism, the transverse feeding mechanism is installed outside the transverse slide rails in a sliding manner, the cutter adjusting mechanism capable of adjusting the angle is fixedly arranged inside the transverse feeding mechanism, the vertical slide rails are arranged in the middle positions of two transverse ends of the rack, the vertical feeding mechanism is installed outside the vertical slide rails in a sliding manner, and clamping discs are respectively arranged on the corresponding surfaces of the vertical feeding mechanisms on two sides;

the cutter adjustment mechanism comprises a fourth motor with a vertically arranged axis, an intermediate is installed at the end part of an output shaft of the fourth motor in a matched mode, a third motor is fixedly arranged inside the intermediate, the axis of the third motor is perpendicular to the axis of the fourth motor, a cutter installation body is installed at the end part of the output shaft of the third motor in a matched mode, a second motor is arranged inside the cutter installation body, and a burr cutter is installed at the end part of the output shaft of the second motor in a matched mode.

As a preferred technical scheme of the utility model, vertical feed mechanism includes vertical slider and first pars contractilis, vertical slider and vertical slide rail slidable mounting, set up longitudinal arrangement's first pars contractilis between the tip of vertical slider and vertical slide rail, set up transverse sliding rail between the vertical slider of both sides.

As a preferred technical scheme of the utility model, transverse feeding mechanism includes horizontal slider and second pars contractilis, horizontal slider and horizontal slide rail slidable mounting, set up the second pars contractilis of transversal arrangement between the tip of horizontal slider and horizontal slide rail.

As a preferred technical scheme of the utility model, vertical feed mechanism includes vertical slider and fourth pars contractilis, vertical slider and vertical slide rail slidable mounting, set up the vertical fourth pars contractilis of arranging between the tip of vertical slider and vertical slide rail, the inside first motor that sets up the horizontal transversal arrangement of axis of vertical slider, the output shaft tip cooperation installation of first motor presss from both sides tight dish.

As an optimal technical scheme of the utility model, the output shaft end cooperation installation gyration dish of first motor, the terminal surface of gyration dish sets up the third pars contractilis perpendicularly, the free end of third pars contractilis sets up the tight dish of clamp, the end that presss from both sides the tight dish sets up the locating pin of tapered, through the concertina action of third pars contractilis, drives and presss from both sides tight dish infeed, realizes pressing from both sides tightly work piece tooling mold to be fit for the automation mechanized operation of assembly line, press from both sides the locating pin that the tight dish surface of clamp arranged the tapered simultaneously, make things convenient for the tooling mold of work piece and the quick location of pressing from both sides tight dish.

As a preferred technical scheme of the utility model, the burr sword is the triangular prism structure, and the front end of burr sword sets up the sword that cuts of acute angle, through special structural design, makes the front end of burr sword cut along the axial, and the both sides of burr sword can cut along the perpendicular to axial.

Compared with the prior art, the beneficial effects of the utility model are that: this injection molding burr removal equipment adopts the inside vertical feed mechanism and the transverse feed mechanism concerted motion that sets up of frame, realize the two-dimensional motion of cutter guiding mechanism in the horizontal plane, vertical feed mechanism can drive the work piece and feed in vertical direction simultaneously, the three cooperatees, realize the relative three-dimensional motion of burr sword and work piece, and simultaneously, the inside many motor cooperations of cutter guiding mechanism, realize the triaxial linkage of burr sword, it has a plurality of work angles to make the burr sword, be convenient for the edge laminating of actual work cutting edge and work piece, promote the clearance of burr, and reduce the damage to the work piece edge, guarantee product quality.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an assembly view of the tool adjusting mechanism of the present invention;

FIG. 3 is a schematic view of a tool adjusting mechanism of the present invention;

FIG. 4 is a schematic view of the vertical feeding mechanism of the present invention;

fig. 5 is a schematic view of the bayonet of the present invention.

In the figure: the device comprises a machine frame 1, a longitudinal feeding mechanism 2, a longitudinal sliding block 201, a first telescopic part 202, a transverse feeding mechanism 3, a transverse sliding rail 301, a transverse sliding block 302, a second telescopic part 303, a vertical feeding mechanism 4, a vertical sliding block 401, a first motor 402, a rotary disc 403, a third telescopic part 404, a clamping disc 405, a positioning pin 406, a fourth telescopic part 407, a cutter adjusting mechanism 5, an intermediate 501, a cutter mounting body 502, a burr cutter 503, a second motor 504, a third motor 505 and a fourth motor 506.

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.

Referring to fig. 1-5, the present invention provides a technical solution: a kind of injection molding burr removing equipment, including stander 1, longitudinal feed mechanism 2, transverse feed mechanism 3, vertical feed mechanism 4 and cutter guiding mechanism 5, both sides of upper end of stander 1 set up the longitudinal slide rail longitudinally respectively, the longitudinal feed mechanism 2 of the outside sliding installation of the longitudinal slide rail, the inside of longitudinal feed mechanism 2 sets up the horizontal transverse slide rail 301, the horizontal feed mechanism 3 of sliding installation of the outside of the horizontal slide rail 301, the cutter guiding mechanism 5 that can regulate the angle of the inside fixed arrangement of transverse feed mechanism 3, the horizontal both ends intermediate position of stander 1 sets up the vertical slide rail, the vertical feed mechanism 4 of sliding installation of the outside of the vertical slide rail, the vertical feed mechanism 4 of both sides corresponds to the surface and sets up the clamping disk 405 separately;

the cutter adjusting mechanism 5 comprises a fourth motor 506 with a vertical axis, the end part of an output shaft of the fourth motor 506 is matched with the middle body 501, a third motor 505 is fixedly arranged in the middle body 501, the axis of the third motor 505 is vertical to the axis of the fourth motor 506, the end part of the output shaft of the third motor 505 is matched with the cutter mounting body 502, a second motor 504 is arranged in the cutter mounting body 502, and the end part of the output shaft of the second motor 504 is matched with the burr knife 503.

The longitudinal feeding mechanism 2 comprises a longitudinal sliding block 201 and a first telescopic part 202, the longitudinal sliding block 201 is installed with a longitudinal sliding rail in a sliding mode, the first telescopic part 202 which is longitudinally arranged is arranged between the longitudinal sliding block 201 and the end part of the longitudinal sliding rail, and a transverse sliding rail 301 is arranged between the longitudinal sliding blocks 201 on the two sides.

The transverse feeding mechanism 3 comprises a transverse sliding block 302 and a second telescopic part 303, the transverse sliding block 302 is slidably mounted with a transverse sliding rail 301, and the second telescopic part 303 arranged transversely is arranged between the transverse sliding block 302 and the end part of the transverse sliding rail 301.

The vertical feeding mechanism 4 comprises a vertical sliding block 401 and a fourth telescopic part 407, the vertical sliding block 401 is slidably mounted with a vertical sliding rail, the vertically arranged fourth telescopic part 407 is arranged between the end parts of the vertical sliding block 401 and the vertical sliding rail, a first motor 402 with a horizontal and transverse axis is arranged inside the vertical sliding block 401, and the end part of an output shaft of the first motor 402 is matched with and mounted with the clamping disc 405.

The output shaft end portion of first motor 402 cooperates installation gyration dish 403, the terminal surface of gyration dish 403 sets up third pars contractilis 404 perpendicularly, the free end of third pars contractilis 404 sets up and presss from both sides tight dish 405, the end that presss from both sides tight dish 405 sets up the locating pin 406 of tapered, through the concertina effect of third pars contractilis 404, it transversely feeds to drive the tight dish 405 of clamp, the realization is to the clamp of work piece frock mould, thereby be fit for the automated operation of assembly line, the locating pin 406 of tapered is arranged on the tight dish 405 surface of clamp simultaneously, make things convenient for the frock mould of work piece and the quick location of pressing from both sides tight dish 405.

The burr 503 is a triangular prism structure, and the front end of the burr 503 is provided with a cutting blade with an acute angle, so that the front end of the burr 503 can be cut along the axial direction through a special structural design, and two sides of the burr 503 can be cut along the axial direction perpendicular to the axial direction.

The telescopic part is preferably but not limited to the cylinder, the oil cylinder and the electric telescopic rod, the arrangement mode and the control mode of the pipeline or the circuit of the telescopic part are common modes in the prior art, the motor is preferably but not limited to a stepping motor with an internal contracting brake of the Ennesia 86HS85BR type, the rotation precision control is better, the spindle can be automatically clasped after the rotation is stopped, and the stability of the rotating shaft in the working process is favorably ensured.

When in use: the device is fixed above a production line, so that a workpiece is fed longitudinally, when the workpiece is fed to a clamping disc 405 along the production line, third telescopic parts 404 on two sides drive the clamping disc 405 to move oppositely, so that the workpiece and a tooling die are clamped, meanwhile, a fourth telescopic part 407 drives the workpiece to move upwards to be close to a tool adjusting mechanism 5, a fourth motor 506 and a third motor 505 inside the tool adjusting mechanism 5 respectively drive a tool mounting body 502 to rotate around a vertical shaft and a horizontal shaft, and a second motor 504 drives a burr 503 to rotate around the axis of the burr 503, so that the actual working blade of the burr 503 is attached to the edge of the workpiece to be machined, in the adjusting process, the first motor 402 can drive the workpiece to rotate, so that the edge to be machined is close to the burr 503, so that the burr 503 can obtain a better machining angle, and then a longitudinal feeding mechanism 2, a transverse feeding mechanism 3 and a first telescopic part 202, a transverse feeding mechanism 4, inside the vertical feeding mechanism 4, The second telescopic part 303 and the fourth telescopic part 407 work cooperatively to respectively drive the planar two-dimensional motion of the deburring cutter 503 and the vertical motion of the workpiece, so as to realize the relative three-dimensional motion of the workpiece and the deburring cutter 503, so that the cutting edge of the deburring cutter 503 moves along the edge of the workpiece, and thus the deburring is completed.

The utility model discloses a 1 inside vertical feed mechanism 2 and the 3 concerted motion of transverse feed mechanism that set up of frame, realize the two-dimensional motion of cutter guiding mechanism 5 in the horizontal plane, vertical feed mechanism 4 can drive the work piece and feed in vertical direction simultaneously, the three cooperation, realize the relative three-dimensional motion of burr 503 and work piece, and simultaneously, the cooperation of many motors of 5 inside of cutter guiding mechanism, realize the triaxial linkage of burr 503, make burr 503 have a plurality of work angles, be convenient for the edge laminating of real work cutting edge and work piece, promote the clearance of burr, and reduce the damage to the work piece edge, guarantee product quality.

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

1. The utility model provides an injection molding burr removal equipment, includes frame (1), vertical feed mechanism (2), transverse feed mechanism (3), vertical feed mechanism (4) and cutter guiding mechanism (5), its characterized in that: longitudinal slide rails are respectively arranged on two sides of the upper end of the rack (1) along the longitudinal direction, a longitudinal feeding mechanism (2) is slidably mounted outside the longitudinal slide rails, a transverse slide rail (301) is arranged inside the longitudinal feeding mechanism (2), a transverse feeding mechanism (3) is slidably mounted outside the transverse slide rail (301), a cutter adjusting mechanism (5) capable of adjusting the angle is fixedly arranged inside the transverse feeding mechanism (3), vertical slide rails are arranged in the middle positions of two transverse ends of the rack (1), a vertical feeding mechanism (4) is slidably mounted outside the vertical slide rails, and clamping discs (405) are respectively arranged on the corresponding surfaces of the vertical feeding mechanisms (4) on two sides; the cutter adjusting mechanism (5) comprises a fourth motor (506) with an axis vertically arranged, the end part of an output shaft of the fourth motor (506) is matched with an intermediate body (501), a third motor (505) is fixedly arranged in the intermediate body (501), the axis of the third motor (505) is perpendicular to the axis of the fourth motor (506), the end part of the output shaft of the third motor (505) is matched with a cutter mounting body (502), a second motor (504) is arranged in the cutter mounting body (502), and the end part of the output shaft of the second motor (504) is matched with a burr knife (503).

2. The injection molding flash removal apparatus of claim 1, wherein: the longitudinal feeding mechanism (2) comprises a longitudinal sliding block (201) and a first telescopic portion (202), the longitudinal sliding block (201) is installed with a longitudinal sliding rail in a sliding mode, the first telescopic portion (202) which is longitudinally arranged is arranged between the longitudinal sliding block (201) and the end portion of the longitudinal sliding rail, and a transverse sliding rail (301) is arranged between the longitudinal sliding blocks (201) on the two sides.

3. The injection molding flash removal apparatus of claim 1, wherein: the transverse feeding mechanism (3) comprises a transverse sliding block (302) and a second telescopic part (303), the transverse sliding block (302) is installed with a transverse sliding rail (301) in a sliding mode, and the second telescopic part (303) arranged transversely is arranged between the transverse sliding block (302) and the end part of the transverse sliding rail (301).

4. The injection molding flash removal apparatus of claim 1, wherein: the vertical feeding mechanism (4) comprises a vertical sliding block (401) and a fourth telescopic portion (407), the vertical sliding block (401) is installed with a vertical sliding rail in a sliding mode, the fourth telescopic portion (407) which is vertically arranged is arranged between the end portion of the vertical sliding block (401) and the end portion of the vertical sliding rail, a first motor (402) with an axis horizontally and transversely arranged is arranged inside the vertical sliding block (401), and the end portion of an output shaft of the first motor (402) is matched with and installed on a clamping disc (405).

5. The injection molding deburring apparatus of claim 4, wherein: the end part of an output shaft of the first motor (402) is provided with a rotary disc (403) in a matching mode, the end face of the rotary disc (403) is vertically provided with a third telescopic part (404), the free end of the third telescopic part (404) is provided with a clamping disc (405), and the end of the clamping disc (405) is provided with a conical positioning pin (406).

6. The injection molding deburring apparatus of any one of claims 1-5, wherein: the burr knife (503) is a triangular prism structure, and the front end of the burr knife (503) is provided with an acute cutting edge.