CN214292341U - Slider chamfering machine - Google Patents

Abstract

The utility model relates to the technical field of machining, in particular to a slider chamfering machine, which comprises a jig for fixing a slider, an XY-axis moving sliding table, at least one chamfering device and a plurality of limiting parts; the jig is arranged on the XY-axis moving sliding table and moves along the X-axis direction and the Y-axis direction of the XY-axis moving sliding table; the chamfering device is arranged in any moving direction of the jig; the fixture is provided with a limiting piece in each moving direction, each limiting piece comprises a butting end, the butting end of at least one limiting piece is used for butting against the fixture, and the butting end of at least one limiting piece is used for butting against the XY-axis moving sliding table; the utility model discloses the accessible limits XY axle traveling rail and a plurality of locating part to the displacement of tool to the regulating slide terminal surface chamfer size realizes adjusting the chamfer size under the condition of not changing the bistrique specification.

Description

Slider chamfering machine

Technical Field

The utility model relates to the technical field of machining, in particular to slider beveler.

Background

In the prior art, chamfering of the end faces of the slider is mainly performed manually and mechanically. Wherein, the manual chamfering is gradually replaced by the mechanical chamfering due to the problems of low efficiency, large chamfering error and the like; and mechanically chamfering, namely firstly fixing the slide block on the output end of the chamfering machine, and then connecting the output end of the chamfering machine with the chamfering area of the slide block to begin chamfering the end face of the slide block. In order to ensure the cutting precision of the chamfer, in the prior art, one end of the non-chamfer area of the slide block is mainly connected with a limiting piece, such as a chamfering machine disclosed in the patent with the publication number of CN110238456A, or a positioning structure is arranged in the process of connecting the chamfer area of the slide block with the output end of the chamfering machine, so as to improve the cutting precision of the output end of the chamfering machine, such as a chamfering machine disclosed in the patent with the publication number of CN105904030B, but regardless of whether the chamfer area of the slide block is relatively fixed or moved before being connected with the output end of the chamfering machine, the size of the chamfer is mainly realized by changing the size of a grinding head on the output end of the chamfering machine, and if the size of the chamfer needs to be customized due to the process requirements and no standard grinding head is matched, an operator needs to manually cut the chamfer according to the actual requirements, which is time-consuming and labor-consuming, and the error is large, so that the consistency of the quality specification of a single-batch finished product is difficult to ensure.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problems that: the slider chamfering machine is easy to adjust the size of a chamfer and convenient to operate.

In order to solve the technical problem, the utility model discloses a technical scheme be: the slider chamfering machine comprises a jig for fixing a slider, an XY-axis moving sliding table, at least one chamfering device and a plurality of limiting pieces;

the jig is arranged on the XY-axis moving sliding table and moves along the X-axis direction and the Y-axis direction of the XY-axis moving sliding table;

the chamfering device is arranged in the moving direction of the X axis or the Y axis of the jig;

all be provided with the locating part on every moving direction of tool, the locating part all includes the butt end, and the butt end of at least one locating part is used for the butt tool, and the butt end of at least one locating part is used for butt XY axle removal slip table.

Wherein, cut chamfer device and include host computer seat, output shaft and bistrique, the output shaft set up in on the host computer seat, the bistrique set up in the output shaft is served and is formed towards one of tool cut chamfer device's output.

The chamfering device comprises a jig, a chamfering device and a chamfering device, wherein the chamfering device is arranged in two, the chamfering device is arranged on two opposite sides of the jig in any moving direction, and the axis directions of the output ends of the chamfering devices are not on the same horizontal plane.

The locating part comprises a locating block and a locating shaft, a connecting hole is horizontally formed in the locating block, and the locating shaft is arranged in the connecting hole and in threaded connection with the connecting hole.

The jig comprises a jig body, a jig, a chamfering device, a XY-axis moving sliding table, a jig, a plurality of limiting pieces and a rack, wherein the XY-axis moving sliding table and the chamfering device are arranged on the rack, the limiting pieces in any moving direction of the jig are arranged on the rack, and the limiting pieces in the other moving direction are arranged on the XY-axis moving sliding table.

The lower surface of the jig is fixed on the XY-axis movable sliding table, and the upper surface of the jig is vertically provided with a connecting groove.

The beneficial effects of the utility model reside in that: the movable position of tool on XY axle removal slip table is adjusted to operating personnel accessible to fix a position through a plurality of locating parts, adjust the chamfer size on the slider terminal surface under the condition of not changing the bistrique specification in order to realize, improve production efficiency, satisfy the customization operation under the specific technological requirement simultaneously, improve the application scope of slider beveler.

Drawings

Fig. 1 is a top view of a slide block chamfering machine according to an embodiment of the present invention;

fig. 2 is a front view of a slide block chamfering machine according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a slider chamfering machine according to an embodiment of the present invention.

Description of reference numerals: 1. a chamfering device is cut; 11. a main machine base; 12. an output shaft; 13. grinding heads; 2. a jig; 3. a limiting member; 31. positioning blocks; 32. positioning the shaft; 4. an XY-axis moving sliding table; 41. a connecting plate; 5. a slider; 6. and a frame.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The utility model discloses the most crucial design lies in: the jig is adjusted in position on the XY-axis moving sliding table and is fixed through the limiting parts, and therefore the size of the chamfer of the end face of the sliding block is adjusted.

Referring to fig. 1 to 3, the present invention relates to a slider chamfering machine, which includes a fixture 2 for fixing a slider, an XY-axis moving sliding table 4, at least one chamfering device 1, and a plurality of stoppers 3; the jig 2 is arranged on the XY-axis moving sliding table 4 and moves along the X-axis and Y-axis directions of the XY-axis moving sliding table; the chamfering device 1 is arranged in the X-axis or Y-axis moving direction of the jig 2; all be provided with locating part 3 on every moving direction of tool 2, locating part 3 all includes the butt end, and the butt end of at least one locating part 3 is used for butt tool 2, and the butt end of at least one locating part 3 is used for butt XY axle removal slip table 4.

Specifically, the utility model discloses a theory of operation does: an operator firstly places a slide block 5 on a jig 2 and is fixed by the jig 2, and adjusts the position of the abutting end on a limiting piece 3 according to the specific position of the end surface of the slide block 5 and the chamfering size required by the process, then the operator starts a chamfering device 1, moves the jig 2 towards the output end direction of the chamfering device 1 on an XY-axis moving sliding table 4, and when the chamfering size meets the process requirement, the jig 2 is abutted by at least one abutting end of the limiting piece 3 and limits the jig 2 to continue moving towards the chamfering device 1, and the XY-axis moving sliding table 4 in the direction perpendicular to the direction of the jig 2 towards the chamfering device 1 is abutted by at least one abutting end of the limiting piece 3 and limits the jig 2 to continue moving, so as to complete the chamfering operation of the end surface of the single side of the chute in the slide block 5, and then the operator restores the jig 2 to the original position and takes down the slide block 5, and repeating the operation to realize chamfering operation of the two end surfaces on the same sliding chute.

From the above description, the beneficial effects of the present invention are: the mobile position of tool 2 on XY axle removes slip table 4 is adjusted to the operating personnel accessible to fix a position through a plurality of locating part 3, adjust the chamfer size on the 5 terminal surfaces of slider under the condition of not changing 13 specifications of bistrique, improve production efficiency, satisfy the customization operation under the specific technological requirement simultaneously, improve the application scope of slider beveler.

Further, cut chamfer device 1 and include host computer seat 11, output shaft 12 and bistrique 13, output shaft 12 set up in on the host computer seat 11, bistrique 13 set up in output shaft 12 is served and is formed towards one of tool 2 cut chamfer device 1's output.

Furthermore, the number of the chamfering devices 1 is two, the two chamfering devices 1 are respectively arranged on two opposite sides of the jig 2 in any moving direction, and the axis directions of the output ends of the two chamfering devices 1 are not on the same horizontal plane.

From the above description, the chamfering device 1 is respectively disposed on two opposite sides of the X-axis or Y-axis moving direction of the jig 2, and the axis direction of the output end of the chamfering device 1 is disposed on different planes, so as to perform chamfering operation on the end surfaces of the sliding grooves with different depths on the sliding block 5.

Further, the limiting part 3 comprises a positioning block 31 and a positioning shaft 32, wherein the positioning block 31 is horizontally provided with a connecting hole, and the positioning shaft 32 is arranged in the connecting hole and is in threaded connection with the connecting hole.

Furthermore, the chamfering device further comprises a rack 6, the XY-axis moving sliding table 4 and the chamfering device 1 are arranged on the rack 6, one limiting part 3 in any moving direction of the jig 2 in the plurality of limiting parts 3 is arranged on the rack 6, and the other limiting part 3 in the other moving direction is arranged on the XY-axis moving sliding table 4.

As can be seen from the above description, the limiting member 3 in any one of the moving directions of the X axis and the Y axis of the jig 2 is fixed on the frame 6, wherein the lower end of the positioning block 31 is vertically connected to the upper surface of the frame 6, and the horizontal plane in which the axis direction of the positioning shaft 32 is located is parallel to the upper surface of the frame 6; when the limiting piece 3 is positioned and adjusted, one end of the positioning shaft 32 is rotated at the moment to drive the other end of the positioning shaft 32 to move to a preset position towards the direction of the XY-axis moving sliding table 4, so that the XY-axis moving sliding table 4 is limited in the chamfering process; the limiting member 3 in the other moving direction relative to the moving direction is fixed on the XY-axis moving sliding table 4, preferably, on the connecting plate 41 between the X-axis sliding table and the Y-axis sliding table, wherein the lower end of the positioning block 31 is vertically connected with the upper surface of the connecting plate 41, and the horizontal plane in which the axial direction of the positioning shaft 32 is located is parallel to the upper surface of the connecting plate 41; when carrying out the positioning adjustment to locating part 3, through the one end of rotational positioning axle 32 this moment to the other end that drives positioning axle 32 moves to default position towards the direction of tool 2, in order to realize cutting the spacing of chamfer in-process to tool 2.

Preferably, the number of the limiting members 3 is four, two of the limiting members 3 are disposed on the frame 6 and on two opposite sides of the jig 2 in the X-axis moving direction, and two of the limiting members 3 are disposed on the connecting plate 41 and on two opposite sides of the jig 2 in the Y-axis moving direction.

Further, the lower surface of the jig 2 is fixed on the XY-axis movable sliding table 4, and the upper surface is vertically provided with a connecting groove.

From the above description, can know, through set up the spread groove at the upper surface of tool 2 in order to realize being connected slider 5 and tool 2 through the spread groove and fixing slider 5, also make things convenient for taking of slider 5 simultaneously, effectively improve and cut chamfer efficiency.

Referring to fig. 1 to fig. 3, a first embodiment of the present invention is:

the slider chamfering machine comprises a jig 2 fixedly connected with a slider 5, an XY-axis moving sliding table 4, two chamfering devices 1 and a plurality of limiting pieces 3, wherein the jig 2 is arranged on the XY-axis moving sliding table 4 and is driven by the XY-axis moving sliding table 4 to move in the X-axis and Y-axis directions, the lower surface of the jig 2 is fixed on the XY-axis moving sliding table 4, and a connecting groove is vertically formed in the upper surface of the jig 2;

the two chamfering devices 1 are respectively arranged on two opposite sides of the jig 2 in the Y-axis moving direction, the output ends of the two chamfering devices 1 are oppositely arranged, the axial directions of the output ends of the two chamfering devices 1 are not on the same horizontal plane, each chamfering device 1 comprises a main machine base 11, an output shaft 12 and a grinding head 13, the output shaft 12 is arranged on the main machine base 11, and the grinding head 13 is arranged on one end, facing the jig 2, of the output shaft 12 and forms the output end of the chamfering device 1;

the jig 2 is provided with a limiting part 3 in each moving direction, each limiting part 3 comprises an abutting end, the abutting ends of at least two limiting parts 3 in the limiting parts 3 are respectively abutted with the jig 2 and the XY-axis moving sliding table 4 when the chamfering device 1 works and limit the movement of the jig 2, specifically, when the chamfer reaches a preset size, at least one limiting part 3 is abutted with the jig 2, and at least one limiting part 3 is abutted with the XY-axis moving sliding table 4; further, the locating part 3 includes a locating block 31 and a locating shaft 32, a connecting hole is horizontally arranged on the locating block 31, the locating shaft 32 is arranged in the connecting hole and is in threaded connection with the connecting hole, and one end of the locating shaft 32, which faces the XY axis moving sliding table 4 or the jig 2, forms the abutting end of the locating part 3.

The XY-axis moving sliding table 4 and the chamfering device 1 are arranged on the rack 6, the plurality of limiting parts 3 which are positioned on the X axis in the moving direction of the jig 2 in the limiting parts 3 are arranged on the rack 6, and the Y-axis limiting parts 3 in the moving direction of the jig 2 are arranged on the XY-axis moving sliding table 4.

To sum up, the utility model provides a slider chamfering machine, through adjusting the mobile position of tool 2 on XY axle removal slip table 4, and fix a position through a plurality of locating parts 3, in order to realize adjusting the chamfer size on the slider 5 terminal surface under the condition that 13 specifications of bistrique are not changed, improve production efficiency, satisfy the customization operation under the specific technological requirement simultaneously, improve the application scope of slider chamfering machine; the two chamfering devices 1 are respectively arranged on two opposite sides of the jig 2 in the moving direction of the X axis or the Y axis so as to improve chamfering efficiency on two opposite end faces of the same sliding chute in the sliding block 5; in addition, the limiting parts 3 are respectively arranged on the upper surface of the frame 6 and the upper surface of the connecting plate 41, so that the control of the moving positions of the XY-axis moving sliding table 4 and the jig 2 is improved, the adjustment precision of the end face chamfer size of the sliding block 5 is improved, and the consistency of the specifications of the sliding blocks 5 in the same batch is ensured.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (6)

1. The slider chamfering machine is characterized by comprising a jig for fixing a slider, an XY-axis moving sliding table, at least one chamfering device and a plurality of limiting pieces;

the jig is arranged on the XY-axis moving sliding table and moves along the X-axis direction and the Y-axis direction of the XY-axis moving sliding table;

the chamfering device is arranged in the moving direction of the X axis or the Y axis of the jig;

all be provided with the locating part on every moving direction of tool, the locating part all includes the butt end, and the butt end of at least one locating part is used for the butt tool, and the butt end of at least one locating part is used for butt XY axle removal slip table.

2. The slider chamfering machine according to claim 1, wherein the chamfering device includes a main machine base, an output shaft disposed on the main machine base, and a grinding head disposed on an end of the output shaft facing the jig and forming an output end of the chamfering device.

3. The slide block chamfering machine according to claim 1, wherein the number of the chamfering devices is two, the two chamfering devices are respectively disposed on opposite sides of the jig in any moving direction, and the axial directions of the output ends of the two chamfering devices are not on the same horizontal plane.

4. The slider chamfering machine according to claim 1, wherein the stopper includes a positioning block and a positioning shaft, the positioning block is horizontally provided with a connecting hole, and the positioning shaft is disposed in the connecting hole and is in threaded connection with the connecting hole.

5. The slide block chamfering machine according to claim 1, further comprising a frame, wherein the XY-axis moving table and the chamfering device are both disposed on the frame, a stopper of the plurality of stoppers that is located in any one moving direction of the jig is disposed on the frame, and a stopper of another moving direction is disposed on the XY-axis moving table.

6. The slider chamfering machine according to claim 1, wherein a lower surface of the jig is fixed to the XY-axis moving table, and an upper surface is vertically provided with a connecting groove.

Images