CN108526904B - Multi-station slide block machining integrated mechanism - Google Patents

Abstract

A multi-station slide block machining integrated mechanism belongs to the technical field of slide block machining. The invention comprises a turntable, a plurality of slide block clamping pieces arranged on the circumference side of the turntable and a processing assembly wound around the circumference of the turntable; the processing assembly sequentially comprises a raw material entering channel, a double-end surface milling device, an upper side and lower side screw surface milling device, a steel ball arc milling device, a two-end threaded bottom hole drilling device, an upper side and lower side threaded bottom hole drilling device, a two-end threaded device tapping, an upper side and lower side threaded device tapping, a first steel ball drilling circulating hole device, a second steel ball drilling circulating hole device, a third steel ball drilling circulating hole device, two-end circle chamfering devices, a plurality of sand blasting deburring devices, a cleaning device, a wind cutting device, a drying device and a product discharging channel. The invention can automatically finish all the slider finishing procedures, greatly improves the slider processing efficiency and reduces the labor capacity of workers.

Description

Multi-station slide block machining integrated mechanism

Technical Field

The invention relates to the technical field of slider processing, in particular to a multi-station slider processing integrated mechanism.

Background

Currently, the finish machining of the sliding block needs to be subjected to multiple procedures, such as machining upper side and lower side screw hole planes through a milling machine, machining a steel ball circular arc channel through a broach by a broach, profiling and milling peripheral chamfer angles, machining threaded bottom hole steel ball circulating hole through holes at two ends of an upper side and lower side threaded bottom hole through the drilling machine, and machining threads through a tapping machine. The process is complicated, and the slider needs to be transferred for many times, and different processing devices are adopted for processing, so that the processing efficiency is low.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a multi-station slide block machining integrated mechanism which can automatically finish all slide block finish machining procedures, greatly improve the slide block machining efficiency and reduce the labor capacity of workers.

The invention aims at realizing the following technical scheme:

a multi-station slide block machining integrated mechanism comprises a turntable, a plurality of slide block clamping pieces arranged on the circumference side of the turntable, and a machining assembly wound on the circumference of the turntable;

the sliding block clamping piece comprises a bottom plate, side plates fixedly connected to two sides of the bottom plate and a fastening block movably connected to one side plate; the surfaces of the fastening blocks and the side plates, which are mutually connected, are inclined surfaces;

the processing assembly sequentially comprises a raw material entering channel, a double-end surface milling device, an upper side screw hole surface milling device, a lower side screw hole surface milling device, a steel ball arc milling device, a two-end thread bottom hole drilling device, an upper side and lower side thread bottom hole drilling device, a two-end thread tapping device, an upper side and lower side thread tapping device, a first steel ball drilling circulating hole device, a second steel ball drilling circulating hole device, a third steel ball drilling circulating hole device, two-end circle chamfering devices, a plurality of sand blasting deburring devices, a cleaning device, a wind cutting device, a drying device and a product discharging channel.

The working principle of the invention is as follows: the raw materials of the sliding block enter the circumference of the turntable from the raw materials entering channel and finish clamping when reaching the clamping part of the sliding block, the clamping action is realized through the retraction of the fastening block, when the fastening block is tightly inserted between the sliding block and the side plate, the sliding block is clamped, and when the fastening block is withdrawn, the sliding block is loosened. Because the turntable is always in a rotating state, when the raw material of the sliding block enters the clamping piece of the sliding block, the sliding block can be completely clamped after the rotating time of one station, and then the sliding block is rotated to the next station, namely the position of the double end face milling device, and the milling process of the upper end face and the lower end face of the sliding block is completed along with the rotation of the turntable. The sliding block is rotated to the next station, namely the position of the device for milling the screw hole surfaces on the upper side and the lower side of the sliding block is milled, so that milling of the screw hole surfaces on the upper side and the lower side of the sliding block, namely two surfaces with different heights in the same direction with the circumferential surface of the turntable, is completed; then the sliding block is rotated to the next station, namely the position of the steel ball arc milling device is located, so that milling of the steel ball arc channel on the sliding block is completed; then the sliding block is rotated to the next station, namely the position of the device for drilling the threaded bottom holes at the two ends of the sliding block is drilled; then the sliding block rotates to the next station, namely the position of the device for drilling the upper and lower side threaded bottom holes is located, so that the upper and lower side threaded bottom holes of the sliding block are drilled; then the sliding block rotates to the next station, namely, the screw devices at the two ends are tapped, so that screw holes at the two ends of the sliding block are tapped; then the sliding block rotates to the next station, namely the position of the tapping device on the upper side and the lower side is located, so that threaded holes on the upper side and the lower side of the sliding block are tapped; then the sliding block rotates to the next station, namely the first steel ball drilling circulation hole device is positioned, and drilling action with the depth greater than half of that of the sliding block is carried out at the position; then the sliding block rotates to the next station, namely the second steel ball drilling circulation hole device is positioned, and the drilling action of penetrating through the two ends of the sliding block is carried out at the position; then the sliding block is rotated to the next station, namely the position of the third steel ball drilling circulation hole device, and the drilling action of hinging through the two ends of the sliding block is carried out at the position; then the sliding block is rotated to the next station, namely the chamfering device of the circles at the two ends is positioned, so as to finish chamfering of the circles at the two ends of the sliding block; then one station is left out, and sand blasting and deburring devices are arranged on the three next stations so as to ensure that burrs of the sliding block are removed completely; after deburring, one station is emptied, and cleaning devices are arranged on the two next stations to ensure the cleaning quality; after the cleaning is finished, one station is emptied, then one station is used for air cutting, then one station is used for drying, and finally the product is discharged from the product discharging channel.

Preferably, the milling double-end-face device comprises milling cutters respectively arranged on the upper side and the lower side of the sliding block clamping piece, and the milling cutters comprise a rotating seat and three cutter heads arranged on the rotating seat. The milling double-end-face device is simple in structure, high in milling efficiency and good in effect.

Preferably, the milling cutter of the device for milling the screw hole surfaces on the upper side and the lower side is arranged towards the clamping surface of the sliding block clamping piece, and the milling cutter of the device for milling the steel ball arc is arranged towards the clamping surface of the sliding block clamping piece. The milling cutter setting direction of the device for milling the screw hole surfaces on the upper side and the lower side and the device for milling the arc of the steel ball improves the milling efficiency.

Preferably, the device for drilling the threaded bottom holes at two ends comprises a plurality of first drill rods arranged at the upper side and the lower side of the sliding block clamping piece, and the device for drilling the threaded bottom holes at the upper side and the lower side comprises a plurality of second drill rods facing the clamping surface of the sliding block clamping piece. The device for drilling the threaded bottom holes at the two ends and the device for drilling the threaded bottom holes at the upper side and the lower side are simple in structure and efficient in action.

Preferably, the tapping device comprises a plurality of first tapping rods arranged on the upper side and the lower side of the slider clamping piece, and the tapping device comprises a plurality of second tapping rods facing the clamping surface of the slider clamping piece. The tapping device for tapping the threads at the two ends and the tapping device for tapping the threads at the upper side and the lower side are simple in structure and efficient in action.

Preferably, the first steel ball circulation hole device comprises two groups of mutually staggered deep half drill rods respectively arranged on the upper side and the lower side of the sliding block clamping piece, the second steel ball circulation hole device comprises two groups of mutually staggered penetrating drill rods respectively arranged on the upper side and the lower side of the sliding block clamping piece, and the third steel ball circulation hole device comprises two groups of mutually staggered penetrating drill rods respectively arranged on the upper side and the lower side of the sliding block clamping piece. The three groups of steel ball circulation hole drilling devices are matched in sequence to finish drilling of steel ball circulation holes on the sliding block, and the three groups of steel ball circulation hole drilling devices are high in efficiency and reliable in quality.

Preferably, the hinged drill rod comprises a perforating rod and a drill bit arranged at the end part of the perforating rod, wherein the drill bit comprises a plurality of drill sheets which are radially arranged at an angle with the perforating rod. The hinged drill rod is simple in structure and high in drilling efficiency.

As preferable in the invention, the two-end circle chamfering device comprises two chamfering drill bits respectively arranged at the upper side and the lower side of the slide block clamping piece. The two-end circle chamfering device is simple in structure and efficient in action.

The invention has the advantages that: the mechanism can automatically finish all the fine machining procedures of the sliding block, greatly improves the efficiency of the sliding block machining, and reduces the labor capacity of workers.

Drawings

FIG. 1 is a schematic view of an embodiment of the apparatus of the present invention;

FIG. 2 is a schematic view of the structure of a slider clamp;

FIG. 3 is a schematic diagram of a double end face milling device;

FIG. 4 is a schematic structural view of a device for milling upper and lower screw hole surfaces;

FIG. 5 is a schematic structural view of a steel ball arc milling device;

FIG. 6 is a schematic structural view of a device for drilling threaded bottom holes at two ends;

FIG. 7 is a schematic view of a device for drilling threaded bottom holes on the upper and lower sides;

FIG. 8 is a schematic view of a structure of a tapping device for tapping two ends;

FIG. 9 is a schematic view of a structure of a device for tapping the upper and lower sides;

FIG. 10 is a schematic view of a first steel ball circulation hole arrangement;

FIG. 11 is a schematic view of a second steel ball circulation hole apparatus;

FIG. 12 is a schematic structural view of a third steel ball circulation hole apparatus;

fig. 13 is a schematic structural view of a two-end circle chamfering device.

1-a turntable; 2-a slider clamp; 21-a bottom plate; 22-side plates; 23-fastening blocks; 32-milling a double-end-face device; 33-milling upper and lower screw hole surfaces; 34-milling a steel ball arc device; 35-milling a steel ball arc device; 36-drilling an upper side threaded bottom hole device and a lower side threaded bottom hole device; 37-tapping the two-end screw thread device; 38-tapping the upper and lower side screw thread devices; 39-a first steel ball circulation hole drilling device; 310-a second steel ball circulation hole drilling device; 311-third steel ball circulation hole drilling device; 312-two end circle chamfering device; 321-rotating seats; 322-cutter head; 351—first drill pipe; 361-a second drill pipe; 371-first tapping rod; 381-a second tapping rod; 391-drill pipe depth over half; 3101—run-through drill pipe; 3111-reaming through drill pipe; 31111-piercing a rod; 31112-a drill bit; 3121-chamfer bit.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description.

Example 1

A multi-station slide block machining integrated mechanism comprises a turntable 1, a plurality of slide block clamping pieces 2 arranged on the circumference side of the turntable 1 and a machining assembly wound on the circumference of the turntable 1; the sliding block clamping piece comprises a bottom plate 21, side plates 22 fixedly connected to two sides of the bottom plate 21, and a fastening block 23 movably connected to one side plate 22; the surfaces of the fastening blocks 23 and the side plates 22 connected with each other are inclined surfaces; the processing assembly sequentially comprises a raw material entering channel, a double-end surface milling device 32, an upper side and lower side screw hole surface milling device 33, a steel ball arc milling device 34, a two-end thread bottom hole drilling device 35, an upper side and lower side thread bottom hole drilling device 36, a two-end thread tapping device 37, an upper side and lower side thread tapping device 38, a first steel ball drilling circulation hole device 39, a second steel ball drilling circulation hole device 310, a third steel ball drilling circulation hole device 311, two-end circle chamfering devices 312, a plurality of sand blasting deburring devices, a cleaning device, an air cutting device, a drying device and a product discharging channel.

The working principle of the device is as follows: the raw materials of the sliding block enter the circumference of the turntable from the raw materials entering channel and finish clamping when reaching the clamping part of the sliding block, the clamping action is realized through the retraction of the fastening block, when the fastening block is tightly inserted between the sliding block and the side plate, the sliding block is clamped, and when the fastening block is withdrawn, the sliding block is loosened. Because the turntable is always in a rotating state, when the raw material of the sliding block enters the clamping piece of the sliding block, the sliding block can be completely clamped after the rotating time of one station, and then the sliding block is rotated to the next station, namely the position of the double end face milling device, and the milling process of the upper end face and the lower end face of the sliding block is completed along with the rotation of the turntable. The sliding block is rotated to the next station, namely the position of the device for milling the screw hole surfaces on the upper side and the lower side of the sliding block is milled, so that milling of the screw hole surfaces on the upper side and the lower side of the sliding block, namely two surfaces with different heights in the same direction with the circumferential surface of the turntable, is completed; then the sliding block is rotated to the next station, namely the position of the steel ball arc milling device is located, so that milling of the steel ball arc channel on the sliding block is completed; then the sliding block is rotated to the next station, namely the position of the device for drilling the threaded bottom holes at the two ends of the sliding block is drilled; then the sliding block rotates to the next station, namely the position of the device for drilling the upper and lower side threaded bottom holes is located, so that the upper and lower side threaded bottom holes of the sliding block are drilled; then the sliding block rotates to the next station, namely, the screw devices at the two ends are tapped, so that screw holes at the two ends of the sliding block are tapped; then the sliding block rotates to the next station, namely the position of the tapping device on the upper side and the lower side is located, so that threaded holes on the upper side and the lower side of the sliding block are tapped; then the sliding block rotates to the next station, namely the first steel ball drilling circulation hole device is positioned, and drilling action with the depth greater than half of that of the sliding block is carried out at the position; then the sliding block rotates to the next station, namely the second steel ball drilling circulation hole device is positioned, and the drilling action of penetrating through the two ends of the sliding block is carried out at the position; then the sliding block is rotated to the next station, namely the position of the third steel ball drilling circulation hole device, and the drilling action of hinging through the two ends of the sliding block is carried out at the position; then the sliding block is rotated to the next station, namely the chamfering device of the circles at the two ends is positioned, so as to finish chamfering of the circles at the two ends of the sliding block; then one station is left out, and sand blasting and deburring devices are arranged on the three next stations so as to ensure that burrs of the sliding block are removed completely; after deburring, one station is emptied, and cleaning devices are arranged on the two next stations to ensure the cleaning quality; after the cleaning is finished, one station is emptied, then one station is used for air cutting, then one station is used for drying, and finally the product is discharged from the product discharging channel.

Specifically, the milling double-end device 32 includes milling cutters separately disposed on the upper and lower sides of the slider clamping member 2, and the milling cutters include a rotating seat 321 and three cutter heads 322 disposed on the rotating seat 321. The milling cutter of the device 33 for milling the screw hole on the upper side and the lower side is arranged towards the clamping surface of the sliding block clamping piece 2, and the milling cutter of the device 34 for milling the steel ball arc is arranged towards the clamping surface of the sliding block clamping piece 2. The two-end threaded bottom hole drilling device 35 comprises a plurality of first drill rods 351 arranged on the upper side and the lower side of the sliding block clamping piece 2, and the upper side and the lower side threaded bottom hole drilling device 36 comprises a plurality of second drill rods 361 facing the clamping surface of the sliding block clamping piece 2. The tapping device 37 includes a plurality of first tapping screws 371 disposed on the upper and lower sides of the slider fixture 2, and the tapping device 38 includes a plurality of second tapping screws 381 facing the clamping surface of the slider fixture 2. The first steel ball circulation hole device 39 comprises two groups of mutually staggered deep half drill rods 391 arranged on the upper side and the lower side of the sliding block clamping piece 2, the second steel ball circulation hole device 310 comprises two groups of mutually staggered through drill rods 3101 arranged on the upper side and the lower side of the sliding block clamping piece 2, and the third steel ball circulation hole device 311 comprises two groups of mutually staggered through drill rods 3111 arranged on the upper side and the lower side of the sliding block clamping piece 2. The hinged drill rod 3111 comprises a perforated rod 31111 and a drill bit 31112 arranged at the end of the perforated rod 31111, the drill bit 31112 comprising a plurality of drill plates arranged at an angle radially to the perforated rod 31111. The two end circle chamfering device 312 comprises two chamfering drills 3121 respectively arranged on the upper and lower sides of the slider clamping member 2.

The foregoing is merely a preferred embodiment of the present invention, which is based on one implementation of the overall concept of the present invention, and the scope of the present invention is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the technical scope of the present invention should be covered by the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope of the claims.

Claims (8)

1. The multi-station slide block machining integrated mechanism is characterized by comprising a turntable (1), a plurality of slide block clamping pieces (2) arranged on the circumference side of the turntable (1) and a machining assembly wound on the circumference of the turntable (1);

the sliding block clamping piece comprises a bottom plate (21), side plates (22) fixedly connected to two sides of the bottom plate (21), and a fastening block (23) movably connected to one side plate (22); the surfaces of the fastening blocks (23) and the side plates (22) which are connected with each other are inclined surfaces;

the processing assembly sequentially comprises a raw material entering channel, a double-end-face milling device (32), an upper side screw hole surface milling device (33), a steel ball arc milling device (34), a two-end threaded bottom hole drilling device (35), an upper side screw hole drilling device and a lower side screw hole drilling device (36), a two-end tapping device (37), an upper side screw hole tapping device and a lower side screw hole tapping device (38), a first steel ball drilling circulating hole device (39), a second steel ball drilling circulating hole device (310), a third steel ball drilling circulating hole device (311), a two-end circle chamfering device (312), a plurality of sand blasting deburring devices, a cleaning device, an air cutting device, a drying device and a product discharging channel.

2. The multi-station slide machining integrated mechanism according to claim 1, wherein the milling double-end-face device (32) comprises milling cutters respectively arranged on the upper side and the lower side of the slide clamping piece (2), and the milling cutters comprise a rotating seat (321) and three cutter heads (322) arranged on the rotating seat (321).

3. The multi-station slide machining integrated mechanism according to claim 1, wherein a milling cutter of the upper and lower screw hole surface milling device (33) is arranged towards a clamping surface of the slide clamping piece (2), and a milling cutter of the steel ball arc milling device (34) is arranged towards a clamping surface of the slide clamping piece (2).

4. The multi-station slide machining integrated mechanism according to claim 1, wherein the two-end threaded bottom hole drilling device (35) comprises a plurality of first drill rods (351) arranged on the upper side and the lower side of the slide clamping piece (2), and the upper side and the lower side threaded bottom hole drilling device (36) comprises a plurality of second drill rods (361) facing the clamping surface of the slide clamping piece (2).

5. The multi-station integrated slider processing mechanism according to claim 1, wherein the tapping-end screw means (37) comprises a plurality of first tapping screws (371) provided on both upper and lower sides of the slider holder (2), and the tapping-upper-lower-side screw means (38) comprises a plurality of second tapping screws (381) directed toward the holding surface of the slider holder (2).

6. The multi-station slide machining integrated mechanism according to claim 1, wherein the first steel ball circulation hole device (39) comprises two groups of mutually staggered depth over-half drill rods (391) respectively arranged on the upper side and the lower side of the slide clamping piece (2), the second steel ball circulation hole device (310) comprises two groups of mutually staggered through drill rods (3101) respectively arranged on the upper side and the lower side of the slide clamping piece (2), and the third steel ball circulation hole device (311) comprises two groups of mutually staggered through drill rods (3111) respectively arranged on the upper side and the lower side of the slide clamping piece (2).

7. The integrated multi-station slide machining mechanism according to claim 6, wherein the hinged drill rod (3111) comprises a piercing rod (31111), and a drill bit (31112) disposed at an end of the piercing rod (31111), and the drill bit (31112) comprises a plurality of drill bits disposed at an angle radially to the piercing rod (31111).

8. The multi-station integrated slider processing mechanism according to claim 1, wherein the two-end circle chamfering device (312) comprises two chamfering drill bits (3121) respectively arranged on the upper and lower sides of the slider clamping member (2).