CN206794936U - A kind of jewellery processing equipment with cam rapid feed structure - Google Patents

Abstract

The utility model is applied to jewellery processing equipment technical field, disclose a kind of jewellery processing equipment with cam rapid feed structure, including table of equipment and equipment frame, clamping device is provided with table of equipment, cutter arrangement is provided with equipment frame, cutter arrangement includes process tool, main slide plate and the cam rapid feed structure for being connected to main slide plate, and cam rapid feed structure includes being slidably connected to secondary slide, the cam mechanism for being fixedly connected on the rapid feed motor of main slide plate and being connected between rapid feed motor and secondary slide of main slide plate；The feeding end of chute feeder is connected to the outlet of vibration feeding disc, and the discharge end of chute feeder is arranged at the lower section of clamping device, is provided with below discharge end for the workpiece at discharge end to be pushed up to the ejection part of clip position upwards.A kind of jewellery processing equipment with cam rapid feed structure provided by the utility model, it can be processed automatically to workpiece, high in machining efficiency, and processing cost is low.

Description

A kind of jewellery processing equipment with cam rapid feed structure

Technical field

The utility model belongs to jewellery processing equipment technical field, more particularly to a kind of with cam rapid feed structure Jewellery processing equipment.

Background technology

Current processing of ornament, such as the processing of car pearl, it is general, and using manually processing, its processing efficiency is low, processing Cost is high.

Utility model content

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, there is provided one kind has cam rapid feed The jewellery processing equipment of structure, its is high in machining efficiency, and processing cost is low.

The technical solution of the utility model is：A kind of jewellery processing equipment with cam rapid feed structure, including set For platform, equipment frame is fixedly installed on the table of equipment, the clamping device for clamping workpiece, institute are provided with the table of equipment The cutter arrangement being provided with equipment frame for workpieces processing is stated, the side of the equipment frame is provided with feed device, described to send Material device includes vibration feeding disc and is connected to the chute feeder of the vibration feeding disc, and the equipment frame is provided with longitudinal rail, The cutter arrangement includes process tool, is slidably connected to the main slide plate of the longitudinal rail and is connected to the convex of the main slide plate Rapid feed structure is taken turns, the cam rapid feed structure includes being slidably connected to the secondary slide of the main slide plate, is fixedly connected In the main slide plate rapid feed motor and be connected between the rapid feed motor and the secondary slide Cam mechanism；The feeding end of the chute feeder is connected to the outlet of the vibration feeding disc, and the discharge end of the chute feeder is set It is provided with below the lower section of the clamping device, the discharge end for by the workpiece at discharge end, top extremely to clamp position upwards The ejection part put.

Specifically, the rapid feed motor is connected with the first rotary shaft, and the cam mechanism includes being sheathed on institute The clutch shaft bearing of the first rotary shaft is stated, be rotationally connected with the cam of the secondary slide and is connected to the cam and the first axle The cam connecting rod held.

Specifically, cam link is provided with above the secondary slide, the cam link is provided with cam connection Axle, the cam are rotationally connected with the cam connecting shaft by second bearing.

Specifically, the cutter arrangement also includes cutter mounting frame, and the process tool is rotatablely connected by rotary tool axis In the cutter mounting frame, the cutter mounting frame is connected with cutter drive motor, the rotating shaft of the cutter drive motor and institute State and pass through belt transmission between the rotating shaft of process tool.

Specifically, the secondary slide is fixedly installed level angle regulation motor, and the cutter mounting frame is connected to described The rotating shaft of level angle regulation motor.

Specifically, the both ends of the cam connecting rod are threadedly connected to the clutch shaft bearing and cam respectively, or, it is described The both ends of cam connecting rod are interference fitted respectively is connected to the clutch shaft bearing and cam, or, the two of the cam connecting rod End is crossed be welded in the clutch shaft bearing and cam respectively.

Specifically, the main slide plate is connected with the zigzag tread patterns for driving the main slide plate to be slided along the longitudinal rail Mechanism.

Specifically, the longitudinal driving mechanism includes being fixedly connected on the nut of the main slide plate and is threadedly connected to described The screw mandrel of nut, the screw mandrel can be connected with flange or motor.

Specifically, the clamping device includes being used for the first clamping from two mutually orthogonal direction alternating clamping workpieces Part and the second hold assembly, first hold assembly include the left clamping for being oppositely arranged and caning be clamped at left and right sides of workpiece Part and right hold assembly, second hold assembly include being oppositely arranged and caning be clamped on the front clamp portion of workpiece front and rear sides Part and rear hold assembly；

The left hold assembly include the first slide rail, be slidably connected to first slide rail first straight line driving element and It is connected to the first motor of the first straight line driving element；

The right hold assembly includes being oppositely arranged or the second slide rail of integrally connected, being slidably connected with first slide rail In second slide rail second straight line driving element and be connected to the second motor of the second straight line driving element；

The front clamp part include the 3rd slide rail, be slidably connected to the 3rd slide rail the 3rd linear drives device and It is connected to the 3rd motor of the 3rd linear drives device；

Hold assembly includes being oppositely arranged or the 4th slide rail of integrally connected, being slidably connected with the 3rd slide rail after described In the 4th slide rail the 4th linear drives device and be connected to the 4th motor of the 4th linear drives device.

Specifically, the ejection part includes push rod and the lifting actuator for driving the push rod.

A kind of jewellery processing equipment with cam rapid feed structure provided by the utility model, it can be to workpiece Automatically processed, it is high in machining efficiency, and processing cost is low.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme in the embodiment of the utility model, will make below to required in embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the utility model, For those of ordinary skill in the art, on the premise of not paying creative work, can also be obtained according to these accompanying drawings Other accompanying drawings.

Fig. 1 is a kind of dress for jewellery processing equipment with cam rapid feed structure that the utility model embodiment provides With schematic diagram；

Fig. 2 is a kind of office for jewellery processing equipment with cam rapid feed structure that the utility model embodiment provides Portion's assembling schematic diagram；

Fig. 3 is close-up schematic view at A in Fig. 2；

Fig. 4 is pushed up in a kind of jewellery processing equipment with cam rapid feed structure that the utility model embodiment provides Expect the exploded perspective schematic diagram of part.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining The utility model, it is not used to limit the utility model.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can be directly another On one element or it may be simultaneously present centering elements.When an element is known as " being connected to " another element, it can To be directly to another element or may be simultaneously present centering elements.

It should also be noted that, the orientation term such as left and right, upper and lower in the utility model embodiment, is only relative each other Concept or using the normal operating condition of product as reference, and should not be regarded as restrictive.

As shown in Figures 1 to 4, a kind of jewellery with cam rapid feed structure that the utility model embodiment provides add Construction equipment, including table of equipment 10, equipment frame 11 is fixedly installed on the table of equipment 10, is provided with and is used on the table of equipment 10 The clamping device 2 of clamping workpiece (jewellery workpiece), clamping device 2 with clamping workpiece and can drive workpiece to rotate.The equipment frame The cutter arrangement 3 for workpieces processing is provided with 11, to be processed decorative pattern to workpiece or be polished.The equipment frame 11 side is provided with feed device 4, and the feed device 4 includes vibration feeding disc 41 and is connected to the vibration feeding disc 41 Chute feeder 42, feed device 4 can deliver to workpiece one by one clamping device 2, and automatic degree is high.The equipment frame 11 is provided with At least two parallel longitudinal rails 111 apart, the cutter arrangement 3 include process tool 31, are slidably connected to the longitudinal direction The main slide plate 32 of guide rail 111 and the cam rapid feed structure 33 for being connected to the main slide plate 32, main slide plate 32 can be along longitudinal direction Guide rail 111 slides up and down, and to be adapted to different processing occasions, equipment interoperability is high.The cam rapid feed structure 33 is wrapped The rapid feed motor for include and be slidably connected to the secondary slide 331 of the main slide plate 32, being fixedly connected on the main slide plate 32 332 and the cam mechanism that is connected between the rapid feed motor 332 and the secondary slide 331, secondary slide 331 can be with Slided up and down under the driving of cam rapid feed structure 33.The feeding end of the chute feeder 42 is connected to the vibration feeding disc 41 outlet, the discharge end of the chute feeder 42 are arranged at the lower section of the clamping device 2, the discharge end of the chute feeder 42 Lower section is provided with includes top for the workpiece at discharge end to be pushed up to the ejection part 5 of clip position, the ejection part 5 upwards Bar 51 and for driving the push rod 51 and being connected to the lifting actuator 52 of the lower end of push rod 51, lifting actuator 52 can be gas Cylinder.Workpiece can be fed from below, and feed device 4 does not interfere with the action of clamping device 2 and cutter arrangement 3, optimizes structure Layout, cutter can be processed from all directions to workpiece as needed.So, feed device 4 can in jewellery processing equipment So that workpiece to be automatically sent to clamping device 2 one by one, workpiece is picked up and rotated automatically by clamping device 2, cam rapid feed structure 33 can drive cutter to process workpiece automatically, high in machining efficiency, and processing cost is low.

Specifically, specifically, one end of the chute feeder 42 close to the push rod 51 is provided with for supplying the push rod 51 hole slots passed through, workpiece can be stopped at hole slot, and push rod 51 directly up can be pushed up workpiece to folder upwards through hole slot Hold the clip position of device 2.

Specifically, the rapid feed motor 332 is connected with the first rotary shaft 333, and the cam mechanism includes set Clutch shaft bearing 334 located at first rotary shaft 333, it is rotationally connected with the cam 336 of the secondary slide 331 and is connected to institute State the cam connecting rod 335 of cam 336 and the clutch shaft bearing 334.Rapid feed motor 332 can be servomotor, lead to Overdrive the reciprocating rotation of clutch shaft bearing 334, secondary slide 331 is lifted and is carried out fast automatic processing to workpiece.

Specifically, the top of the secondary slide 331 is provided with cam link 337, and the cam link 337 is provided with Cam connecting shaft 338, the cam 336 are rotationally connected with the cam connecting shaft 338, resistance to sliding by second bearing 339 It is small.

Specifically, the cutter arrangement 3 also includes cutter mounting frame 34, and cutter mounting frame 34 can be with secondary slide 331 Lower motion, the process tool 31 are rotationally connected with the cutter mounting frame 34, the cutter mounting frame 34 by rotary tool axis Cutter drive motor 35 is connected with, passes through skin between the rotating shaft of the cutter drive motor 35 and the rotating shaft of the process tool 31 Band 36 is driven, and reliability is high.

Specifically, the secondary slide 331 is fixedly installed level angle regulation motor 37, and the cutter mounting frame 34 connects In the rotating shaft of the level angle regulation motor 37, machine direction orientation can be adjusted.

Specifically, the both ends of the cam connecting rod 335 are threadedly connected to the clutch shaft bearing 334 and cam 336 respectively, Or the both ends of the cam connecting rod 335 are interference fitted are connected to the clutch shaft bearing 334 and cam 336 respectively, or, The both ends of the cam connecting rod 335 are crossed be welded in the clutch shaft bearing 334 and cam 336 respectively.Certainly, cam connecting rod 335 can also use other connected modes.

Specifically, the main slide plate 32 is connected with what is slided for driving the main slide plate 32 along the longitudinal rail 111 Longitudinal driving mechanism.The longitudinal driving mechanism includes being fixedly connected on the nut of the main slide plate 32 and is threadedly connected to described The screw mandrel of nut, the screw mandrel can be connected with flange or motor, can manually or electronic mode adjusts main cunning Plate 32.

Specifically, the clamping device 2 includes being used for the first folder from two mutually orthogonal direction alternating clamping workpieces Part and the second hold assembly are held, first hold assembly includes the left folder for being oppositely arranged and caning be clamped at left and right sides of workpiece Part and right hold assembly are held, second hold assembly includes being oppositely arranged and caning be clamped on the front clamp of workpiece front and rear sides Part and rear hold assembly；

The left hold assembly includes the first slide rail 211, is slidably connected to the first straight line driving of first slide rail 211 Device 212 and the first motor 213 for being connected to the first straight line driving element 212, first straight line driving element 212 can be gas Cylinder or linear electric motors；

The right hold assembly includes being oppositely arranged with first slide rail 211 or the second slide rail 221 of integrally connected, cunning Move the second straight line driving element 222 for being connected to second slide rail 221 and be connected to the second straight line driving element 222 Second motor 223, second straight line driving element 222 can be cylinder or linear electric motors, and the left and right sides of workpiece can be held on Between the rotating shaft of one motor 213 and the second motor 223；

The front clamp part includes the 3rd slide rail 231, is slidably connected to the 3rd linear drives of the 3rd slide rail 231 Device (not shown) and the 3rd motor 233 for being connected to the 3rd linear drives device, the 3rd linear drives device can be gas Cylinder or linear electric motors；

Hold assembly includes being oppositely arranged with the 3rd slide rail 231 after described or the 4th slide rail of integrally connected (is schemed not Show), be slidably connected to the 4th linear drives device 242 of the 4th slide rail and be connected to the 4th linear drives device 242 the 4th motor 243, the 4th linear drives device 242 can be cylinder or linear electric motors, and the front and rear sides of workpiece can clamp Between the 3rd motor 233 and the rotating shaft of the 4th motor 243.

Specifically, the first slide rail 211, the second slide rail 221, the 3rd slide rail 231 and the 4th slide rail can be in that cross is arranged. The upper end of push rod 51 is located at the lower section of cross searching.In the present embodiment, the first slide rail 211, the second slide rail 221 connect as one, 3rd slide rail 231, the 4th slide rail connect as one and with the first slide rail 211, the second slide rail about 221 staggered floor set.

A kind of jewellery processing equipment with the rapid feed structure 33 of cam 336 provided by the utility model, it can be with Workpiece is processed automatically, it is high in machining efficiency, and processing cost is low.

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model Any modification, equivalent substitution or improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (10)

1. a kind of jewellery processing equipment with cam rapid feed structure, including table of equipment, it is fixedly installed on the table of equipment There is equipment frame, it is characterised in that the clamping device for clamping workpiece is provided with the table of equipment, is set on the equipment frame There is the cutter arrangement for workpieces processing, the side of the equipment frame is provided with feed device, and the feed device includes vibration Feed table and the chute feeder for being connected to the vibration feeding disc, the equipment frame are provided with longitudinal rail, the cutter arrangement bag Process tool is included, be slidably connected to the main slide plate of the longitudinal rail and is connected to the cam rapid feed knot of the main slide plate Structure, the cam rapid feed structure include being slidably connected to the secondary slide of the main slide plate, are fixedly connected on the main slide plate Rapid feed motor and the cam mechanism that is connected between the rapid feed motor and the secondary slide；It is described The feeding end of chute feeder is connected to the outlet of the vibration feeding disc, and the discharge end of the chute feeder is arranged at the clamping device Lower section, be provided with below the discharge end for by the workpiece at discharge end upwards top to clip position ejection part.

2. a kind of jewellery processing equipment with cam rapid feed structure as claimed in claim 1, it is characterised in that described Rapid feed motor is connected with the first rotary shaft, and the cam mechanism includes being sheathed on the first axle of first rotary shaft The cam connecting rod hold, being rotationally connected with the cam of the secondary slide and be connected to the cam and the clutch shaft bearing.

3. a kind of jewellery processing equipment with cam rapid feed structure as claimed in claim 2, it is characterised in that described Cam link is provided with above secondary slide, the cam link is provided with cam connecting shaft, and the cam passes through second Bearing is rotationally connected with the cam connecting shaft.

4. a kind of jewellery processing equipment with cam rapid feed structure as claimed in claim 2, it is characterised in that described Cutter arrangement also includes cutter mounting frame, and the process tool is rotationally connected with the cutter mounting frame, institute by rotary tool axis State cutter mounting frame and be connected with cutter drive motor, between the rotating shaft of the cutter drive motor and the rotating shaft of the process tool Pass through belt transmission.

5. a kind of jewellery processing equipment with cam rapid feed structure as claimed in claim 4, it is characterised in that described Secondary slide is fixedly installed level angle regulation motor, and the cutter mounting frame is connected to turning for the level angle regulation motor Axle.

6. a kind of jewellery processing equipment with cam rapid feed structure as claimed in claim 2, it is characterised in that described The both ends of cam connecting rod are threadedly connected to the clutch shaft bearing and cam respectively, or, the both ends point of the cam connecting rod The clutch shaft bearing and cam Guo Yingpeihe be connected to, or, the both ends of the cam connecting rod cross respectively be welded in it is described Clutch shaft bearing and cam.

7. a kind of jewellery processing equipment with cam rapid feed structure as claimed in claim 1, it is characterised in that described Main slide plate is connected with the longitudinal driving mechanism for driving the main slide plate to be slided along the longitudinal rail.

8. a kind of jewellery processing equipment with cam rapid feed structure as claimed in claim 7, it is characterised in that described Longitudinal driving mechanism includes being fixedly connected on the nut of the main slide plate and is threadedly connected to the screw mandrel of the nut, the screw mandrel Flange or motor can be connected with.

9. a kind of jewellery processing equipment with cam rapid feed structure as claimed in claim 1, it is characterised in that described Clamping device includes being used for the first hold assembly and the second hold assembly from two mutually orthogonal direction alternating clamping workpieces, First hold assembly includes being oppositely arranged and the left hold assembly caning be clamped at left and right sides of workpiece and right hold assembly, institute Stating the second hold assembly includes being oppositely arranged and caning be clamped on the front clamp part of workpiece front and rear sides and rear hold assembly；

The left hold assembly includes the first slide rail, the first straight line driving element for being slidably connected to first slide rail and connection In the first motor of the first straight line driving element；

The right hold assembly includes being oppositely arranged with first slide rail or the second slide rail of integrally connected, is slidably connected to institute State the second straight line driving element of the second slide rail and be connected to the second motor of the second straight line driving element；

The front clamp part includes the 3rd slide rail, the 3rd linear drives device for being slidably connected to the 3rd slide rail and connection In the 3rd motor of the 3rd linear drives device；

Hold assembly includes being oppositely arranged with the 3rd slide rail or the 4th slide rail of integrally connected, is slidably connected to institute after described State the 4th linear drives device of the 4th slide rail and be connected to the 4th motor of the 4th linear drives device.

A kind of 10. jewellery processing equipment with cam rapid feed structure as claimed in claim 9, it is characterised in that institute Stating ejection part includes push rod and the lifting actuator for driving the push rod.