CN110329748B

CN110329748B - Vibration feeding machine

Info

Publication number: CN110329748B
Application number: CN201910761690.5A
Authority: CN
Inventors: 谢君利; 郭魏源; 王瑞良; 翟述智; 秦发广; 杨露鑫
Original assignee: Huanghe Science and Technology College
Current assignee: Huanghe Science and Technology College
Priority date: 2019-08-19
Filing date: 2019-08-19
Publication date: 2024-03-26
Anticipated expiration: 2039-08-19
Also published as: CN110329748A

Abstract

The invention provides a vibration sequencing feeding machine suitable for vulnerable parts, which is characterized in that a vibration disc inlet and a vibration disc outlet are arranged on the side wall of a vibration disc, feeding of materials is realized by adopting an air bag type synchronous belt, feeding efficiency is improved by arranging a lower stop bar at a spiral track of the vibration disc, and rotation of the materials is realized by arranging a rotary table at the bottom of the vibration disc, so that sequencing feeding operation of vulnerable materials is realized.

Description

Vibration feeding machine

Technical Field

The invention belongs to the field of vibration feeding machines, and particularly relates to a vibration sorting feeding machine for vulnerable parts.

Background

In electronic manufacturing, the vibration feeding machine is often required to order and feed materials, but the existing vibration feeding machine is often required to pour sensitive and vulnerable electronic components into a material tray in the vibration feeding machine, and then order and feed the materials through vibration feeding, however, in the pouring process, the electronic performance of the sensitive and vulnerable electronic components is often seriously influenced because the sensitive and vulnerable electronic components collide with each other, so that the electronic components are damaged.

Aiming at the technical problems, the invention provides a novel vibration feeding machine.

Disclosure of Invention

The invention aims to provide a vibration feeding machine capable of avoiding damage to sensitive and vulnerable electronic components.

In order to solve the technical problems, the technical scheme of the invention is as follows:

a vibration feeding machine comprises a vibration disc, a vibrator, an air bag type synchronous belt, a lower material blocking strip, a rotary disc, a hairbrush, an upper material blocking strip, a vibration disc inlet and a vibration disc outlet.

The vibrating disk comprises a vibrating disk inlet and a vibrating disk outlet which are arranged on the side wall, a spiral track which is arranged on the inner wall of the vibrating disk, a bottom plate and a rotary disk which are arranged at the bottom of the vibrating disk, and a hairbrush is fixed on the rotary disk; wherein, be provided with the material feed inlet at the input of gasbag formula hold-in range for on transporting the gasbag formula hold-in range with outside material, keep off the fixed setting in vibration dish spiral orbital lowest of material strip detachably down, be used for stopping the material that gasbag formula hold-in range was carried, so that the material gets into spiral track, improve the efficiency of carrying, go up the setting of material strip in spiral orbital discharge gate department, avoid the material to fall into vibration dish, and standardize the sequencing ejection of compact of material.

The air bag type synchronous belt comprises a side convex edge, an upper conveying surface, a lower tooth surface, an elastic connecting strip connected between the upper conveying surface and the lower tooth surface, and a bag cavity and an inflation inlet which are arranged between the upper conveying surface and the lower tooth surface.

The air bag type synchronous belt enters from the inlet of the vibrating disc and is screwed out from the outlet of the vibrating disc, and a driving gear and a driven gear are respectively arranged at two ends of the air bag type synchronous belt and used for driving the air bag type synchronous belt to rotate; the lower tooth surface of the lower part of the air bag type synchronous belt is slidably supported on the bottom plate of the vibrating disc after entering from the inlet of the vibrating disc, and the upper conveying surface of the air bag type synchronous belt penetrates through the lower stop bar and the rotary table, wherein the rotary table can drive the hairbrush to rotate, and materials falling onto the air bag type synchronous belt from the spiral track due to unexpected conditions are swept into the inlet of the vibrating disc through rotation, so that the materials are fed in a material re-vibrating mode.

Further, the upper surface of the turntable is a smooth convex surface, the convex surface is made of a flexible material, and materials falling off due to unexpected situations can not be damaged due to falling on the convex surface of the turntable in the process of vibration feeding, and the materials can quickly slide down onto the air bag type synchronous belt through the turntable.

Further, a groove is formed in the side wall of the vibration disc, the side convex edge of the air bag type synchronous belt is slidably clamped in the groove, the centripetal force generated by turning of the air bag type synchronous belt is overcome, the air bag type synchronous belt can stably rotate and convey materials, flexible conveying of the materials can be achieved, and due to the fact that the inflatable bag cavity is formed in the air bag type synchronous belt, better elasticity can be achieved, and on one hand, the situation that the materials in the vibration disc are broken when falling into the air bag type synchronous belt can be avoided; on the other hand, the thickness of the material can be adjusted through inflation, so that the gap between the material and the lower stop bar and between the material and the turntable can be adjusted, and the situation that materials are embedded and damaged due to the fact that gaps exist between the air bag type synchronous belt and the lower stop bar and between the material and the turntable is avoided.

The vibrator is used as a vibration source and arranged below the vibration disc and is connected with the vibration disc, and a mounting flange is further arranged below the vibrator.

The control method of the vibration feeding machine comprises the following steps:

1) Installing the air bag type synchronous belt into the vibration disc, dragging the air bag type synchronous belt to check whether the side convex edge slides smoothly in the groove of the vibration disc, if so, installing the lower material blocking strip and the rotary table into the vibration disc, and if not, checking until the air bag type synchronous belt can slide smoothly;

2) Inflating the air bag type synchronous belt, and checking the contact condition of the air bag type synchronous belt with the lower stop strip and the lower surface of the turntable until the upper conveying surface of the air bag type synchronous belt is in contact with the lower stop strip and the lower surface of the turntable, so as to prevent materials from being blocked between the air bag type synchronous belt and the lower stop strip and between the air bag type synchronous belt and the turntable in the conveying process;

3) The vibrator is opened, materials are stably conveyed to the air bag type synchronous belt from other conveying equipment, the feeding condition of the materials is checked, and the rotating speed of the rotating disc is set according to the actual conveying condition.

By adopting the technical scheme, the invention has the following advantages:

(1) The materials of the vibration feeder are conveyed through the air bag type synchronous belt, so that collision damage caused by pouring the materials from the upper part of the vibration disc by adopting a conventional vibration feeder is avoided, and the vibration feeder is more suitable for sequencing and feeding operations of vulnerable materials; and the air bag type synchronous belt is more suitable for matching among other conveying equipment, and is suitable for automatic production operation.

(2) The air bag type synchronous belt can be used for adjusting inflation and deflation to adjust gaps between materials and the rotary table and between materials and the lower material blocking strip, so that damage caused by embedding of the materials is avoided; the air bag type synchronous belt has better elasticity, and the air bag type synchronous belt is arranged below the vibration disc to prevent materials from being broken due to the fact that the materials fall down.

(3) Adopt down the fender flitch to improve vibration material loading machine material loading's efficiency, the place ahead that the material that drops swept down the fender flitch again can be realized in the setting of carousel and brush to the operation of material loading again.

Drawings

FIG. 1 is a schematic illustration of a device; the whole schematic diagram of the vibration feeding machine.

FIG. 2 is a diagram; the vibration feeder is a schematic diagram of decomposition.

FIG. 3 is a diagram; an air bag type synchronous belt cross section view.

Reference numerals illustrate: the vibration device comprises a vibration disc 1, a vibrator 2, an air bag type synchronous belt 3, a lower material baffle strip 4, a rotary disc 5, a hairbrush 6, an upper material baffle strip 7, a vibration disc inlet 8, a vibration disc outlet 9, a side convex edge 10, a spiral track 11, an upper conveying surface 12, a lower tooth surface 13, an elastic connecting strip 14 and a bag cavity 15.

Detailed Description

The invention will be further described with reference to the drawings and examples.

As shown in the figure, the vibration feeding machine comprises a vibration disc 1, a vibrator 2, an air bag type synchronous belt 3, a lower stop bar 4, a rotary disc 5, a hairbrush 6, an upper stop bar 7, a vibration disc inlet 8 and a vibration disc outlet 9.

Wherein, the vibration disk 1 comprises a vibration disk inlet 8 and a vibration disk outlet 9 which are arranged on the side wall, a spiral track 11 which is arranged on the inner wall of the vibration disk 1, a bottom plate and a rotary disk 5 which are arranged at the bottom of the vibration disk 1, and a hairbrush 6 is fixed on the rotary disk 5; wherein, be provided with the material feed inlet at the input of gasbag formula hold-in range 3 for on transporting gasbag formula hold-in range 3 with outside material, lower fender flitch 4 detachably fixes the lowest of the spiral track 11 at vibration dish 1, is used for stopping the material that gasbag formula hold-in range 3 carried, so that the material gets into spiral track 11, improves the efficiency of carrying, goes up fender flitch 7 and sets up in spiral track 11's discharge gate department, avoids the material to fall into vibration dish 1, and standardizes the sequencing ejection of compact of material.

The air-bag type synchronous belt 3 comprises a side convex edge 10, an upper conveying surface 12, a lower tooth surface 13, an elastic connecting strip 14 for connecting the upper conveying surface and the lower tooth surface, an air bag cavity 15 arranged between the upper conveying surface and the lower tooth surface and an air charging port.

The air bag type synchronous belt 3 enters from the vibrating disc inlet 8 and is screwed out from the vibrating disc outlet 9, and a driving gear and a driven gear are respectively arranged at two ends of the air bag type synchronous belt 3 and are used for driving the air bag type synchronous belt 3 to rotate; wherein, after the air bag type synchronous belt 3 enters from the vibrating disc inlet 8, the lower tooth surface of the lower part of the air bag type synchronous belt is slidably supported on the bottom plate of the vibrating disc 1, and the upper conveying surface of the air bag type synchronous belt passes through the lower stop bar 4 and the rotary table 5, wherein the rotary table 5 can drive the hairbrush 6 to rotate, and materials falling onto the air bag type synchronous belt 3 from the conveying track 11 due to unexpected situations are swirled to the vibrating disc inlet 8, so that the materials are conveyed by vibrating again.

Further, the upper surface of the turntable 5 is a smooth convex surface, the convex surface is made of a flexible material, and materials falling off due to unexpected situations can not be damaged due to falling on the convex surface of the turntable 5 in the vibration feeding process, and can quickly slide down onto the air bag type synchronous belt 3 through the turntable 5.

Further, a groove is formed in the side wall of the vibration disc 1, the side convex edge 10 of the air bag type synchronous belt 3 is slidably clamped in the groove, the centripetal force generated by turning of the air bag type synchronous belt 3 is overcome, the air bag type synchronous belt 3 can stably rotate and convey materials, flexible conveying of the materials can be achieved, and due to the fact that the inflatable bag cavity is formed in the air bag type synchronous belt 3, better elasticity can be achieved, and on one hand, the materials in the vibration disc 1 can be prevented from falling onto the air bag type synchronous belt 3 and being broken; on the other hand, the gap between the lower stop strip 4 and the rotary table 5 can be adjusted by adjusting the thickness of the lower stop strip through inflation, so that the situation that materials are embedded and damaged due to gaps among the air bag type synchronous belt 3, the lower stop strip 4 and the rotary table 5 is avoided.

The vibrator 2 is arranged below the vibration plate 1 as a vibration source and is connected with the vibration plate 1, and a mounting flange is also arranged below the vibrator 2.

1) Installing the air bag type synchronous belt (3) into the vibration disc (1), dragging the air bag type synchronous belt (3) to check whether the side convex edge (10) smoothly slides in the groove of the vibration disc (1), if so, installing the lower material blocking strip (4) and the rotary disc (5) into the vibration disc (1), and if not, checking until the air bag type synchronous belt (3) can smoothly slide;

2) Inflating the air bag type synchronous belt 3, and checking the contact condition of the air bag type synchronous belt 3 with the lower stop strip 4 and the lower surface of the turntable 5 until the upper conveying surface of the air bag type synchronous belt 3 is in contact with the lower stop strip 4 and the lower surface of the turntable 5, so as to prevent materials from being blocked between the air bag type synchronous belt 3 and the lower stop strip 4 and the turntable 5 in the conveying process;

3) The vibrator 2 is turned on, materials are stably conveyed to the air bag type synchronous belt 3 from other conveying equipment, the feeding condition of the materials is checked, and the rotating speed of the rotary table 5 is set according to the actual conveying condition.

The foregoing describes one embodiment of the present invention in detail, but the description is merely a preferred embodiment of the invention and is not to be construed as limiting the scope of the invention. Any equivalent changes that follow from the scope of the present application should be considered to be within the scope of the present invention.

Claims

1. A vibration feeding machine comprises a vibration disc (1), a vibrator (2), an air bag type synchronous belt (3), a lower material blocking strip (4), a rotary disc (5), a hairbrush (6) and an upper material blocking strip (7); the method is characterized in that:

the vibrating disk (1) comprises a vibrating disk inlet (8) and a vibrating disk outlet (9) which are arranged on the side wall, a spiral track (11) is arranged on the inner wall of the vibrating disk (1), a bottom plate and a rotary disk (5) which are arranged at the bottom of the vibrating disk (1), and a hairbrush (6) is fixed on the rotary disk (5); the device comprises a vibrating disc (1), a vibrator (2), a lower baffle strip (4), a lower baffle strip (7), a material feeding port, a material discharging port and a mounting flange, wherein the material feeding port is arranged at the input end of the air bag type synchronous belt (3), the lower baffle strip (4) is detachably fixed at the lowest part of a spiral track (11) of the vibrating disc (1), the upper baffle strip (7) is arranged at the material discharging port of the spiral track (11), the vibrator (2) is arranged at the bottom of the vibrating disc (1) and is connected with the vibrating disc (1), and the mounting flange is further arranged below the vibrator (2);

the air bag type synchronous belt (3) comprises a side convex edge (10), an inflation inlet, an upper conveying surface (12), a lower tooth surface (13), an elastic connecting strip (14) for connecting the upper conveying surface and the lower tooth surface, and a bag cavity (15) arranged between the upper conveying surface and the lower tooth surface;

the side wall of the vibration disc (1) is provided with a groove which is matched with the side convex edge (10) of the air bag type synchronous belt (3).

2. A vibratory feeder as set forth in claim 1 wherein: the air bag type synchronous belt (3) feeds materials from an inlet (8) of the vibrating disc and rotates out from an outlet (9) of the vibrating disc, and a driving gear and a driven gear are respectively arranged at two ends of the air bag type synchronous belt (3) and used for driving the air bag type synchronous belt 3 to rotate; the lower tooth surface of the lower part of the air bag type synchronous belt (3) is slidably supported on the bottom plate of the vibrating disc (1) after entering from the vibrating disc inlet (8), the upper conveying surface of the air bag type synchronous belt passes through the lower stop strip (4) and the rotary table (5), the rotary table (5) can drive the hairbrush (6) to rotate, and materials falling onto the air bag type synchronous belt (3) are rotationally swept to the vibrating disc inlet (8) so that the materials can be conveyed by vibrating again.

3. A vibratory feeder as set forth in claim 2 wherein: the upper surface of the turntable (5) is a smooth convex surface which is made of a flexible material.