CN211254246U - Vibration disk type feeding device - Google Patents

Abstract

The utility model relates to a vibrating disk feeding device, which comprises a base, a first detection piece, a material channel, a linear vibrator, a grabbing component and an ejection component; be provided with the vibration dish on the base, first detection piece is connected with the base through the installation pole, first detection piece is corresponding with vibration dish position, the material is said and is connected with the base through the discharge gate of vibration dish, the material is said and is connected with the base through sharp vibrator, be provided with the second detection piece on the material is said, be provided with the silo on the material is said, it all is connected with the base through the mounting panel to snatch the subassembly and ejecting subassembly, it all is corresponding with the material way position to snatch the subassembly and ejecting subassembly. The utility model provides a vibration dish formula material feeding unit has reduced equipment cost, has improved conveying efficiency, has practiced thrift manufacturing cost.

Description

Vibration disk type feeding device

Technical Field

The utility model relates to a material transport field, concretely relates to vibration dish formula material feeding unit.

Background

The vibrating disk is good in applicability and high in conveying efficiency, is a common device for conveying materials, but is poor in precision of the materials conveyed by the vibrating disk, and the materials conveyed by the vibrating disk are difficult to accurately receive in the later-stage process.

When the accurate conveying is needed, the module, the screw rod and the carrying mechanism are usually adopted to carry out the conveying in a matched mode, the conveying efficiency is low, and the cost of the required equipment is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: the utility model provides a vibration dish material feeding unit, solves above problem.

In order to achieve the above object, the present invention provides the following technical solutions:

a vibrating disk type feeding device comprises a base, a first detection piece, a material channel, a linear vibrator, a grabbing assembly and an ejection assembly; be provided with the vibration dish on the base, first detection piece is connected with the base through the installation pole, first detection piece is corresponding with vibration dish position, the material is said and is connected with the base through the discharge gate of vibration dish, the material is said and is connected with the base through sharp vibrator, be provided with the second detection piece on the material is said, be provided with the silo on the material is said, it all is connected with the base through the mounting panel to snatch the subassembly and ejecting subassembly, it all is corresponding with the material way position to snatch the subassembly and ejecting subassembly.

Further, first detection piece specifically is proximity switch, the silo is located the middle part of material way, the second detection piece specifically is electric eye inductor subassembly, the second detection piece includes left side and right side.

Further, the induction surface of the first detection piece faces the lowest position of the bottom of the vibration disc, the left side is a transmitting end, the right side is a receiving end, and the trough corresponds to the grabbing assembly and the ejecting assembly in position.

Furthermore, the grabbing component comprises a grabbing cylinder, a grabbing groove and a third detection piece, the third detection piece corresponds to the position of the trough, the grabbing groove corresponds to the position of the ejection component, and the ejection component comprises an ejection cylinder, an ejector rod, a limiting groove and a fourth detection piece.

Furthermore, the ejector rod corresponds to the grabbing groove and the limiting groove in position, the grabbing groove is matched with the limiting groove in size, the fourth detection piece is connected with the ejection assembly through the mounting strip, the fourth detection piece corresponds to the grabbing groove in position, and the third detection piece and the fourth detection piece are proximity switches.

The utility model has the advantages that: the utility model provides a vibration dish formula material feeding unit, through base, first detection piece, material way, linear vibrator, snatch the subassembly and ejecting subassembly uses mutually supporting, realize that vibration dish and handling mechanism cooperate and reach the effect that high efficiency precision carried the material, the device is succinct to have reduced equipment cost, has improved conveying efficiency, has practiced thrift manufacturing cost.

Drawings

Fig. 1 is the utility model discloses a vibration dish material feeding unit's overall structure axonometric drawing.

Fig. 2 is an axonometric view of a part of the structure of a vibrating plate feeding device of the present invention.

Fig. 3 is an axonometric view of another part of the structure of the vibrating plate feeding device of the present invention.

Fig. 4 is a partially enlarged view of a portion Y of fig. 3.

In the figure: 1. a base; 2. a vibrating pan; 3. a first detecting member; 4. mounting a rod; 5. a material channel; 51. a trough; 6. a second detecting member; 61. left side; 62. the right side; 7. a linear vibrator; 8. a grasping assembly; 81. a grabbing cylinder; 82. a grabbing groove; 83. a third detecting member; 9. ejecting the assembly; 91. ejecting out the cylinder; 92. a top rod; 93. a limiting groove; 94. a fourth detecting member; 95. and (7) mounting the bar.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1 to 4, a vibrating plate type feeding device includes a base 1, a first detecting member 3, a material channel 5, a linear vibrator 7, a grabbing assembly 8 and an ejecting assembly 9; the material conveying device is characterized in that a vibrating disc 2 is arranged on the base 1 and used for conveying materials, a first detection piece 3 is connected with the base 1 through an installation rod 4, the position of the first detection piece 3 is corresponding to that of the vibrating disc 2 and used for detecting whether materials exist in the vibrating disc 2 or not, a material channel 5 is connected with the base 1 through a discharge hole of the vibrating disc 2 and used for detecting whether materials exist in the material channel 51 or not, the material channel 5 is connected with the base 1 through a linear vibrator 7 and used for increasing the conveying speed of the materials in a material channel 51, the type of the linear vibrator 7 is XL-140, a second detection piece 6 is arranged on the material channel 5 and used for detecting whether materials exist in the material channel 51 or not, the material channel 5 is provided with a material channel 51 and used for providing a material conveying channel, the grabbing component 8 and the ejecting component 9 are both connected with the base 1 through an installation plate 10, and the grabbing component, for accurately conveying the materials to a required position, the vibration disc 2, the first detection piece 3, the second detection piece 6, the linear vibrator 7, the grabbing assembly 8 and the ejecting assembly 9 are all connected with an external control system.

First detection piece 3 specifically is proximity switch, silo 51 is located the middle part of material way 5, second detection piece 6 specifically is electric eye inductor subassembly, second detection piece 6 includes left side 61 and right side 62 for whether there is the material in mutually supporting detection silo 51.

The response face of first detection piece 3 is towards the lowest of vibration dish 2 bottoms for whether there is the material in the accurate detection vibration dish 2, left side 61 is the transmitting terminal, right side 62 is the receiving terminal, silo 51 with snatch subassembly 8 and ejecting subassembly 9 positions corresponding.

The grabbing component 8 comprises a grabbing cylinder 81, a grabbing groove 82 and a third detection piece 83, the third detection piece 83 corresponds to the material groove 51, the grabbing groove 82 corresponds to the ejection component 9, and the ejection component 9 comprises an ejection cylinder 91, an ejector rod 92, a limiting groove 93 and a fourth detection piece 94.

The ejector pin 92 with snatch groove 82 and spacing groove 93 position corresponding for it is ejecting with the material in the spacing groove 82, conveniently snatch groove 82 joint material, it cooperatees with spacing groove 93 size to snatch groove 82, fourth detection piece 94 is connected with ejecting subassembly 9 through mounting bar 95, fourth detection piece 94 with snatch groove 82 position corresponding for whether there is the material in the groove 82 to detect and snatch, third detection piece 83 and fourth detection piece 94 are proximity switch.

The utility model discloses a theory of operation does: when the conveying work is started: the first detection part 3 detects that materials are placed at the bottom of the vibration disc 2 and then transmits signals to an external control system, the vibration disc 2 starts to convey the materials into the material groove 51 under the control of the external control system, the linear vibrator 7 starts to drive the materials to move towards the mounting plate 10 in an accelerated manner after the second detection part 6 detects the materials in the material groove 51, the third detection part 83 detects the existence of the materials and outputs the signals to the external control system when the materials reach the limiting groove 93, the piston rod of the ejection cylinder 91 extends out under the control of the external control system to drive the ejector rod 92 to eject the materials out of the limiting groove 93, then the piston rod of the gripping cylinder 81 extends out to drive the gripping groove 82 to clamp the materials, when the fourth detection part 94 detects the materials on the gripping groove 82, the piston rod of the ejection cylinder 91 resets, and when the external handling mechanism does not detect the materials after the materials are carried away, the ejection cylinder 91 is reset and the above process is repeated until the work is finished.

The above examples are provided for further illustration of the present invention, but do not limit the present invention to these specific embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be understood as being within the protection scope of the present invention.

Claims (5)

1. The utility model provides a vibration dish material feeding unit which characterized in that: comprises a base (1), a first detection piece (3), a material channel (5), a linear vibrator (7), a grabbing component (8) and an ejection component (9); be provided with vibration dish (2) on base (1), first detection piece (3) are connected with base (1) through installation pole (4), first detection piece (3) are corresponding with vibration dish (2) position, the discharge gate that material way (5) are through vibration dish (2) is connected with base (1), material way (5) are connected with base (1) through sharp vibrator (7), be provided with second detection piece (6) on material way (5), be provided with silo (51) on material way (5), it all is connected with base (1) through mounting panel (10) to snatch subassembly (8) and ejecting subassembly (9), it all is corresponding with material way (5) position to snatch subassembly (8) and ejecting subassembly (9).

2. A vibratory pan feeder as set forth in claim 1 wherein: first detection piece (3) specifically are proximity switch, silo (51) are located the middle part of material way (5), second detection piece (6) specifically are electric eye inductor subassembly, second detection piece (6) include left side (61) and right side (62).

3. A vibratory pan feed as set forth in claim 2 wherein: the sensing surface of first detection piece (3) is towards the lowest of vibration dish (2) bottom, left side (61) are the transmitting terminal, right side (62) are the receiving terminal, silo (51) with snatch subassembly (8) and ejecting subassembly (9) position corresponding.

4. A vibratory pan feed as set forth in claim 3 wherein: the grabbing assembly (8) comprises a grabbing cylinder (81), a grabbing groove (82) and a third detection piece (83), the third detection piece (83) corresponds to the position of the trough (51), the grabbing groove (82) corresponds to the position of the ejection assembly (9), and the ejection assembly (9) comprises an ejection cylinder (91), an ejector rod (92), a limiting groove (93) and a fourth detection piece (94).

5. A vibrating pan feed device as claimed in claim 4, in which: the ejector rod (92) corresponds to the grabbing groove (82) and the limiting groove (93), the grabbing groove (82) is matched with the limiting groove (93) in size, the fourth detection piece (94) is connected with the ejection assembly (9) through a mounting bar (95), the fourth detection piece (94) corresponds to the grabbing groove (82) in position, and the third detection piece (83) and the fourth detection piece (94) are both proximity switches.

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