CN211469755U

CN211469755U - Vibration feeding mechanism

Info

Publication number: CN211469755U
Application number: CN201922443997.9U
Authority: CN
Inventors: 刘军
Original assignee: Dongguan Haibao Machinery Technology Co ltd
Current assignee: Dongguan Haibao Machinery Technology Co ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-09-11
Anticipated expiration: 2029-12-30

Abstract

The utility model relates to the technical field of vibration feeding mechanisms, in particular to a vibration feeding mechanism, which comprises a vibration plate, a vibration motor, a mounting seat and a plurality of groups of vibration damping rubber components; one ends of the vibration reduction glue assemblies are connected to the vibration plate, and the other ends of the vibration reduction glue assemblies are connected to the mounting seat; the vibration motor is arranged on the vibration plate and is used for driving the vibration plate to vibrate; the vibration damping glue assembly comprises a bolt assembly, first vibration damping glue, second vibration damping glue and a first spring; one end of the second vibration reduction glue close to the vibrating plate is concavely provided with a first accommodating groove; the utility model provides a vibration feeding mechanism has increased the subassembly is glued in the multiunit damping, and the subassembly is glued in the multiunit damping can absorb the vibration of vibrating plate, prevents that the vibration of vibrating plate from transmitting for the mount pad, avoids the mount pad to produce and rocks for vibration feeding mechanism can work steadily, can prolong vibrating motor's life moreover.

Description

Vibration feeding mechanism

Technical Field

The utility model belongs to the technical field of vibration feeding mechanism technique and specifically relates to indicate a vibration feeding mechanism.

Background

The vibration feeding mechanism is a feeding device for transferring materials through vibration. At present, the direct fixed mounting of vibration board of traditional vibration feeding mechanism is in the frame, and when vibrating motor drove the vibration board vibration pay-off, the produced vibration of vibrating motor will transmit for the frame through the vibration board to lead to the frame whole all rocking, thereby influence vibration feeding mechanism's job stabilization nature and vibrating motor's life.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a vibration feeding mechanism, this vibration feeding mechanism add multiunit damping and glue the subassembly, and the vibration of vibration board can be absorbed to multiunit damping glue the subassembly, reduces the vibration of vibration board to the influence of mount pad, alleviates rocking that the mount pad produced for vibration feeding mechanism can work steadily, can prolong vibrating motor's life moreover.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a vibration feeding mechanism comprises a vibration plate, a vibration motor, a mounting seat and a plurality of groups of vibration damping rubber components; one ends of the vibration reduction glue assemblies are connected to the vibration plate, and the other ends of the vibration reduction glue assemblies are connected to the mounting seat; the vibration motor is arranged on the vibration plate and is used for driving the vibration plate to vibrate; the vibration damping glue assembly comprises a bolt assembly, first vibration damping glue, second vibration damping glue and a first spring; the second vibration damping glue is provided with a first through hole, the first through hole penetrates through the second vibration damping glue, and the first vibration damping glue is arranged in the first through hole in a sliding mode; the first vibration reduction glue is provided with a second through hole, the second through hole penetrates through the first vibration reduction glue, the bolt assembly penetrates through the second through hole and is connected with the vibration plate and the mounting seat, the first vibration reduction glue is arranged on the bolt assembly in a sliding mode, one end of the first vibration reduction glue abuts against the vibration plate, and the other end of the first vibration reduction glue abuts against the mounting seat; the second vibration reduction glue is provided with a first containing groove in a concave mode, one end, close to the vibration plate, of the second vibration reduction glue, the first spring is sleeved on the outer side of the first vibration reduction glue, the first spring is located in the first containing groove, one end of the first spring abuts against the first vibration reduction glue, and the other end of the first spring abuts against the second vibration reduction glue.

Furthermore, the vibration reduction glue assembly further comprises a second spring, a second accommodating groove is concavely formed in one end, close to the mounting seat, of the second vibration reduction glue, the second spring is sleeved on the outer side of the first vibration reduction glue, the second spring is located in the second accommodating groove, one end of the second spring abuts against the first vibration reduction glue, and the other end of the second spring abuts against the second vibration reduction glue.

Further, the first vibration reduction glue comprises a first vibration reduction glue body, a first glue head and a second glue head; the first rubber head is connected to one end of the first vibration reduction rubber, and the second rubber head is in threaded connection with the other end of the first vibration reduction rubber;

the first vibration reduction colloid is arranged in the first through hole in a sliding mode; the first spring is sleeved outside the first vibration damping colloid, one end of the first spring is abutted against the first rubber head, and the other end of the first spring is abutted against the second vibration damping colloid;

the second spring is sleeved outside the first vibration reduction colloid, one end of the second spring is abutted against the second rubber head, and the other end of the second spring is abutted against the second vibration reduction colloid.

Furthermore, first damping colloid and first head of gluing are the integrated into one piece structure.

Furthermore, the first rubber head is concavely provided with a vibration reduction groove, and the vibration reduction groove is formed by inwards recessing the outer wall of the first rubber head.

Furthermore, the first vibration reduction colloid is in clearance fit with the first through hole.

Further, the vibrating plate is provided with a material cover.

The utility model has the advantages that: in actual work, the external material is conveyed to the vibrating plate, the vibrating motor drives the vibrating plate to vibrate, and the vibrating plate conveys the material to the next station in order. The vibration board is at the in-process of vibration pay-off, and the vibration of vibration board can be absorbed to the subassembly is glued in the multiunit damping, prevents that the vibration of vibration board from transmitting for the mount pad, avoids the mount pad to produce and rocks for vibration feeding mechanism can work steadily, can prolong vibrating motor's life moreover. Specifically, the vibration of the vibrating plate is transmitted to the first damping rubber, the first damping rubber elastically deforms and absorbs the vibration of the vibrating plate, and meanwhile, the first damping rubber elastically deforms and presses the first spring, and the first spring elastically deforms and further absorbs the vibration of the vibrating plate. When the vibration of the vibration plate is large, the first vibration-damping paste elastically deformed presses the first spring, the first spring presses the second vibration-damping paste, and the second vibration-damping paste elastically deformed and further absorbs the vibration of the vibration plate.

The utility model provides a vibration feeding mechanism has increased the subassembly is glued in the multiunit damping, and the subassembly is glued in the multiunit damping can absorb the vibration of vibrating plate, reduces the vibration of vibrating plate to the influence of mount pad, alleviates rocking that the mount pad produced for vibration feeding mechanism can work steadily, can prolong vibrating motor's life moreover.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the damping rubber assembly of the present invention.

Description of reference numerals:

the vibration plate 21, the material cover 211, the vibration motor 22, the mounting base 23, the vibration reduction glue assembly 24, the bolt assembly 241, the first vibration reduction glue 242, the first vibration reduction glue 2421, the first glue head 2422, the second glue head 2423, the vibration reduction groove 2424, the second vibration reduction glue 243, the first accommodating groove 2431, the second accommodating groove 2432, the first spring 244 and the second spring 245.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 and fig. 2, the utility model provides a vibration feeding mechanism, which comprises a vibration plate 21, a vibration motor 22, a mounting seat 23 and a plurality of groups of vibration damping rubber components 24; one ends of the multiple groups of vibration reduction glue assemblies 24 are connected to the vibrating plate 21, and the other ends of the multiple groups of vibration reduction glue assemblies 24 are connected to the mounting base 23; the vibration motor 22 is mounted on the vibration plate 21 and drives the vibration plate 21 to vibrate; the damping rubber assembly 24 comprises a bolt assembly 241, a first damping rubber 242, a second damping rubber 243 and a first spring 244; the second vibration damping rubber 243 is provided with a first through hole, the first through hole penetrates through the second vibration damping rubber 243, and the first vibration damping rubber 242 is slidably arranged in the first through hole; the first vibration reduction glue 242 is provided with a second through hole, the second through hole penetrates through the first vibration reduction glue 242, the bolt component 241 penetrates through the second through hole and is connected to the vibration plate 21 and the installation seat 23, the first vibration reduction glue 242 is slidably arranged on the bolt component 241, one end of the first vibration reduction glue 242 abuts against the vibration plate 21, and the other end of the first vibration reduction glue 242 abuts against the installation seat 23; a first receiving groove 2431 is concavely formed at one end of the second damping rubber 243 close to the vibrating plate 21, the first spring 244 is sleeved outside the first damping rubber 242, the first spring 244 is located in the first receiving groove 2431, one end of the first spring 244 abuts against the first damping rubber 242, and the other end of the first spring 244 abuts against the second damping rubber 243.

In actual operation, external materials are conveyed to the vibrating plate 21, the vibrating motor 22 drives the vibrating plate 21 to vibrate, and the vibrating plate 21 conveys the materials to the next station in sequence. In the vibration feeding process of the vibration plate 21, the vibration of the vibration plate 21 can be absorbed by the multiple groups of vibration damping rubber assemblies 24, the vibration of the vibration plate 21 is prevented from being transmitted to the mounting seat 23, and the mounting seat 23 is prevented from shaking, so that the vibration feeding mechanism can stably work, and the service life of the vibration motor 22 can be prolonged. Specifically, the vibration of the vibration plate 21 is transmitted to the first damping paste 242, the first damping paste 242 is elastically deformed to absorb the vibration of the vibration plate 21, and at the same time, the elastically deformed first damping paste 242 presses the first spring 244, and the first spring 244 is elastically deformed to further absorb the vibration of the vibration plate 21. When the vibration of the vibration plate 21 is large, the first vibration-damping paste 242, which is elastically deformed, presses the first spring 244, the first spring 244 presses the second vibration-damping paste 243, and the second vibration-damping paste 243 is elastically deformed and further absorbs the vibration of the vibration plate 21.

The utility model provides a vibration feeding mechanism adds multiunit damping and glues subassembly 24, and multiunit damping is glued subassembly 24 and can be absorbed the vibration of vibration board 21, reduces the vibration of vibration board 21 and to the influence of mount pad 23, alleviates rocking that mount pad 23 produced for vibration feeding mechanism can work steadily, can prolong vibrating motor 22's life moreover.

As shown in fig. 2, in the present embodiment, the damping rubber assembly 24 further includes a second spring 245, one end of the second damping rubber 243 close to the mounting seat 23 is concavely provided with a second receiving groove 2432, the second spring 245 is sleeved outside the first damping rubber 242, the second spring 245 is located in the second receiving groove 2432, one end of the second spring 245 abuts against the first damping rubber 242, and the other end of the second spring 245 abuts against the second damping rubber 243.

In actual operation, the vibration of the vibrating plate 21 is transmitted to the first vibration-damping rubber 242, the first vibration-damping rubber 242 elastically deforms and absorbs the vibration of the vibrating plate 21, meanwhile, the elastically deformed first vibration-damping rubber 242 presses the second spring 245, the second spring 245 elastically deforms and further absorbs the vibration of the vibrating plate 21, the effect of absorbing the vibration of the vibrating plate 21 is improved, the vibration of the vibrating plate 21 is prevented from being transmitted to the mounting seat 23, the mounting seat 23 is prevented from shaking, the vibration feeding mechanism can stably work, and the service life of the vibration motor 22 can be prolonged.

As shown in fig. 2, in the present embodiment, the first damping rubber 242 includes a first damping rubber 2421, a first rubber head 2422 and a second rubber head 2423; the first rubber head 2422 is connected to one end of the first vibration damping rubber 242, and the second rubber head 2423 is in threaded connection with the other end of the first vibration damping rubber 242;

the first vibration reduction colloid 2421 is arranged in the first through hole in a sliding mode; the first spring 244 is sleeved outside the first vibration damping rubber 2421, one end of the first spring 244 abuts against the first rubber head 2422, and the other end of the first spring 244 abuts against the second vibration damping rubber 243;

the second spring 245 is sleeved outside the first vibration damping rubber 2421, one end of the second spring 245 abuts against the second rubber head 2423, and the other end of the second spring 245 abuts against the second vibration damping rubber 243. The first vibration damping colloid 2421 and the first rubber head 2422 are of an integrally formed structure. The first damping rubber 242 is of a reasonable design to facilitate the assembly and disassembly of the damping rubber assembly 24.

As shown in fig. 2, in the present embodiment, the first rubber head 2422 is concavely provided with a damping groove 2424, and the damping groove 2424 is formed by inwards recessing from an outer wall of the first rubber head 2422.

In practical operation, the damping grooves 2424 can increase the elastic deformation capability of the first rubber head 2422, so as to improve the vibration absorption capability of the first rubber head 2422, and further improve the vibration absorption capability of the first damping rubber 242.

As shown in fig. 2, in the present embodiment, the first vibration damping colloid 2421 is in clearance fit with the first through hole. In practical operation, a gap between the first damping rubber 2421 and the first through hole provides an elastic deformation space for the first damping rubber 2421.

As shown in fig. 1, in the present embodiment, a material cover 211 is attached to the vibration plate 21. In actual work, external materials drop to the vibration plate 21 through the material cover 211, and the material cover 211 can block splashing of the external materials, so that the external materials drop to the vibration plate 21 smoothly.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims

1. A vibration feeding mechanism is characterized in that: the vibration plate comprises a vibration plate, a vibration motor, a mounting seat and a plurality of groups of vibration reduction glue components; one ends of the vibration reduction glue assemblies are connected to the vibration plate, and the other ends of the vibration reduction glue assemblies are connected to the mounting seat; the vibration motor is arranged on the vibration plate and is used for driving the vibration plate to vibrate; the vibration damping glue assembly comprises a bolt assembly, first vibration damping glue, second vibration damping glue and a first spring; the second vibration damping glue is provided with a first through hole, the first through hole penetrates through the second vibration damping glue, and the first vibration damping glue is arranged in the first through hole in a sliding mode; the first vibration reduction glue is provided with a second through hole, the second through hole penetrates through the first vibration reduction glue, the bolt assembly penetrates through the second through hole and is connected with the vibration plate and the mounting seat, the first vibration reduction glue is arranged on the bolt assembly in a sliding mode, one end of the first vibration reduction glue abuts against the vibration plate, and the other end of the first vibration reduction glue abuts against the mounting seat; the second vibration reduction glue is provided with a first containing groove in a concave mode, one end, close to the vibration plate, of the second vibration reduction glue, the first spring is sleeved on the outer side of the first vibration reduction glue, the first spring is located in the first containing groove, one end of the first spring abuts against the first vibration reduction glue, and the other end of the first spring abuts against the second vibration reduction glue.

2. A vibratory feed mechanism as set forth in claim 1 wherein: the damping rubber assembly further comprises a second spring, a second accommodating groove is concavely formed in one end, close to the mounting seat, of the second damping rubber, the second spring is sleeved on the outer side of the first damping rubber, the second spring is located in the second accommodating groove, one end of the second spring abuts against the first damping rubber, and the other end of the second spring abuts against the second damping rubber.

3. A vibratory feed mechanism as set forth in claim 2 wherein: the first vibration reduction glue comprises a first vibration reduction glue body, a first glue head and a second glue head; the first rubber head is connected to one end of the first vibration reduction rubber, and the second rubber head is in threaded connection with the other end of the first vibration reduction rubber;

4. A vibratory feed mechanism as set forth in claim 3 wherein: the first vibration reduction colloid and the first rubber head are of an integrated structure.

5. A vibratory feed mechanism as set forth in claim 3 wherein: the first rubber head is concavely provided with a vibration reduction groove, and the vibration reduction groove is formed by inwards recessing the outer wall of the first rubber head.

6. A vibratory feed mechanism as set forth in claim 3 wherein: the first vibration reduction colloid is in clearance fit with the first through hole.

7. A vibratory feed mechanism as set forth in claim 1 wherein: the vibrating plate is provided with a material cover.