CN214358473U

CN214358473U - Sitting type vibration feeding device for artificial sand production

Info

Publication number: CN214358473U
Application number: CN202023310185.6U
Authority: CN
Inventors: 严章国; 沈杰; 杨胜军; 刘裕; 曾晓林; 计春; 金宇; 张松; 赵泽晶
Original assignee: Sinohydro Bureau 9 Co Ltd
Current assignee: Sinohydro Bureau 9 Co Ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-10-08
Anticipated expiration: 2030-12-30

Abstract

The utility model discloses a sitting type vibration feeding device used in artificial sand production, a rubber spring is arranged on a steel pipe support, a connecting plate is arranged on the rubber spring, the upper part of the connecting plate is connected with the tail part of a feeder through a sleeve, the upper part of the tail part of the feeder is connected with the lower end of a feeding groove, the upper end of the feeding groove is connected with a discharge opening on a top plate, a groove body of a vibration motor is fixedly arranged below the tail part of the feeder, and the bottom of a bracket is arranged on a bottom plate; the bottom of the dismounting and repairing support component is fixed with the bracket, and the top of the dismounting and repairing support component is fixed with the vibrating motor or the groove body; rubber spring carries out the rigidity to cell body or vibrating motor when changing, overhauls supporting component, has avoided feeder tail, cell body and vibrating motor to appear pulling down the feed trough under the effect of gravity and has appeared the state that hangs, has solved and has led to the feed trough to appear warping and the problem of displacement when overhauing and changing rubber spring easily.

Description

Sitting type vibration feeding device for artificial sand production

Technical Field

The utility model relates to a sitting posture vibration feeder for in artificial sand production belongs to engineering machine tool technical field.

Background

When the gravel is produced, a feeder is needed to be used, and a sitting type vibration feeding device is needed to be installed on the feeder to ensure the feeding work of the feeder; in chinese patent No. 2014205680204, a sitting posture vibration feeding device for in artifical sand production, in order to give the silo, the feeder tail, the whole that cell body and vibrating motor constitute obtains supporting, the support has been adopted, the steel pipe supports, rubber spring, the support spring subassembly that the connecting plate is constituteed realizes supporting, because vibrating motor can drive the feed trough when the feed and take place the vibration, the vibration can transmit rubber spring, lead to rubber spring and steel pipe to support and the connecting plate takes place rolling wear, rubber spring as wearing and tearing spare is when changing, the feed trough, the feeder tail, the whole that cell body and vibrating motor constitute can not obtain complete support, the feeder tail, cell body and vibrating motor pull down the feed trough under the effect of gravity and appear the state of hanging, lead to easily that the feed trough appears warping and displacement's problem.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a sitting posture vibration feeder for in the production of artifical sand.

The utility model discloses a following technical scheme can realize.

The utility model provides a pair of sitting posture vibration feeder for in artificial sand production, include: the automatic feeding device comprises a support, a steel pipe support is arranged at the top of the support, a rubber spring is arranged on the steel pipe support, a connecting plate is arranged on the rubber spring, the upper part of the connecting plate is connected with the tail part of the feeding machine through a sleeve, the upper part of the tail part of the feeding machine is connected with the lower end of a feeding groove, the upper end of the feeding groove is connected with a discharge opening in a top plate, a groove body of a vibration motor is fixedly arranged below the tail part of the feeding machine, and the bottom of the support is arranged on a bottom plate;

the maintenance support assembly is fixed to the bottom of the support, the top of the maintenance support assembly is fixed to the vibrating motor or the groove body, the maintenance support assembly does not form rigid support when the vibrating motor works, and rigid support for the vibrating motor or the groove body is formed when the rubber spring is replaced.

The beneficial effects of the utility model reside in that: rubber spring carries out the rigidity to cell body or vibrating motor when changing, overhauls supporting component, has avoided feeder tail, cell body and vibrating motor to appear pulling down the feed trough under the effect of gravity and has appeared the state that hangs, has solved and has led to the feed trough to appear warping and the problem of displacement when overhauing and changing rubber spring easily.

Drawings

Fig. 1 is a schematic view of the internal cross-sectional structure of the present invention;

in the figure: 1-a scaffold; 2-supporting the steel pipe; 3-a rubber spring; 4-connecting plates; 5-a sleeve; 6-a feed trough; 7-a top plate; 8-a discharge opening; 9-feeder tail; 10-a vibration motor; 11-a trough body; 12-a base plate; 13-upright column; 14-transverse support; 15-supporting the ejector rod; 16-a contact separation block; 17-supporting the bottom bar.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

As shown in fig. 1.

The utility model provides a pair of sitting posture vibration feeder for in artificial sand production, include: the automatic feeding device comprises a support 1, a steel pipe support 2 is arranged at the top of the support 1, a rubber spring 3 is arranged on the steel pipe support 2, a connecting plate 4 is arranged on the rubber spring 3, the upper part of the connecting plate 4 is connected with a feeding machine tail part 9 through a sleeve 5, the upper part of the feeding machine tail part 9 is connected with the lower end of a feeding groove 6, the upper end of the feeding groove 6 is connected with a discharging opening 8 on a top plate 7, a groove body 11 of a vibration motor 10 is fixedly arranged below the feeding machine tail part 9, and the bottom of the support 1 is arranged on a bottom plate 12;

the maintenance support assembly is fixed to the support 1, the top of the maintenance support assembly is fixed to the vibrating motor 10 or the groove body 11, the maintenance support assembly does not form rigid support when the vibrating motor 10 works, and rigid support for the vibrating motor 10 or the groove body 11 is formed when the rubber spring 3 is replaced.

Rubber spring 3 carries out the rigidity to cell body 11 or vibrating motor 10 and supports when changing, overhauls supporting component, has avoided feeder tail 9, cell body 11 and vibrating motor 10 to appear pulling down the state that feed trough 6 appears hanging under the effect of gravity, has solved and has led to the problem that feed trough 6 appears warping and displacement easily when overhauing and changing rubber spring.

The overhauling support component comprises a support bottom rod 17, a contact separation block 16 and a support top rod 15, wherein the bottom end of the support bottom rod 17 is fixedly connected with the support 1, the contact separation block 16 is installed at the top of the support bottom rod 17, the support top rod 15 is fixed on the groove body 11 or the vibration motor 10, the support top rod 15 corresponds to the contact separation block 16, and the support top rod 15 or the support bottom rod 17 is a telescopic rod body;

when the supporting bottom rod 17 is a telescopic rod body, when the vibration motor 10 works, the supporting bottom rod 17 drives the contact separation block 16 to retract downwards, the contact separation block 16 is separated from the supporting ejector rod 15, and a rigid support is not formed; when the vibration motor 10 does not work, the support bottom rod 17 drives the contact separation block 16 to extend upwards, and the contact separation block 16 is in contact with the support top rod 15 to form a rigid support.

When the supporting ejector rod 15 is a telescopic rod body, when the vibration motor 10 works, the supporting ejector rod 15 retracts upwards, the contact separation block 16 is separated from the supporting ejector rod 15, and rigid support is not formed; when the vibration motor 10 does not work, the supporting mandril 15 extends downwards, and the contact separation block 16 is contacted with the supporting mandril 15 to form a rigid support.

The support component for overhauling comprises a support bottom rod 17 fixedly connected with the support 1 at the bottom end, a contact separation block 16 arranged at the top of the support bottom rod 17, and a support ejector rod 15 fixed on the tank body 11 or the vibrating motor 10, wherein the support ejector rod 15 corresponds to the contact separation block 16, the support bottom rod 17 and the support ejector rod 15 are externally threaded, and a threaded through hole screwed with the support bottom rod 17 and the support ejector rod 15 is formed in the contact separation block 16.

When the vibration motor 10 works, the contact separation block 16 rotates downwards only on the support bottom rod 17, and the contact separation block 16 is separated from the support top rod 15, so that rigid support is not formed; when the vibration motor 10 does not work, the contact separation block 16 is connected with the support bottom rod 17 and the support top rod 15 upwards in a rotating mode, and the contact separation block 16 is in contact with the support top rod 15 to form a rigid support.

The support bottom rod 17 is welded and fixed with the bracket 1.

The top of the supporting bottom rod 17 is provided with a contact separation block 16 through a screw;

the supporting ejector rod 15 is fixedly connected with the vibration motor 10, and other parts on the upper portion of the supporting back are supported due to the fact that the vibration motor 10 is located at the lowest position.

The supporting ejector rod 15 is fixedly connected with the vibration motor 10 in a welding mode.

The support 1 is composed of four upright posts 13, and each upright post 13 is connected through a transverse support 14 to form a stable frame supporting structure.

Claims

1. A sitting vibratory feeder for use in artificial sand production comprising: the automatic feeding device comprises a support (1), a steel pipe support (2) is installed at the top of the support (1), a rubber spring (3) is installed on the steel pipe support (2), a connecting plate (4) is installed on the rubber spring (3), the upper portion of the connecting plate (4) is connected with a feeding machine tail portion (9) through a sleeve (5), the upper portion of the feeding machine tail portion (9) is connected with the lower end of a feeding groove (6), the upper end of the feeding groove (6) is connected with a discharging opening (8) in a top plate (7), a groove body (11) of a vibrating motor (10) is fixedly installed below the feeding machine tail portion (9), and the bottom of the support (1) is installed on a bottom plate (12);

the vibration motor is characterized by further comprising a dismantling and supporting assembly, the bottom of the dismantling and supporting assembly is fixed with the support (1), the top of the dismantling and supporting assembly is fixed with the vibration motor (10) or the groove body (11), the dismantling and supporting assembly does not form rigid support when the vibration motor (10) works, and the rigid support for the vibration motor (10) or the groove body (11) is formed when the rubber spring (3) is replaced.

2. A seated vibratory feeder apparatus for use in artificial sand production as defined in claim 1, wherein: the overhauling support component comprises a support bottom rod (17) fixedly connected with the support (1) at the bottom end, a contact separation block (16) arranged at the top of the support bottom rod (17), and a support ejector rod (15) fixed on the groove body (11) or the vibrating motor (10), wherein the support ejector rod (15) corresponds to the contact separation block (16), and the support ejector rod (15) or the support bottom rod (17) is a telescopic rod body.

3. A seated vibratory feeder apparatus for use in artificial sand production as defined in claim 1, wherein: the support component for overhauling comprises a support bottom rod (17) fixedly connected with a support (1) at the bottom end, a contact separation block (16) arranged at the top of the support bottom rod (17), and a support ejector rod (15) fixed on a groove body (11) or a vibration motor (10), wherein the support ejector rod (15) corresponds to the contact separation block (16), the support bottom rod (17) and the support ejector rod (15) are externally threaded, and a threaded through hole screwed with the support bottom rod (17) and the support ejector rod (15) is formed in the contact separation block (16).

4. A seated vibratory feeder for use in artificial sand production as defined in claim 2 or 3, wherein: the support bottom rod (17) is fixed with the bracket (1) in a welding way.

5. A seated vibratory feeder for use in artificial sand production as defined in claim 2 or 3, wherein: and the top of the supporting bottom rod (17) is provided with a contact separation block (16) through a screw.

6. A seated vibratory feeder for use in artificial sand production as defined in claim 2 or 3, wherein: the support ejector rod (15) is fixedly connected with the vibration motor (10), and other parts on the upper portion are supported due to the fact that the vibration motor (10) is located at the lowest position.

7. A seated vibratory feeder for use in artificial sand production as defined in claim 2 or 3, wherein: the supporting ejector rod (15) is fixedly connected with the vibration motor (10) in a welding mode.

8. A seated vibratory feeder for use in artificial sand production as defined in claim 2 or 3, wherein: the support (1) consists of four upright posts (13), and each upright post (13) is connected through a transverse support (14).