CN211842038U

CN211842038U - Manipulator vibration hammer motor fixed knot constructs

Info

Publication number: CN211842038U
Application number: CN201922388586.4U
Authority: CN
Inventors: 石岩; 赵博; 郭名君; 吕涛; 刘博光
Original assignee: Anshan Zizhu Engineering Equipment Manufacturing Co ltd
Current assignee: Anshan Zizhu high tech equipment manufacturing Co., Ltd
Priority date: 2019-12-27
Filing date: 2019-12-27
Publication date: 2020-11-03
Anticipated expiration: 2029-12-27

Abstract

The utility model relates to a manipulator vibration hammer motor fixing structure, the motor is fixed in the fixing seat of the manipulator vibration hammer through the motor fixing structure; the motor fixing structure comprises a reinforcing plate, a mounting seat and a connecting plate; the mounting seat is connected with the connecting plate through a fixing bolt, and the connecting plate is fixedly connected with the side wall of the fixing seat through a reinforcing plate; a motor mounting hole is formed in the middle of the mounting seat, and an adjusting locking structure is arranged on one side of the motor mounting hole. The utility model adopts the mounting seat with the adjusting locking structure to mount the motor, which is not easy to damage; the mounting seat and the mechanical arm vibration hammer are fixedly connected through the connecting plate and the reinforcing plate, the structure is simple, and the mounting and dismounting are convenient.

Description

Manipulator vibration hammer motor fixed knot constructs

Technical Field

The utility model relates to a concrete structure of manipulator vibratory hammer especially relates to a manipulator vibratory hammer motor fixed knot constructs.

Background

At present, a motor commonly used in mechanical equipment is directly connected and fixed with a connected component through a flange and a bolt, but the motor used as a power source in a mechanical arm vibration hammer is extremely easy to damage because the mechanical arm vibration hammer generates severe vibration in work. The following disadvantages occur after the flange is damaged: 1) The cost for replacing the motor is high, which is not beneficial to cost control. 2) The motor installation space is small, and the disassembly and assembly process is difficult. 3) When the hydraulic oil pipe and the joint are required to be disassembled, time and labor are wasted, and the normal working process is influenced.

Disclosure of Invention

The utility model provides a fixing structure for a motor of a mechanical arm vibration hammer, which adopts a mounting seat with an adjusting locking structure to mount the motor, and is not easy to damage; the mounting seat and the mechanical arm vibration hammer are fixedly connected through the connecting plate and the reinforcing plate, the structure is simple, and the mounting and dismounting are convenient.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a motor fixing structure of a mechanical arm vibration hammer is characterized in that a motor is fixed in a fixing seat of the mechanical arm vibration hammer through the motor fixing structure; the motor fixing structure comprises a reinforcing plate, a mounting seat and a connecting plate; the mounting seat is connected with the connecting plate through a fixing bolt, and the connecting plate is fixedly connected with the side wall of the fixing seat through a reinforcing plate; a motor mounting hole is formed in the middle of the mounting seat, and an adjusting locking structure is arranged on one side of the motor mounting hole.

The mounting seat consists of a ring body, a connecting body positioned on one side of the ring body and a connecting and fastening body positioned on the other side of the ring body, wherein a motor mounting hole is formed in the middle of the ring body, and a fixing bolt hole is formed in the connecting body; the connecting and fastening body is provided with a slit opening, fixing bolt holes and locking bolt holes, wherein the slit opening is arranged along the radial through length of the ring body, the locking bolt holes are arranged along the through length in the direction perpendicular to the central axis of the slit opening, and the fixing bolt holes on the connecting and fastening body are respectively arranged in groups at two sides of the slit opening, wherein one group of the fixing bolt holes are long round holes; the slit opening and the locking bolt penetrating through the locking bolt hole jointly form an adjusting locking structure.

The axis of the locking bolt is parallel to the central axis of the annular body.

The connecting body and the connecting and fastening body are both of cuboid structures and are symmetrically arranged relative to the vertical axis of the circular ring body; the slit openings are symmetrically arranged relative to the horizontal axis of the torus.

The number of the fixing bolt holes in the connecting body is 2, the number of the fixing bolt holes in the connecting and fastening body is 2, the fixing bolt holes are symmetrically arranged relative to the horizontal axis of the ring body, 1 fixing bolt hole in the connecting and fastening body is an oblong hole, and the long axis direction of the oblong hole is parallel to the axis direction of the locking bolt hole.

The locking bolt is a countersunk bolt, the locking bolt hole is divided into two sections by a slit opening, one section consists of a countersunk hole and a smooth round hole, and the other section is a threaded hole.

The slit opening is a V-shaped opening, and the opening degree of one side far away from the annular body is larger than the opening degree of one side close to the annular body.

Compared with the prior art, the beneficial effects of the utility model are that:

1) the mounting seat, the connecting plate and the reinforcing plate are simple in structure, low in processing cost and convenient to process;

2) the motor is installed and effectively fastened by adopting the installation seat, and the motor installation part is not easy to damage;

3) one side of the fixing seat is provided with an adjusting locking structure, so that the locking is stable, and the looseness in the severe vibration process is effectively prevented.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of a motor fixing structure of a mechanical arm vibration hammer of the present invention.

Fig. 2 is a bottom view of the motor fixing structure of the manipulator vibration hammer of the present invention.

Fig. 3 is a front view of the mounting base of the present invention.

In the figure: 1. fixing seat 2, mounting seat 21, annular body 22, connecting body 23, connecting and fastening body 24, fixing bolt hole 25, slotted hole 26, locking bolt hole 27, slotted opening 28, motor mounting hole 3, connecting plate 4, reinforcing plate 5, motor 6, fixing bolt 7 and locking bolt

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

as shown in fig. 1 and fig. 2, in the motor fixing structure of the manipulator vibration hammer according to the present invention, the motor 5 is fixed in the fixing seat 1 of the manipulator vibration hammer through the motor fixing structure; the motor fixing structure comprises a reinforcing plate 4, a mounting seat 2 and a connecting plate 3; the mounting seat 2 is connected with the connecting plate 3 through a fixing bolt 6, and the connecting plate 3 is fixedly connected with the side wall of the fixing seat 1 through a reinforcing plate 4; a motor mounting hole 28 is formed in the middle of the mounting base 2, and an adjusting and locking structure is arranged on one side of the motor mounting hole 28.

As shown in fig. 3, the mounting seat 2 is composed of a torus 21, a connecting body 22 located at one side of the torus 21, and a connecting and fastening body 23 located at the other side of the torus 21, a motor mounting hole 28 is formed in the middle of the torus 21, and a fixing bolt hole 24 is formed in the connecting body 22; the connecting and fastening body 23 is provided with a slit opening 27, fixing bolt holes 24 and locking bolt holes 26, wherein the slit opening 27 is arranged along the radial through length of the ring body 21, the locking bolt holes 26 are arranged along the direction perpendicular to the central axis of the slit opening 27, the fixing bolt holes 24 on the connecting and fastening body 23 are respectively provided with a group on two sides of the slit opening 27, and one group of fixing bolt holes 24 is an oblong hole; the slit opening 27 and the locking bolt 7 inserted into the locking bolt hole 26 together form an adjustable locking structure.

The axis of the locking bolt 7 is parallel to the central axis of the ring body 21.

The connecting body 22 and the connecting and fastening body 23 are both of a cuboid structure and are symmetrically arranged relative to the vertical axis of the circular ring body 21; the slit openings 27 are arranged symmetrically with respect to the horizontal axis of the torus 21.

The number of the fixing bolt holes 24 in the connecting body 22 is 2, the number of the fixing bolt holes 24 in the connecting and fastening body 23 is 2, the fixing bolt holes are symmetrically arranged relative to the horizontal axis of the ring body 21, the number of the fixing bolt holes 1 in the connecting and fastening body 23 is an oblong hole 25, and the long axis direction of the oblong hole is parallel to the axis direction of the locking bolt hole 26.

The locking bolt 7 is a countersunk bolt, and the locking bolt hole 26 is divided into two sections by a slit opening 27, wherein one section is composed of a countersunk hole and a smooth round hole, and the other section is a threaded hole.

The slit opening 27 is a V-shaped opening, and the opening degree of the side far away from the torus 21 is larger than the opening degree of the side close to the torus 21.

When the mechanical arm vibration hammer is used, the mechanical arm vibration hammer is integrally installed on an excavator (or other engineering machinery), the top of the fixed seat 1 is connected with an auxiliary arm of the excavator through a connecting shaft, the bottom of the fixed seat is connected with a pile clamp through a connecting seat, and the motor 5 drives an eccentric block in the vibration box to rotate to generate vibration so as to achieve the purpose of piling.

When a manipulator vibration hammer motor fixed knot constructs the installation, earlier with reinforcing plate 4 and fixing base 1's lateral wall welded fastening, again correspond 2 connecting plates 3 of position welding. The lower end of the motor 5 is sleeved into a motor mounting hole 28 on the mounting base 2 and then is locked and fixed through a locking bolt 7; and then the mounting seat 2 provided with the motor 5 is fixedly connected with the connecting plate 3 through the fixing bolt 6. Because a fixing bolt hole on the connecting and fastening body 23 is the oblong hole 25, the fixing seat 1 and the connecting plate 3 which can adapt to different locking clearances are connected, so that the whole installation is very convenient.

A manipulator vibration hammer motor fixed knot constructs can effectively guarantee that the motor still keeps fastening state when receiving vibration and torsional forces effect, makes manipulator vibration hammer safe, move steadily, also is favorable to motor increase of service life, reduces use cost.

The above description is only the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the concept of the present invention within the technical scope disclosed in the present invention.

Claims

1. A motor fixing structure of a mechanical arm vibration hammer is characterized in that a motor is fixed in a fixing seat of the mechanical arm vibration hammer through the motor fixing structure; the motor fixing structure is characterized by comprising a reinforcing plate, a mounting seat and a connecting plate; the mounting seat is connected with the connecting plate through a fixing bolt, and the connecting plate is fixedly connected with the side wall of the fixing seat through a reinforcing plate; a motor mounting hole is formed in the middle of the mounting seat, and an adjusting locking structure is arranged on one side of the motor mounting hole.

2. The manipulator vibration hammer motor fixing structure according to claim 1, wherein the mounting seat is composed of a torus, a connecting body located on one side of the torus and a connecting and fastening body located on the other side of the torus, a motor mounting hole is formed in the middle of the torus, and a fixing bolt hole is formed in the connecting body; the connecting and fastening body is provided with a slit opening, fixing bolt holes and locking bolt holes, wherein the slit opening is arranged along the radial through length of the ring body, the locking bolt holes are arranged along the through length in the direction perpendicular to the central axis of the slit opening, and the fixing bolt holes on the connecting and fastening body are respectively arranged in groups at two sides of the slit opening, wherein one group of the fixing bolt holes are long round holes; the slit opening and the locking bolt penetrating through the locking bolt hole jointly form an adjusting locking structure.

3. The mechanical arm vibration hammer motor fixing structure according to claim 2, wherein the axis of the locking bolt is parallel to the central axis of the torus.

4. The manipulator vibration hammer motor fixing structure according to claim 2, wherein the connecting body and the connecting and fastening body are both rectangular structures and are symmetrically arranged relative to a vertical axis of the circular ring body; the slit openings are symmetrically arranged relative to the horizontal axis of the torus.

5. The manipulator vibration hammer motor fixing structure according to claim 2, wherein the number of the fixing bolt holes on the connecting body is 2, the number of the fixing bolt holes on the connecting and fastening body is 2, the fixing bolt holes are symmetrically arranged relative to a horizontal axis of the torus, and the number of the fixing bolt holes 1 on the connecting and fastening body is an oblong hole, and the long axis direction of the oblong hole is parallel to the axis direction of the locking bolt hole.

6. The mechanical arm vibration hammer motor fixing structure according to claim 2, wherein the locking bolt is a countersunk bolt, the locking bolt hole is divided into two sections by a slit opening, one section is composed of a countersunk hole and a smooth round hole, and the other section is a threaded hole.

7. The manipulator vibration hammer motor fixing structure according to claim 2, 4 or 6, wherein the slit opening is a V-shaped opening, and the opening degree of the side far away from the torus is larger than the opening degree of the side near the torus.