CN115290255A

CN115290255A - Horizontal dynamic balancing machine for detecting rotating object

Info

Publication number: CN115290255A
Application number: CN202211178107.6A
Authority: CN
Inventors: 徐相兵
Original assignee: Jiangsu Zhituan Electromechanical Technology Co ltd
Current assignee: Jiangsu Zhituan Electromechanical Technology Co ltd
Priority date: 2022-09-27
Filing date: 2022-09-27
Publication date: 2022-11-04
Anticipated expiration: 2042-09-27
Also published as: CN115290255B

Abstract

The invention discloses a horizontal dynamic balancing machine for detecting a rotating object, which comprises a table body, wherein an output shaft of a driving motor penetrates out of a shell and is fixedly provided with a connecting shaft, a baffle ring is fixedly sleeved on the connecting shaft, and a locking block is sleeved on the connecting shaft in a threaded manner; the upper surface of the rotating ring is in a circumferential shape and is fixedly provided with a plurality of mounting plates, the outer ring wall of the baffle ring is in a circumferential shape and is fixedly provided with a plurality of mounting frames, a hollow plate is fixedly mounted in each mounting frame, a first sliding rod is horizontally and fixedly mounted in each hollow plate, and the surface of each mounting plate is provided with a through hole for one end of each hollow plate to pass through; the outer ring wall of the baffle ring is circumferentially provided with a plurality of groups of abutting components which are respectively used for controlling the contraction of the first spring rods. When the workpiece fixed on the connecting shaft reaches a certain rotating speed, the locking block can be locked, so that the locking block can be limited to move in the horizontal direction, and the stability of detection work is ensured.

Description

Horizontal dynamic balancing machine for detecting rotating object

Technical Field

The invention relates to the technical field of dynamic balance detection equipment, in particular to a horizontal dynamic balance machine for detecting a rotating object.

Background

The balancing machine is a machine for measuring the unbalance size and position of a rotating object, when the rotating object rotates around the axis of the rotating object, the mass distribution of the rotating object relative to the axis is not uniform, so that centrifugal force is generated, the unbalanced centrifugal force acts on a rotor bearing to cause vibration, noise is generated, and bearing abrasion is accelerated, so that the performance and the service life of a product are seriously influenced.

Chinese patent publication No. CN212228302U discloses a dynamic balancing machine for detecting dynamic balance of a wheel, wherein a workpiece to be detected needs to be sleeved on a connecting shaft before detection, and then the workpiece is pressed between itself and a retainer ring by rotating a locking block sleeved on the connecting shaft through a thread, when the connecting shaft drives the workpiece to reach a certain rotation speed, the locking block sleeved on the connecting shaft through the thread may slip, so that the workpiece moves on the connecting shaft in a horizontal direction, and subsequent obtained detection data is inaccurate.

Disclosure of Invention

The invention aims to solve the following defects in the prior art that when a connecting shaft carries a workpiece to reach a certain rotating speed, a locking block in threaded sleeve connection with the connecting shaft may slide, so that the workpiece moves on the connecting shaft in the horizontal direction, and the subsequent obtained detection data is inaccurate, and the horizontal dynamic balancing machine for detecting a rotating object is provided.

In order to achieve the purpose, the invention adopts the following technical scheme:

a horizontal dynamic balancing machine for detecting a rotating object comprises a table body, wherein a shell made of a magnetic material is fixedly mounted on the upper surface of the table body, a driving motor is arranged in the shell, an output shaft of the driving motor penetrates out of the shell and is fixedly provided with a connecting shaft, a baffle ring is fixedly sleeved on the connecting shaft, a thread is formed on the surface of the connecting shaft, and a locking block is sleeved on the connecting shaft in a threaded manner;

the locking device comprises a locking block, a locking ring, a retaining ring, a hollow plate, an inserting rod, a plurality of inclined planes, a plurality of mounting plates, a pair of L-shaped first sliding plates, two first telescopic springs, a pair of trapezoidal blocks, two inserting holes and a plurality of inclined planes, wherein the surface of the locking block is provided with an annular groove, the rotating ring is rotatably sleeved in the annular groove, the upper surface of the rotating ring is in a circumferential shape and is fixedly provided with the mounting plates, the outer annular wall of the retaining ring is in a circumferential shape and is fixedly provided with the mounting frames, the mounting frames are internally and fixedly provided with the hollow plate, the hollow plate is internally and horizontally and fixedly provided with the first sliding rod, the first sliding rod is sleeved with the two first telescopic springs, the two ends of the first telescopic springs are respectively and fixedly connected with the hollow plate and the first sliding plate, the surface of the fixing block, which is far away from the first sliding rod, the trapezoidal blocks are fixedly provided with one ends of the first telescopic springs, the two inserting rods are inserted into the two inserting holes, one ends of the inserting rods are respectively and fixedly connected with the surfaces of the trapezoidal blocks, the first sliding plates are fixedly provided with the first inclined planes of the two inclined planes;

the outer ring wall of the baffle ring is circumferentially provided with a plurality of groups of abutting components which are respectively used for controlling the contraction of the first spring rods.

As a preferred scheme, the abutting assembly comprises a second spring rod fixedly mounted on the outer annular wall of the retaining ring and a triangular block fixedly mounted at one end of the second spring rod, the second spring rods are respectively located in the mounting frames, an inlet used for the triangular block to enter is formed in the lower surface of the hollow plate, and the inclined surfaces of the triangular block are respectively arranged face to face with the inclined surfaces of the trapezoidal blocks.

As a preferred scheme, the spout has been seted up to stage body upper surface, the horizontal rotation installs the threaded rod in the spout, the screw thread has cup jointed the slider on the threaded rod, the top fixed mounting of slider has the movable plate, the installing port has been seted up on the movable plate surface, be equipped with the pivot in the installing port, the rotation has cup jointed the bearing in the pivot, bearing outer wall and installing port mouth wall connection, the one end fixed mounting of pivot has the commentaries on classics board, the movable plate surface is equipped with the sensor.

As an optimal scheme, it has cross mounting plate to link fixed cover on the axle, mounting plate is close to the one side of casing and has polylith circular telegram magnet through many connecting rod fixed mounting, mounting plate's surface is the circumference form and has seted up a plurality of arrangement mouths, it has the second slide bar to settle the interior level fixed mounting of mouth, the slip cover is equipped with a pair of second slide on the second slide bar, the cover is equipped with two second expanding spring on the second slide bar, the both ends of second expanding spring respectively with settle mouth and second slide fixed connection, circular telegram magnet fixed surface installs two conducting blocks, second slide one end fixed mounting has the conducting strip, conducting strip surface horizontal opening is equipped with the conducting groove that is used for the conducting strip to slide in, and is many right the second slide is respectively through multiunit drive assembly control removal.

As a preferred scheme, the driving assembly comprises a second inclined plate fixedly mounted on the surface of the second sliding plate and a plurality of pairs of driving rods, one ends of the plurality of pairs of driving rods are fixedly connected with one surfaces, far away from the inserted bar, of the plurality of trapezoidal blocks respectively, and one ends, far away from the trapezoidal blocks, of the driving rods are abutted to inclined surfaces of the second inclined plate.

Compared with the prior art, the invention has the beneficial effects that:

1. when a workpiece fixed on the connecting shaft reaches a certain rotating speed, under the action of centrifugal force, the inclined surfaces of the triangular blocks are in sliding contact with the inclined surfaces of the trapezoidal blocks respectively, so that a plurality of pairs of first sliding plates can move under the action of the abutting of the inclined surfaces, the surface of each first sliding plate can abut against the surface of the mounting plate, the locking blocks can be limited to move in the horizontal direction, and the stability of detection work is ensured;

2. after closing driving motor, polylith circular telegram magnet can the circular telegram this moment, can produce the magnetic attraction effort between casing and the polylith circular telegram magnet, can reduce fast like this and close driving motor after, even the axle takes work piece pivoted time, has improved detection achievement's efficiency.

Drawings

FIG. 1 is a schematic structural diagram of a front side three-dimensional partial cross section of a horizontal dynamic balancing machine for detecting a rotating object according to the present invention;

fig. 2 is a schematic structural view of a top-view perspective partial cross section of a horizontal dynamic balancing machine for detecting a rotating object according to the present invention;

FIG. 3 is a schematic side view of a connecting shaft of a horizontal dynamic balancing machine for detecting a rotating object according to the present invention;

FIG. 4 is a schematic structural diagram of a partial top perspective cross section of a hollow slab of a horizontal dynamic balancing machine for detecting a rotating object according to the present invention;

FIG. 5 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 6 is an enlarged view of the structure at B in FIG. 2;

FIG. 7 is an enlarged view of the structure at C in FIG. 3;

fig. 8 is an enlarged schematic view of the structure at D in fig. 4.

In the figure: the device comprises a table body 1, a shell 2, a driving motor 3, a connecting shaft 4, a retaining ring 5, a locking block 6, a rotating ring 7, a mounting plate 8, a mounting frame 9, a first spring rod 10, a hollow plate 11, a first sliding rod 12, a first sliding plate 13, a first expansion spring 14, a through opening 15, a trapezoidal block 16, an inserted rod 17, a first inclined plate 18, a second spring rod 19, a triangular block 20, a threaded rod 21, a sliding block 22, a movable plate 23, a rotating shaft 24, a bearing 25, a rotating plate 26, a sensor 27, a placement plate 28, an electrified magnet 29, a second sliding rod 30, a second sliding plate 31, a second expansion spring 32, a conductive block 33, a conductive sheet 34, a second inclined plate 35 and a driving rod 36.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-8, a horizontal dynamic balancing machine for detecting a rotating object comprises a table body 1, wherein a shell 2 made of a magnetic material is fixedly mounted on the upper surface of the table body 1, a driving motor 3 is arranged in the shell 2, an output shaft of the driving motor 3 penetrates out of the shell 2 and is fixedly mounted with a connecting shaft 4, a baffle ring 5 is fixedly sleeved on the connecting shaft 4, a thread is arranged on the surface of the connecting shaft 4, a locking block 6 is sleeved on the thread on the connecting shaft 4, a chute is arranged on the upper surface of the table body 1, a threaded rod 21 is horizontally and rotatably mounted in the chute, a slider 22 is sleeved on the thread on the threaded rod 21, a moving plate 23 is fixedly mounted at the top end of the slider 22, a mounting opening is arranged on the surface of the moving plate 23, a rotating shaft 24 is arranged in the mounting opening, a bearing 25 is rotatably sleeved on the rotating shaft 24, the outer wall of the bearing 25 is connected with the opening wall, a rotating plate 26 is fixedly mounted at one end of the rotating shaft 24, and a sensor 27 is arranged on the surface of the moving plate 23;

the worker only needs to sleeve the workpiece to be detected on the connecting shaft 4 and make the surface of the workpiece abut against the surface of the baffle ring 5, then the locking block 6 is rotatably and threadedly sleeved on the connecting shaft 4 until the locking block 6 abuts and fixes the workpiece between the baffle ring 5 and the workpiece, then the sliding block 22 is controlled by the rotating threaded rod 21 to drive the moving plate 23 to move until the surface of the rotating plate 26 abuts against one end of the connecting shaft 4, at this time, the driving motor 3 is started, the output shaft of the driving motor 3 drives the connecting shaft 4, the workpiece and the rotating shaft 24 to rotate together, during the rotating process, if the surface of the workpiece is worn or the mass distribution of each part is not uniform, at this time, the workpiece rotates, the inner wall of the bearing 25 is subjected to unbalanced centrifugal force, the centrifugal force acts on the bearing 25 to cause vibration, the sensor 27 can detect the unbalanced centrifugal force, (the sensor 27 is the prior art and is not described in detail), and is recorded by the computer positioned in the table body 1.

The surface of the locking block 6 is provided with an annular groove, a rotating ring 7 is rotatably sleeved in the annular groove, the upper surface of the rotating ring 7 is in a circumferential shape and is fixedly provided with a plurality of mounting plates 8, the outer annular wall of the baffle ring 5 is in a circumferential shape and is fixedly provided with a plurality of mounting frames 9, hollow plates 11 are fixedly mounted in the mounting frames 9, first slide bars 12 are horizontally and fixedly mounted in the hollow plates 11, a pair of L-shaped first sliding plates 13 are slidably sleeved on the first slide bars 12, two first telescopic springs 14 are sleeved on the first slide bars 12, two ends of the first telescopic springs 14 are respectively fixedly connected with the hollow plates 11 and the first sliding plates 13, through holes 15 for allowing one ends of the hollow plates 11 to penetrate through are formed in the surface of the mounting plates 8, fixed blocks are fixedly mounted in the hollow plates 11, one surfaces of the fixed blocks, far away from the first slide bars 12, trapezoidal blocks 16 are fixedly mounted at one ends of the first spring bars 10, two insertion holes are formed in the surface of the fixed blocks, insertion bars 17 are inserted into the insertion holes 17, one ends of the two insertion bars are respectively fixedly connected with the surfaces of the trapezoidal blocks 16, a first inclined plate 13 is fixedly mounted on the surface of the first inclined plates 18, and one ends of the two insertion bars 17 are respectively abutted against the inclined planes of the two inclined planes of the trapezoidal blocks 18;

a plurality of groups of abutting assemblies which are respectively used for controlling the contraction of the first spring rods 10 are circumferentially arranged on the outer annular wall of the baffle ring 5, each abutting assembly comprises a second spring rod 19 fixedly arranged on the outer annular wall of the baffle ring 5 and a triangular block 20 fixedly arranged at one end of the second spring rod 19, the second spring rods 19 are respectively positioned in the mounting frames 9, an inlet for the triangular block 20 to enter is formed in the lower surface of the hollow plate 11, and the inclined surfaces of the triangular blocks 20 are respectively arranged in a face-to-face mode with the inclined surfaces of the trapezoidal blocks 16;

when a workpiece is installed, only the workpiece to be detected is sleeved on the connecting shaft 4, the surface of the workpiece to be detected is abutted against the surface of the baffle ring 5, then the locking block 6 is rotated to move towards the direction close to the workpiece, when the workpiece is in contact with the workpiece, the rotating ring 7 is controlled to rotate at the moment, the plurality of through holes 15 respectively correspond to the positions of the plurality of hollow plates 11, then the locking block 6 is rotated to enable one ends of the plurality of hollow plates 11 to respectively penetrate through the plurality of through holes 15, the workpiece is abutted between the fixing piece and the baffle ring 5 by the locking block 6 at the moment, then when the output shaft of the driving motor 3 drives the connecting shaft 4 to reach a certain rotating speed, the centrifugal force borne by the plurality of second spring rods 19 is also large at the moment, the locking block 6 is prevented from sliding on the connecting shaft 4, the second spring rods 19 can be stretched, the inclined surface of the triangular block 20 at the end part of the triangular block can be in sliding contact with the inclined surface of the trapezoidal block 16 arranged face to face, under the action of the pressing of the inclined surface, the first spring rod 10 contracts, so that the end parts of the plurality of insert rods 17 respectively contact with the inclined surfaces of the plurality of first inclined plates 18 in a sliding manner, the plurality of first sliding plates 13 move, the plurality of first expansion springs 14 contract, the surfaces of the plurality of first sliding plates 13 respectively abut against the surfaces of the plurality of mounting plates 8 at the moment, and therefore the locking block 6 is prevented from slipping due to the influence of high rotating speed, and moving in the horizontal direction is carried out, a workpiece originally clamped between the locking block 6 and the baffle ring 5 loosens due to clamping and fixing, and moves in the horizontal direction on the connecting shaft 4, so that the accuracy of detection work is ensured, and the workpiece is only fixed more stably because the workpiece is not contacted with the fixed workpiece in the process of limiting the movement of the locking block 6, thereby not influencing the detection work of the fixed workpiece.

A cross-shaped placing plate 28 is fixedly sleeved on the connecting shaft 4, one surface of the placing plate 28, which is close to the shell 2, is fixedly provided with a plurality of through electromagnets 29 through a plurality of connecting rods, the surface of the placing plate 28 is circumferentially provided with a plurality of placing openings, a second slide bar 30 is horizontally and fixedly installed in the placing openings, a pair of second slide plates 31 is sleeved on the second slide bar 30 in a sliding manner, two second telescopic springs 32 are sleeved on the second slide bar 30, two ends of each second telescopic spring 32 are respectively and fixedly connected with the placing openings and the second slide plates 31, two conductive blocks 33 are fixedly installed on the surfaces of the through electromagnets 29, one ends of the second slide plates 31 are fixedly provided with conductive sheets 34, conductive grooves for the conductive sheets 34 to slide in are horizontally formed in the surfaces of the conductive sheets 33, the plurality of second slide plates 31 are respectively controlled to move through a plurality of groups of driving assemblies, each driving assembly comprises a second inclined plate 35 and a plurality of pairs of driving rods 36 which are fixedly installed on the surfaces of the second slide plates 31, one ends of the plurality of the driving rods 36 are respectively and fixedly connected with one surfaces of the plurality of the drive rods 16, which are far away from the inserted rods 17, and the inclined surfaces of the second inclined plates 35 are abutted against the ends of the drive rods 36;

when connecting shaft 4 reaches certain rotational speed, first spring beam 10 takes place the shrink back, many actuating levers 36 can break away from with the inclined plane of polylith second swash plate 35 this moment, thereby no longer support and press second swash plate 35, many second expanding spring 32 can take polylith second slide 31 to remove to reset rapidly, polylith second slide 31 can take a plurality of conducting strips 34 to shift out from a plurality of conducting grooves, polylith circular telegram magnet 29 just can the outage this moment, and then the magnetic attraction between circular telegram magnet 29 and casing 2 disappears, when closing driving motor 3, when the speed of connecting shaft 4 descends gradually, triangle block 20 gives the supporting and pressing effort of trapezoidal block 16 and reduces gradually, first spring beam 10 just can reset gradually, at the in-process that resets, trapezoidal block 16 just can take actuating lever 36 to remove gradually, the tip of many actuating levers 36 just can again respectively offset with the inclined plane of polylith second swash plate 35 once more at this moment, thereby promote polylith second swash plate 35 to remove, many second expanding spring 32 just can contract gradually, polylith 34 just can slide into a plurality of conducting strips in the conducting grooves once more, and then the polylith second inclined plane of inclined plate 35 offsets again, thereby the magnetic attraction produced the magnetic attraction that the time can reduce after this moment, the quick work piece that the motor that can be closed, the back can reduce, the work piece 3, thereby the quick magnetic attraction that the back that can produce and can reduce, the detection motor 3, the back can reduce, the work piece that the detection of connecting shaft 3, thereby can reduce, the back can reduce.

In the invention, when a workpiece is installed, the workpiece to be detected is sleeved on the connecting shaft 4, the surface of the workpiece to be detected is abutted against the surface of the baffle ring 5, then the locking block 6 is rotated to move towards the direction close to the workpiece, when the workpiece is in contact with the workpiece, the rotating ring 7 is controlled to rotate, the plurality of through holes 15 respectively correspond to the positions of the plurality of hollow plates 11, then the locking block 6 is rotated, one ends of the plurality of hollow plates 11 respectively penetrate through the plurality of through holes 15, the workpiece is pressed between the fixing piece and the baffle ring 5 by the locking block 6, when the workpiece fixed on the connecting shaft 4 reaches a certain rotating speed, the inclined surfaces of the plurality of triangular blocks 20 respectively contact with the inclined surfaces of the plurality of trapezoidal blocks 16 in a sliding manner under the action of centrifugal force, so that a plurality of pairs of first sliding plates 13 move under the action of the pressing of the inclined surfaces, the surface of the first sliding plate 13 is abutted against the surface of the mounting plate 8, the locking block 6 can be limited to move in the horizontal direction, the situation that the locking block 6 is prevented from sliding at a high speed state, the locking block 6 is clamped between the locking block 6 and the retaining ring 5 is not loosened in the working direction, and the workpiece is no longer detected by the workpiece 5, and the workpiece is ensured.

The above description is only for 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 should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A horizontal dynamic balancing machine for detecting a rotating object comprises a table body (1) and is characterized in that a shell (2) made of a magnetic material is fixedly mounted on the upper surface of the table body (1), a driving motor (3) is arranged in the shell (2), an output shaft of the driving motor (3) penetrates out of the shell (2) and is fixedly provided with a connecting shaft (4), a baffle ring (5) is fixedly sleeved on the connecting shaft (4), a thread is arranged on the surface of the connecting shaft (4), and a locking block (6) is sleeved on the connecting shaft (4) in a threaded manner;

the surface of the locking block (6) is provided with an annular groove, the annular groove is rotatably sleeved with a rotating ring (7), the upper surface of the rotating ring (7) is in a circular shape and is fixedly provided with a plurality of mounting plates (8), the outer annular wall of the baffle ring (5) is in a circular shape and is fixedly provided with a plurality of mounting frames (9), the mounting frames (9) are internally and fixedly provided with hollow plates (11), the hollow plates (11) are internally and horizontally and fixedly provided with first sliding rods (12), the first sliding rods (12) are slidably sleeved with a pair of L-shaped first sliding plates (13), the first sliding rods (12) are sleeved with two first telescopic springs (14), two ends of each first telescopic spring (14) are respectively and fixedly connected with the hollow plates (11) and the first sliding plates (13), the surface of the mounting plates (8) is provided with a through hole (15) for one end of each hollow plate (11) to penetrate, the hollow plates (11) are internally and fixedly provided with fixing blocks, one surface of the fixing blocks (10) is provided with a socket (16), the sockets (16) are fixedly provided at one end of each fixing block far away from the first sliding rod (12), the two inserting blocks (17) are fixedly connected with two inclined plates, and are fixedly inserted into the first inserting blocks (17), and are inserted into the two inserting blocks (17), one ends of the two inserted rods (17) far away from the trapezoidal blocks (16) are respectively abutted against the inclined surfaces of the two first inclined plates (18);

the outer ring wall of the baffle ring (5) is circumferentially provided with a plurality of groups of abutting components which are respectively used for controlling the contraction of the first spring rods (10).

2. The horizontal dynamic balancing machine for detecting the rotating object is characterized in that the abutting assembly comprises second spring rods (19) fixedly installed on the outer ring wall of the retaining ring (5) and triangular blocks (20) fixedly installed at one ends of the second spring rods (19), the second spring rods (19) are respectively located in the mounting frames (9), an inlet used for the triangular block (20) to enter is formed in the lower surface of the hollow plate (11), and the inclined surfaces of the triangular blocks (20) are respectively arranged in a face-to-face mode with the inclined surfaces of the trapezoidal blocks (16).

3. The horizontal dynamic balancing machine for detecting the rotating object is characterized in that a sliding groove is formed in the upper surface of the table body (1), a threaded rod (21) is horizontally rotatably mounted in the sliding groove, a sliding block (22) is sleeved on the threaded rod (21) in a threaded manner, a moving plate (23) is fixedly mounted at the top end of the sliding block (22), a mounting opening is formed in the surface of the moving plate (23), a rotating shaft (24) is arranged in the mounting opening, a bearing (25) is rotatably sleeved on the rotating shaft (24), the outer wall of the bearing (25) is connected with the wall of the mounting opening, a rotating plate (26) is fixedly mounted at one end of the rotating shaft (24), and a sensor (27) is arranged on the surface of the moving plate (23).

4. The horizontal dynamic balancing machine for detecting the rotating object is characterized in that a cross-shaped placing plate (28) is fixedly sleeved on the connecting shaft (4), a plurality of through electromagnets (29) are fixedly mounted on one surface, close to the shell (2), of the placing plate (28) through a plurality of connecting rods, a plurality of placing openings are formed in the surface of the placing plate (28) in a circumferential mode, a second sliding rod (30) is horizontally and fixedly mounted in the placing openings, a pair of second sliding plates (31) are slidably sleeved on the second sliding rod (30), two second telescopic springs (32) are sleeved on the second sliding rod (30), two ends of the second telescopic springs (32) are respectively and fixedly connected with the placing openings and the second sliding plates (31), two conductive blocks (33) are fixedly mounted on the surfaces of the through electromagnets (29), one end of each second sliding plate (31) is fixedly mounted with a conductive plate (34), conductive grooves for the conductive plates (34) to slide into are horizontally formed in the surfaces of the conductive blocks (33), and a plurality of pairs of second sliding plates (31) move through a plurality of driving assembly control assemblies respectively.

5. The horizontal dynamic balancing machine for detecting the rotating object according to claim 4, wherein the driving assembly comprises a second inclined plate (35) fixedly installed on the surface of the second sliding plate (31) and a plurality of pairs of driving rods (36), one end of each pair of driving rods (36) is fixedly connected with one surface of each pair of trapezoidal blocks (16) far away from the corresponding inserted rod (17), and one end of each pair of driving rods (36) far away from each pair of trapezoidal blocks (16) is abutted to the inclined surface of the second inclined plate (35).