CN210183129U - Slidable motor - Google Patents

Abstract

The utility model discloses a slidable motor, including motor body, motor body lower terminal surface is equipped with a base, is equipped with a height adjusting mechanism who is used for the lifting or reduces motor body height in the base center, still is equipped with the holding chamber that vertical direction is the slope structure in the base, and the holding intracavity still is equipped with one and can carries out gliding runner structure along the slope structure in the holding intracavity, and the base lateral wall still is equipped with a person of facilitating the use and carries out the first gripping portion of gripping.

Description

Slidable motor

Technical Field

The utility model relates to the technical field of electric machines, especially, relate to a slidable motor.

Background

In the current society with extremely developed industry, various types of motors are completely integrated into the daily life of people; the normal operation of each large enterprise, the production of product all can not leave the motor, and the motor in enterprise or the mill is general bulky, and weight is heavier, and is very inconvenient in the handling of motor, and the general transport mode of large-scale motor is for carrying large-scale motor simultaneously through the combination of freight train and jack in the factory among the prior art, and such transport mode is very inconvenient, and handling cost is great.

Disclosure of Invention

The utility model aims to solve the technical problem that a slidable motor with simple structure and convenient carrying is provided.

The utility model provides a technical scheme that above-mentioned problem adopted does: the utility model provides a slidable motor, includes motor body, and the terminal surface is equipped with a base under the motor body, is equipped with a height adjustment mechanism that is used for the lifting or reduces motor body height in the base center, still is equipped with the holding chamber that vertical direction is the slope structure in the base, and the holding intracavity still is equipped with one and can carries out gliding runner structure along the slope structure in the holding intracavity, and the base lateral wall still is equipped with a first gripping portion that facilitates the user and carries out the gripping.

After the structure more than adopting, the utility model discloses with the current structure contrast have following advantage:

the utility model discloses a slidable motor adds on current motor structure basis and has established one and can make things convenient for the motor to carry out gliding slide mechanism on the plane, but slidable motor among this technical scheme compares the biggest advantage with the motor among the prior art and lies in: the motor in the technical scheme can be displaced by a person on the premise of no truck or jack; the specific implementation of slidable motor in this technical scheme does: when the motor does not need to be displaced, the rotating wheel structure in the motor base is contracted in the accommodating cavity, namely the first connecting rod of the rotating wheel structure is inserted in the second blind hole and the fourth blind hole, and the rotating wheel of the rotating wheel structure is contracted in the first sliding groove and the second sliding groove; when the motor needs to be displaced, a user only needs to drive the height lifting mechanism of the motor, in the technical scheme, the height lifting mechanism displaces the hydraulic lifting mechanism, the height lifting mechanism comprises the motor, a telescopic hydraulic rod and a pushing block arranged at the lower end of the hydraulic rod, when the motor of the height lifting mechanism drives the hydraulic rod to extend, the hydraulic rod can push the pushing block at the lower end of the hydraulic rod, when the lower end of the pushing block is attached to the ground or any horizontal plane, the height lifting mechanism is continuously driven, the whole motor can be pushed by the hydraulic rod and the pushing block to continuously increase in height until the lower end face of the base of the motor is completely separated from the ground, at the moment, the rotating wheel structure can slide downwards under the action of gravity, the second holding part on the outer side wall of the first connecting rod of the rotating wheel structure can slide towards one end of the height adjusting mechanism along the inclination directions of the first through hole and the second through hole respectively, in the technical scheme, the shape of the first through hole is the same as that of the first accommodating groove, and the width of the first through hole is just suitable for the second grasping part to extend out, so that when the lower end face of the base is separated from the ground, the second grasping part can slide towards one end departing from the height adjusting mechanism along the inclined direction of the first through hole, the shape of the second through hole is the same as that of the second accommodating groove, and the width of the second through hole is just suitable for the second grasping part to extend out, so that when the lower end face of the base is separated from the ground, the second grasping part can slide towards one end departing from the height adjusting mechanism along the inclined direction of the second through hole; when the second grasping part completely slides in the first accommodating cavity and the second accommodating cavity to the end far away from the height adjusting mechanism, the sliding is stopped, the height adjusting mechanism is driven at the moment, the whole hydraulic rod is contracted, the motor is driven to move downwards under the action of gravity, until a rotating wheel of the rotating wheel structure abuts against the ground, a first connecting rod of the rotating wheel structure is inserted into the first blind hole and the third blind hole under the action of gravity and the hydraulic rod, and until the upper end of the first connecting rod abuts against the bottom surfaces of the first blind hole and the third blind hole, the first connecting rod is completely inserted into the first blind hole and the third blind hole, so that the motor is fixed on the rotating wheel structure; at the moment, the second grasping part is loosened, the grasping rod of the second grasping part can be pushed towards two sides under the action of the spring, so that the first bulge at one end of the grasping rod penetrates through the third through hole to be inserted into the sixth blind hole, the motor is further fixed on the rotating structure, and the phenomenon that the motor displaces when sliding is prevented; and a spout is still established to the lateral wall of motor base among this technical scheme, and sliding connection has first gripping portion in the spout, and this gripping portion is used for making things convenient for the people to grasp when carrying out the displacement to this motor.

The height adjusting mechanism in the technical scheme is a hydraulic mechanism, and is a hydraulic device produced by Jinan Longhao hydraulic machinery Limited company.

As a preference: the holding chamber includes that a vertical direction is the sliding tray of tilt state, terminal surface intercommunication base lower extreme face under the sliding tray, and the up end at sliding tray both ends is equipped with a blind hole respectively, and the base lateral wall symmetry is equipped with the through-hole that communicates the holding chamber.

As a preference: the holding chamber is including locating the left first holding chamber of high adjustment mechanism and locating the second holding chamber on high adjustment mechanism right side, first holding chamber includes that a vertical direction is the first sliding tray of tilt state, terminal surface intercommunication terminal surface under the base under the first sliding tray, first sliding tray is equipped with first blind hole from the up end of high adjustment mechanism one end, the up end that first sliding tray is close to high adjustment mechanism one end is equipped with the second blind hole, and the height that highly is higher than first blind hole of second blind hole, the height of first sliding tray is for descending gradually from high adjustment mechanism one end to high adjustment mechanism one end from being close to, the base lateral wall symmetry is equipped with the first through-hole of a intercommunication first holding chamber.

As a preference: the second holding chamber includes that a vertical direction is the second sliding tray of tilt state, terminal surface intercommunication terminal surface under the base under the second sliding tray, the up end that the second sliding tray deviates from height adjusting mechanism one end is equipped with the third blind hole, the up end that the second sliding tray is close to height adjusting mechanism one end is equipped with the fourth blind hole, and the height that highly is higher than the third blind hole of fourth blind hole, the height of second sliding tray is for gradually descending to keeping away from height adjusting mechanism one end from being close to height adjusting mechanism one end promptly, base lateral wall symmetry is equipped with the second through-hole in a intercommunication second holding chamber.

As a preference: the rotating wheel structure comprises a first blind hole and a second blind hole which can be inserted and connected, the first connecting rod in third blind hole or the fourth blind hole, the first connecting rod lower extreme rotates and is connected with a runner, first connecting rod lateral wall is equipped with one and can stretches out first through-hole or second through-hole and can supply the user's gripping and drive the runner structure and carry out gliding second gripping portion in the holding intracavity, second gripping portion includes two grab bars that can supply the user's gripping and locates two first springs that are used for pushing up the grab bar each other between the grab bar, first connecting rod lateral wall is equipped with and can supply the grab bar to insert and can carry out gliding fifth blind hole, the grab bar inserts fifth blind hole one end lateral wall and is equipped with first arch, fifth blind hole inside wall is equipped with the third through-hole that can supply first arch to wear out, the inside wall of first blind hole and third blind hole all is equipped with the sixth blind hole that can supply first arch to wear out to peg graft after the third through-hole.

As a preference: the height adjusting mechanism is a hydraulic mechanism and comprises a telescopic hydraulic rod and a motor capable of driving the hydraulic rod to stretch, a pushing block is arranged at the lower end of the hydraulic rod, a fourth through hole capable of enabling the telescopic rod to slide is formed in the center of the base, and a groove capable of enabling the pushing block to be embedded is formed in the lower end of the fourth through hole.

As a preference: the outer side wall of the base is provided with a sliding groove for the first gripping part to horizontally slide.

As a preference: and a second spring for reducing vibration of the rotating wheel structure when in operation is arranged between the bottom surface of the inner side wall of the first blind hole, the second blind hole, the third blind hole and the fourth blind hole and the upper end surface of the first connecting rod.

As a preference: the base lower end face is provided with a sixth through hole which is communicated with the first sliding groove and can be used for the runner structure to stretch, and the base lower end face is provided with a seventh through hole which is communicated with the second sliding groove and can be used for the runner structure to stretch.

Drawings

Fig. 1 is a cross-sectional view of the sliding motor with the rotary wheel structure retracted in the base.

Fig. 2 is a cross-sectional view of the slidable motor with the rotary structure extending out of the base.

Fig. 3 is a cross-sectional view of the slidable motor when the hydraulic rod of the height adjusting mechanism is extended.

Fig. 4 is a schematic structural view of the outer sidewall of the base of the slidable motor according to the present invention.

Fig. 5 is a bottom view of the slidable motor of the present invention.

Fig. 6 is an enlarged view at a in fig. 3.

Fig. 7 is a side view of a rotary structure of a slidable motor according to the present invention.

In the figure, 1, a motor body, 2, a base, 3, a height adjusting mechanism, 4, a receiving cavity, 5, a rotating wheel structure, 6, a first grasping portion, 7, a second spring, 201, a through hole, 202, a fourth through hole, 203, a groove, 204, a sliding groove, 205, a sixth through hole, 206, a seventh through hole, 301, a hydraulic rod, 302, a motor, 303, a pushing block, 401, a sliding groove, 402, a blind hole, 403, a first receiving cavity, 404, a second receiving cavity, 501, a first connecting rod, 502, a second grasping portion, 503, a fifth blind hole, 504, a third through hole, 505, a sixth blind hole, 506, a rotating wheel, 2011, a first through hole, 2012, a second through hole, 4031, a first sliding groove, 4032, a first blind hole, 4033, a second blind hole, 4041, a second sliding groove, 4042, a third blind hole, 4043, a fourth blind hole, 5021, a rod, 2, a first spring, 5023, a first protrusion 5023, a second protrusion.

Detailed Description

An embodiment of the present invention will be described with reference to the accompanying drawings.

Example 1: referring to fig. 1 to 5, when the motor in the technical solution does not need to displace, the rotating wheel structure in the motor base is retracted in the accommodating cavity, that is, the first connecting rod of the rotating wheel structure is inserted in the second blind hole and the fourth blind hole, and the rotating wheel of the rotating wheel structure is retracted in the first sliding groove and the second sliding groove; when the motor needs to be displaced, a user only needs to drive the height lifting mechanism of the motor, in the technical scheme, the height lifting mechanism displaces the hydraulic lifting mechanism, the height lifting mechanism comprises the motor, a telescopic hydraulic rod and a pushing block arranged at the lower end of the hydraulic rod, when the motor of the height lifting mechanism drives the hydraulic rod to extend, the hydraulic rod can push the pushing block at the lower end of the hydraulic rod, when the lower end of the pushing block is attached to the ground or any horizontal plane, the height lifting mechanism is continuously driven, the whole motor can be pushed by the hydraulic rod and the pushing block to continuously increase in height until the lower end face of the base of the motor is completely separated from the ground, at the moment, the rotating wheel structure can slide downwards under the action of gravity, the second holding part on the outer side wall of the first connecting rod of the rotating wheel structure can slide towards one end of the height adjusting mechanism along the inclination directions of the first through hole and the second through hole respectively, in the technical scheme, the shape of the first through hole is the same as that of the first accommodating groove, and the width of the first through hole is just suitable for the second grasping part to extend out, so that when the lower end face of the base is separated from the ground, the second grasping part can slide towards one end departing from the height adjusting mechanism along the inclined direction of the first through hole, the shape of the second through hole is the same as that of the second accommodating groove, and the width of the second through hole is just suitable for the second grasping part to extend out, so that when the lower end face of the base is separated from the ground, the second grasping part can slide towards one end departing from the height adjusting mechanism along the inclined direction of the second through hole; when the second grasping part completely slides in the first accommodating cavity and the second accommodating cavity to the end far away from the height adjusting mechanism, the sliding is stopped, the height adjusting mechanism is driven at the moment, the whole hydraulic rod is contracted, the motor is driven to move downwards under the action of gravity, until a rotating wheel of the rotating wheel structure abuts against the ground, a first connecting rod of the rotating wheel structure is inserted into the first blind hole and the third blind hole under the action of gravity and the hydraulic rod, and until the upper end of the first connecting rod abuts against the bottom surfaces of the first blind hole and the third blind hole, the first connecting rod is completely inserted into the first blind hole and the third blind hole, so that the motor is fixed on the rotating wheel structure; at the moment, the second grasping part is loosened, the grasping rod of the second grasping part can be pushed towards two sides under the action of the spring, so that the first bulge at one end of the grasping rod penetrates through the third through hole to be inserted into the sixth blind hole, the motor is further fixed on the rotating structure, and the phenomenon that the motor displaces when sliding is prevented; and a spout is still established to the lateral wall of motor base among this technical scheme, and sliding connection has first gripping portion in the spout, and this gripping portion is used for making things convenient for the people to grasp when carrying out the displacement to this motor.

Referring to fig. 1, the technical solution adopted by the present invention to solve the above problems is: the utility model provides a slidable motor, includes motor body 1, the terminal surface is equipped with a base 2 under motor body 1, be equipped with a height adjustment mechanism 3 that is used for the lifting or reduces motor body 1 height in the base 2 center, still be equipped with the holding chamber 4 that vertical direction is the slope structure in the base 2, and still be equipped with one in the holding chamber 4 and carry out gliding runner structure 5 along the slope structure in holding chamber 4, 2 lateral walls of base still are equipped with a person of facilitating the use and carry out the first portion of gripping 6 of gripping.

After the structure more than adopting, the utility model discloses with the current structure contrast have following advantage:

the utility model discloses a slidable motor adds on current motor structure basis and has established one and can make things convenient for the motor to carry out gliding slide mechanism on the plane, but slidable motor among this technical scheme compares the biggest advantage with the motor among the prior art and lies in: the motor in the technical scheme can be displaced by a person on the premise of no truck or jack; the specific implementation of slidable motor in this technical scheme does: when the motor does not need to be displaced, the rotating wheel structure in the motor base is contracted in the accommodating cavity, namely the first connecting rod of the rotating wheel structure is inserted in the second blind hole and the fourth blind hole, and the rotating wheel of the rotating wheel structure is contracted in the first sliding groove and the second sliding groove; when the motor needs to be displaced, a user only needs to drive the height lifting mechanism of the motor, in the technical scheme, the height lifting mechanism displaces the hydraulic lifting mechanism, the height lifting mechanism comprises the motor, a telescopic hydraulic rod and a pushing block arranged at the lower end of the hydraulic rod, when the motor of the height lifting mechanism drives the hydraulic rod to extend, the hydraulic rod can push the pushing block at the lower end of the hydraulic rod, when the lower end of the pushing block is attached to the ground or any horizontal plane, the height lifting mechanism is continuously driven, the whole motor can be pushed by the hydraulic rod and the pushing block to continuously increase in height until the lower end face of the base of the motor is completely separated from the ground, at the moment, the rotating wheel structure can slide downwards under the action of gravity, the second holding part on the outer side wall of the first connecting rod of the rotating wheel structure can slide towards one end of the height adjusting mechanism along the inclination directions of the first through hole and the second through hole respectively, in the technical scheme, the shape of the first through hole is the same as that of the first accommodating groove, and the width of the first through hole is just suitable for the second grasping part to extend out, so that when the lower end face of the base is separated from the ground, the second grasping part can slide towards one end departing from the height adjusting mechanism along the inclined direction of the first through hole, the shape of the second through hole is the same as that of the second accommodating groove, and the width of the second through hole is just suitable for the second grasping part to extend out, so that when the lower end face of the base is separated from the ground, the second grasping part can slide towards one end departing from the height adjusting mechanism along the inclined direction of the second through hole; when the second grasping part completely slides in the first accommodating cavity and the second accommodating cavity to the end far away from the height adjusting mechanism, the sliding is stopped, the height adjusting mechanism is driven at the moment, the whole hydraulic rod is contracted, the motor is driven to move downwards under the action of gravity, until a rotating wheel of the rotating wheel structure abuts against the ground, a first connecting rod of the rotating wheel structure is inserted into the first blind hole and the third blind hole under the action of gravity and the hydraulic rod, and until the upper end of the first connecting rod abuts against the bottom surfaces of the first blind hole and the third blind hole, the first connecting rod is completely inserted into the first blind hole and the third blind hole, so that the motor is fixed on the rotating wheel structure; at the moment, the second grasping part is loosened, the grasping rod of the second grasping part can be pushed towards two sides under the action of the spring, so that the first bulge at one end of the grasping rod penetrates through the third through hole to be inserted into the sixth blind hole, the motor is further fixed on the rotating structure, and the phenomenon that the motor displaces when sliding is prevented; and a spout is still established to the lateral wall of motor base among this technical scheme, and sliding connection has first gripping portion in the spout, and this gripping portion is used for making things convenient for the people to grasp when carrying out the displacement to this motor.

The height adjusting mechanism in the technical scheme is a hydraulic mechanism, and is a hydraulic device produced by Jinan Longhao hydraulic machinery Limited company.

As a preference: the accommodating cavity 4 comprises a sliding groove 401 which is in an inclined state in the vertical direction, the lower end face of the sliding groove 401 is communicated with the lower end face of the base 2, the upper end faces of the two ends of the sliding groove 401 are respectively provided with a blind hole 402, and the outer side wall of the base 2 is symmetrically provided with a through hole 201 communicated with the accommodating cavity 4.

As a preference: the accommodating cavity 4 comprises a first accommodating cavity 403 arranged on the left side of the height adjusting mechanism 3 and a second accommodating cavity 404 arranged on the right side of the height adjusting mechanism 3, the first accommodating cavity 403 comprises a first sliding groove 4031 in an inclined state in the vertical direction, the lower end face of the first sliding groove 4031 is communicated with the lower end face of the base 2, the upper end face of one end, away from the height adjusting mechanism 3, of the first sliding groove 4031 is provided with a first blind hole 4032, the upper end face, close to one end of the height adjusting mechanism 3, of the first sliding groove 4031 is provided with a second blind hole 4033, the height of the second blind hole 4033 is higher than that of the first blind hole 4032, namely, the height of the first sliding groove 4031 gradually descends towards one end, away from the height adjusting mechanism 3, from one end of the height adjusting mechanism 3, and a first through hole 2011 communicated with the first accommodating cavity 403 is symmetrically arranged.

As a preference: second holding chamber 404 includes that a vertical direction is the second sliding tray 4041 of tilt state, terminal surface intercommunication base 2 terminal surface down under the second sliding tray 4041, the up end that second sliding tray 4041 deviates from height adjusting mechanism 3 one end is equipped with third blind hole 4042, the up end that second sliding tray 4041 is close to height adjusting mechanism 3 one end is equipped with fourth blind hole 4043, and the height that highly is higher than third blind hole 4042 of fourth blind hole 4043, second sliding tray 4041 highly be from being close to height adjusting mechanism 3 one end gradually to the decline of 3 one end of keeping away from height adjusting mechanism, base 2 lateral wall symmetry is equipped with a second through-hole 2012 that communicates second holding chamber 404.

As a preference: the rotating wheel structure 5 comprises a first connecting rod 501 which can be inserted into the first blind hole 4032, the second blind hole 4033, the third blind hole 4042 or the fourth blind hole 4043, the lower end of the first connecting rod 501 is rotatably connected with a rotating wheel 507, the outer side wall of the first connecting rod 501 is provided with a second grasping part 502 which can extend out of the first through hole 2011 or the second through hole 2012 and can be grasped by a user to drive the rotating wheel structure 5 to slide in the accommodating cavity 4, the second grasping part 502 comprises two grasping rods 5021 which can be grasped by the user and a first spring 5022 which is arranged between the two grasping rods 5021 and is used for mutually pushing the grasping rods 5021, the side wall of the first connecting rod 501 is provided with a fifth blind hole 503 which can be inserted by the grasping rods 5021 and can slide, the outer side wall of one end of the fifth blind hole 5021 inserted into the fifth blind hole 503 is provided with a first protrusion 5023, the inner side wall of the fifth blind hole 503 is provided with a third through hole 504 which can be penetrated by the first protrusion 5023, the inner side wall of the first blind hole 4032 and the third blind hole 4042 are provided with Six blind holes 505.

As a preference: the height adjusting mechanism 3 is a hydraulic mechanism, the height adjusting mechanism 3 comprises a telescopic hydraulic rod 301 and a motor 302 capable of driving the hydraulic rod 301 to stretch, a pushing block 303 is arranged at the lower end of the hydraulic rod 301, a fourth through hole 202 capable of allowing the hydraulic rod 301 to slide is arranged at the center of the base 2, and a groove 203 capable of allowing the pushing block 303 to be embedded into is arranged at the lower end of the fourth through hole 202.

As a preference: the outer side wall of the base 2 is provided with a sliding groove 204 for the first grip part 6 to slide horizontally.

As a preference: a second spring 7 for reducing vibration of the rotating wheel structure 5 during operation is arranged between the bottom surface of the inner side wall of each of the first blind hole 4032, the second blind hole 4033, the third blind hole 4042 and the fourth blind hole 4043 and the upper end surface of the first connecting rod 501.

As a preference: the lower end surface of the base 2 is provided with a sixth through hole 205 which is communicated with the first sliding groove 4031 and can be used for the runner structure 5 to stretch, and the lower end surface of the base 2 is provided with a seventh through hole 206 which is communicated with the second sliding groove 4041 and can be used for the runner structure 5 to stretch.

Claims (9)

1. The utility model provides a slidable motor, includes motor body (1), the terminal surface is equipped with a base (2) under motor body (1), its characterized in that: be equipped with a height control mechanism (3) that is used for lifting or reduces motor body (1) height in base (2) center, still be equipped with holding chamber (4) that vertical direction is the slope structure in base (2), just still be equipped with one in holding chamber (4) and carry out gliding runner structure (5) along the slope structure in holding chamber (4), base (2) lateral wall still is equipped with a person of facilitating the use and carries out first gripping (6) of gripping.

2. A slidable electric motor according to claim 1, wherein: the accommodating cavity (4) comprises a sliding groove (401) which is in an inclined state in the vertical direction, the lower end face of the sliding groove (401) is communicated with the lower end face of the base (2), the upper end faces of the two ends of the sliding groove (401) are respectively provided with a blind hole (402), and the outer side wall of the base (2) is symmetrically provided with a through hole (201) communicated with the accommodating cavity (4).

3. A slidable electric motor according to claim 2, wherein: the accommodating cavity (4) comprises a first accommodating cavity (403) arranged on the left side of the height adjusting mechanism (3) and a second accommodating cavity (404) arranged on the right side of the height adjusting mechanism (3), the first accommodating cavity (403) comprises a first sliding groove (4031) which is inclined in the vertical direction, the lower end face of the first sliding groove (4031) is communicated with the lower end face of the base (2), the upper end face of one end, deviating from the height adjusting mechanism (3), of the first sliding groove (4031) is provided with a first blind hole (4032), the upper end face of one end, close to the height adjusting mechanism (3), of the first sliding groove (4031) is provided with a second blind hole (4033), the height of the second blind hole (4033) is higher than that of the first blind hole (4032), namely, the height of the first sliding groove (4031) gradually descends from one end, close to one end, deviating from the height adjusting mechanism (3), of the height adjusting mechanism (4033), the outer side wall of the base (2) is symmetrically provided with a first through hole (2011) communicated with the first containing cavity (403).

4. A slidable motor according to claim 3, wherein: second holding chamber (404) includes that a vertical direction is second sliding tray (4041) of tilt state, terminal surface intercommunication base (2) terminal surface under second sliding tray (4041), second sliding tray (4041) deviates from the up end of height adjusting mechanism (3) one end and is equipped with third blind hole (4042), second sliding tray (4041) are close to the up end of height adjusting mechanism (3) one end and are equipped with fourth blind hole (4043), just the height that highly is higher than third blind hole (4042) of fourth blind hole (4043), promptly the height of second sliding tray (4041) is for gradually descending to deviating from height adjusting mechanism (3) one end near height adjusting mechanism (3) one end certainly, base (2) lateral wall symmetry is equipped with second through-hole (2012) of a intercommunication second holding chamber (404).

5. A slidable electric motor according to claim 1, wherein: the rotating wheel structure (5) comprises a first connecting rod (501) which can be inserted into the first blind hole (4032), the second blind hole (4033), the third blind hole (4042) or the fourth blind hole (4043), the lower end of the first connecting rod (501) is rotatably connected with a rotating wheel (506), the outer side wall of the first connecting rod (501) is provided with a second gripping part (502) which can extend out of the first through hole (2011) or the second through hole (2012) and can be gripped by a user and drive the rotating wheel structure (5) to slide in the accommodating cavity (4), the second gripping part (502) comprises two gripping rods (5021) which can be gripped by the user and a first spring (5022) which is arranged between the two gripping rods (5021) and is used for pushing the gripping rods (5021) mutually, the side wall of the first connecting rod (501) is provided with a fifth blind hole (503) into which the gripping rod (5021) can be inserted and can slide, and one end of the gripping rod (5021) is provided with a first protrusion (5023), the inner side wall of the fifth blind hole (503) is provided with a third through hole (504) through which the first protrusion (5023) can penetrate, and the inner side walls of the first blind hole (4032) and the third blind hole (4042) are respectively provided with a sixth blind hole (505) through which the first protrusion (5023) can penetrate through the third through hole (504) and then be inserted.

6. A slidable electric motor according to claim 1, wherein: height adjustment mechanism (3) are a hydraulic pressure mechanism, height adjustment mechanism (3) include a telescopic hydraulic stem (301) and one can drive hydraulic stem (301) and carry out flexible motor (302), hydraulic stem (301) lower extreme is equipped with one and pushes up ejector pad (303), base (2) center is equipped with one and can supplies hydraulic stem (301) to carry out gliding fourth through-hole (202), fourth through-hole (202) lower extreme is equipped with recess (203) that can supply ejector pad (303) embedding.

7. A slidable electric motor according to claim 1, wherein: the outer side wall of the base (2) is provided with a sliding groove (204) for the first gripping part (6) to horizontally slide.

8. A slidable electric motor as set forth in claim 5, wherein: and a second spring (7) for reducing vibration of the rotating wheel structure (5) during operation is arranged between the bottom surface of the inner side wall of the first blind hole (4032), the second blind hole (4033), the third blind hole (4042) and the fourth blind hole (4043) and the upper end surface of the first connecting rod (501).

9. A slidable electric motor according to claim 4, wherein: the lower end face of the base (2) is provided with a sixth through hole (205) which is communicated with the first sliding groove (4031) and can be used for the runner structure (5) to stretch out and draw back, and the lower end face of the base (2) is provided with a seventh through hole (206) which is communicated with the second sliding groove (4041) and can be used for the runner structure (5) to stretch out and draw back.

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