CN218935830U - Electromechanical device mounting base - Google Patents

Abstract

The present disclosure relates to an electromechanical device mounting base, comprising: a mounting base; the guardrail is arranged on the mounting seat and comprises a first guard plate and a second guard plate which are fixedly connected, the first guard plate extends along a first direction, the second guard plate extends along a second direction, and the first direction and the second direction are mutually perpendicular; the third guard plate comprises a first plate section and a second plate section which are connected, the first plate section is movably arranged on the mounting seat along the first direction, the second plate section extends along the second direction and is slidingly connected with the first guard plate, and the third guard plate, the first guard plate and the second guard plate jointly form a mounting space; and the first limiting piece is used for limiting the sliding of the third guard plate in the first direction. Through the technical scheme, the electromechanical equipment for the coal mine with various models and sizes can be installed.

Description

Electromechanical device mounting base

Technical Field

The present disclosure relates to the field of equipment installation, and in particular, to an electromechanical equipment installation base.

Background

The electromechanical equipment for the coal mine is a main production tool of the current coal mine enterprises, but the electromechanical equipment needs to be supported by using a mounting base during mounting, and the mounting condition of the electromechanical equipment for the coal mine directly influences the operation scale and the operation effectiveness of the equipment.

In the production operation process of coal mines, the types and the sizes of the used electromechanical equipment are different, and when the installation base in the related technology is used, the installation requirements of the electromechanical equipment with various types and sizes cannot be met, so that the installation base is very inconvenient to use.

Disclosure of Invention

The purpose of this disclosure is to provide an electromechanical device installation base, can install the electromechanical device for the colliery of multiple different models and size.

To achieve the above object, the present disclosure provides an electromechanical device mounting base including: a mounting base; the guardrail is arranged on the mounting seat and comprises a first guard plate and a second guard plate which are fixedly connected, the first guard plate extends along a first direction, the second guard plate extends along a second direction, and the first direction and the second direction are mutually perpendicular; the third guard plate comprises a first plate section and a second plate section which are connected, the first plate section is movably arranged on the mounting seat along the first direction, the second plate section extends along the second direction and is slidingly connected with the first guard plate, and the third guard plate, the first guard plate and the second guard plate jointly form a mounting space; and the first limiting piece is used for limiting the sliding of the third guard plate in the first direction.

Optionally, a first movable groove extending along a first direction is formed in the first guard plate, the second plate section extends into the first movable groove and is slidably matched with the first movable groove along the first direction, and the first limiting piece penetrates through the groove wall of the first movable groove and extends into the first movable groove to be in limiting fit with the second plate section.

Optionally, a first adjusting hole is formed in the first guard plate, the first adjusting hole penetrates through the groove wall of the first movable groove and extends along the first direction, the first limiting piece is a bolt, a first threaded hole is formed in the second plate section, and the first limiting piece penetrates through the first adjusting hole to be in threaded connection with the first threaded hole.

Optionally, the electromechanical device mount pad still includes guide structure, guide structure includes spout and slider, set up on the mount pad along the first direction extends the mounting groove, the spout is followed the first direction extends and form in the lateral wall of mounting groove, first board section with slider fixed connection and pass through slider sliding connection in the spout.

Optionally, the electromechanical device installation base further includes a fourth guard plate, a second limiting part and a third limiting part, a second movable groove extending along a second direction is formed in the second guard plate, a third movable groove extending along the second direction is formed in the second plate section, the fourth guard plate extends along the first direction, two ends of the fourth guard plate are respectively matched with the second movable groove and the third movable groove in a sliding mode, and the second limiting part and the third limiting part respectively penetrate through the groove wall of the second movable groove and the groove wall of the third movable groove and respectively extend into the second movable groove and the third movable groove to be matched with the fourth guard plate in a limiting mode.

Optionally, a second adjusting hole is formed in the second guard plate, the second adjusting hole penetrates through the groove wall of the second movable groove and extends along the second direction, the second limiting piece is a bolt, a second threaded hole is formed in the fourth guard plate, and the second limiting piece penetrates through the second adjusting hole to be in threaded connection with the second threaded hole; and/or be provided with the third regulation hole on the third backplate, the third regulation hole runs through the cell wall of third movable groove and follows the second direction extends, the third locating part is the bolt, the third screw hole has been seted up to the fourth backplate, the third locating part pass the third regulation hole with third screw hole threaded connection.

Optionally, a plurality of sockets are formed in the mounting seat, inserting rods with the same number as the sockets are fixedly connected to the guardrail, and the inserting rods are used for being inserted into the sockets.

Optionally, the mounting seat is provided with a plurality of rollers, and the rotation axis of the rollers is parallel to the first direction.

Optionally, the electromechanical device installation base further includes a guide seat, an upper wall of the guide seat is a guide surface, the installation space includes an installation opening, the installation opening is opposite to the first guard plate, the guide seat is disposed below the installation opening, and the guide surface extends obliquely and is disposed at an included angle with the second direction.

Optionally, the draw-in groove has been seted up to the lateral wall of mount pad, the guide holder lateral wall is provided with the fixture block, the fixture block be used for inserting in the draw-in groove and with the draw-in groove joint.

Through above-mentioned technical scheme, adopt the electromechanical device installation base of this disclosure, when the electromechanical device for the colliery is installed to needs, settle electromechanical device in the installation space that guardrail and third backplate enclose, make electromechanical device support with the inner wall of guardrail earlier, that is the inner wall of first backplate and second backplate tightly, then slide the third backplate, support the third backplate tightly with electromechanical device, after the position adjustment of third backplate finishes, carry out spacingly through first locating part to the third backplate, avoid the third backplate to slide, with this limits electromechanical device's activity through guardrail and third backplate, make electromechanical device stable lay in the installation space. The effect that the size was adapted can be played to the third backplate that slides and set up in this disclosure, according to electromechanical device's model and size during the installation, adjusts the position of third backplate for the distance between second backplate and the third backplate can adapt to different electromechanical device's actual size, makes the electromechanical device installation base of this disclosure can install the electromechanical device for the colliery of multiple different models and sizes.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification, illustrate the disclosure and together with the description serve to explain, but do not limit the disclosure. In the drawings:

FIG. 1 is a schematic overall construction of an embodiment of the present disclosure;

fig. 2 is an enlarged view at a in fig. 1.

Description of the reference numerals

1-a mounting base; 11-mounting slots; 111-a chute; 12-socket; 13-a roller; 14-clamping grooves; 2-a first guard plate; 21-a first movable trough; 22-a first adjustment aperture; 23-inserting a rod; 3-a second guard plate; 31-a second movable groove; 32-a second adjustment aperture; 4-a third guard plate; 41-a first plate section; 42-a second plate segment; 43-supporting rods; 431-slide block; 44-a third movable trough; 45-a third adjustment aperture; 5-installation space; 51-mounting port; 6-a first limiting piece; 7-a fourth guard plate; 8-a second limiting piece; 9-a third limiting piece; 10-a guide seat; 101-guiding surfaces; 102-clamping blocks.

Detailed Description

Specific embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the disclosure, are not intended to limit the disclosure.

In the present disclosure, unless otherwise stated, terms of orientation such as "upper and lower" are generally used to refer to "upper and lower" of the corresponding component relative to each other in the direction of gravity in the use state, respectively corresponding to the upper and lower orientations in fig. 2, "inner and outer" are "inner and outer" with respect to the outline of the corresponding component itself, and "far and near" are "far and near" with respect to the reference substance. Furthermore, terms such as "first," "second," "third," "fourth," and the like, as used in this disclosure, are used for distinguishing one element from another and not for sequential or importance. In the following description, when referring to the drawings, the same reference numerals in different drawings denote the same or similar elements unless otherwise explained. The foregoing definitions are provided for the purpose of illustrating and explaining the present disclosure and should not be construed as limiting the present disclosure.

According to a specific embodiment of the present disclosure, referring to the mount 1 shown in fig. 1 and 2; the guardrail is arranged on the mounting seat 1 and comprises a first guard plate 2 and a second guard plate 3 which are fixedly connected, the first guard plate 2 extends along a first direction, the second guard plate 3 extends along a second direction, and the first direction is mutually perpendicular to the second direction; the third guard board 4, the third guard board 4 includes the first plate section 41 and the second plate section 42 connected, the first plate section 41 is mounted on the mounting base 1 along the first direction in a movable manner, the second plate section 42 extends along the second direction and is connected with the first guard board 2 in a sliding manner, the third guard board 4, the first guard board 2 and the second guard board 3 together enclose the mounting space 5; and a first stopper 6, the first stopper 6 being for restricting sliding of the third guard plate 4 in the first direction.

Through above-mentioned technical scheme, adopt the electromechanical device installation base of this disclosure, when the electromechanical device for the colliery is installed to needs, settle electromechanical device in the installation space 5 that guardrail and third backplate 4 enclose, make electromechanical device support with the inner wall of guardrail earlier, namely the inner wall of first backplate 2 and second backplate 3 tightly, then slide third backplate 4, support third backplate 4 tightly with electromechanical device, after the position adjustment of third backplate 4 finishes, spacing through first locating part 6 to third backplate 4, avoid third backplate 4 to slide, restrict electromechanical device's activity through guardrail and third backplate 4 with this, make electromechanical device stable lay in installation space 5. The third backplate 4 that slides and set up in this disclosure can play the effect of size adaptation, adjusts the position of third backplate 4 according to electromechanical device's model and size during the installation for the distance between second backplate 3 and the third backplate 4 can adapt to the size of different electromechanical device, makes the electromechanical device installation base of this disclosure can install the colliery electromechanical device of multiple different models and sizes.

Wherein, referring to fig. 1 and 2, the mount pad 1 is a square metal base, the guardrail and the third guard board 4 are arranged above the mount pad 1, the first guard board 2 and the second guard board 3 are long rectangular plates, and one end of the first guard board 2 is integrally connected with one end of the second guard board 3, so that the guardrail is in an L-shaped structure. The third guard plate 4 is located opposite to the second guard plate 3, the first plate section 41 and the second plate section 42 each extend in the second direction, and the first plate section 41 is narrower than the second plate section 42 in the vertical direction.

In other embodiments, the second plate segment 42 may be slidably coupled to the first plate 2 via a dovetail block dovetail slot. In the specific embodiment provided in the present disclosure, referring to fig. 1 and 2, the first guard plate 2 is provided with a first movable groove 21 extending along a first direction, the second plate segment 42 extends into the first movable groove 21 and is slidably fitted in the first movable groove 21 along the first direction, and the first limiting member 6 penetrates through a groove wall of the first movable groove 21 and extends into the first movable groove 21 to be in limiting fit with the second plate segment 42.

By the above design, when the third guard plate 4 slides on the mounting seat 1, the second plate section 42 slides in the first movable groove 21, so that the movement of the third guard plate 4 is not affected. Referring to fig. 1 and 2, the first movable groove 21 is a rectangular groove and is formed at one end of the first guard plate 2 away from the second guard plate 3, the first movable groove 21 opens the end of the first guard plate 2 away from the second guard plate 3, and the first movable groove 21 penetrates through two sides of the first guard plate 2 in the second direction. The second plate section 42 extends into the first movable slot 21 and slides in the first direction within the first movable slot 21.

In the specific embodiment provided in the present disclosure, referring to fig. 1 and 2, the first guard plate 2 is provided with a first adjustment hole 22, the first adjustment hole 22 penetrates through a groove wall of the first movable groove 21 and extends along the first direction, the first limiting member 6 is a bolt, the second plate section 42 is provided with a first threaded hole, and the first limiting member 6 penetrates through the first adjustment hole 22 to be in threaded connection with the first threaded hole. Through the design mode, the first limiting piece 6 penetrates through the first adjusting hole 22 and is in threaded connection with the first threaded hole, and after the first limiting piece 6 is screwed, the first limiting piece is abutted against the top wall of the first guard plate 2, so that the movement of the third guard plate 4 is limited. The first adjusting hole 22 is formed in the top wall of the first guard plate 2 and is communicated with the first movable groove 21, and the stud portion of the first limiting member 6 extends into the first movable groove 21 through the first adjusting hole 22, but the nut end of the first limiting member 6 is located above the first adjusting hole 22 and is used for abutting against the top wall of the first guard plate 2.

In other embodiments, the first adjusting hole 22 may not be formed in advance, the third guard plate 4 is slid as required, after the position of the third guard plate 4 is determined, a through hole is formed in the first guard plate 2 according to the position of the third guard plate 4, so that the first limiting member 6 passes through the through hole and stretches into the first movable slot 21, at this time, the first limiting member 6 may be a pin shaft, the second plate section 42 is provided with a pin hole, the first limiting member 6 passes through the through hole and inserts into the pin hole, so that the positioning of the third guard plate 4 can be realized, when electromechanical devices with other sizes are installed, the third guard plate 4 is moved again, and then the through hole is opened again according to the new position of the third guard plate 4. The movement of the third guard plate 4 in the present disclosure may realize adaptation to installation of the electromechanical device, and as for limiting, a suitable limiting structure may be selected according to specific situations, which is not limited in the present disclosure.

In order to facilitate the sliding of the third guard plate 4, in the specific embodiment provided in the present disclosure, referring to fig. 1 and 2, the electromechanical device mounting seat 1 further includes a guide structure including a sliding groove 111 and a sliding block 431, the mounting seat 1 is provided with a mounting groove 11 extending along a first direction, the sliding groove 111 extends along the first direction and is formed on a side wall of the mounting groove 11, and the first plate section 41 is fixedly connected with the sliding block 431 and is slidably connected to the sliding groove 111 through the sliding block 431.

Referring to fig. 1 and 2, three mounting grooves 11 are formed, the three mounting grooves 11 are distributed at intervals along the second direction, a sliding groove 111 is formed in each side wall of two sides of each mounting groove 11, three supporting rods 43 arranged along the vertical direction are fixedly welded on the third guard plate 4, a sliding block 431 is fixedly welded at the bottom of each supporting rod 43, the sliding blocks 431 are located in the mounting grooves 11, two ends of each sliding block 431 extend into one sliding groove 111, and sliding of the sliding blocks 431 in the sliding grooves 111 realizes sliding of the third guard plate 4 on the mounting seat 1.

In the specific embodiment provided in the disclosure, referring to fig. 1, the electromechanical device mounting base further includes a fourth protection plate 7, a second limiting member 8 and a third limiting member 9, a second movable groove 31 extending along a second direction is formed on the second protection plate 3, a third movable groove 44 extending along the second direction is formed on the second plate section 42, the fourth protection plate 7 extends along the first direction, two ends of the fourth protection plate 7 are respectively slidably matched in the second movable groove 31 and the third movable groove 44, and the second limiting member 8 and the third limiting member 9 respectively penetrate through the groove wall of the second movable groove 31 and the groove wall of the third movable groove 44 and respectively extend into the second movable groove 31 and the third movable groove 44 to be in limiting fit with the fourth protection plate 7.

Through the design mode, after the electromechanical device enters the installation space 5, the fourth guard plate 7 moves towards one side close to the electromechanical device, so that the fourth guard plate 7 is tightly propped against the electromechanical device, and then the fourth guard plate 7 is limited through the first limiting piece 6 and the second limiting piece 8, so that the fourth guard plate 7 is prevented from moving again after position adjustment is completed. The present disclosure provides a fourth guard 7, limiting the position of the electromechanical device in conjunction with the guard rail and the third guard 4, reducing the likelihood that the electromechanical device will move out of the installation space 5, making the placement of the electromechanical device more stable.

Referring to fig. 1, the second movable slot 31 is formed at an end of the second guard plate 3 away from the first guard plate 2, the second movable slot 31 opens an end of the second guard plate 3 away from the first guard plate 2, the third movable slot 44 is formed at an end of the third guard plate 4 away from the first guard plate 2, and opens an end of the third guard plate 4 away from the first guard plate 2. The second movable groove 31 and the third movable groove 44 are rectangular grooves, the fourth guard plate 7 is a rectangular plate, the positions of the fourth guard plate 7 and the first guard plate 2 are opposite, one end of the fourth guard plate 7 slides in the second movable groove 31, and the other end slides in the third movable groove 44.

In order to facilitate adjustment and limit sliding of the fourth guard 7 in the second movable groove 31, in the specific embodiment provided in the present disclosure, referring to fig. 1, a second adjustment hole 32 is provided on the second guard 3, the second adjustment hole 32 penetrates through a groove wall of the second movable groove 31 and extends along the second direction, the second limiting member 8 is a bolt, the fourth guard 7 is provided with a second threaded hole, and the second limiting member 8 penetrates through the second adjustment hole 32 to be in threaded connection with the second threaded hole. Through the design mode, the second limiting piece 8 penetrates through the second adjusting hole 32 and is in threaded connection with the second threaded hole, and the second limiting piece 8 abuts against the top wall of the second guard plate 3 after being screwed, so that the movement of the fourth guard plate 7 in the second movable groove 31 is limited. The second adjusting hole 32 is formed in the top wall of the second guard plate 3 and is communicated with the second movable groove 31, and the stud of the second limiting member 8 extends into the second movable groove 31 through the second adjusting hole 32, but the nut end of the second limiting member 8 is located above the second adjusting hole 32 and is used for abutting against the top wall of the second guard plate 3.

In order to facilitate adjustment and limit sliding of the fourth guard 7 in the third movable groove 44, in the embodiment provided in the present disclosure, referring to fig. 1, a third adjustment hole 45 is provided on the third guard 4, the third adjustment hole 45 penetrates through a groove wall of the third movable groove 44 and extends in the second direction, the third limiting member 9 is a bolt, a third threaded hole is provided in the fourth guard 7, and the third limiting member 9 penetrates through the third adjustment hole 45 to be in threaded connection with the third threaded hole. Through the design mode, the third limiting piece 9 penetrates through the third adjusting hole 45 and is in threaded connection with the third threaded hole, and the third limiting piece 9 abuts against the top wall of the third guard plate 4 after being screwed, so that the movement of the fourth guard plate 7 in the third movable groove 44 is limited. The third adjusting hole 45 is formed in the top wall of the third guard plate 4 and is communicated with the third movable groove 44, and the stud of the third limiting member 9 extends into the third movable groove 44 through the third adjusting hole 45, but the nut end of the third limiting member 9 is located above the third adjusting hole 45 and is used for abutting against the top wall of the third guard plate 4.

In other embodiments, the second adjusting hole 32 and the third adjusting hole 45 may not be formed in advance, the fourth guard plate 7 may be slid as required, after the position of the fourth guard plate 7 is determined, through holes are formed in the second guard plate 3 and the third guard plate 4 according to the position of the fourth guard plate 7, so that the second limiting member 8 and the third limiting member 9 may respectively penetrate through the through holes to extend into the second movable groove 31 and the third movable groove 44, at this time, the second limiting member 8 and the third limiting member 9 may be pins, pin holes are formed at two ends of the fourth guard plate 7, the second limiting member 8 and the third limiting member 9 penetrate through the through holes to be inserted into the pin holes, so that the fourth guard plate 7 may be positioned, when electromechanical devices with other sizes are installed, the fourth guard plate 7 may be slid again, and then the through holes may be formed again according to the new positions of the fourth guard plate 7.

In the specific embodiment provided in the disclosure, referring to fig. 1 and 2, a plurality of sockets 12 are formed on the mounting base 1, and the guard rail is fixedly connected with the same number of inserting rods 23 as the number of the sockets 12, where the inserting rods 23 are used for being inserted into the sockets 12. Through above-mentioned design, can be convenient for pass in and out the dismouting to the guardrail. Wherein, a plurality of sockets 12 have been seted up, and a plurality of sockets 12 are whole to be L type distribution, and inserted bar 23 extends along vertical mode, and inserted bar 23 one end welded fastening is on the guardrail, and the other end inserts in the socket 12.

In the embodiment provided in the present disclosure, referring to fig. 1, the mount 1 is mounted with a plurality of rollers 13, and the rotation axis of the rollers 13 is parallel to the first direction. Through the design mode, when the electromechanical device needs to be pushed onto the mounting seat 1, the roller 13 can reduce friction force, so that the electromechanical device can be pushed onto the mounting seat 1 smoothly. The roller 13 is disposed on the top wall of the mounting seat 1 through a rotation shaft, and a plurality of rollers 13 may be disposed.

In order to facilitate moving the electromechanical device onto the mounting base 1, in the specific embodiment provided in the present disclosure, referring to fig. 1, the electromechanical device mounting base may further include a guide base 10, an upper wall of the guide base 10 is a guide surface 101, the mounting space 5 includes a mounting opening 51, the mounting opening 51 is disposed opposite to the first protection plate 2, the guide base 10 is disposed below the mounting opening 51, and the guide surface 101 extends obliquely and is disposed at an angle with respect to the second direction. In the above design, when the electromechanical device needs to be moved onto the mounting seat 1, the electromechanical device is pushed onto the guide seat 10, and then guided to the mounting opening 51 through the guide surface 101, and then enters the mounting space 5.

Wherein, referring to fig. 1, the fourth guard 7 is installed at the position of the mounting opening 51, and when the electromechanical device needs to be pushed up to the mounting seat 1, the fourth guard 7 is detached first. The guide surface 101 is provided obliquely upward in a direction approaching the installation space 5, and one end of the guide surface 101 approaching the installation seat 1 is higher than one end away from the installation seat 1, and one end of the guide surface 101 approaching the installation seat 1 is flush with the top wall of the installation seat 1.

In the specific embodiment provided in the disclosure, referring to fig. 1, a clamping groove 14 is formed on a side wall of the mounting seat 1, a clamping block 102 is disposed on a side wall of the guiding seat 10, and the clamping block 102 is used for being inserted into the clamping groove 14 and clamped with the clamping groove 14. Through the design mode, the clamping block 102 is clamped in the clamping groove 14, and the possibility of separation of the guide seat 10 and the mounting seat 1 is reduced through the friction force between the clamping block 102 and the inner wall of the clamping groove 14. Wherein, draw-in groove 14 is the rectangle groove and offer on the lateral wall that mount pad 1 is close to guide seat 10, and fixture block 102 welding is on the lateral wall that guide seat 10 is close to mount pad 1, and when fixture block 102 card in draw-in groove 14, fixture block 102 and draw-in groove 14 inner wall contact form frictional force between the two to restriction guide seat 10 separates, and the later stage only need take away guide seat 10 through the manpower.

The specific implementation principle of the embodiment of the disclosure is that when the electromechanical device needs to be installed on the installation seat 1, the guide seat 10 and the installation seat 1 are assembled together, then the fourth guard plate 7 is taken away, the electromechanical device is pushed into the installation space 5 on the installation seat 1 from the guide seat 10, and after the standby electricity is set and placed, the guide seat 10 is taken away. And then sliding the third guard plate 4 to enable the third guard plate 4 to be abutted against the electromechanical equipment, installing the fourth guard plate 7, sliding the fourth guard plate 7 until being abutted against the electromechanical equipment, limiting the position of the third guard plate 4 through the first limiting piece 6, and limiting and fixing the position of the fourth guard plate 7 through the second limiting piece 8 and the third limiting piece 9, so that the electromechanical equipment is limited. The size of the installation space 5 can adapt to the actual sizes of different electromechanical devices through the sliding third guard plate 4 and the sliding fourth guard plate 7, so that the electromechanical device installation base can be used for installing the electromechanical devices for coal mines with various different models and sizes.

The preferred embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, but the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solutions of the present disclosure within the scope of the technical concept of the present disclosure, and all the simple modifications belong to the protection scope of the present disclosure.

In addition, the specific features described in the foregoing embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, the present disclosure does not further describe various possible combinations.

Moreover, any combination between the various embodiments of the present disclosure is possible as long as it does not depart from the spirit of the present disclosure, which should also be construed as the disclosure of the present disclosure.

Claims (10)

1. An electromechanical device mounting base, comprising:

a mounting base;

the guardrail is arranged on the mounting seat and comprises a first guard plate and a second guard plate which are fixedly connected, the first guard plate extends along a first direction, the second guard plate extends along a second direction, and the first direction and the second direction are mutually perpendicular;

the third guard plate comprises a first plate section and a second plate section which are connected, the first plate section is movably arranged on the mounting seat along the first direction, the second plate section extends along the second direction and is slidingly connected with the first guard plate, and the third guard plate, the first guard plate and the second guard plate jointly form a mounting space; and

and the first limiting piece is used for limiting the third guard plate to slide in the first direction.

2. The electromechanical device mounting base of claim 1, wherein the first guard plate is provided with a first movable slot extending in a first direction, the second plate segment extends into the first movable slot and is slidably engaged in the first movable slot in the first direction, and the first limiting member extends through a slot wall of the first movable slot and into the first movable slot to be in limiting engagement with the second plate segment.

3. The electromechanical device mounting base of claim 2, wherein the first guard plate is provided with a first adjustment hole that penetrates a groove wall of the first movable groove and extends in the first direction, the first stopper is a bolt, the second plate section is provided with a first threaded hole, and the first stopper passes through the first adjustment hole to be in threaded connection with the first threaded hole.

4. The electromechanical device mounting base of claim 1, further comprising a guide structure including a chute and a slider, the mounting base having a mounting slot extending in the first direction, the chute extending in the first direction and being formed in a sidewall of the mounting slot, the first plate segment being fixedly connected to the slider and slidably connected to the chute by the slider.

5. The base of any one of claims 1-4, further comprising a fourth guard plate, a second limiting member and a third limiting member, wherein a second movable groove extending along a second direction is formed in the second guard plate, a third movable groove extending along the second direction is formed in the second plate section, the fourth guard plate extends along the first direction, two ends of the fourth guard plate are respectively slidably matched in the second movable groove and the third movable groove, and the second limiting member and the third limiting member respectively penetrate through a groove wall of the second movable groove and a groove wall of the third movable groove and respectively extend into the second movable groove and the third movable groove to be in limiting fit with the fourth guard plate.

6. The electromechanical device mounting base of claim 5, wherein a second adjustment hole is provided in the second guard plate, the second adjustment hole penetrates through a groove wall of the second movable groove and extends in the second direction, the second limiting member is a bolt, a second threaded hole is provided in the fourth guard plate, and the second limiting member penetrates through the second adjustment hole to be in threaded connection with the second threaded hole; and/or the number of the groups of groups,

the third guard plate is provided with a third adjusting hole, the third adjusting hole penetrates through the wall of the third movable groove and extends along the second direction, the third limiting piece is a bolt, the fourth guard plate is provided with a third threaded hole, and the third limiting piece penetrates through the third adjusting hole to be in threaded connection with the third threaded hole.

7. The electromechanical device mounting base of claim 1, wherein a plurality of sockets are formed in the mounting base, and a plurality of inserting rods with the same number as the sockets are fixedly connected to the guard rail and are used for being inserted into the sockets.

8. The electromechanical device mounting base of claim 1, wherein the mounting base mounts a plurality of rollers, and wherein axes of rotation of the rollers are parallel to the first direction.

9. The electromechanical device mounting base of claim 1, further comprising a guide seat having an upper wall that is a guide surface, the mounting space comprising a mounting opening disposed opposite the first guard, the guide seat disposed below the mounting opening, and the guide surface extending obliquely and disposed at an angle to the second direction.

10. The electromechanical device mounting base of claim 9, wherein the side wall of the mounting base is provided with a clamping groove, and the side wall of the guiding base is provided with a clamping block, and the clamping block is used for being inserted into the clamping groove and clamped with the clamping groove.

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