CN211780002U - Electromechanical mounting structure based on BIM - Google Patents

Abstract

The utility model discloses a BIM-based electromechanical mounting structure, which comprises a bottom plate and a vertical plate, wherein impact plates are arranged around the bottom plate and comprise an impact inner plate and an impact outer plate, the width of the impact inner plate is larger than that of the impact outer plate, so that bolts can be conveniently mounted on the impact inner plate, and the impact inner plate is fixedly connected with the side wall of the bottom plate; four groups of conveying wheel structures are arranged at four corners of the bottom plate, each conveying wheel structure comprises a wheel carrier, a wheel hub and a wheel shaft, vertical plates are arranged on two sides of the top of the bottom plate and fixedly connected with the bottom plate, and movable grooves are formed in the inner side surfaces of the vertical plates; the utility model discloses a first splint and second splint accomplish the clamping process to putting the electromechanical device in the bottom plate top, remove installation department through the bottom plate with this device, and the device can adjust according to electromechanical device's specification model when using, and equipment can not drop from the bottom plate, avoids bringing the trouble for the staff.

Description

Electromechanical mounting structure based on BIM

Technical Field

The utility model relates to an electromechanical installation field specifically is an electromechanical mounting structure based on BIM.

Background

The core of BIM is to provide a complete building engineering information base consistent with the actual situation for a virtual building engineering three-dimensional model by establishing the model and utilizing the digital technology. The information base not only contains geometrical information, professional attributes and state information describing building components, but also contains state information of non-component objects (such as space and motion behaviors). By means of the three-dimensional model containing the construction engineering information, the information integration degree of the construction engineering is greatly improved, and therefore a platform for engineering information exchange and sharing is provided for related interest parties of the construction engineering project.

When some small and medium-sized electromechanical equipment is installed, if the small and medium-sized electromechanical equipment is directly installed on the ground, the equipment is easily damaged, so that the safe and stable operation of the electromechanical equipment is not facilitated, and therefore common workers use the installation frame to move the equipment to be installed; but the existing mounting frame can not be adjusted according to the specification and model of electromechanical equipment when in use, equipment often falls off from the mounting frame, troubles are brought to workers, physical labor of users is increased, and the mounting is not facilitated.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electromechanical mounting structure based on BIM to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a BIM-based electromechanical mounting structure comprises a bottom plate and a vertical plate, wherein impact plates are arranged on the periphery of the bottom plate and comprise an impact inner plate and an impact outer plate, the width of the impact inner plate is larger than that of the impact outer plate, so that bolts can be conveniently mounted on the impact inner plate, and the impact inner plate is fixedly connected with the side wall of the bottom plate; four groups of conveying wheel structures are arranged at four corners of the bottom plate, each conveying wheel structure comprises a wheel carrier, a wheel hub and a wheel shaft, vertical plates are arranged on two sides of the top of the bottom plate and fixedly connected with the bottom plate, and movable grooves are formed in the inner side surfaces of the vertical plates; the movable groove internal rotation is provided with trapezoidal lead screw, the both ends of trapezoidal lead screw are all rotated with the front and back both ends in movable groove through the second bearing and are connected, riser and fixedly connected with hand wheel are worn out to wherein one end of trapezoidal lead screw, trapezoidal lead screw includes first spiral portion and second spiral portion, the direction of turning of first spiral portion and second spiral portion is opposite, threaded connection has first screw-nut on the first spiral portion, threaded connection has second screw-nut on the second spiral portion, first screw-nut fixed mounting is on first splint, second screw-nut fixed mounting is on the second splint, first splint and second splint set up relatively.

Furthermore, it is equipped with anti-impact structure to strike between the inner panel and the impact planking, and anti-impact structure is a plurality of side's pipes, leaves the space between the adjacent side's pipe, and the R angle of two symmetries of side's pipe respectively with strike inner panel and impact planking welded fastening and be connected, it has elastic rubber to strike to fill between inner panel and the impact planking.

Furthermore, the two wheel carriers are arranged in a V shape, a wheel shaft is arranged between the two wheel carriers, two ends of the wheel shaft are fixedly connected with the wheel carriers through screws, a positioning shaft shoulder is arranged at one end of the wheel shaft, a first bearing is fixedly sleeved on the wheel shaft, one side of an inner ring of the first bearing is abutted against the shaft shoulder, the other side of the inner ring of the first bearing is abutted against one side of the shaft sleeve, and the other side of the shaft sleeve is abutted against the inner side of the wheel carrier; wherein, the first bearing is fixedly sleeved with a wheel hub.

Further, the first bearing is a stainless steel waterproof bearing.

Furthermore, a plurality of first fixing holes are formed in the wheel hub in an annular array, and a plurality of second fixing holes are correspondingly formed in the wheel carrier.

Furthermore, fixing rods are arranged in the first fixing holes and the second fixing holes.

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

the impact plate in the utility model effectively enables the impact plate to replace the bottom plate to bear impact when the bottom plate is pushed or installed, and meanwhile, if the impact plate is fixed on the bottom plate through bolts, the impact plate is convenient to replace; the elastic rubber can absorb the vibration generated during impact, and meanwhile, if the impact is too large due to improper operation of workers, the impact force can be absorbed and moderated through the deformation of the square tube or the impact outer plate, the integrity of the bottom plate is kept, and then the bottom plate can be put into use again only by replacing the impact plate;

the scheme adopts the relatively independent conveying wheel structures, firstly, the independent operation of the conveying wheel structures is not interfered mutually, and secondly, if one conveying wheel structure is damaged, only one conveying wheel structure needs to be replaced; simultaneously because the required weight of bearing of this scheme is great, adopt the fracture that causes the shaft easily of traditional unipolar double round structure.

The lead screw nut and the trapezoidal lead screw transmission in the scheme are equivalent to spiral transmission, the transmission is stable, the noise is very small, and the lead screw nut and the trapezoidal lead screw transmission have self-locking performance simultaneously.

When the staff moves the equipment to the place that needs to use through the bottom plate, put the electromechanical device that needs the installation on the bottom plate, rotate the hand wheel, drive trapezoidal lead screw and rotate, because trapezoidal lead screw is the design of opposite double helix portion, first splint and second splint move in opposite directions, accomplish the clamping process to the electromechanical device of putting in the bottom plate top, move this device to installation department through the bottom plate, the device can adjust according to electromechanical device's specification model when using, equipment can not drop from the bottom plate, avoid bringing the trouble for the staff.

Drawings

Fig. 1 is a schematic structural diagram of a BIM-based electromechanical mounting structure.

FIG. 2 is a side view of a BIM-based electromechanical mounting structure.

FIG. 3 is a side view of an impingement plate in a BIM-based electromechanical mounting structure.

FIG. 4 is a schematic diagram of a strike plate in a BIM-based electromechanical mounting arrangement.

Fig. 5 is a schematic structural diagram of a conveying wheel structure in a BIM-based electromechanical mounting structure.

Fig. 6 is a schematic diagram of a handwheel in a BIM-based electromechanical mounting structure.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Referring to fig. 1-6, a BIM-based electromechanical mounting structure includes a base plate 100 and a vertical plate 400,

the periphery of the bottom plate 100 is provided with impact plates 200, each impact plate 200 comprises an impact inner plate 201 and an impact outer plate 202, the width of each impact inner plate 201 is larger than that of each impact outer plate 202, bolts are conveniently mounted on the impact inner plates 201, the impact inner plates 201 are fixedly connected with the side walls of the bottom plate 100 through bolts or welding, an impact resistant structure 203 is arranged between each impact inner plate 201 and each impact outer plate 202, each impact resistant structure 203 is a plurality of square tubes 205, gaps are reserved between every two adjacent square tubes 205, two symmetrical R corners of each square tube 205 are fixedly connected with the corresponding impact inner plate 201 and the corresponding impact outer plate 202 in a welding mode respectively, and elastic rubber 204 is filled between each impact inner plate 201 and the corresponding impact outer;

the impact plate 200 in the utility model effectively enables the impact plate 200 to replace the bottom plate 100 to bear impact when the bottom plate 100 is pushed or installed, and meanwhile, if the impact plate 200 is fixed on the bottom plate 100 through bolts, the impact plate is convenient to replace; the elastic rubber 204 can absorb the shock generated during impact, and meanwhile, if the impact is too large due to improper operation of workers, the impact force can be absorbed and moderated through the deformation of the square tube or the impact outer plate, the integrity of the bottom plate 100 is kept, and then the bottom plate 100 can be put into use again only by replacing the impact plate 200;

four groups of conveying wheel structures 300 are arranged at four corners of the bottom plate 100, each conveying wheel structure 300 comprises a wheel frame 301, a wheel hub 302 and a wheel shaft 304,

the two wheel frames 301 are V-shaped, a wheel shaft 304 is arranged between the two wheel frames 301, two ends of the wheel shaft 304 are fixedly connected with the wheel frames 301 through screws, a positioning shaft shoulder 305 is arranged at one end of the wheel shaft 304, a first bearing 306 is fixedly sleeved on the wheel shaft 304, one side of an inner ring of the first bearing 306 is abutted with the shaft shoulder 305, the other side of the inner ring of the first bearing 306 is abutted with one side of a shaft sleeve 303, and the other side of the shaft sleeve 303 is abutted with the inner side of the wheel frames 301; wherein, the first bearing 306 is fixedly sleeved with a hub 302, the hub 302 is provided with a plurality of first fixing holes 307 in an annular array, the wheel frame 301 is also correspondingly provided with a plurality of second fixing holes 308, and after the electromechanical device is conveyed in place, the fixing rod 309 is inserted into the first fixing holes 307 and the second fixing holes 308 to complete the fixation;

the first bearing 306 is a stainless steel waterproof bearing, so that the corrosion of acidic or alkaline liquid to the inside of the first bearing 306 in the transportation process can be reduced;

in the scheme, the conveying wheel structures 300 which are relatively independently arranged are adopted, firstly, the independent operation of the conveying wheel structures 300 is not interfered with each other, secondly, if one conveying wheel structure 300 is damaged, only one conveying wheel structure needs to be replaced; simultaneously because the required weight of bearing of this scheme is great, adopt the fracture that causes the shaft easily of traditional unipolar double round structure.

Vertical plates 400 are arranged on two sides of the top of the bottom plate 100, the vertical plates 400 are fixedly connected with the bottom plate 100, and movable grooves 401 are formed in the inner side faces of the vertical plates 400;

the trapezoidal screw rod 500 is rotatably arranged in the movable groove 401, two ends of the trapezoidal screw rod 500 are rotatably connected with the front end and the rear end of the movable groove 401 through second bearings 501, one end of the trapezoidal screw rod 500 penetrates through the vertical plate 400 and is fixedly connected with a hand wheel 502, the trapezoidal screw rod 500 comprises a first spiral part 510 and a second spiral part 520, the rotating directions of the first spiral part 510 and the second spiral part 520 are opposite, a first screw nut 511 is connected with the first spiral part 510 in a threaded manner, a second screw nut 521 is connected with the second spiral part 520 in a threaded manner, the first screw nut 511 is fixedly arranged on a first clamping plate 512, the second screw nut 521 is fixedly arranged on a second clamping plate 522, and the first clamping plate 512 and the second clamping plate 522 are oppositely arranged,

the lead screw nut and the trapezoidal lead screw transmission in the scheme are equivalent to spiral transmission, the transmission is stable, the noise is very small, and the lead screw nut and the trapezoidal lead screw transmission have self-locking performance simultaneously.

When the staff moves the equipment to the place that needs to use through the bottom plate 100, the electromechanical device that will need to install is placed on the bottom plate 100, the hand wheel is rotated, the trapezoidal lead screw is driven to rotate, because the trapezoidal lead screw is the design of opposite double helix portion, first splint 512 and second splint 522 move in opposite directions, accomplish the clamping process to the electromechanical device of putting in the bottom plate 100 top, move this device to the installation department through the bottom plate 100, the device can adjust according to electromechanical device's specification model when using, equipment can not drop from the bottom plate 100, avoid bringing the trouble for the staff.

It should be noted that the fixing manner in the present embodiment includes, but is not limited to, the existing fixing manner by bolts, welding, etc. that can be applied to the present embodiment.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (6)

1. A BIM-based electromechanical mounting structure comprises a bottom plate and a vertical plate, and is characterized in that impact plates are arranged on the periphery of the bottom plate and comprise an impact inner plate and an impact outer plate, wherein the width of the impact inner plate is larger than that of the impact outer plate, so that bolts can be conveniently mounted on the impact inner plate, and the impact inner plate is fixedly connected with the side wall of the bottom plate; four groups of conveying wheel structures are arranged at four corners of the bottom plate, each conveying wheel structure comprises a wheel carrier, a wheel hub and a wheel shaft, vertical plates are arranged on two sides of the top of the bottom plate and fixedly connected with the bottom plate, and movable grooves are formed in the inner side surfaces of the vertical plates; the movable groove internal rotation is provided with trapezoidal lead screw, the both ends of trapezoidal lead screw are all rotated with the front and back both ends in movable groove through the second bearing and are connected, riser and fixedly connected with hand wheel are worn out to wherein one end of trapezoidal lead screw, trapezoidal lead screw includes first spiral portion and second spiral portion, the direction of turning of first spiral portion and second spiral portion is opposite, threaded connection has first screw-nut on the first spiral portion, threaded connection has second screw-nut on the second spiral portion, first screw-nut fixed mounting is on first splint, second screw-nut fixed mounting is on the second splint, first splint and second splint set up relatively.

2. The BIM-based electromechanical mounting structure of claim 1, wherein an impact resistant structure is arranged between the impact inner plate and the impact outer plate, the impact resistant structure is a plurality of square tubes, a gap is reserved between adjacent square tubes, two symmetrical R corners of the square tubes are respectively fixedly connected with the impact inner plate and the impact outer plate in a welding manner, and elastic rubber is filled between the impact inner plate and the impact outer plate.

3. The BIM-based electromechanical mounting structure of claim 1, wherein the wheel frame is V-shaped and has two wheels, a wheel shaft is disposed between the two wheel frames, and two ends of the wheel shaft are fixedly connected with the wheel frames through screws, wherein one end of the wheel shaft is provided with a positioning shoulder, a first bearing is fixedly sleeved on the wheel shaft, one side of an inner ring of the first bearing abuts against the shoulder, the other side of the inner ring of the first bearing abuts against one side of a shaft sleeve, and the other side of the shaft sleeve abuts against the inner side of the wheel frame; wherein, the first bearing is fixedly sleeved with a wheel hub.

4. The BIM-based electromechanical mounting structure of claim 3, wherein the first bearing is a stainless steel waterproof bearing.

5. The BIM-based electromechanical mounting structure of claim 1, wherein the hub is provided with a plurality of first fixing holes in an annular array, and the wheel carrier is correspondingly provided with a plurality of second fixing holes.

6. The BIM-based electromechanical mounting structure of claim 5, wherein said first and second fixing holes have fixing rods therein.

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