CN215000574U - Hardcover job site projection laying-out equipment based on BIM - Google Patents

Abstract

The utility model discloses a BIM-based projection lofting device for hardbound construction sites, which comprises a linking frame and a lifting mechanism, wherein a radioactive instrument is arranged above the linking frame, a pedestal is arranged above the radioactive instrument, the lifting mechanism is arranged above the pedestal, a beam is arranged above the lifting mechanism, a sliding groove is arranged inside the beam, a clamping block is arranged inside the sliding groove, a display board is arranged above the clamping block, the pedestal is arranged on the BIM-based projection lofting device for hardbound construction sites, the flexibility of the device is greatly improved, the position of the lifting mechanism can be adjusted at will when a user uses the device, as the lifting mechanism is in embedded connection with a cavity through a ball head, the lifting mechanism of the device can be adjusted in a universal movement way with the pedestal, and when the universal adjustment is carried out, the first spring can control the clamping pin to carry out the ball head, therefore, the ball head of the device can be more stable during adjustment.

Description

Hardcover job site projection laying-out equipment based on BIM

Technical Field

The utility model relates to a BIM hardcover technical field specifically is a hardcover job site projection laying-out equipment based on BIM.

Background

BIM is a building or building engineering information model which is composed of sufficient information to support new product development management and can be directly interpreted by a computer application program, namely life cycle management of a building environment supported by a digital technology, the use market usage amount of BIM is increasing in the current civil engineering and furniture hardwares, but in the BIM hardwares, projection lofting equipment is required to be used for display.

The BIM hardcover job site projection lofting equipment on the existing market exists in the working use, the device is strong in functionalization, can not carry out lifting movement to the radiation instrument, and the device is not strong in practicability, can not carry out diversified regulation to the radiation instrument, and the device is inconvenient to carry out the problem of collecting record to projection data simultaneously, and therefore we provide a hardcover job site projection lofting equipment based on BIM.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hardbound job site projection laying-out equipment based on BIM to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a hardbound job site projection laying-out equipment based on BIM, includes to hold up frame and elevating system, the top of holding up the frame is provided with the radiation appearance, and the top of radiation appearance is provided with the pedestal, elevating system installs in the top of pedestal, and elevating system's top is provided with the crossbeam, the inside of crossbeam is provided with the spout, and the inside of spout is provided with the fixture block, the top of fixture block is provided with the panel.

Preferably, the pedestal includes cavity, first spring, bayonet lock and bulb, and the inside of cavity is provided with first spring, the top of first spring is provided with the bayonet lock, and the top of bayonet lock is provided with the bulb, the bayonet lock constitutes the elasticity translation structure through between first spring and the cavity, and first spring, bayonet lock all distribute about the surperficial equidistance of cavity.

Preferably, the lifting mechanism and the pedestal form a movable structure through the matching between the ball head and the cavity, and the ball head and the cavity are connected in an embedded manner.

Preferably, elevating system includes crank, gear, first rack, stand, second rack, movable rod, baffle, second spring and pull rod, and the inside of crank is provided with the gear, the left side of gear is provided with first rack, and the left side of first rack is provided with the stand, the left side of stand is provided with the second rack, and the left side of second rack is provided with the movable rod, the left side of movable rod is provided with the baffle, and the left side of baffle is provided with the second spring, the left side of second spring is provided with the pull rod, first rack passes through the cooperation between gear and the crank and constitutes elevation structure with the stand, and is connected for the meshing between first rack and the gear.

Preferably, the movable rod and the pull rod form an elastic translation structure through the matching between the baffle plate and the second spring, and the outer surface of the pull rod is attached to the inner surface of the second spring.

Preferably, the display board forms a sliding structure with the cross beam through the matching between the clamping block and the sliding groove, and the display board is connected with the sliding groove through a clamping groove.

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

the utility model is provided with the pedestal, the design greatly improves the flexibility of the device, the user can randomly adjust the position of the lifting mechanism when in use, because the lifting mechanism is embedded and connected with the cavity through the ball head, the lifting mechanism of the device can be universally moved and adjusted with the pedestal, and when in universal adjustment, the first spring can control the bayonet lock to collide against the ball head, thereby the ball head of the device can be more stable when in adjustment, and the lifting mechanism is also arranged, the design greatly improves the compatibility of the device, the user can shake the crank when in use, then the crank drives the gear to rotate, the first rack can be meshed to lift through the rotation of the gear, thereby the radiometer can be controlled to lift on the stand column, and after the lifting is finished, a user can pull the pull rod to control the pull rod to drive the second spring to enable the baffle plate to carry out elastic movement on the movable rod, so that the movable rod is meshed and connected with the insections above the second gear, and the design not only enables the radiometer of the device to be lifted in a high degree, but also enables the radiometer to be stably matched and fixed.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic view of the lifting mechanism of the present invention;

fig. 3 is a schematic view of the internal structure of the pedestal of the present invention.

In the figure: 1. a holding frame; 2. a radiation instrument; 3. a pedestal; 4. a lifting mechanism; 5. a cross beam; 6. a chute; 7. a clamping block; 8. exhibition boards; 301. a cavity; 302. a first spring; 303. a bayonet lock; 304. a ball head; 401. a crank; 402. a gear; 403. a first rack; 404. a column; 405. a second rack; 406. a movable rod; 407. a baffle plate; 408. a second spring; 409. a pull rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: the utility model provides a hardbound job site projection laying-out equipment based on BIM, includes to hold up frame 1 and elevating system 4, and the top of holding up frame 1 is provided with radiation appearance 2, and the top of radiation appearance 2 is provided with pedestal 3, and elevating system 4 installs in the top of pedestal 3, and elevating system 4's top is provided with crossbeam 5, and the inside of crossbeam 5 is provided with spout 6, and the inside of spout 6 is provided with fixture block 7, and the top of fixture block 7 is provided with panel 8.

Further, the pedestal 3 comprises a cavity 301, a first spring 302, a bayonet 303 and a ball head 304, the first spring 302 is arranged in the cavity 301, the bayonet 303 is arranged above the first spring 302, the ball head 304 is arranged above the bayonet 303, the bayonet 303 forms an elastic translation structure with the cavity 301 through the first spring 302, the first spring 302 and the bayonet 303 are distributed at equal intervals on the surface of the cavity 301, the pedestal 3 is arranged on the device, the design greatly improves the flexibility of the device, a user can randomly adjust the position of the lifting mechanism 4 when in use, because the lifting mechanism 4 is embedded and connected with the cavity 301 through the ball head 304, the lifting mechanism 4 of the device can be universally moved and adjusted with the pedestal 3, and when in universal adjustment, the first spring 302 can control the bayonet 303 to abut against the ball head 304, therefore, the ball head 304 of the device is more stable during adjustment.

Furthermore, the lifting mechanism 4 forms a movable structure with the pedestal 3 through the matching between the ball head 304 and the cavity 301, the ball head 304 and the cavity 301 are connected in an embedded manner, and the lifting mechanism 4 of the device can perform stable adjustment movement due to the design of the movable mechanism.

Furthermore, the lifting mechanism 4 comprises a crank 401, a gear 402, a first rack 403, a column 404, a second rack 405, a movable rod 406, a baffle 407, a second spring 408 and a pull rod 409, the crank 401 is internally provided with the gear 402, the left side of the gear 402 is provided with the first rack 403, the left side of the first rack 403 is provided with the column 404, the left side of the column 404 is provided with the second rack 405, the left side of the second rack 405 is provided with the movable rod 406, the left side of the movable rod 406 is provided with the baffle 407, the left side of the baffle 407 is provided with the second spring 408, the left side of the second spring 408 is provided with the pull rod 409, the first rack 403 and the column 404 form a lifting structure through the matching between the gear 402 and the crank 401, the first rack 403 and the gear 402 are in meshed connection, the lifting mechanism 4 is provided for the device, the compatibility of the device is greatly improved, and a user can shake the crank 401 when in use, then the crank 401 carries the gear 402 to rotate, the first rack 403 can be meshed with the gear 402 to move up and down through the rotation of the gear 402, so that the radiation instrument 2 can be controlled to move up and down on the upright column 404, and after the lifting is completed, a user can pull the pull rod 409, control the pull rod 409 to drive the second spring 408 to enable the baffle 407 to elastically move the movable rod 406, and enable the movable rod 406 to be meshed with the insection above the second gear 402, so that the design not only enables the radiation instrument 2 of the device to be lifted up and down at a high degree, but also enables the radiation instrument 2 to be stably matched and fixed.

Furthermore, the movable rod 406 and the pull rod 409 form an elastic translation structure through the matching between the baffle 407 and the second spring 408, the outer surface of the pull rod 409 and the inner surface of the second spring 408 are attached to each other, and the design of the elastic translation structure enables the movable rod 406 of the device to perform elastic movement in the left-right direction.

Further, panel 8 constitutes sliding structure through cooperation and crossbeam 5 between fixture block 7 and the spout 6, and be connected for the draw-in groove between panel 8 and the spout 6, be provided with panel 8 to this device, fixture block 7 and spout 6, such design has improved the functionalization of this device greatly, the user can promote panel 8 when using, and we are provided with fixture block 7 and the inside spout 6 of crossbeam 5 and are connected the cooperation in panel 8's below, and the cross section of its fixture block 7 is "L" type structure, such design not only makes the user record the parameter of lofting on panel 8, can also promote the translation to panel 8, be convenient for demonstrate from different position like this.

The working principle is as follows: firstly, a holding frame 1 of the device is required to be placed on a stable ground, a lifting mechanism 4 is arranged, the compatibility of the device is greatly improved by the design, a user can shake a crank 401 when using the device, then the crank 401 carries a gear 402 to rotate, the first rack 403 can be meshed to carry out lifting motion through the rotating motion of the gear 402, so that the radiation instrument 2 can be controlled to carry out lifting motion on a stand column 404, and after the lifting is finished, the user can pull a pull rod 409 and control the pull rod 409 to carry a second spring 408 so that a baffle 407 carries out elastic motion on a movable rod 406, so that the movable rod 406 is meshed with the insection above the second gear 402, the design not only enables the radiation instrument 2 of the device to carry out high lifting, but also enables the radiation instrument to be stably matched and fixed, the radiation instrument 2 is a mature projection lofting technology on the market, and is also provided with a pedestal 3, the flexibility of the device is greatly improved by the design, a user can randomly adjust the position of the lifting mechanism 4 when in use, because the lifting mechanism 4 is embedded and connected with the cavity 301 through the ball head 304, the lifting mechanism 4 of the device can be universally moved and adjusted with the pedestal 3, and when in universal adjustment, the first spring 302 can control the bayonet lock 303 to butt against the ball head 304, so that the ball head 304 of the device can be more stably adjusted, and meanwhile, the device is also provided with the display plate 8, the fixture block 7 and the chute 6, the design greatly improves the functionalization of the device, the user can push the display plate 8 when in use, and the fixture block 7 is arranged below the display plate 8 and is connected and matched with the chute 6 in the cross beam 5, and the cross section of its fixture block 7 is "L" type structure, and such design not only makes the user record the parameter of lofting on panel 8, can also promote the translation to panel 8, is convenient for show from different position like this.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a smart dress job site projection lofting equipment based on BIM, includes and links up frame (1) and elevating system (4), its characterized in that: the radiation device is characterized in that a radiation instrument (2) is arranged above the holding frame (1), a pedestal (3) is arranged above the radiation instrument (2), the lifting mechanism (4) is installed above the pedestal (3), a cross beam (5) is arranged above the lifting mechanism (4), a sliding groove (6) is formed in the inside of the cross beam (5), a clamping block (7) is arranged in the inside of the sliding groove (6), and a display board (8) is arranged above the clamping block (7).

2. The BIM-based project lofting equipment for the hardbound construction site according to claim 1, wherein: pedestal (3) include cavity (301), first spring (302), bayonet lock (303) and bulb (304), and the inside of cavity (301) is provided with first spring (302), the top of first spring (302) is provided with bayonet lock (303), and the top of bayonet lock (303) is provided with bulb (304), bayonet lock (303) constitute the elasticity translation structure through between first spring (302) and cavity (301), and first spring (302), bayonet lock (303) all distribute about the surperficial equidistance of cavity (301).

3. The BIM-based project lofting equipment for the hardbound construction site according to claim 1, wherein: the lifting mechanism (4) and the pedestal (3) form a movable structure through the matching between the ball head (304) and the cavity (301), and the ball head (304) and the cavity (301) are connected in an embedded manner.

4. The BIM-based project lofting equipment for the hardbound construction site according to claim 1, wherein: the lifting mechanism (4) comprises a crank (401), a gear (402), a first rack (403), a vertical column (404), a second rack (405), a movable rod (406), a baffle (407), a second spring (408) and a pull rod (409), the gear (402) is arranged inside the crank (401), the first rack (403) is arranged on the left side of the gear (402), the vertical column (404) is arranged on the left side of the first rack (403), the second rack (405) is arranged on the left side of the vertical column (404), the movable rod (406) is arranged on the left side of the second rack (405), the baffle (407) is arranged on the left side of the movable rod (406), the second spring (408) is arranged on the left side of the baffle (407), the pull rod (409) is arranged on the left side of the second spring (408), and the first rack (403) forms a lifting structure with the vertical column (404) through the matching between the gear (402) and the crank (401), and the first rack (403) is in meshed connection with the gear (402).

5. The BIM-based project lofting equipment for the hardbound construction site according to claim 4, wherein: the movable rod (406) and the pull rod (409) form an elastic translation structure through the matching between the baffle (407) and the second spring (408), and the outer surface of the pull rod (409) is attached to the inner surface of the second spring (408).

6. The BIM-based project lofting equipment for the hardbound construction site according to claim 1, wherein: the display board (8) forms a sliding structure with the cross beam (5) through the matching between the clamping block (7) and the sliding groove (6), and the display board (8) is connected with the sliding groove (6) through a clamping groove.

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