CN219493686U - Equipment installation supporting platform - Google Patents

Abstract

The utility model discloses an equipment installation support platform, which belongs to the technical field of equipment platforms and comprises a deflection platform, a connecting plate, a sliding part and two support rods, wherein the deflection platform is arranged on the connecting plate; the end parts of the two support rods are hinged; a connecting plate is arranged above the hinged position of the two support rods; a deflection platform is arranged on the connecting plate; the sliding part is used for the relative sliding of the two support rods and the connecting plate. The equipment installation supporting platform provided by the utility model is provided with a stable supporting platform for the deflection platform by constructing three-point supports between the two supporting rods and the connecting plate, meets the requirements of different installation environments by virtue of the movable structural characteristics, and improves the applicability of the supporting platform; the multi-directional adjustment of the pitch angle and the horizontal angle of the equipment is realized through the deflection platform, the adjustment requirement of the equipment platform is met, and the requirement of equipment angle adjustment is facilitated.

Description

Equipment installation supporting platform

Technical Field

The utility model belongs to the technical field of equipment platforms, and particularly relates to an equipment installation supporting platform.

Background

Engineering equipment commonly used in construction engineering comprises exploration equipment, monitoring equipment and the like, and the engineering equipment needs to be fixed on a fixed plane when in use, so that relevant buildings or structural parts can be observed conveniently. In some specific areas, in the process of installing engineering equipment, due to characteristics of topography or layout structures and the like, the equipment cannot be effectively arranged in a reasonable area, and the equipment platform is required to be used for fixing the equipment.

In the prior art, a fixed frame structure is mostly adopted for an equipment platform, for example, an automatic settlement deformation monitoring device is disclosed in China patent application No. CN 215413702U, and an engineering equipment box is installed by adopting the fixed frame structure. However, for a specific area, the equipment platform with the fixed frame structure cannot adapt to a specific terrain environment; and the equipment platform with a fixed frame structure cannot help the equipment to adjust the angle after being installed, so that the fine adjustment requirement of engineering equipment cannot be met.

Disclosure of Invention

Aiming at the problems existing in the prior art, the utility model provides an equipment installation supporting platform, which aims to solve the problems that the equipment platform with the existing fixed frame structure cannot meet the arrangement requirements of special environments and cannot help equipment to conduct angle fine adjustment. In order to achieve the above purpose, the present utility model provides the following technical solutions:

an equipment installation support platform comprises a deflection platform, a connecting plate, a sliding part and two support rods; the end parts of the two support rods are hinged; a connecting plate is arranged above the hinged position of the two support rods; a deflection platform is arranged on the connecting plate; the sliding part is used for the relative sliding of the two support rods and the connecting plate.

Further, a chute is arranged on the end face of the bottom of the connecting plate; the sliding part comprises two struts; the support rod slides in the chute; the support rod slides relative to the connecting plate through the support rod.

Further, the strut comprises an upper strut, a middle plate and a lower strut; the upper support column, the middle plate and the lower support column are sequentially connected; the lower support post is connected to the support rod; the upper support post slides in the chute; the middle plate is in contact connection with the connecting plate.

Further, a connecting rod is arranged between the two supporting rods.

Further, a connecting rod is arranged between the two lower struts; the connecting rod is provided with a plurality of annular gaps; the annular gap is matched with the lower support post.

Further, a main supporting rod is arranged at the joint of the two supporting rods; the top end of the main support is fixedly connected with the axis of the connecting plate.

Further, the deflection platform comprises a turntable, a saddle, a rotating motor and a mounting flat plate; the top surface of the connecting plate is provided with a turntable; the turntable is provided with a saddle; a rotating motor is rotatably connected to the saddle; the top of the rotating motor is provided with a mounting flat plate; the rotating motor is used for driving the mounting plate to rotate.

Further, the device also comprises two mounting supports; the mounting support is used for fixedly mounting the supporting rod; the two support rods are respectively arranged on different mounting supports.

Further, the mounting bracket includes a pair of saddle plates and a back plate; the backboard is fixed on the fixing surface; a saddle plate is arranged on the back plate; the saddle plate is provided with an assembling screw hole; the tail end of the supporting rod is provided with a fixing screw hole matched with the assembling screw hole; the supporting rod is fixed with the saddle plate through bolts.

The beneficial effects of the utility model are as follows:

the utility model discloses an equipment installation support platform, which belongs to the technical field of equipment platforms and comprises a deflection platform, a connecting plate, a sliding part and two support rods, wherein the deflection platform is arranged on the connecting plate; the end parts of the two support rods are hinged; a connecting plate is arranged above the hinged position of the two support rods; a deflection platform is arranged on the connecting plate; the sliding part is used for the relative sliding of the two support rods and the connecting plate. The equipment installation supporting platform provided by the utility model is provided with a stable supporting platform for the deflection platform by constructing three-point supports between the two supporting rods and the connecting plate, meets the requirements of different installation environments by virtue of the movable structural characteristics, and improves the applicability of the supporting platform; the multi-directional adjustment of the pitch angle and the horizontal angle of the equipment is realized through the deflection platform, the adjustment requirement of the equipment platform is met, and the requirement of equipment angle adjustment is facilitated.

Drawings

FIG. 1 is a schematic view of a device mounting support platform according to the present utility model;

FIG. 2 is a schematic view of a supporting rod structure of a supporting platform for equipment installation according to the present utility model;

FIG. 3 is a schematic view of a deflection platform structure of an equipment mounting support platform provided by the utility model;

fig. 4 is a schematic structural view of a strut of a device mounting support platform according to the present utility model sliding on a connection board;

FIG. 5 is a schematic view of a connecting rod structure of a device mounting support platform according to the present utility model;

fig. 6 is a schematic view of a mounting support structure of a device mounting support platform according to the present utility model.

In the accompanying drawings: 100-supporting rods, 200-connecting plates, 300-deflection platforms, 400-mounting supports, 110-right supporting rods, 120-left supporting rods, 130-main supporting rods, 210-sliding grooves, 220-connecting rods, 310-mounting plates, 320-rotating motors, 330-saddles, 340-turntables, 410-back plates, 420-saddle plates, 111-right fixing screw holes, 121-left fixing screw holes, 112-right supporting rods, 122-left supporting rods, 1121-right upper supporting rods, 1122-right middle plates and 1123-right lower supporting rods.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings and the detailed description, but the present utility model is not limited to the following examples.

Embodiment one:

see fig. 1-6. An equipment installation support platform comprises a deflection platform 300, a connecting plate 200, a sliding part and two support rods 100; the ends of the two support rods 100 are hinged; a connecting plate 200 is arranged above the hinged position of the two support rods 100; a deflection platform 300 is arranged on the connecting plate 200; the sliding member is used for the relative sliding of the two support rods 100 and the connection plate 200. According to the structure, the equipment installation supporting platform can be applied between engineering equipment and a fixed surface, the engineering equipment is engineering equipment such as exploration equipment and monitoring equipment in construction engineering, equipment which is fixed on the fixed surface and used for observing and supporting related buildings or structural parts is needed, and the fixed surface can be a wall surface or a plane and provides a basic attachment point for the engineering equipment. The equipment installation support platform specifically includes a deflection platform 300, a connection plate 200, a sliding member, and two support rods 100, as shown in fig. 1. As shown in fig. 2, the two support poles 100 may include a right support pole 110 and a left support pole 120, with the ends of the right support pole 110 and the left support pole 120 being hinged together using the prior art. The ends of the right and left support bars 110 and 120 may be respectively mounted on the fixing surfaces, and the fixing planes forming a triangle at the hinge points with the right and left support bars 110 and 120 provide a supporting force for the deflection platform 300 mounted above the connection plate 200. Because the ends of the right support rod 110 and the left support rod 120 are hinged, and the right support rod 110 and the left support rod 120 can slide relative to the connecting plate 200 through the sliding component, the right support rod 110 and the left support rod 120 can be adjusted to be away from the fixed surface by adjusting the included angle between the right support rod 110 and the left support rod 120, so that the distance between the equipment installation position and the fixed surface is met, the equipment installation requirement is met, and when the equipment is required to be arranged at a position far away from the fixed surface, the included angle between the right support rod 110 and the left support rod 120 is reduced, so that the equipment extends out to be farther away; it is necessary to arrange the apparatus near the fixing surface, and increase the angle between the right support bar 110 and the left support bar 120 so as to be closer to the fixing surface. The equipment installation supporting platform meets the requirements of different installation environments by virtue of the movable structural characteristics, is suitable for more installation environments, and reduces the requirements on the installation environments.

Embodiment two:

see fig. 1-6. On the basis of the first embodiment, a chute 210 is arranged on the bottom end surface of the connecting plate 200; the sliding part comprises two struts; the strut slides in the chute 210; the support bar 100 slides relative to the connection plate 200 through the support bar. As can be seen from the above structure, the sliding component is used for sliding the two support rods 100 and the connecting plate 200 relatively, the sliding component comprises two support rods, the two support rods can have the same structure, as shown in fig. 2, and can specifically comprise a right support rod 112 and a left support rod 122, and the right support rod 112 and the left support rod 122 can slide in a chute 210 provided on the bottom end surface of the connecting plate 200. For example, the right supporting rod 112 is correspondingly disposed on the right supporting rod 110, the left supporting rod 122 is correspondingly disposed on the left supporting rod 120, and when the angle between the right supporting rod 110 and the left supporting rod 120 is adjusted, the supporting effect of the right supporting rod 112 and the left supporting rod 122 on the connecting plate 200 is not affected.

The support rod comprises an upper support column, a middle plate and a lower support column; the upper support column, the middle plate and the lower support column are sequentially connected; the lower leg is connected to the support bar 100; the upper support post slides in the chute 210; the middle plate is connected with the connecting plate 200 in a contact way. As can be seen from the above structure, the supporting rod 100 slides relatively to the connecting plate 200 through the supporting rod, and the supporting rod specifically comprises an upper supporting column, a middle plate and a lower supporting column, the supporting rod 100 is connected with the lower supporting column, the lower supporting column is connected with the middle plate, the middle plate is connected with the upper supporting column, the upper supporting column slides in the sliding groove 210, and the part of the middle plate beyond the upper supporting column is connected with the connecting plate 200 in a contact manner, so as to provide a fulcrum for the connecting plate 200. The two struts are identical in structure, i.e., the right strut 112 and the left strut 122 are identical in structure, as shown in fig. 5, the right strut 112 may include an upper right strut 1121, a right middle plate 1122, and a lower right strut 1123, and the left strut 122 may include an upper left strut, a middle left plate, and a lower left strut. The hinged parts of the right support rod 112, the left support rod 122, the right support rod 110 and the left support rod 120 form three-point support for the connecting plate 200, so that the stability of the connecting plate 200 is improved, and a stable base is provided for equipment assembled on the deflection platform 300.

A connecting rod 220 is arranged between the two struts. According to the above structure, after the angle of the included angle between the right support bar 110 and the left support bar 120 is adjusted in place, the connecting rod 220 is disposed between the two support bars of the right support bar 112 and the left support bar 122, so that an additional tensile force is formed between the right support bar 110 and the left support bar 120, thereby further improving the stability of the structure.

A connecting rod 220 is arranged between the two lower struts; the connecting rod 220 is provided with a plurality of annular gaps; the annular gap is matched with the lower support post. As can be seen from the above structure, the strut specifically includes an upper strut, a middle plate and a lower strut, the upper strut slides in the chute 210, the part of the middle plate beyond the upper strut is in contact connection with the connecting plate 200, a connecting rod 220 may be disposed between the two lower struts, as shown in fig. 4 and 5, a plurality of groups of annular notches are disposed on the side wall of the connecting rod 220, and the annular notches are adapted to the two lower struts of the left lower strut and the right lower strut 1123. When in use, one side of the connecting rod 220 with the annular notch can be clamped on the left lower support post and the right lower support post 1123, and additional tensile force is formed between the right support rod 110 and the left support rod 120, so that the stability of the structure is further improved; the number of the annular gaps on the connecting rod 220 is large, the intervals between the different annular gaps are different, and the right support rod 110 and the left support rod 120 can be connected by selecting proper annular gaps according to the distance.

A main supporting rod 130 is arranged at the hinge joint of the two supporting rods 100; the top end of the main support 130 is fixedly connected with the axis of the connecting plate 200. As can be seen from the above structure, the main supporting bar 130, the right supporting bar 112 and the left supporting bar 122 form a three-point support, which provides a stable supporting platform for the deflection platform 300; the axis of the hinge joint of the right support bar 110 and the left support bar 120 does not rotate along with deflection, a fixed support point can be provided, and the connection structure of the hinge joint of the main support bar 130 and the right support bar 110 and the left support bar 120 can be completed by adopting the prior art.

Embodiment III:

see fig. 1-6. On the basis of the second embodiment, the deflection platform 300 comprises a turntable 340, a saddle 330, a rotating motor 320 and a mounting plate 310; the top surface of the connecting plate 200 is provided with a turntable 340; the turntable 340 is provided with a saddle 330; the saddle 330 is rotatably connected with a rotating motor 320; the top of the rotating motor 320 is provided with a mounting plate 310; the rotation motor 320 is used to drive the mounting plate 310 to rotate. According to the structure, the deflection platform 300 is integrally arranged on the connecting plate 200, and specifically comprises a turntable 340 arranged on the top surface of the connecting plate 200, the turntable 340 can rotate relative to the connecting plate 200, and when the turntable 340 rotates, the saddle 330, the rotating motor 320 and the mounting plate 310 are driven to synchronously rotate, so that equipment mounted on the deflection platform 300 also rotates, the direction of the equipment on a horizontal plane is adjusted, and the adjustment of the horizontal angle of the equipment is realized. Screw holes for fixing equipment can be formed in the installation flat plate 310, the rotation motor 320 rotates to deflect a pitch angle between the installation flat plate 310 and the ground, the turntable 340 is matched to adjust the direction of the equipment on the horizontal plane, the multi-directional adjustment of the pitch angle and the horizontal angle of the equipment is achieved, and the requirement of multiple adjustment of the equipment is met. The whole deflection platform 300 can adopt the prior art, can carry out remote network control through locating the dull and stereotyped 310 control module of installation, also can adopt the multidirectional regulation of remote control mode to equipment pitch angle and horizontal angle after the equipment installation is accomplished, satisfies engineering equipment installation's needs.

Embodiment four:

see fig. 1-6. On the basis of the third embodiment, two mounting supports 400 are further included; the mounting support 400 is used for fixedly mounting the support rod 100; the two support rods 100 are respectively mounted on different mounting brackets 400. As can be seen from the above structure, the mounting support 400 is used for fixedly mounting the support bars 100, and specifically includes two mounting supports 400, and the two support bars 100 are respectively mounted on different mounting supports 400. Before installation, the angle positions are adjusted, two groups of installation supports 400 are fixed on the fixing surfaces, and then the right support bar 110 and the left support bar 120 are respectively assembled on the installation supports 400.

The mounting bracket 400 includes a pair of saddle plates 420 and a back plate 410; the backboard 410 is fixed on the fixing surface; a saddle plate 420 is arranged on the back plate 410; the saddle plate 420 is provided with an assembling screw hole; the tail end of the supporting rod 100 is provided with a fixing screw hole matched with the assembling screw hole; the support bar 100 is fixed to the saddle plate 420 by bolts. As can be seen from the above structure, the mounting bracket 400 includes a back plate 410 and a pair of saddle plates 420, the saddle plates 420 are provided with assembly screw holes, and the ends of the two support rods 100 are provided with fixing screw holes corresponding to the assembly screw holes, including a left fixing screw hole 121 and a right fixing screw hole 111. The right support bar 110 or the left support bar is assembled between a pair of saddle plates 420, and an assembly screw hole provided on the saddle plates 420 is fitted with the right fixing screw hole 111 or the left fixing screw hole 121, and the right fixing screw hole 111 or the left fixing screw hole 121 is aligned with the assembly screw hole, and the mounting bracket 400 is coupled with the support bar 100 through a bolt structure. The back plate 410 may be provided with a fixing screw hole, and the back plate 410 may be fixed to the fixing surface by an expansion screw to complete the fixing operation of the support rod 100 to the fixing surface. Before installation, the angle positions are adjusted, two groups of installation supports 400 are fixed on the fixing surfaces, and then the right support bar 110 and the left support bar 120 are respectively assembled on the installation supports 400.

The equipment installation supporting platform provided by the utility model is slid on the bottom end surface of the connecting plate through the right supporting rod and the left supporting rod, and three-point support is constructed among the right supporting rod, the left supporting rod and the connecting plate, so that a stable supporting platform is provided for the deflection platform, the requirements of different installation environments are met by virtue of the movable structural characteristics, and the applicability of the supporting platform is improved. And moreover, the pitch angle between the mounting flat plate and the ground is changed through the rotation of the rotating motor in the deflection platform, the direction of the equipment on the horizontal plane is adjusted by matching with the turntable, the multidirectional adjustment of the pitch angle and the horizontal angle of the equipment is realized, the equipment platform adjustment requirement is met, and the equipment angle adjustment requirement is conveniently carried out.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes using the descriptions and drawings of the present utility model or directly or indirectly applied to other related technical fields are included in the scope of the utility model.

Claims (9)

1. An equipment installation supporting platform, its characterized in that: comprises a deflection platform (300), a connecting plate (200), a sliding part and two support rods (100); the end parts of the two support rods (100) are hinged; a connecting plate (200) is arranged above the hinged position of the two support rods (100); a deflection platform (300) is arranged on the connecting plate (200); the sliding part is used for the relative sliding of the two support rods (100) and the connecting plate (200).

2. The equipment mounting support platform of claim 1, wherein: a chute (210) is arranged on the end surface of the bottom of the connecting plate (200); the sliding part comprises two struts; the support rod slides in the chute (210); the supporting rod (100) slides relative to the connecting plate (200) through the supporting rod.

3. An equipment mounting support platform according to claim 2, wherein: the support rod comprises an upper support column, a middle plate and a lower support column; the upper support column, the middle plate and the lower support column are sequentially connected; the lower support post is connected to the support rod (100); the upper support post slides in the chute (210); the middle plate is in contact connection with the connecting plate (200).

4. A device mounting support platform according to claim 3, wherein: a connecting rod (220) is arranged between the two struts.

5. The equipment mounting support platform of claim 4, wherein: a connecting rod (220) is arranged between the two lower struts; a plurality of annular gaps are formed in the connecting rod (220); the annular gap is matched with the lower support post.

6. The equipment mounting support platform of claim 5, wherein: a main supporting rod (130) is arranged at the hinge joint of the two supporting rods (100); the top end of the main support (130) is fixedly connected with the axis of the connecting plate (200).

7. An equipment mounting support platform according to claim 1 or 6, wherein: the deflection platform (300) comprises a turntable (340), a saddle (330), a rotating motor (320) and a mounting plate (310); a turntable (340) is arranged on the top surface of the connecting plate (200); a saddle (330) is arranged on the turntable (340); a rotating motor (320) is rotatably connected to the saddle (330); the top of the rotating motor (320) is provided with a mounting flat plate (310); the rotating motor (320) is used for driving the mounting plate (310) to rotate.

8. The equipment mounting support platform of claim 1, wherein: also comprises two mounting supports (400); the mounting support (400) is used for fixedly mounting the support rod (100); the two support rods (100) are respectively arranged on different mounting supports (400).

9. The equipment mounting support platform of claim 8, wherein: the mounting bracket (400) includes a pair of saddle plates (420) and a back plate (410); the backboard (410) is fixed on the fixing surface; a saddle plate (420) is arranged on the back plate (410); the saddle plate (420) is provided with an assembling screw hole; the tail end of the supporting rod (100) is provided with a fixing screw hole matched with the assembling screw hole; the supporting rod (100) is fixed with the saddle plate (420) through bolts.