CN114179029B - Balancing device for installation of electromechanical equipment - Google Patents

Abstract

The invention discloses a balancing device for installing electromechanical equipment, which comprises a rack and a balancing mechanism arranged on the rack, wherein the balancing mechanism comprises a double-rod hydraulic cylinder which is vertically arranged and is provided with at least a first output end which is vertically upwards and a second output end which is vertically downwards; the balance mechanism further comprises a first adjusting arm and a second adjusting arm which are respectively hinged to the first hinging seat and the second hinging seat, one end of the first adjusting arm is hinged to the first output end, and the other end of the first adjusting arm is hinged to the bottom of the first bearing platform, so that the first bearing platform is lifted or lowered when the first output end of the double-rod hydraulic cylinder acts; one end of the second adjusting arm is hinged with the second output end, and the other end of the second adjusting arm is hinged with the top of the second bearing platform, so that the second bearing platform is lifted or lowered when the second output end of the double-rod hydraulic oil cylinder acts.

Description

Balancing device for installation of electromechanical equipment

Technical Field

The invention relates to a device installation tool, in particular to a balancing device for electromechanical device installation.

Background

The electromechanical equipment plays a great role in production and life, and the quality of the electromechanical equipment directly influences the operation of enterprises. Thus, equipment installation is a very important part of enterprise production. Therefore, in order to ensure smooth production, the installation technology of the electromechanical equipment must be enhanced, so that the equipment can fully exert the effect, the equipment state is continuously improved, the service life is prolonged, and the best economic benefit is obtained for enterprises. In the current installation of electromechanical devices, the problem that the assembly precision between the devices is poor is more likely to occur. Because most electromechanical devices have power units, in the subsequent operation of the devices, due to factors such as rotation inertia or eccentric imbalance, the devices are assembled loosely, which is likely to cause vibration caused by relay of the devices in the long-term operation process, even system resonance caused by the same frequency, great noise is generated when the devices are light, and the joint is broken when the devices are heavy, even accidents are generated.

Disclosure of Invention

In view of the above problems of the prior art, an object of the present invention is to provide a balancing apparatus for mounting an electromechanical device, which can improve the accuracy of assembly between devices when the electromechanical device is mounted.

In order to achieve the above object, an aspect of the present invention provides a balancing apparatus for installation of an electromechanical device, comprising:

the rack comprises a vertical support frame, a first transverse support frame and a second transverse support frame which are arranged on the vertical support frame in parallel, wherein a supporting mechanism is arranged between the first transverse support frame and the second transverse support frame, the supporting mechanism at least comprises a first sliding rod mechanism and a second sliding rod mechanism which are arranged in parallel, a bearing platform for bearing electromechanical equipment to be installed is slidably arranged on the first sliding rod mechanism and the second sliding rod mechanism, and the bearing platform at least comprises a first bearing platform for bearing first equipment and a second bearing platform for bearing second equipment which is in an assembling relation with the first equipment;

the balance mechanism comprises a double-rod hydraulic cylinder which is arranged vertically and is provided with at least a first output end which is vertically upwards and a second output end which is vertically downwards; the balance mechanism further comprises a first adjusting arm and a second adjusting arm which are respectively hinged to the first hinging seat and the second hinging seat, one end of the first adjusting arm is hinged to the first output end, and the other end of the first adjusting arm is hinged to the bottom of the first bearing platform, so that the first bearing platform is lifted or lowered when the first output end of the double-rod hydraulic cylinder acts; one end of the second adjusting arm is hinged with the second output end, and the other end of the second adjusting arm is hinged with the top of the second bearing platform, so that the second bearing platform is lifted or lowered when the second output end of the double-rod hydraulic oil cylinder acts.

Preferably, the first adjusting arm and the second adjusting arm have the same structure and are both configured as a curved L-shape, and the hinge positions of the first adjusting arm and the second adjusting arm and the first hinge seat and the second hinge seat are respectively located at the respective curved parts.

Preferably, a third hinging seat is arranged at the bottom of the first bearing platform, and the first adjusting arm is hinged with the first bearing platform through the third hinging seat; the top of second cushion cap is provided with the fourth articulated seat, the second arm of adjusting passes through the fourth articulated seat with the second cushion cap articulates.

Preferably, a first rotating connecting plate with a pivot connection function is arranged between the first adjusting arm and the third hinging seat, and a second rotating connecting plate with a pivot connection function is arranged between the second adjusting arm and the fourth hinging seat.

Preferably, the support mechanism further comprises a third slide bar mechanism parallel to the first slide bar mechanism and the second slide bar mechanism, and the first slide bar mechanism, the second slide bar mechanism and the third slide bar mechanism have the same structure and comprise rod bodies with two ends respectively connected with the first transverse support frame and the second transverse support frame in a threaded manner, and sliding sleeves respectively arranged on the first bearing platform and/or the second bearing platform.

Preferably, the first and second support bases are constructed of a plate material, and the plate surface of the first support base extends horizontally to at least one side so that the support surface thereof is larger than the second support base.

Preferably, a limiting block is arranged between the first bearing platform and the second bearing platform, and the limiting block is fixed on the first bearing platform or the second bearing platform.

Preferably, the first transverse supporting frame and the second transverse supporting frame have the same structure and at least comprise a first transverse rod and a second transverse rod perpendicular to the first transverse rod.

Preferably, an oblique support rod is arranged between the vertical support frame and the first transverse support frame and/or the second transverse support frame.

Preferably, a guide mechanism for guiding the relative movement of the first and second platforms is provided between the first and second platforms.

The balancing device for installing the electromechanical equipment provided by the invention can align and balance the positions of the first bearing platform and the second bearing platform which bear different electromechanical equipment in a controllable range by controlling the hydraulic cylinder, so that relatively precise installation and assembly are completed.

Drawings

Fig. 1 is a schematic structural view of a balancing apparatus for installation of an electromechanical device according to the present invention.

Fig. 2 is a schematic cross-sectional view along A-A in fig. 1.

Fig. 3 is a schematic perspective view of a balancing apparatus for installing electromechanical devices according to the present invention.

Fig. 4 is a schematic perspective view of another balancing apparatus for mounting an electromechanical device according to the present invention.

The main reference numerals:

1-a frame; 2-balancing mechanism; 3-a supporting mechanism; 4-a bearing platform; 5-a guiding mechanism; 11-a vertical support frame; 12-a first transverse support; 13-a second transverse support; 14-a first diagonal support bar; 15-a second diagonal support bar; 21-a double-rod hydraulic cylinder; 22-a first adjustment arm; 23-a second adjusting arm, 24-a first hinging seat; 25-a second hinge seat; 26-a third hinge seat; 27-fourth hinging seat; 31-a first slide bar mechanism; 32-a second slide bar mechanism; 33-a third slide bar mechanism; 41-a first bearing platform; 42-a second bearing platform; 43-limiting block; 51-a slide; 52-a first rack; 53-a second rack; 54-gear; 55-bearing; 121-a first transverse bar; 122-a second transverse bar; 211-a first output; 212-a second output; 311-a first slide bar; 312-a first sliding sleeve; 313-a second sliding sleeve; 321-a second slide bar; 322-third sliding sleeve; 323-fourth sliding sleeve; 411-first boss; 421-second boss.

Detailed Description

The present invention will be described in detail below with reference to the drawings and detailed description to enable those skilled in the art to better understand the technical scheme of the present invention.

Various aspects and features of the present invention are described herein with reference to the accompanying drawings.

These and other characteristics of the invention will become apparent from the following description of a preferred form of embodiment, given as a non-limiting example, with reference to the accompanying drawings.

It is also to be understood that, although the invention has been described with reference to some specific examples, a person skilled in the art will certainly be able to achieve many other equivalent forms of the invention, having the characteristics as set forth in the claims and hence all coming within the field of protection defined thereby.

The above and other aspects, features and advantages of the present invention will become more apparent in light of the following detailed description when taken in conjunction with the accompanying drawings.

As shown in fig. 1 to 4, an embodiment of the present invention provides a balancing apparatus for installation of an electromechanical device, including:

the machine frame 1, the machine frame 1 includes vertical support frame 11 and parallel arrangement is in the first horizontal support frame 12 and the second horizontal support frame 13 on the vertical support frame 11, first horizontal support frame 12 with the second horizontal support frame 13 structure is the same, all include at least first horizontal pole 121 and with the second horizontal pole 122 of first horizontal pole 121 vertically. And preferably, an oblique support bar is provided between the vertical support frame 11 and the first transverse support frame 12 and/or the second transverse support frame 13, such as a first oblique support bar 14 and a second oblique support bar 15 shown in the drawings. A supporting mechanism 3 is arranged between the first transverse supporting frame 12 and the second transverse supporting frame 13, the supporting mechanism 3 at least comprises a first sliding rod mechanism 31 and a second sliding rod mechanism 32 which are arranged in parallel, a bearing platform 4 for bearing electromechanical equipment to be installed is slidably arranged on the first sliding rod mechanism 31 and the second sliding rod mechanism 32, and the bearing platform 4 at least comprises a first bearing platform 41 for bearing first equipment (not shown) and a second bearing platform 42 for bearing second equipment (not shown) which is in assembling relation with the first equipment;

the balance mechanism 2 comprises a vertically arranged double-rod hydraulic oil cylinder 21, at least a first vertically upward output end 211 and a second vertically downward output end 212; the first transverse supporting frame 12 of the frame 1 is provided with a first hinging seat 24, the second transverse supporting frame 13 is provided with a second hinging seat 25, the balance mechanism 2 further comprises a first adjusting arm 22 and a second adjusting arm 23 which are respectively hinged on the first hinging seat 24 and the second hinging seat 25, one end of the first adjusting arm 22 is hinged with the first output end 211, and the other end is hinged with the bottom of the first bearing platform 41, so that the first bearing platform 41 is lifted or lowered when the first output end 211 of the double-rod hydraulic cylinder 21 acts; one end of the second adjusting arm 23 is hinged to the second output end 212, and the other end is hinged to the top of the second support table 42, so that the second support table 42 is lifted or lowered when the second output end 212 of the double-rod hydraulic cylinder 21 acts. As described above, when the installation is actually performed, the second device may be placed on the second platform 42, and the first device assembled therewith may be placed on the first platform 41, and by controlling the outputs of the first output end 211 and the second output end 212 of the double-rod hydraulic cylinder 21, the balanced positioning of the first device and the second device may be achieved, and the relatively precise assembly may be achieved. Of course, it is preferable that the first and second holders 41 and 42 are constructed of a plate material, and the plate surface of the first holder 41 is horizontally extended at least to one side so that the support surface thereof is larger than that of the second holder. Meanwhile, in order to prevent the distance between the two from exceeding the preset safety distance, a limiting block 43 is disposed between the first bearing platform 41 and the second bearing platform 42, and the limiting block 43 is fixed on the first bearing platform 41 or the second bearing platform 42.

In other embodiments, the first adjusting arm 22 and the second adjusting arm 23 are identical in structure, and each is configured as a curved "L" shape, and the hinge parts of the curved "L" shape and the first hinge seat 24 and the second hinge seat 25 are located at the respective curved parts. As shown in fig. 3 and 4, a third hinge base 26 is provided at the bottom of the first base 41, and the first adjusting arm 22 is hinged to the first base 41 through the third hinge base 26; the top of the second bearing platform 42 is provided with a fourth hinging seat 27, and the second adjusting arm 23 is hinged with the second bearing platform 42 through the fourth hinging seat 27. As a further development, in order to make the pivoting more coherent, a first pivoting connection plate 28 is provided between the first adjusting arm 22 and the third hinge seat 26, and a second pivoting connection plate 29 is provided between the second adjusting arm 23 and the fourth hinge seat 27.

In addition, in other embodiments, the supporting mechanism 3 further includes a third sliding rod mechanism 33 parallel to the first sliding rod mechanism 31 and the second sliding rod mechanism 32, where the first sliding rod mechanism 31, the second sliding rod mechanism 32 and the third sliding rod mechanism 33 have the same structure, and each of the third sliding rod mechanism 33 includes a rod body with two ends screwed on the first transverse supporting frame 12 and the second transverse supporting frame 13, and a sliding sleeve disposed on the first bearing platform 41 and/or the second bearing platform 42, respectively. Specifically, as shown in the figure, the first slide bar mechanism 31 includes a first slide bar 311, a first slide bush 312 and a second slide bush 313 which are respectively positioned on the first bearing platform 41 and the second bearing platform 42 and form a sliding fit with the first slide bar 311, and the second slide bar mechanism 32 includes a second slide bar 321, and a third slide bush 322 and a fourth slide bush 323 which are respectively positioned on the first bearing platform 41 and the second bearing platform 42 and form a sliding fit with the second slide bar 321.

In other improvements, in order to make the movements of the first and second platforms 41 and 42 more stable and precise, a guiding mechanism 5 for guiding the relative movements of the first and second platforms 41 and 42 may be provided between the first and second platforms 41 and 42. Further, a plurality of sets of guide mechanisms 5 may be provided on the same side of the first table 41 and the second table. And each set of guiding mechanisms 5, as shown in fig. 2 to 4, may exemplarily include a sliding seat 51, and a first rack 52 and a second rack 53 that pass through the sliding seat 51, where a gear 54 is connected in the sliding seat 51 through a bearing 55, and the gear 54 is located between and engaged with the first rack 52 and the second rack 53 respectively, and meanwhile, a first boss 411 may be disposed on the first bearing platform 41, a second boss 421 may be disposed on the second bearing platform 42, the first rack 52 is fixed on the first boss 411 through a bolt, and the second rack 53 is fixed on the second boss 421 through a bolt. By means of the meshing of the gear and the rack, the relative movement between the first and second platforms 41 and 52 can be made more linear and smooth, achieving a higher assembly precision.

The above embodiments are only exemplary embodiments of the present invention and are not intended to limit the present invention, the scope of which is defined by the claims. Various modifications and equivalent arrangements of this invention will occur to those skilled in the art, and are intended to be within the spirit and scope of the invention.

Claims (7)

1. A balancing apparatus for use in the installation of electromechanical devices, comprising:

the rack comprises a vertical support frame, a first transverse support frame and a second transverse support frame which are arranged on the vertical support frame in parallel, wherein a supporting mechanism is arranged between the first transverse support frame and the second transverse support frame, the supporting mechanism at least comprises a first sliding rod mechanism and a second sliding rod mechanism which are arranged in parallel, a bearing platform for bearing electromechanical equipment to be installed is slidably arranged on the first sliding rod mechanism and the second sliding rod mechanism, and the bearing platform at least comprises a first bearing platform for bearing first equipment and a second bearing platform for bearing second equipment which is in an assembling relation with the first equipment;

the balance mechanism comprises a double-rod hydraulic cylinder which is arranged vertically and is provided with at least a first output end which is vertically upwards and a second output end which is vertically downwards; the balance mechanism further comprises a first adjusting arm and a second adjusting arm which are respectively hinged to the first hinging seat and the second hinging seat, one end of the first adjusting arm is hinged to the first output end, and the other end of the first adjusting arm is hinged to the bottom of the first bearing platform, so that the first bearing platform is lifted or lowered when the first output end of the double-rod hydraulic cylinder acts; one end of the second adjusting arm is hinged with the second output end, and the other end of the second adjusting arm is hinged with the top of the second bearing platform, so that the second bearing platform is lifted or lowered when the second output end of the double-rod hydraulic oil cylinder acts;

the first adjusting arm and the second adjusting arm are identical in structure and are both constructed into a bent L shape, and the positions of the bent L shape and the hinge positions of the first adjusting arm and the second adjusting arm are respectively hinged with the first hinge seat and the second hinge seat and are positioned at the bending parts of the first hinge seat and the second hinge seat; the bottom of the first bearing platform is provided with a third hinging seat, and the first adjusting arm is hinged with the first bearing platform through the third hinging seat; the top of the second bearing platform is provided with a fourth hinging seat, and the second adjusting arm is hinged with the second bearing platform through the fourth hinging seat; the first adjusting arm and the third hinging seat are provided with a first rotating connecting plate with a pivoting connection function, and the second adjusting arm and the fourth hinging seat are provided with a second rotating connecting plate with a pivoting connection function.

2. The balance device for installing electromechanical equipment according to claim 1, wherein the support mechanism further comprises a third slide bar mechanism parallel to the first slide bar mechanism and the second slide bar mechanism, and the first slide bar mechanism, the second slide bar mechanism and the third slide bar mechanism have the same structure, each comprise a rod body with two ends respectively connected to the first transverse support frame and the second transverse support frame in a threaded manner, and a sliding sleeve respectively arranged on the first bearing platform and/or the second bearing platform.

3. The balancing apparatus for mounting an electromechanical device according to claim 1, wherein the first mount and the second mount are constructed of a plate material, and a plate surface of the first mount extends horizontally to at least one side so that a bearing surface thereof is larger than that of the second mount.

4. A balancing device for installation of electromechanical devices as claimed in claim 3, wherein a stopper is provided between the first and second platforms, the stopper being fixed to either the first or second platform.

5. The balance device for mounting electromechanical equipment of claim 1, wherein the first transverse supporting frame and the second transverse supporting frame are identical in structure, and each of the first transverse supporting frame and the second transverse supporting frame comprises at least a first transverse rod and a second transverse rod perpendicular to the first transverse rod.

6. A balancing device for installing electromechanical devices as claimed in claim 5, wherein an oblique support bar is provided between the vertical support frame and the first and/or second lateral support frames.

7. The balance device for mounting an electromechanical device according to claim 1, wherein a guide mechanism for guiding the relative movement of the first mount and the second mount is provided between the first mount and the second mount.