CN203903937U - Indoor power station equipment displacement mechanism - Google Patents

Indoor power station equipment displacement mechanism Download PDF

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Publication number
CN203903937U
CN203903937U CN201420278612.2U CN201420278612U CN203903937U CN 203903937 U CN203903937 U CN 203903937U CN 201420278612 U CN201420278612 U CN 201420278612U CN 203903937 U CN203903937 U CN 203903937U
Authority
CN
China
Prior art keywords
power station
station equipment
support bar
horizontal support
indoor power
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201420278612.2U
Other languages
Chinese (zh)
Inventor
户艳琴
卢婕
刘丽蕴
聂昀
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
State Grid Corp of China SGCC
Electric Power Research Institute of State Grid Jiangxi Electric Power Co Ltd
Original Assignee
State Grid Corp of China SGCC
Electric Power Research Institute of State Grid Jiangxi Electric Power Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by State Grid Corp of China SGCC, Electric Power Research Institute of State Grid Jiangxi Electric Power Co Ltd filed Critical State Grid Corp of China SGCC
Priority to CN201420278612.2U priority Critical patent/CN203903937U/en
Application granted granted Critical
Publication of CN203903937U publication Critical patent/CN203903937U/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The utility model relates to an indoor power station equipment displacement mechanism. The indoor power station equipment displacement mechanism is composed of a base wheel set mechanism (1), a connecting rod (3) with a bearing, a horizontal stiffening rod (4), a supporting mechanism (5), a horizontal supporting rod (6), a vertical supporting rod (7), a hydraulic device (8), an outer sleeve (9), an inner sleeve (10), a lifting rod (11), a hanging component (12), a rotation component (13) and a slant stiffening rod (14). The supporting mechanism (5) is installed on the connecting rod (3), provided with the bearing, of the base wheel set mechanism (1). By means of the indoor power station equipment displacement mechanism in the design, heavy objects can be moved in the two dimensional directions, namely power station equipment is moved, the positions, where the heavy objects need to be placed, of the lifted heavy objects can be accordingly, conveniently and finely adjusted, and power station equipment displacement is well achieved; in addition, the indoor power station equipment displacement mechanism in the design is small in size and suitable for being placed in the environment narrow in space for lifting and displacing the power station equipment. The indoor power station equipment displacement mechanism is suitable for indoor power station equipment displacement, and also suitable for displacement of the heavy objects in other fields.

Description

A kind of indoor power station equipment displacement mechanism
Technical field
The utility model relates to a kind of displacement mechanism, relates in particular to a kind of indoor power station equipment displacement mechanism, belongs to power station technical field.
Background technology
Be positioned at present indoor power station electric equipment and mainly comprise circuit breaker, disconnector, the equipment that current transformer etc. are relatively heavier, when safeguarding, conventionally need to carry out dislocation to these equipment, yet when these electric equipmenies are carried out to dislocation, adopting the mode of manpower is a kind of very difficult thing, large-scale lifting appliance of the prior art, as crane and engineering truck etc., can cannot proceed to due to space constraint the indoor dislocation work of carrying out electric equipment, prior art discloses a kind of converting station electric power equipment lifting appliance, comprise a seat pipe, on the periphery of seat pipe, be fixedly connected with anchor ear, the upper port of seat pipe insert one with a quarter bend tube for inside pipe wall free-running fit, vertical section of quarter bend tube is provided with one for connecting the suspension ring of pulley, vertical section of quarter bend tube is provided with an annulus limit dais equating with seat pipe external diameter, although the prior art has reduced the length of single pole effectively by two sections of assembling modes, be easy to carry, transportation and installation, meet the safety distance with charging equipment, also the substation that is applicable to narrow space is used, change traditional rope fixed form and adopt anchor ear to be bolted, improve stability and the reliability of device, yet, generally, although this device can be realized lifting, yet during for equipment dislocation, cannot realize preferably the equipment after lifting is carried out to dislocation.
Summary of the invention
The purpose of this utility model, proposes a kind of can realization preferably the equipment after lifting is carried out to the indoor power station equipment displacement mechanism of dislocation.
The technical solution of the utility model is, a kind of indoor power station equipment displacement mechanism of the utility model, described mechanism by base set mechanism 1, connecting rod 3 with bearing, horizontal stirrup 4, supporting mechanism 5, horizontal support bar 6, vertically strut bar 7, hydraulic efficiency gear 8, outer tube 9, inner sleeve 10, lifting boom 11, sprung parts 12, rotatable parts 13 and tiltedly stirrup 14 form.Supporting mechanism is installed on the connecting rod of present set mechanism band bearing;
Base set mechanism 1, comprises two groups of wheels, and described in every group, wheels comprise two wheels 2, and with the connecting rods 3 with bearing of two wheel sub-connections, and two described connecting rods link together by horizontal stirrup 4;
Two supporting mechanisms 5, are located at respectively on two connecting rods 3 with bearing, and described in each, supporting mechanism has horizontal support bar 6, vertical strut bar 7 and hydraulic efficiency gear 8; Described vertical strut bar 7 comprises outer tube 9 and is placed on the inner sleeve 10 of described outer tube inside; Described hydraulic efficiency gear 8 is located in described outer tube 9, and its drive end is connected with the bottom of described inner sleeve; Thereby be suitable for by vertically driving described inner sleeve to move along described outer tube; Described horizontal stirrup 4 is located under the top of described inner sleeve;
Lifting boom 11 two ends are arranged on respectively in the chute on described horizontal support bar 6, are horizontally placed on supporting mechanism, and are suitable under external force moving axially along the chute of horizontal support bar 6;
Sprung parts 12 is arranged on described lifting boom (11) midway location.One end of sprung parts 12 has the structure that is suitable for hanging weight, and the other end is connected with described lifting boom 11 and is suitable for moving along described lifting boom.
Described vertical strut bar both sides are tiltedly installed with two oblique stirrups, and its one end is connected with the outer tube of vertical strut bar, and the other end is supported on connecting rod sleeve pipe.
The utility model power station equipment displacement mechanism, the described hydraulic efficiency gear conduit under fluid pressure of two described supporting mechanisms is connected together, thereby be suitable for controlling two hydraulic efficiency gear by a hydraulic control device simultaneously, works.
The utility model power station equipment displacement mechanism, described lifting boom 11 passes through chute sliding block joint with described horizontal support bar; Described sprung parts and described lifting boom are sliding block joint.
The utility model power station equipment displacement mechanism, described horizontal support bar 6 centers are Screw hole structures, horizontal support bar 6 ends are provided with rotatable parts 13, rotatable parts one end is vertical one end that connects lifting boom 11 in horizontal support bar chute, rotatable parts other end cylindrical is screw thread, match with the screw at horizontal support bar 6 centers, end is provided with the handle of rotatable parts, and rotatable parts rotate to drive lifting boom 11 to make parallel motion on horizontal support bar 6 by handle.
Above-mentioned power station equipment displacement mechanism, two described wheels of described two groups of wheels are cardan wheel; And described connecting rod comprises connecting rod sleeve pipe and be located at respectively the connecting rod inner sleeve at described connecting rod sleeve pipe two ends, described connecting rod inner sleeve is suitable for along described connecting rod sleeve pipe axial motion; Described wheel is located on described connecting rod inner sleeve, and described supporting mechanism is located on described outer tube.
The utility model with respect to the beneficial effect of prior art is:
The utility model design can be by the direction moving heavy object two dimensions, be mobile power station equipment, thereby finely tune the position that can conveniently will place the weight after lifting, thereby realize well the dislocation that carries out power station equipment, in addition, due to the mechanism of above-mentioned design, its volume is smaller, is suitable for being positioned over lifting and the dislocation of in the environment of narrow space, realizing equipment; In addition, the utility model setting, by adopt hydraulic efficiency gear at strut bar place, can realize the lifting compared with large equipment.The described hydraulic efficiency gear conduit under fluid pressure of two supporting mechanisms is connected together, can realizes and by a hydraulic control device, control two hydraulic efficiency gear simultaneously and work, thus the balance while easily realizing lifting.By regulating rotary dynamic component, can regulate the level attitude of suspension rod 11, this just can be more prone to realize the mobile accuracy that the equipment being lifted by crane is carried out to dislocation, and final realization is precisely in place equipment.
The utility model is applicable to the dislocation of indoor power station equipment, is also applicable to the dislocation of other field to weight.
Accompanying drawing explanation
Fig. 1 is the utility model power station equipment displacement mechanism schematic diagram;
In figure, the 1st, base set mechanism; The 2nd, wheel; The 3rd, with the connecting rod of bearing; The 4th, horizontal stirrup; The 5th, supporting mechanism; The 6th, horizontal support bar; The 7th, vertical strut bar; The 8th, hydraulic efficiency gear; The 9th, outer tube; The 10th, inner sleeve; The 11st, lifting boom; The 12nd, sprung parts; The 13rd, rotatable parts; The 14th, oblique stirrup.
The specific embodiment
Figure 1 shows that the structure of a kind of indoor power station equipment displacement mechanism of the utility model embodiment, comprise: base set mechanism 1, comprise two groups of wheels, described in every group, wheels comprise two wheels 2, with the connecting rod 3 with bearing with two wheel sub-connections, and two described connecting rods 3 link together by stirrup 4;
Also comprise:
Two supporting mechanisms 5, are located at respectively on two described connecting rods 3, and described in each, supporting mechanism 5 has horizontal support bar 6, vertical strut bar 7 and hydraulic efficiency gear 8; Described vertical strut bar comprises outer tube 9 and is placed on the inner sleeve 10 of described outer tube inside; Described hydraulic efficiency gear 8 is located in described outer tube, and its drive end is connected with the bottom of described inner sleeve 10; Thereby be suitable for by vertically driving described inner sleeve 10 to move along described outer tube 9; Described horizontal support bar 6 is located on the top of described inner sleeve 10;
Lifting boom 11, is connected with two described horizontal support bars 6 respectively by its two ends, thereby is horizontally placed on described supporting mechanism 5, and be suitable for moving axially along described horizontal support bar 6;
Sprung parts 12, one end has the structure that is suitable for hanging weight, and the other end is connected with described lifting boom and is suitable for moving along described lifting boom;
The conduit under fluid pressure of the described hydraulic efficiency gear 8 of two described supporting mechanisms 5 is preferably be connected together (not marking) herein, thereby be suitable for controlling two hydraulic efficiency gear by a hydraulic control device simultaneously, works.
Described horizontal support bar 6 centers are Screw hole structures, horizontal support bar 6 ends are provided with rotatable parts 13, rotatable parts one end connects one end of horizontal support bar 6, rotatable parts other end cylindrical is screw thread, with horizontal support bar 6 centers be that screw matches, end is provided with the handle of rotatable parts, and rotatable parts rotate to drive lifting boom 11 to make parallel motion on horizontal support bar 6 by handle.
In addition, as a kind of preferred implementation of above-mentioned two kinds of embodiments, two described wheels of described two groups of wheels are cardan wheel; And described connecting rod comprises connecting rod sleeve pipe and be located at respectively the connecting rod inner sleeve at described connecting rod sleeve pipe two ends, described connecting rod inner sleeve is suitable for along described connecting rod sleeve pipe axial motion; Described wheel is located on described connecting rod inner sleeve, and described supporting mechanism is located on described connecting rod sleeve pipe.Moreover, in order to reinforce vertical strut bar, make it can the run-off the straight because of the movement of weight, in vertical strut bar both sides every described, be tiltedly installed with two reinforcing rods, its one end is connected with the vertical outer tube of strut bar, and the other end is supported on connecting rod sleeve pipe.
When need in relatively little space, power station, dislocation be as weights such as power station equipments, user can transfer inner sleeve 10 by operation hydraulic efficiency gear, make sprung parts 12 be positioned at suitable height, weight is hung on described sprung parts 12, then by hydraulic efficiency gear 8, rise inner sleeve 10, mobile described displacement mechanism, to the position that need to place weight, then will be controlled inner sleeve 10 by hydraulic efficiency gear and decline, thereby put down weight; If need to the position of the weight of placing be finely tuned, can be by move the horizontal placement location that sprung parts 12 regulates weight along back(ing) bar 11, if necessary, can drive lifting boom 11 to regulate the lengthwise position of back(ing) bar by two rotatable parts 13, and then the lengthwise position of adjusting weight, the fine setting work while realizing weight placement.
Above-described embodiment is only for example is clearly described, and the not restriction to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.

Claims (4)

1. an indoor power station equipment displacement mechanism, it is characterized in that, described mechanism is by base set mechanism (1), with the connecting rod (3) of bearing, horizontal stirrup (4), supporting mechanism (5), horizontal support bar (6), vertically strut bar (7), hydraulic efficiency gear (8), outer tube (9), inner sleeve (10), lifting boom (11), sprung parts (12), rotatable parts (13) and oblique stirrup (14) form; Supporting mechanism is installed on the connecting rod of present set mechanism band bearing; State base set mechanism (1), comprise two groups of wheels, described in every group, wheels comprise two wheels (2), and with the connecting rods with bearing (3) of two wheel sub-connections, and two described connecting rods link together by horizontal stirrup (4);
Two described supporting mechanisms (5), are located at respectively two connecting rods with bearing (3) upper, and described in each, supporting mechanism has horizontal support bar (6), vertical strut bar (7) and hydraulic efficiency gear (8); Described vertical strut bar (7) comprises outer tube (9) and is placed on the inner sleeve (10) of described outer tube inside; Described hydraulic efficiency gear (8) is located in described outer tube (9), and its drive end is connected with the bottom of described inner sleeve (10); Described horizontal stirrup (4) is located under the top of described inner sleeve;
Described lifting boom (11) two ends are arranged on respectively in the chute on described horizontal support bar (6), are horizontally placed on supporting mechanism;
Described sprung parts 12 is arranged on described lifting boom (11) midway location;
Described vertical strut bar both sides are tiltedly installed with two stirrups (14), and its one end is connected with the outer tube of vertical strut bar, and the other end is supported on connecting rod sleeve pipe.
2. a kind of indoor power station equipment displacement mechanism according to claim 1, is characterized in that, the hydraulic efficiency gear conduit under fluid pressure in two described supporting mechanisms is connected together.
3. a kind of indoor power station equipment displacement mechanism according to claim 1, is characterized in that, described lifting boom (11) passes through chute sliding block joint with described horizontal support bar (6); Described sprung parts (12) is sliding block joint with described lifting boom (12).
4. a kind of indoor power station equipment displacement mechanism according to claim 1, is characterized in that, described horizontal support bar (6) center is Screw hole structure; Horizontal support bar (6) end is provided with rotatable parts (13), rotatable parts one end is vertical one end that connects lifting boom (11) in horizontal support bar chute, rotatable parts (13) other end cylindrical is screw thread, with horizontal support bar (6) center be that screw matches, end is provided with the handle of rotatable parts, and rotatable parts rotate to drive lifting boom 11 to make parallel motion on horizontal support bar 6 by handle.
CN201420278612.2U 2014-05-29 2014-05-29 Indoor power station equipment displacement mechanism Expired - Fee Related CN203903937U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420278612.2U CN203903937U (en) 2014-05-29 2014-05-29 Indoor power station equipment displacement mechanism

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420278612.2U CN203903937U (en) 2014-05-29 2014-05-29 Indoor power station equipment displacement mechanism

Publications (1)

Publication Number Publication Date
CN203903937U true CN203903937U (en) 2014-10-29

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ID=51778226

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420278612.2U Expired - Fee Related CN203903937U (en) 2014-05-29 2014-05-29 Indoor power station equipment displacement mechanism

Country Status (1)

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CN (1) CN203903937U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112357350A (en) * 2020-09-30 2021-02-12 国网浙江新昌县供电有限公司 Cable reel support convenient to loading and unloading and transportation

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112357350A (en) * 2020-09-30 2021-02-12 国网浙江新昌县供电有限公司 Cable reel support convenient to loading and unloading and transportation

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C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20141029

Termination date: 20180529

CF01 Termination of patent right due to non-payment of annual fee