CN205472078U - Construction elevator's adjustable strutting arrangement that weighs - Google Patents
Construction elevator's adjustable strutting arrangement that weighs Download PDFInfo
- Publication number
- CN205472078U CN205472078U CN201620217535.9U CN201620217535U CN205472078U CN 205472078 U CN205472078 U CN 205472078U CN 201620217535 U CN201620217535 U CN 201620217535U CN 205472078 U CN205472078 U CN 205472078U
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- China
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- load
- guide rail
- bearing standard
- support
- supporting seat
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Abstract
The utility model belongs to a construction machinery equipment technical field specifically is a construction elevator's adjustable strutting arrangement that weighs, the adjustable template detaching tool comprises a pull bar, the vaulting pole, the supporting seat, pressure sensor, adjusting device and bearing standard festival, the one end of pull rod and vaulting pole is articulated through the supporting seat otic placode that round pin axle and supporting seat one end correspond respectively, and bolted connection adjusting device is passed through to this one end of supporting seat, this adjusting device sets up in from top to bottom between adjacent two sections bearing standard festival, pressure sensor sets up in adjusting device and the junction between upper portion bearing standard festival and/or lower part bearing standard festival, the pull rod, the vaulting pole, the other end of supporting seat respectively with be fixed in the built -in fitting that corresponds on the building and be connected. The utility model discloses divide into the multistage with the guide rail frame, undertake whole vertical load of every section specific guide rail degree of elevating in upper portion and within range to can this load numerical value of precision measurement, exceed theoretical scope if measure numerical value, then carry out the safety of power -off protection, protection personnel and equipment.
Description
Technical field
This utility model belongs to construction machinery equipment technical field, and the scalable of a kind of building hoist is weighed support means.
Background technology
Building hoist is vertical transport personnel and a kind of lifting means of material in construction, is mainly made up of cage, actuating device, guide rail bracket, attachment device and local protective fence.Along with the setting height(from bottom) of building hoist guide rail bracket is constantly increased, guide rail bracket deadweight also can constantly increase, thus causes the guide rail bracket of different parts by gap edge relatively greatly, and this situation is especially prominent in Super High building hoist.
Existing solution is that building hoist guide rail bracket carries out segmentation reinforcement from bottom to top, increases main chord of standard section wall thickness.The method increases equipment cost the most greatly, also further increases the deadweight of guide rail bracket, also results in device fabrication, shipping and installation difficulty.
Summary of the invention
The purpose of this utility model is to overcome above-mentioned deficiency, the scalable providing a kind of building hoist is weighed support means, guide rail bracket is divided into multistage, undertake the whole vertical loads in every section of top specific guide rail gantry height and scope thereof, and can accurately measure this load value, if measuring numerical value beyond teachings, then carry out power-off protection, thus eliminate the impact on guide rail bracket below of the vertical load of more than support means, protection personnel and the safety of equipment, fundamentally solve the problem that the deadweight of Super High building hoist guide rail bracket is excessive, reduce equipment cost, and significantly simplify the manufacture of equipment, shipping and installation.
For realizing above-mentioned technical purpose, the scheme that this utility model provides is: the scalable of a kind of building hoist is weighed support means, including pull bar, strut, support seat, pressure transducer, adjusting means and load-bearing standard knot, the support seat otic placode that pull bar passes through bearing pin corresponding with supporting seat one end respectively with one end of strut is hinged, and this one end supporting seat is bolted adjusting means, this adjusting means is arranged between neighbouring two sections of load-bearing standard knots, pressure transducer is arranged at the junction between adjusting means and top load-bearing standard knot and/or bottom load-bearing standard knot, pull bar, strut, support the other end of seat respectively be fixed on the connection of corresponding on building built-in fitting.
And, described load-bearing standard knot includes the support body being made up of main chord, center and hound, the bearing frame being provided with positioning sleeve is fixed in support body, the side of support body arranges tooth bar, main chord and the profile of tooth bar, position adapt with guide rail bracket, load-bearing standard knot with guide rail bracket abutting joint, and can allow elevator craning cage run through, for placement force sensor in positioning sleeve.
And, described adjusting means includes grillage, regulation set and regulation bolt, and regulation set is connected to change the height of regulation set pressure sensor for placement force sensor, regulation bolt and regulation external threading.
And, described support seat includes otic placode, square tube and for holding the supporting plate of adjusting means.
And, described pull bar is identical with the contour structures of strut, all includes two pipes and an adjusting rod, and pipe is female thread hollow structure and one end is provided with connection otic placode, adjusting rod is external thread structure and middle part is provided with rotation handle, and the two ends external screw thread of adjusting rod connects respectively at the female thread of two pipes.
The beneficial effects of the utility model are: this building hoist support means is novel in design, simple in construction, in that context it may be convenient to is arranged in the deadweight sharing guide rail bracket on the height and position that guide rail bracket is specified, and can measure monitoring magnitude of load in real time;This utility model is easy to connect with guide rail bracket, does not affect the globality of guide rail bracket, and elevator craning cage runs up and down and is not affected;For superelevation building hoist, guide rail bracket can be divided into multistage to hold up respectively by this utility model, thus it is substantially reduced the stress of bottom guide track frame, solve guide rail bracket because highly increasing the problem that bottom it, stress must progressively be strengthened too greatly, the manufacture of the guide rail bracket simplified, ship and install, and the cost of equipment is greatly reduced;At the building hoist that special occasions uses, according to construction demand, it is desirable to after building hoist guide rail bracket installs and uses certain height, remove one section of guide rail bracket of bottommost, and retaining the guide rail bracket on its top, this utility model can effectively solve this construction difficult problem.
Accompanying drawing explanation
Fig. 1 is shape assumption diagram of the present utility model.
Fig. 2 is the A enlarged drawing of Fig. 1.
Fig. 3 is external member 5 shape assumption diagram.
Fig. 4 is external member 9 shape assumption diagram.
Fig. 5 is external member 1 shape assumption diagram.
Fig. 6 is external member 2,3 shape assumption diagram.
Fig. 7 is that this utility model installs and uses figure.
Fig. 8 is this utility model layout drawing in Super High building hoist.
Wherein, 1, support seat, 2, pull bar, 3, strut, 4, load-bearing standard knot, 5, pressure transducer, 6, adjusting means, 7, bearing pin, 8, bolt, 9, bearing frame, 10, positioning sleeve, 11, main chord, 12, center, 13, tooth bar, 14, hound, 15, grillage, 16, regulation set, 17, regulation bolt, 18, seat otic placode is supported, 19, square tube, 20, supporting plate, 21, pipe, 22, adjusting rod, 23, connect otic placode, 24, built-in fitting, 25, guide rail bracket, 26, building, 27, basis, 28, scalable weigh support means, 29, attached wall.
Detailed description of the invention
Below in conjunction with the accompanying drawings and embodiment the utility model is described in further detail.
The present embodiment provides the scalable of a kind of building hoist to weigh support means, as depicted in figs. 1 and 2, including pull bar 2, strut 3, support seat 1, pressure transducer 5, adjusting means 6 and load-bearing standard knot 4, the support seat otic placode 18 that pull bar 2 passes through bearing pin 7 corresponding with supporting seat 1 one end respectively with one end of strut 3 is hinged, and this one end supporting seat 1 connects adjusting means 6 by bolt 8, this adjusting means 6 is arranged between neighbouring two sections of load-bearing standard knots 4, pressure transducer 5 is arranged at the junction between adjusting means 6 and top load-bearing standard knot and/or bottom load-bearing standard knot, pull bar 2, strut 3, support the other end of seat 1 respectively be fixed on built-in fitting 24 corresponding on building 26 and connect.
Further, as shown in Figure 3, described load-bearing standard knot 4 includes the support body being made up of main chord 11, center 12 and hound 14, the bearing frame 9 being provided with positioning sleeve 10 is fixed in support body, the side of support body arranges tooth bar 13, main chord 11 and the profile of tooth bar 13, position and adapts with guide rail bracket 25, and load-bearing standard knot 4 can be with guide rail bracket 25 abutting joint, and elevator craning cage can be allowed to run through, for placement force sensor 5 in positioning sleeve 10.
Further, as shown in Figure 4, described adjusting means 6 includes grillage 15, regulation set 16 and regulation bolt 17, and regulation set 16 is for placement force sensor 5, and regulation bolt 17 is threadeded with regulation set 16 and overlapped the height of 16 pressure sensors 5 for changing regulation.
Further, as it is shown in figure 5, described support seat 1 includes supporting seat otic placode 18, square tube 19 and for holding the supporting plate 20 of adjusting means 6.
Further, described pull bar 2 is identical with the contour structures of strut 3, but owing to its position arranged is different, such as Fig. 1, above be named pull bar 2 due to tension, pressurized below is named strut 3.As shown in Figure 6, all include two pipes 21 and an adjusting rod 22, pipe 21 is female thread hollow structure and one end is provided with connection otic placode 23, and adjusting rod 22 is provided with rotation handle for external thread structure and middle part, and the two ends external screw thread of adjusting rod 22 connects respectively at the female thread of two pipes 21.The length of entirety can be regulated by rotation adjusting lever 22.
Of the present utility model install and use form as shown in Figure 7.Load-bearing standard knot 4 is arranged between two sections of guide rail brackets 25, is connected with two sections guide rail bracket 25 respectively.Supporting seat 1, pull bar 2 and strut 3 and be connected formation stability triangle truss structure with the built-in fitting 24 on building 26 by bearing pin 7, pull bar 2 and strut 3 have length adjustment function, facilitate in-site installation.Load-bearing standard knot 4 height can be regulated by regulating bolt 17 in adjusting means 6, the size bearing vertical load on load-bearing standard knot 4 can be regulated.Pressure transducer 5 can detect the force value born in adjusting means 6, and monitoring in real time regulates the magnitude of load born in support means 31 of weighing, if numerical value is beyond prescribed limit, control system will carry out power-off protection, it is ensured that personnel and the safety of equipment.
By the way, scalable support means 28 of weighing can undertake whole vertical loads of its top certain height guide rail bracket 25, and the vertical load on its top will not be delivered on the guide rail bracket 25 of its underpart, the guide rail bracket 25 stress size of its underpart will be substantially reduced, and can be effectively controlled, thus solve the problem that high-rise building elevator guide bracket needs to strengthen.
As shown in Figure 8, for superelevation building hoist, many places scalable can be distributed on guide rail bracket weigh support means 28 according to the setting height(from bottom) of building hoist guide rail bracket.In this legend, on guide rail bracket, regulation is weighed support means 31 at uniform 3, and guide rail bracket is divided into guide rail bracket 25 be divided into 4 sections.Each scalable support means 28 of weighing undertakes whole vertical loads of one section of guide rail bracket 25 above it.Every section of guide rail bracket 25 is connected fixing by attached wall 29 with building 26.Bottom one section of guide rail bracket 25 is arranged on basis 27, is not subject to scalable above it and weighs the vertical load of all guide rail brackets 25 of support means more than 28.Using this scalable to weigh after support means 28, guide rail bracket 25 is not added with strength reason and can realize synchronizing to increase with building 26.
The above is only preferred implementation of the present utility model; it should be pointed out that, for those skilled in the art, on the premise of without departing from this utility model principle; can also make some improvement or deformation, these improve or deformation also should be regarded as protection domain of the present utility model.
Claims (5)
1. the scalable of a building hoist is weighed support means, it is characterized in that: include pull bar, strut, support seat, pressure transducer, adjusting means and load-bearing standard knot, the support seat otic placode that pull bar passes through bearing pin corresponding with supporting seat one end respectively with one end of strut is hinged, and this one end supporting seat is bolted adjusting means, this adjusting means is arranged between neighbouring two sections of load-bearing standard knots, pressure transducer is arranged at the junction between adjusting means and top load-bearing standard knot and/or bottom load-bearing standard knot, pull bar, strut, support the other end of seat respectively be fixed on the connection of corresponding on building built-in fitting.
The scalable of building hoist the most according to claim 1 is weighed support means, it is characterized in that: described load-bearing standard knot includes the support body being made up of main chord, center and hound, the bearing frame being provided with positioning sleeve is fixed in support body, the side of support body arranges tooth bar, main chord and the profile of tooth bar, position adapt with guide rail bracket, load-bearing standard knot with guide rail bracket abutting joint, and can allow elevator craning cage run through, for placement force sensor in positioning sleeve.
The scalable of building hoist the most according to claim 1 is weighed support means, it is characterized in that: described adjusting means includes grillage, regulation set and regulation bolt, regulation set is connected to change the height of regulation set pressure sensor for placement force sensor, regulation bolt and regulation external threading.
The scalable of building hoist the most according to claim 1 is weighed support means, it is characterised in that: described support seat includes otic placode, square tube and for holding the supporting plate of adjusting means.
The scalable of building hoist the most according to claim 1 is weighed support means, it is characterized in that: described pull bar is identical with the contour structures of strut, all include two pipes and an adjusting rod, pipe is female thread hollow structure and one end is provided with connection otic placode, adjusting rod is external thread structure and middle part is provided with rotation handle, and the two ends external screw thread of adjusting rod connects respectively at the female thread of two pipes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620217535.9U CN205472078U (en) | 2016-03-21 | 2016-03-21 | Construction elevator's adjustable strutting arrangement that weighs |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620217535.9U CN205472078U (en) | 2016-03-21 | 2016-03-21 | Construction elevator's adjustable strutting arrangement that weighs |
Publications (1)
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CN205472078U true CN205472078U (en) | 2016-08-17 |
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CN201620217535.9U Expired - Fee Related CN205472078U (en) | 2016-03-21 | 2016-03-21 | Construction elevator's adjustable strutting arrangement that weighs |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105692382A (en) * | 2016-03-21 | 2016-06-22 | 湖北江汉建筑工程机械有限公司 | Adjustable weighing and supporting device for construction hoist |
-
2016
- 2016-03-21 CN CN201620217535.9U patent/CN205472078U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105692382A (en) * | 2016-03-21 | 2016-06-22 | 湖北江汉建筑工程机械有限公司 | Adjustable weighing and supporting device for construction hoist |
CN105692382B (en) * | 2016-03-21 | 2017-12-22 | 湖北江汉建筑工程机械有限公司 | The adjustable support meanss of weighing of building hoist |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160817 Termination date: 20200321 |