CN208578819U - For building the connector of electromechanical installation hanger system - Google Patents
For building the connector of electromechanical installation hanger system Download PDFInfo
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- CN208578819U CN208578819U CN201820281497.2U CN201820281497U CN208578819U CN 208578819 U CN208578819 U CN 208578819U CN 201820281497 U CN201820281497 U CN 201820281497U CN 208578819 U CN208578819 U CN 208578819U
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Abstract
The utility model discloses a kind of for building the connector of electromechanical installation hanger system, to improve the anti-seismic performance for building electromechanical installation hanger system.The connector includes support, U-board and shaft;Wherein, support includes the bottom plate below a pair of side plates and a pair of side plates being located at and between a pair of side plates being connected to, and is respectively arranged with mutual corresponding shaft mounting hole in a pair of side plates, the bottom plate connecting hole for installing anchor bolt is provided on bottom plate;The two sides of U-board are flexibly connected with side plate corresponding in a pair of side plates by shaft respectively, are provided with oblique pull part connecting hole on the bottom surface of the U-board.The a part of above-mentioned connector as the oblique drawing device to improve the electromechanical installation hanger system structural stability of building plays the role of positioning oblique drawing device, and then improves the anti-seismic performance of the electromechanical installation hanger system of building by oblique drawing device.
Description
Technical field
This application involves the electromechanical installation hanger system of building and its dependency structures.
Background technique
The electromechanical installation hanger system of building is the machine for the facilities such as building interior conduit, route to be supported, positioned
Tool connects system.Currently, the requirement in the market to the electromechanical installation hanger system of building is higher and higher, therefore, it is necessary to develop
More convenient, anti-seismic performance is assembled out preferably builds electromechanical installation hanger system and its dependency structure.
Utility model content
Being designed to provide for the application is a kind of for building the connector of electromechanical installation hanger system, to improve building
The anti-seismic performance of electromechanics installation hanger system.
In order to realize the purpose of the application, according to the one aspect of the application, provide a kind of for building electromechanical installation
The connector of hanger system.The connector includes support, U-board and shaft;Wherein, the support includes a pair of side plates and position
Below described a pair of side plates and the bottom plate that is connected between described a pair of side plates, it is respectively arranged with mutually in a pair of side plates
Corresponding shaft mounting hole is provided with the bottom plate connecting hole for installing anchor bolt on the bottom plate;Distinguish the two sides of the U-board
It is flexibly connected with side plate corresponding in the pair of side plate by shaft, is provided with oblique pull part connecting hole on the bottom surface of the U-board.
Above-mentioned connector is as one to improve the electromechanical oblique drawing device for installing hanger system structural stability of building
Play the role of positioning oblique drawing device, and then improve the antidetonation of the electromechanical installation hanger system of building by oblique drawing device in part
Performance.
The application is described further with reference to the accompanying drawings and detailed description.The additional aspect of the application and excellent
Point will be set forth in part in the description, and partially will become apparent from the description below.Or the practice for passing through the application
It solves.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of threaded connector of the application;Fig. 2 is the left view of Fig. 1;Fig. 3 is the application one
The structural schematic diagram of kind threaded connector;Fig. 4 is a kind of structural schematic diagram of locking device of the application;Fig. 5 is the dismantling of Fig. 4
Figure;Fig. 6 is a kind of structural schematic diagram of channel steel of the application;Fig. 7 is structure when observing under another angle of channel steel shown in Fig. 6
Schematic diagram;Fig. 8 is a kind of structural schematic diagram of channel steel reinforced structure of the application;Fig. 9 is the disassembly diagram of Fig. 8;Figure 10 is the application
A kind of connector 90 ° of schematic diagrames intersected under connection usage scenarios between two channel steels;Figure 11 is a kind of attachment base of the application
Structural schematic diagram;Figure 12 is the disassembly diagram of Figure 11;Figure 13 is the schematic diagram of the connection structure of the attachment base of application drawing 11;Figure 14
For a kind of structural schematic diagram of attachment base of the application;Figure 15 is the disassembly diagram of Figure 14;Figure 16 is a kind of knot of attachment base of the application
Structure schematic diagram;Figure 17 is the schematic diagram of the connection structure of the attachment base of application drawing 16;Figure 18 is a kind of structure of nut of the application
Schematic diagram;Figure 19 is the side view of the nut of Figure 16;Figure 20 is sectional view along A-A in Figure 19;Figure 21 is a kind of anchor bolt of the application
Structural schematic diagram;Figure 22 is a kind of structural schematic diagram of anchor bolt of the application;Figure 23 is a kind of electromechanical installation branch of building of the application
The structural schematic diagram of hanger system;Figure 24 is the structural schematic diagram that can be used for a kind of connector of system of Figure 23;Figure 25 is can
A kind of structural schematic diagram of connector of system for Figure 23;Figure 26 is the knot that can be used for a kind of connector of system of Figure 23
Structure schematic diagram;Figure 27 is the schematic diagram of the connector of Figure 26 in a state of use;Figure 28 is the one kind that can be used for the system of Figure 23
The structural schematic diagram of connector;Figure 29 is the schematic diagram of the connector of Figure 28 in a state of use;Figure 30 is that can be used for Figure 23's
A kind of structural schematic diagram of connector of system;Figure 31 is the structural schematic diagram that can be used for a kind of connector of system of Figure 23;
Figure 32 is the structural schematic diagram that can be used for a kind of connector of system of Figure 23;Figure 33 is a kind of folder that can be used for the system of Figure 23
The structural schematic diagram of gripping member;Figure 34 is the disassembly diagram of Figure 33;Figure 35 is a kind of structural schematic diagram of connector of the application;Figure 36 is
The schematic diagram of the connection structure of the connector of application drawing 35;Figure 37 is a kind of structural schematic diagram of connector of the application;Figure 38 is
A kind of structural schematic diagram of connector of the application;Figure 39 is a kind of structural schematic diagram of channel steel reinforced member of the application;Figure 40 is
A kind of structural schematic diagram of locking device of the application.
Specific embodiment
Firstly the need of, it is noted that the technical solution provided in each section including following the description in the application
And technical characteristic, in the absence of conflict, these technical solutions and technical characteristic can be combined with each other.In addition, in the application
" N*M " occurred means " ox rice ", is the standard unit of torque.And "front", "rear", "left", "right" etc. indicate the term in orientation,
Only for the purposes of description, the improper restriction to the application should not be constituted.
Fig. 1 is a kind of structural schematic diagram of threaded connector of the application.Fig. 2 is the left view of Fig. 1.As shown in Figure 1, 2, should
Threaded connector includes head 120 and threaded shank 110, is additionally provided on the top surface on the head 120 and connects for fastening the screw thread
Fitting and when torque when tightened reaches preset value can be broken from the top surface and under twist into two parts portion 130, this twists into two parts portion
It is provided with and extends from top to bottom and what hole post lower end surface 133a at least extended to 120 top surface of head twists into two parts moment of torsion control hole in 130
133.Due to twisting into two parts moment of torsion control hole 133 generally by drilling processing at a blind hole, often moment of torsion control is being twisted into two parts
The bottom in hole 133 leaves a conical hole slot;In this case, above-mentioned " hole post lower end surface 133a " should not refer to conical hole slot
Lower end surface, and make the lower end surface for referring to conical hole slot upper end hole column, i.e. the end face that label " 133a " is marked in Fig. 1.
It is said from the angle of manufacture, the hole post lower end surface 133a for twisting into two parts moment of torsion control hole 133 is made just to extend to the top of head 120
There are the difficulties in machining accuracy control in face, therefore, the hole post lower end surface 133a for twisting into two parts moment of torsion control hole 133 can be sunk to head
Under 120 top surface.A benefit can also be brought in this way, that is, facilitate to make the portion of twisting into two parts 130 in fracture section close to head
120 top surface reduces after being broken in the probability of 120 top surface of head residual convex section.On this basis, moment of torsion control is twisted into two parts
Ideal distance between the hole post lower end surface 133a in hole 133 and the top surface on head 120 may be set to 0.2-2 millimeters, both facilitate control
The working depth of drilling column lower end surface 133a, but it is too deep and influence threaded connector to be unlikely to make to twist into two parts moment of torsion control hole 133
Intensity.Actual use shows to twist into two parts the distance between the top surface of the hole post lower end surface 133a in moment of torsion control hole 133 and head 120
When being set as 0.5 millimeter or 1 millimeter, twists into two parts and convex section is substantially not present on fracture 120 top surface of occiput of portion 130.
As shown in Figure 1, 2, in one embodiment of above-mentioned threaded connector, the portion 130 of twisting into two parts includes fastening stress
First 131 and taper type interconnecting piece 132, the big end end face of the taper type interconnecting piece 132 is connect with fastening 131 lower end surface of stress head
It is integrated, small end end face and the top surface on head 120 are connected as one, and the moment of torsion control hole 133 of twisting into two parts is in fastening stress head 131
Through hole is formed between taper type interconnecting piece 132.When fastening stress head 131 as fastening thread connector directly with fastening work
Tool contact, the position for receiving the external tightening torque applied, are generally configured to shape compatible with fastening tool, such as positive six
Side shape, octagon etc..The fastening stress head 131 is connect by taper type interconnecting piece 132 with the top surface on head 120, due to cone
Platform shape interconnecting piece 132 is connected as one by its small end end face and the top surface on head 120, and which guarantee connect in fastening thread
Portion 130 is twisted into two parts when part to be broken in the small end endface of the taper type interconnecting piece 132.In addition, above-mentioned taper type connection
Be formed by between the side wall in portion 132 and the top surface on head 120 angle vertex position may also be arranged to a chamfer radius≤
0.2 millimeter of wedge angle, in this way, when the portion of twisting into two parts 130 is after the small end endface of taper type interconnecting piece 132 is broken, Bu Huiyin
The radius of corner mistake at the vertex position of angle is formed by between the side wall of taper type interconnecting piece 132 and the top surface on head 120
The flash obvious and sharp in the vertex site residues greatly.The threaded connector of above-described embodiment can be directly on numerically controlled lathe
It is process;Wherein, portion 130 (including fastening stress head 131 and taper type interconnecting piece 132), head 120 and threaded shank are twisted into two parts
110 are formed on same rodlike blank by turnery processing, the top surface on the side wall of taper type interconnecting piece 132 and head 120 it
Between be formed by the vertex position of angle and carried out clear angle processing (being cut with sharp Lathe tool tip), guarantee wedge angle
It is formed;Drilling processing is carried out at the top of fastening stress head 131, twists into two parts moment of torsion control hole 133 to process.
Applied to the threaded connector of different occasions, they to twist into two parts torque preset value often also not identical.For example, building
It builds in electromechanical installation hanger system, the fastening requirements of the threaded connector on different parts may be different, and some places are twisted into two parts
Torque preset value is higher, and some is then lower.Therefore, when manufacturing threaded connector, it usually needs classification manufacture difference twists into two parts torsion
The threaded connector of square preset value, in addition, it is also necessary to the different threaded connector of torque preset value be twisted into two parts to these and classified
Management, therefore cause the inconvenience of above-mentioned threaded connector manufacture and intermediate links.In this regard, above-mentioned threaded connection provided by the present application
In another embodiment of part, a kind of improved threaded connector is provided.As shown in figure 3, the structure of the threaded connector with
The threaded connector provided in previous embodiment is consistent, but is theed improvement is that, has also been reserved and has been used in the portion of twisting into two parts 130
Expand twist into two parts the aperture in moment of torsion control hole 133 to adjust twist into two parts torque preset value subtract material counterbored area 134.In this way, when needing
Adjust when twisting into two parts torque preset value of the threaded connector, it is only necessary to make original to subtracting material counterbored area 134 and subtract material processing
Some twists into two parts the aperture increases in moment of torsion control hole 133, and at this moment, twisting into two parts torque preset value will reduce accordingly, to play tune
Section threaded connector twists into two parts the purpose of torque preset value.So-called " subtracting material processing ", can easily be realized using electric drill in fact, and
Installation hanger system installation electromechanical for building etc. needs the occasion of the large-scale use threaded connector, and electric drill is very general
Time one of tool.
Specifically, as shown in figure 3, the portion 130 of twisting into two parts (is in particular the fastening stress head in the portion of twisting into two parts 130
131) it is located on top surface and currently twists into two parts the periphery in moment of torsion control hole 133 and be provided with and adjustable twist into two parts torque preset value with other
Corresponding reaming cue mark 135, and represented by the reaming cue mark 135, exactly subtract the position of material counterbored area 134
It sets, in this way, the time for facilitating operator in needs accurately subtract material processing to subtracting material counterbored area 134.Such as Fig. 3 institute
Show, in this embodiment, reaming cue mark 135 include reaming aperture outline line 135a and with 135a pairs of line of reaming aperture outline
That answers twists into two parts torque preset value 135b.As seen from Figure 3, reaming aperture outline line 135a has defined one and has twisted into two parts portion
It is existing on 130 to twist into two parts moment of torsion control hole 133 with one heart but the bigger circle of diameter, above it to twist into two parts torque preset value 135b specific
" 60N*M " (and currently twisting into two parts 133 top of moment of torsion control hole with " 70N*M ") is shown as, which means that selecting and reaming aperture
The matched drill bit of contour line 135a in reaming aperture outline line 135a subtract material counterbored area 134 carry out reaming after, screw thread connect
Fitting twists into two parts torque preset value and will be adjusted to 60N*M from 70N*M.Certainly, reaming cue mark 135 can also include reaming hole
Diameter, to make operator directly select the drill bit of correspondingly-sized referring to the reaming aperture.In addition, reaming cue mark 135 can also
Including counterbore depth, so that allowing the operator to more easily progress reaming subtracts material processing.But if unmarked reaming is deep
Degree according to the depth for currently twisting into two parts moment of torsion control hole 133 or can also twist into two parts the height in portion 130 and determine counterbore depth.It is described
Reaming aperture outline line 135a can be added with torque preset value 135b is twisted into two parts by carrying out machine cut on 130 top surface of the portion of twisting into two parts
Work, the directly modes such as printing are formed, and by reaming aperture outline line 135a and can also twist into two parts torque preset value 135b setting special
On the patch of door, the patch is integrally then pasted onto 130 top surface of the portion of twisting into two parts again.It can will be twisted into two parts in portion 130 using patch
Some is twisted into two parts moment of torsion control hole 133 and is hidden, to keep threaded connector more attractive, while also differentiate operator more intuitively
Which threaded connector, which does not adjust, is twisted into two parts the aperture in moment of torsion control hole, which, which has adjusted, is twisted into two parts the aperture in moment of torsion control hole.
It, can be in short, since what threaded connector had been designed to that it twists into two parts portion twists into two parts the adjustable structure of torque preset value
According to usage amount and twist into two parts torque preset value selection usage amount and twist into two parts the biggish threaded connector of torque preset value mainly into
Row production, cost, efficiency and management etc. caused by improving because of the different threaded connectors for twisting into two parts torque preset value of production
The problem of aspect.
Fig. 4 is that the application is a kind of for building the structural schematic diagram of the locking device of electromechanical installation hanger system.Fig. 5 is
The disassembly diagram of Fig. 4.As shown in Figure 4,5, which includes bolt 101 and nut 200, and the bolt 101 has head 120
With threaded shank 110, the nut 200 is adapted with the threaded shank 110, in addition, the nut 200 is the item that length is greater than width
Shape nut, the both ends on the top surface of the nut 200 close to 200 length direction of nut are respectively arranged with one along nut width side
To the positioning tooth socket 210 of extension;Platen 300 is set in the threaded shank 110 between head 120 and nut 200, it is described
It is connected with to take between platen 300 and nut 200 and turns part 400.
Above-mentioned locking device can be used in a kind of following locking mechanism for building electromechanical installation hanger system.Specifically
For, which includes channel steel, above-mentioned locking device and by locking member.Now with channel steel shown in Fig. 6-10
For 600 structures, illustrate how the locking mechanism passes through locking device and will be installed on the channel steel by locking member.With reference to Fig. 6-10
Shown in channel steel 600 comprising left plate 610, right side plate 620 and the bottom being connected between left plate 610 and right side plate 620
Plate 630, the edge of a wing of the left plate 610 and the edge of a wing of right side plate 620 are turned back formed in symmetrical one pair respectively inwards
Flange 650 is equipped with positioning tooth bar 651 on the end face of the pair of in-flanges 650.Obviously, in above-mentioned locking mechanism, locking dress
Each positioning tooth bar that each positioning tooth socket 210 on the nut 200 set will be respectively used on a pair of of in-flanges 650 with channel steel 600
651 are engaged.And it is described by locking member then and being pressed between the top of channel steel 600 and the platen 300 of locking device
The device that is locked is locked on channel steel 600, is achieved in by the installation of locking member.
It is big with 200 shape of nut of the locking device by being additionally provided on locking member for convenient for by the locking of locking member
The small through-hole being adapted to be passed through for the nut 200 being connected in threaded shank 110 with specific direction, in this way, locking device
Nut 200 passes through the through-hole and connect again with channel steel 600.Since the nut 200 after the through-hole is one on entering channel steel 600
After the groove formed between in-flanges 650, need to rotate each positioning tooth socket 210 that 90 ° are just able to achieve on nut 200 respectively with slot
Each positioning tooth bar 651 on a pair of of in-flanges 650 of steel 600 is engaged, and therefore, is generally worked as and is pressed in channel steel by locking member
When between 600 tops and the platen 300 of locking device, the length direction of the through-hole is vertical with the length direction of nut 200
's.And take turn part 400 then play the role of it is such, it may be assumed that will be installed on channel steel 600 by locking member by the locking device
During, can first be stirred on the outside of locking device platen 300 so that by take turn part 400 drive nut 200 rotated,
Keep the direction of nut 200 consistent with by the direction of through-hole compatible with 200 shape size of nut on locking member, thus convenient
Pass through nut 200 by the groove that is formed a pair of in-flanges on locking member and channel steel 600 by the through-hole, hereafter,
By the top of locking member stir again platen 300 so that by take turn part 400 drive nut 200 rotated, make nut
The length direction of 200 length direction and the through-hole is perpendicular, so make each positioning tooth socket 210 on nut 200 respectively with
Each positioning tooth bar 651 on a pair of of in-flanges 650 of channel steel 600 is engaged, and finally passes through the bolt of fastening locking device again
101 can will be mounted on channel steel 600 by locking member.
As shown in figure 5, above-mentioned take turns the use of part 400 in one embodiment of above-mentioned locking device provided by the present application
Being sleeved on taking in threaded shank 110 and between platen 300 and nut 200 turns spring 401, this is taken turns the two of spring 401
End is taken with platen 300 and nut 200 respectively turns connection.Turn part 400 due to taking and turn spring 401 using above-mentioned taking, in bolt
During gradually tightening between 101 threaded shank 110 and nut 200, this, which is taken, turns spring 401 and is also compressed accordingly, therefore
Take and turn the presence of part 400 and can't interfere the fastening of bolt 101, meanwhile, take turn after spring 401 is compressed can bolt 101 with
A pair of active force axially outward is generated between nut 200, can prevent from loosening between bolt 101 and nut 200.It takes and turns bullet
It is more that the mode for turning to connect is taken at the both ends of spring 401 with platen 300 and nut 200 respectively.In the above-described embodiments, it takes and turns spring
The spring wire of one end on 401 for connect with nut 200 exists into being arranged to taking the outside for turning spring 401 and extend and bend to cooperate
In the spring wire locating slot 220 of 200 side of nut, this makes it possible to turn spring 401 and rotate effective to drive nut 200 by taking
Rotation.And take and turn between spring 401 and platen 300, it can will be taken in such a way that buckle is set on platen 300 and turn spring
401 spring wire is clamped, and turns connection to realize and take.In addition, above-described embodiment is located at head also in the threaded shank 110
It is set with washer 500 between 120 and platen 300, and is arranged on 300 top surface of platen for contacting pressure with the washer 500
Tight boss 310, to be further ensured that coupling mechanism force.Increase washer 500 and boss 310 in addition, can also be arranged on boss 310
Between frictional force lines.
Bolt 101 in above-mentioned locking device provided by the present application can use common bolt, before can also using
With the threaded connector for twisting into two parts portion 130 provided in each related embodiment in face.
Fig. 6 is that the application is a kind of for building the structural schematic diagram of the channel steel of electromechanical installation hanger system.Fig. 7 is Fig. 6
Structural schematic diagram when being observed under another angle of shown channel steel.As shown in Figure 6,7, the channel steel 600 include left plate 610,
Right side plate 620 and the bottom plate 630 being connected between left plate 610 and right side plate 620, wherein be spaced and set on the bottom plate 630
It is equipped with flanging bore 640, the bore edges of the flanging bore 640 are towards 600 inner bulge of channel steel.Channel steel 600 is the electromechanical installation of building
Important component in hanger system is the main structure of the electromechanical installation hanger system skeleton of composition building.Therefore, channel steel
Strength and stiffness are affected for the electromechanical installation hanger system entirety anti-seismic performance of building.Typically, channel steel is improved
Strength and stiffness, mainly increase material or improve material performance.However, increasing material, (as increased wall thickness, setting is reinforced
Muscle etc.) increased costs are not only resulted in, while also will increase the weight of channel steel, to other in the electromechanical installation hanger system of building
The requirement of the relevant technologies can also correspondingly increase.And material property is improved, the increased costs of channel steel can be made, the market for reducing product is competing
Strive power.And above-mentioned channel steel provided by the present application, not only without increasing material, instead by being spaced setting flange on bottom plate 630
Hole 640 and reduce material, make the weight saving of channel steel;Since the bore edges of flanging bore 640 are towards 600 inner bulge of channel steel, this
The bore edges of a little protrusions considerably increase channel steel 600 when resisting along load (i.e. the transverse load) of 600 width direction of channel steel
Anti-deformation, and be easily deformed the exactly current insufficient major embodiment of channel steel strength and stiffness under transverse load, solve
This problem can be obviously improved the anti-seismic performance of channel steel and the electromechanical installation hanger system entirety of building.
The sum of the area of throughhole portions of the flanging bore 640 can be generally designed as to the 25-75% of 630 area of bottom plate.
Wherein, the sum of the area of throughhole portions of the flanging bore 640 is designed as the 30-45% of 630 area of bottom plate is than convenient
's.Flanging bore 640 can be by carrying out mould punching molding to channel steel.As shown in Figure 6,7, at one of channel steel provided by the present application
In embodiment, row's flanging bore 640, and each flanging bore edge in the row flanging bore 640 are provided only on the bottom plate 630
The length direction of channel steel is alternatively arranged, and can reduce the stamping forming difficulty of flanging bore 640 and cost in this way.In addition, the flange
The height of projection of the bore edges in hole 640 is generally 0.5-2 times of 630 thickness of bottom plate.If the protrusion of the bore edges of flanging bore 640 is high
Degree is less than 0.5 times of 630 thickness of bottom plate, and to improving, anti-deformation effect of the channel steel under transverse load is unobvious;If more than
2 times of 630 thickness of bottom plate, will increase the manufacture difficulty of flanging bore 640.In the channel steel that the above embodiments of the present application provide, flange
The height of projection of the bore edges in hole 640 is just 1 times of 630 thickness of bottom plate.In addition, the preferably circular hole of the flanging bore 640,
Slotted eye or both ends are arc-shaped rectangular opening.In the channel steel that the above embodiments of the present application provide, flanging bore 640 is used
Both ends are arc-shaped rectangular opening, and the length direction of these rectangular openings is consistent with the length direction of channel steel 600.
For the building electromechanics installed and used at present installs hanger system, probably it is difficult to be equipped with flange with above-mentioned
The channel steel in hole 640 goes to substitute their existing channel steels on a large scale.At this moment, it is necessary to by certain technological means, as far as possible
It is simple to realize the reinforcing for having channel steel to these.Based on such demand, present invention also provides below for building electromechanics
The channel steel reinforced member and channel steel reinforced structure of hanger system are installed.Fig. 8 is a kind of structure of channel steel reinforced structure of the application
Schematic diagram.Fig. 9 is the disassembly diagram of Fig. 8.As shown in Figure 8,9, for building the channel steel reinforced structure of electromechanical installation hanger system,
Including channel steel 600, locking device and channel steel reinforced member 700, wherein the channel steel 600 includes left plate 610, right side plate
620 and the bottom plate 630 that is connected between left plate 610 and right side plate 620, the edge of a wing of the left plate 610 and right side plate
620 edge of a wing is turned back respectively inwards forms symmetrical a pair of of in-flanges 650, on the end face of the pair of in-flanges 650
Equipped with positioning tooth bar 651;The locking device includes bolt 101 and nut 200, and the bolt 101 has head and threaded shank,
The nut 200 is adapted with the threaded shank, which is the bar shaped nut that length is greater than width, the top surface of the nut 200
The upper both ends close to 200 length direction of nut are respectively arranged with the positioning tooth socket extended along 200 width direction of nut
210, each tooth socket 210 that positions is engaged with each positioning tooth bar 651 on channel steel 600 respectively;The channel steel reinforced member 700 wraps
Include the outer locating fastener 720 of central plate 710, a pair of of the channel steel being respectively arranged on 710 or so two opposite side of central plate and difference
It is set to locating fastener 730, the outer locating fastener of a pair of of channel steel in a pair of of channel steel on 710 two opposite side in front and back of central plate
720 clamp the lateral surface of the lateral surface of left plate 610 and right side plate 620, positioning in the pair of channel steel from outside to inside respectively
Buckle 730 resists the medial surface of a pair of of in-flanges 650 from inside to outside respectively, and the central plate 710 is pressed in 600 top of channel steel
Between the head of the bolt of locking device, there is the through-hole 711 passed through for threaded shank on the central plate 710.Above-mentioned channel steel
Reinforced structure and channel steel reinforced member clamp left plate 610 by locating fastener 720 outside a pair of of channel steel from outside to inside respectively
The lateral surface of lateral surface and right side plate 620, and a pair of of varus is resisted by locating fastener 730 in a pair of of channel steel from inside to outside respectively
The medial surface on side 650, thus effectively channel steel 600 is carried out it is structure-reinforced, improve channel steel 600 integral strength and rigidity, prevent
Channel steel 600 deforms, and promotes the anti-seismic performance of channel steel 600.Channel steel 600 in the channel steel reinforced structure in the conceived case can
To be any one channel steel of this specification offer.In addition, the locking device in the channel steel reinforced structure, in possible situation
Under, also substituted by any other a kind of locking device provided in this specification.
As shown in Figure 8,9, in one embodiment of the above-mentioned channel steel reinforced structure of the application, locking device by bolt 101,
Nut 200 forms, wherein the top of nut 200 is equipped with the rotation plectrum 230 of one with 200 one of nut, rotates plectrum
230 center is equipped with a circular through-hole, the through-hole and 711 (this of through-hole on the central plate 710 of channel steel reinforced member 700
When the through-hole 711 be also round hole) it is corresponding.In this embodiment, the specific mounting means of channel steel reinforced member 700 are as follows: firstly,
The threaded shank of bolt 101 is sequentially passed through to through-hole 711 and the rotation on the central plate 710 of channel steel reinforced member 700 from top to bottom
It is cooperatively connected after transferring the through-hole on piece 230 with nut 200;Then, the direction of adjusting nut 200 makes it into channel steel 600
In groove between a pair of of in-flanges 650;Then, a hand holds channel steel reinforced member 700, and another hand is from channel steel strengthening section
Rotation plectrum 230 is stirred in the lower section of part 700, is rotated by 90 ° rotation plectrum 230 together with nut 200, thus by nut 200
Positioning tooth socket 210 is engaged with the positioning tooth bar 651 on a pair of of in-flanges 650 of channel steel 600 respectively;Adjust channel steel reinforced member
700, so that its a pair of of outer locating fastener 720 of channel steel is clamped the lateral surface and right side plate of channel steel left plate 610 from outside to inside respectively
620 lateral surface, locating fastener 730 resists the medial surface of channel steel a pair of in-flanges 650 from inside to outside respectively in a pair of of channel steel;So
Bolt 101 is further tightened afterwards, and channel steel reinforced member 700 is fastened at the top of channel steel between the head of bolt 101.Obviously,
Since the channel steel reinforced structure of above-described embodiment does not use the locking device of Fig. 4-5, by the positioning tooth socket 210 on nut 200
It is more inconvenient when being engaged respectively with the positioning tooth bar 651 on a pair of of in-flanges 650 of channel steel 600.
It should be pointed out that although channel steel 600 shown in Fig. 6-10 includes side plate 610, right side plate 620 and is connected to a left side
Bottom plate 630 between side plate 610 and right side plate 620, but do not indicate that the cross section of these channel steels 600 can only be in U-shape (cross section
The channel steel being in U-shape can be described as " U-type groove steel ").In fact, the cross section of these channel steels 600 can also H-shaped (cross section be H-shaped
Channel steel can be described as " H-type groove steel ") etc. shapes.When channel steel 600 is H-type groove steel, bottom plate 630 is exactly the cross among H-type groove steel
Plate;At this point, the bore edges of the flanging bore 640 on bottom plate 630 no matter towards bottom plate 630 which side protrusion, be construed as " court
600 inner bulge of channel steel ".
In addition, present invention also provides a kind of connectors.Figure 10 is the connector 90 ° of phase commissures between two channel steels
Connect the schematic diagram under usage scenario.As shown in Figure 10, for building the connector of electromechanical installation hanger system, including the first company
Fishplate bar 810, the second connecting plate 820 and third connecting plate 830, wherein the first connecting plate 810 is located in the first plane, and has
First connecting portion 811 and second connecting portion 812 are provided with the first connecting hole 813, second connection in first connecting portion 811
The second connecting hole 814 is provided in portion 812;Second connecting plate 820 is located in the second plane perpendicular with the first plane, and has
There is the third interconnecting piece 821 being connected with the inner side edge of first connecting portion 811, is provided with third connecting hole on third interconnecting piece 821
822;Third connecting plate 830 is located in the third plane vertical with the first plane and the second plane, and has and connect with second
The 4th connected interconnecting piece 831 of the bottom edge of the inner side edge in portion 812 and third interconnecting piece 821 is provided with the on the 4th interconnecting piece 831
Four connecting holes 832;First connecting hole 813, the second connecting hole 814, third connecting hole 822 and the 4th connecting hole 832 are
Shape size is identical and length is greater than the strip-shaped hole of width, the length of the length direction of the first connecting hole 813 and the second connecting hole 814
Degree direction is vertical on the first plane, and the length direction of the first connecting hole 813 is consistent with the length direction of third connecting hole 822,
The length direction of second connecting hole 814 is consistent with the length direction of the 4th connecting hole 832.Obviously, above-mentioned connector can cooperate
Using locking device provided by the present application, 90 ° of intersection connections between two channel steels are realized.Specifically, shown in Figure 10, above-mentioned reality
The connector of example is applied, third connecting hole 822 and the 4th connecting hole 832 are located in orthogonal plane, wherein third
It is mounted on the channel steel 600 being vertically arranged at connecting hole 822 by a locking device, and then passed through at the 4th connecting hole 832
Another locking device is mounted on a horizontally disposed channel steel 600.
Figure 11 is that the application is a kind of for building the structural schematic diagram of the attachment base of electromechanical installation hanger system.Figure 12 is
The disassembly diagram of Figure 11.As figs 11-13, which includes support 900, linking arm 1000, shaft 1400 and attachment screw
102;Wherein, support 900 and including a pair of side plates 910 and positioned at 910 lower section of a pair of side plates be connected between a pair of side plates 910
Bottom plate 920 is respectively arranged with mutual corresponding shaft mounting hole 911 in a pair of side plates 910, and bottom plate company is provided on bottom plate 920
Connect hole 921;Linking arm includes stringer board 1010 and transverse slat 1020, and stringer board 1010 is equipped with stringer board slot 1011 in the stringer board
Two sides on 1010 positioned at stringer board slot 1011 form yoke 1012 and lower yoke 1013, set on the medial surface of lower yoke 1013
There is attachment screw front accommodation groove 1014, company corresponding with attachment screw front accommodation groove 1014 is provided on upper yoke 1012
Screw resigning area 1015 is met, the shaft connecting hole 1016 for deviateing stringer board slot 1011 is also set up on the stringer board 1010;Transverse slat 1020
Transverse slat slot 1021 is equipped with to which the two sides on the transverse slat 1020 positioned at transverse slat slot 1021 form left yoke 1022 and the right side
The head of yoke 1023, left yoke 1022 and right yoke 1023 is bent to form shaft drag hook 1024 to the same side of transverse slat 1020,
Transverse slat threaded hole 1025 is additionally provided on the transverse slat 1020;Pass through stringer board slot 1011 and cross between stringer board 1010 and transverse slat 1020
The grafting each other in a manner of it can only inversely deviate from of plate slot 1021, shaft 1400 are mounted on the shaft mounting hole of a pair of side plates 910
It on 911 and is set on shaft connecting hole 1016 and shaft drag hook 1024, between the medial surface and transverse slat 1020 of lower yoke 1013
It is reserved with gap, attachment screw 102 is set in attachment screw resigning area 1015 and its threaded shank and transverse slat threaded hole 1025 are suitable
With connection, the head of the attachment screw 102 is used to cooperate across gap and attachment screw front accommodation groove 1014;On bottom plate 920
Bottom plate connecting hole 921 is respectively arranged with positioned at the two sides of shaft 1400.In addition, being inserted on the medial surface of lower yoke 1013 close to stringer board
Retention bead 1017 can also be arranged in the bottom of slot 1011.It is close on attachment screw front accommodation groove 1014 and retention bead 1017
The side of 1011 bottom of stringer board slot can be configured as circular arc chamfering.
Figure 13 is the schematic diagram of the connection structure of the attachment base of application drawing 11.As shown in figure 13, which includes: logical
Cross the channel steel 600 and supporter of above-mentioned attachment base connection, wherein the lower yoke 1013 of the bottom plate insertion attachment base of channel steel 600
In the gap reserved between medial surface and transverse slat 1020, and it is connected screw 102 and is locked on lower yoke 1013, attachment screw
102 front passes through or withstands 600 bottom plate of channel steel and attachment screw front accommodation groove 1014 cooperates, supporter and the attachment base
It is connected between bottom plate 920 by anchor bolt 1100;Anchor bolt 1100 includes anchoring section 1110, threaded shank and the lock being adapted to threaded shank
Tight nut 1130, anchoring section are located in supporter, threaded shank after bottom plate connecting hole 921 with 1130 company of adaptation of locking nut
It connects.By the connection structure it is found that the effect of above-mentioned attachment base is to realize the connection of channel steel 600 and supporter, and this is building
Building in electromechanical installation hanger system is a common application scenarios.
Above-mentioned attachment base can quickly realize the connection with channel steel, and attachment base is difficult to separate with channel steel after connection, makes
The connection of attachment base and channel steel has both assembly convenience and good anti-seismic performance.Turn due to being located on the bottom plate 920 of attachment base
The two sides of axis 1400 are respectively arranged with bottom plate connecting hole 921, and anchor bolt 1100 is respectively mounted on these bottom plate connecting holes 921 and passes through this
A little anchor bolts 1100 connect attachment base with supporter (top surface of such as building), ensure that the uniform stressed of bottom plate 920, mention
The high anti-seismic performance connected between attachment base and supporter.When stringer board slot 1011 close on the medial surface in lower yoke 1013
Bottom be arranged retention bead 1017 when, by channel steel bottom plate insertion attachment base lower yoke 1013 medial surface and transverse slat 1020
Between reserve gap in when, which plays the position-limiting action to channel steel bottom plate insertion depth, to ensure that
Can smoothly it cooperate between attachment screw 102 and attachment screw front accommodation groove 1014.And in attachment screw front accommodation groove
1014 and retention bead 1017 on the side of the bottom of stringer board slot 1011 circular arc chamfering that is arranged, then can be by channel steel
Certain guiding is played when the gap reserved between the medial surface and transverse slat 1020 of the lower yoke 1013 of bottom plate insertion attachment base to make
With.
In the connection structure of above-mentioned attachment base and the application attachment base, attachment screw 102 is preferably used and is provided with and this
Apply for the identical screw for twisting into two parts portion 130 and dependency structure of above-mentioned various threaded connectors.In addition, anchor bolt 1100 then preferably uses
The anchor bolt (will be described hereinafter) provided in this specification.
Figure 14 is the structural schematic diagram for the attachment base that the application another kind is used to build electromechanical installation hanger system.Figure 15
For the disassembly diagram of Figure 14.It as shown in figs. 14-15, further include setting on the basis of attachment base attachment base shown in Figure 11-13
Additional attachment screw 103 in 102 side of attachment screw, the medial surface of lower yoke 1013, which is equipped with additional attachment screw front, to be held
Slot 1018 is set, added thread hole 1026 is additionally provided on transverse slat 1020, adds threaded shank and the added thread hole of attachment screw 103
1026 adaptation connections, the front for adding attachment screw 103 are used for across the gap and additional attachment screw front accommodation groove
1018 cooperations.Preferably, along the grafting side of stringer board 1010 and transverse slat 1020 between attachment screw 102 and additional attachment screw 103
To being alternatively arranged.In addition, can also be set on additional attachment screw front accommodation groove 1018 close to the side of the bottom of stringer board slot 1011
It is set to circular arc chamfering.Attachment base shown in Figure 14-15 is due to being provided with additional attachment screw 103 and corresponding being provided with additional connect
Screw front accommodation groove 1018 and added thread hole 1026 are connect, the bottom plate of channel steel will pass through attachment screw 102 and additional connection spiral shell
Nail 103 is locked on lower yoke 1013, further improves the anti-seismic performance connected between attachment base and channel steel.
Figure 16 is the structural schematic diagram for the attachment base that the application another kind is used to build electromechanical installation hanger system.Figure 17
For the schematic diagram of the connection structure of the attachment base of application drawing 16.Such as Figure 16-17, which includes: the first connector
1210, the first connector 1210 includes carrying out bending process respectively to the different parts for the steel plate for manufacturing first connector 1210
The head section connecting plate 1201 for being sequentially connected and being located in Different Plane, the middle section connecting plate 1202 formed afterwards is connected with endpiece
Connecting hole 1204 is respectively arranged on plate 1203, head section connecting plate 1201 and endpiece connecting plate 1203;Second connector 1220, the
Two connectors 1220 include being formed after carrying out bending process respectively to the different parts for the steel plate for manufacturing second connector 1220
Be sequentially connected and be located at the head section connecting plate 1201 in Different Plane, middle section connecting plate 1202 and endpiece connecting plate
1203, connecting hole 1204 is respectively arranged on head section connecting plate 1201 and endpiece connecting plate 1203;The head of first connector 1210
It is connected between section connecting plate 1201 and the head section connecting plate 1201 of the second connector 1220 by screw bolt and nut, the screw rod of bolt
Across the connecting hole 1204 of the head section connecting plate 1201 of the first connector 1210 and the head section connecting plate of the second connector 1220
Connection is adapted to nut after 1201 connecting hole 1204;The endpiece connecting plate 1203 of first connector 1210 has a pair of mutually flat
Capable opposite side and one are connected between a pair of opposite side being parallel to each other and the adjacent side vertical to the opposite side being parallel to each other with this;It should
First connector 1210 include the outer locating fastener 1211 of a pair of of channel steel being respectively arranged on a pair of opposite side being parallel to each other and
It is set to locating fastener 1212 in the channel steel on adjacent side;The outer locating fastener 1211 of a pair of of channel steel for clamping from outside to inside respectively
It is parallel with the endpiece connecting plate 1203 of the first connector 1210 and be connected on the endpiece connecting plate 1203 of the first connector 1210
Channel steel 600 opposite sides plate lateral surface, locating fastener 1212 for resisting the opposite of channel steel 600 from inside to outside in channel steel
The medial surface of both side plate.
Preferably, in attachment base 1200, head section connecting plate 1201, middle section connecting plate 1202 and the tail of the first connector 1210
Section connecting plate 1203 is to carry out bending process respectively by two different parts to the steel plate for manufacturing first connector 1210
Formed afterwards, the middle section connecting plate 1202 of the first connector 1210 respectively directly with its head section connecting plate 1201 and endpiece connecting plate
1203 connections;Head section connecting plate 1201, middle section connecting plate 1202 and the endpiece connecting plate 1203 of second connector 1220 are to pass through
Two different parts of the steel plate for manufacturing second connector 1220 are carried out being formed after bending process respectively, the second connector
1220 middle section connecting plate 1202 is directly connect with its head section connecting plate 1201 and endpiece connecting plate 1203 respectively.Preferably,
A connection piece 1210 is formed entirely through steel plate punched;Second connector 1220 is formed entirely through steel plate punched.Preferably,
Connecting hole 1204 on the endpiece connecting plate 1203 of a connection piece 1210 is the strip-shaped hole that length is greater than width;The length of the strip-shaped hole
It is consistent with the direction of the pair of opposite side being parallel to each other on first connector 1210 to spend direction.Preferably, the first connector
The direction of a pair of opposite side being parallel to each other is arranged at intervals with along first connector 1210 on 1210 endpiece connecting plate 1203
Two connecting holes 1204.Preferably, the connecting hole 1204 on the endpiece connecting plate 1203 of the second connector 1220 is round hole.
Connection structure as shown in figure 17, including the channel steel 600 connected by attachment base 1200 shown in Figure 16 and support
Body, wherein between channel steel 600 and the first connector 1210 of the attachment base 1200 by locking device connect, supporter with should
It is connected between second connector 1220 of attachment base 1200 by anchor bolt 1100;Channel steel 600 is connect by locking device with first
The endpiece connecting plate 1203 of part 1210 connects, the connecting hole on the endpiece connecting plate 1203 of locking device and the first connector 1210
1204 match, and the outer difference of locating fastener 1211 of a pair of of channel steel on the endpiece connecting plate 1203 of the first connector 1210 is from outside to inside
The lateral surface of the opposite sides plate of channel steel 600 is clamped, the channel steel on the endpiece connecting plate 1203 of the first connector 1210 is default
Position buckle 1212 resists the medial surface of the opposite sides plate of channel steel 600 from inside to outside respectively;Anchor bolt 1100 include anchoring section 1110,
Threaded shank 1120 and the locking nut 1130 being adapted to threaded shank 1120, anchoring section 1110 are located in supporter, threaded shank
1120 are adapted to connection with locking nut 1130 after the connecting hole 1204 on the endpiece connecting plate 1203 of the second connector 1220.
As it can be seen that the effect of attachment base shown in Figure 16-17 is equally to realize the connection of channel steel 600 and supporter.Shown in Figure 16-17
Attachment base in, due to the head section connecting plate 1201 of its first connector 1210 and the second connector 1220, middle section connecting plate
1202 and endpiece connecting plate 1203 be to be formed after the different parts of steel plate carry out bending process respectively, by bending plus
The control of the position of work, direction and amplitude can make attachment base adapt to connect in space between channel steel 600 and supporter direction,
The requirement of position.Due to being provided on the first connector 1210 for being connect with channel steel outside channel steel in locating fastener 1211 and channel steel
Locating fastener 1212, therefore, the first connector 1210 can play the same or similar work of channel steel reinforced member with the application
With the intensity and non-deformability of the channel steel that raising is connect with the first connector 1210 promote anti-seismic performance.
In the connection structure of the attachment base shown in Figure 16-17 and the application attachment base, it is set to the first connector
On nut and anchor bolt 1100 between 1210 head section connecting plate 1201 and the head section connecting plate 1201 of the second connector 1220
Locking nut 1130 nut of structure preferably can be twisted into two parts using having of providing of this specification.And knot is connected shown in Figure 17
Locking device in structure can be using any one locking device provided in this specification.
Figure 18-20 shows a kind of nut 1300 of the application, which can but be not limited to use in the building of the application
In the dependency structure of electromechanics installation hanger system.As depicted in figures 18-20, which includes threaded hole 1310 and around the screw thread
Wherein wall 1320 corresponding to one section on the wall 1320 in hole 1310, with 1310 axial direction of threaded hole be designed to when with the nut
Fracture occurs when the torque being applied on the nut during fastening the nut on the screw rod of adaptation reaches preset value to make
The nut disjunction is that structure 1330 is twisted into two parts at front independent of each other and rear portion, can twist into two parts structure 1330 after the nut disjunction
As not interfering rear portion to continue to rotate to make between front and rear portion along former fastening direction on screw rod axially having twisted to pressure
Disconnected structure.Rotating nuts make its axial movement along screw rod during fastening nut on the screw rod being adapted to nut, in order to
One end of nut is compressed by fastener by the axial movement of nut, needs to be gradually increased the torque being applied on the nut,
When the torque being applied on the nut reaches preset value, which will be independent of each other that can twist into two parts the punishment of structure 1330 to break
Front and rear portion, at this moment front with by fastener contact and axial compression by fastener;Front loosens in order to prevent, need to be after
Continuous rotation rear portion, due to having twisted into two parts the presence of structure without interfering rear portion to continue to rotate (" will not interfere " along former fastening direction
Refer to and substantial do not interfere), therefore rear portion will continue to move closer to front with rotation, finally in screw rod between front
Upper axial direction eliminates the screw thread of front and the screw thread gap between screw thread on screw rod respectively at rear portion to pressure, plays anti-
The only effect of nut loosening.As it can be seen that above-mentioned nut can twist into two parts twisting into two parts torque preset value and can conveniently making for structure 1330 by setting
Nut reaches preset fastening effect, also, can further realize the anti-loosening of nut to the requirement for having twisted into two parts structure.
For constituting the shape of the part of front and the shape and structure of construction and the part for constituting rear portion on the nut
The two sides that can twist into two parts structure 1330 that are presented in preferably in a manner of bilateral symmetry are made, will need not distinguish the front and back of nut in this way
To facilitating the use of nut.Structure 1330 can be twisted into two parts can be at least through to the wall for being used to form the wall that can twist into two parts structure 1320
Thickness carries out thinnedization and is formed, such as: by being arranged along the circumferential of nut for subtracting to wall thickness on the outer cylinder of nut
Thin annular groove 1331 can twist into two parts structure 1330 to be formed;And in order to form the annular groove 1331, it is a kind of relatively simple
Method is that annular groove 1331 is directly milled out on the outer cylinder of nut with a ball knife on lathe, at this moment, annular groove 1331
The profile of cross section by be a spill smooth curve.Structure 1330 can be twisted into two parts can also twist at least through to being used to form this
The part of the wall 1320 of disconnected structure carries out through-hole and is formed, such as: can twist into two parts structure includes the wall institute by leaving after through-hole
2-4 connection neck 1332 of the one week uniform intervals setting along nut constituted, is long and narrow between adjacent connection neck 1332
Arc-shaped slot pass 1333, and the through slot 1333 have can ensure after the nut disjunction and between front and rear portion in screw rod
Before upper axial direction is to pressure, the width circumferentially collided does not occur between the connection neck 1332 of fracture, to avoid the connection neck of fracture
Circumferential collision occurs between 1332 and rear portion is interfered to continue to rotate along former fastening direction.In general, the width of through slot 1333 is 0.05-
1.5mm。
In one embodiment of the nut, can twist into two parts structure 1330 is by nut while that the annular is arranged is recessed
What slot 1331 and connection neck 1332 were formed.In addition, by carrying out linear cutter in nut side, (line is cut in the embodiment
It is vertical that processing metal wire, which is cut, with the central axis of nut) and the central axis for being symmetrically disposed on nut is formed on nut side
Two through slots 1333 of line two sides, and being then between this two through slots 1333 is equally the central axis two for being symmetrically disposed on nut
Two connection necks 1332 of side.This mode is not only easier to process through slot 1333 and connection neck 1332, be formed simultaneously
Two connection necks 1332, which can be distributed uniformly, can twist into two parts the torque that structure 1330 is born, and furthermore make rear portion after the nut disjunction
The angle of rotation be can continue to close to 180 °, in this way can more flexibly design the width and nut thread of through slot 1333
Parameter.In the above-described embodiments, connection neck 1332 is above to slot cut is additionally provided on the side wall of through slot, accurately to control
Connect the fracture position on neck 1332.Slot cut is preferably disposed on the intermediate position of connection neck 1332.
Figure 21-22 respectively illustrates two kinds of anchor bolts 1100 of the application.As shown in fig. 21-22, both anchor bolts include
Anchoring section 1110, threaded shank 1120 and locking nut 1130, the locking nut 1130 are adapted to threaded shank 1120, also, should
Locking nut 1130 uses the application any one of the above and is provided with the nut that can twist into two parts structure 1330.Shown in Figure 21-22
Two kinds of anchor bolt differences are that the anchorage style of anchoring section 1110 is different: one of anchoring section 1110 is using intumescent anchoring knot
Structure, and it is another then using reaming type anchor structure.Certainly, intumescent anchor structure and reaming type anchor structure are only anchor
Gu two kinds of common anchorage styles that portion 1110 can use, anchoring section 1110 can also be using other anchorage styles.
In addition, typically, anchor bolt 1100 is also equipped with washer 1140 when using in threaded shank 1120.
Figure 23 is a kind of structural schematic diagram of the electromechanical installation hanger system of building of the application.As shown in figure 23, the system
Be suspended in when use on a top surface, and include: front side stringer 1500, be made of channel steel, the front side stringer upper end for it is described
Top surface connection;Rear side stringer 1600, is made of channel steel, and the rear side stringer upper end with the top surface for connecting;Base cross members
1700, it is made of and is connected between front side stringer lower end and rear side stringer lower end channel steel;Front side oblique drawing device 1800, is set to
The front side of front side stringer 1500 and the pulling force for being applied to front side 1500 forward upward of stringer, the upper end of the front side oblique drawing device 1800
For connecting with the top surface, lower end with 1500 lower end of front side stringer for connecting;Rear side oblique drawing device 1900 is set to rear side
The rear side of stringer 1600 is simultaneously applied to the pulling force of rear side stringer 1600 rearwardly and upwardly, and the upper end of the rear side oblique drawing device 1900 is used for
It is connect with the top surface, lower end with 1600 lower end of rear side stringer for connecting;It is vertical to be set to front side for front left side oblique drawing device 2000
The left side of beam 1500 is simultaneously applied to 1700 front end of base cross members to upper left pulling force, the upper end of the front left side oblique drawing device 2000
For connecting with the top surface, lower end with 1700 front end of base cross members for connecting;Left rear side oblique drawing device 2100, after being set to
The left side of side girder 1600 is simultaneously applied to 1700 rear end of base cross members to upper left pulling force, the left rear side oblique drawing device 2100
Upper end with the top surface for connecting, and lower end with 1700 rear end of base cross members for connecting;Forward right side oblique drawing device 2200, setting
In front side stringer 1500 right side and be applied to pulling force of 1700 front end of base cross members to upper right side, the forward right side oblique drawing device
2200 upper end with the top surface for connecting, and lower end with 1700 front end of base cross members for connecting;And right lateral side oblique pull dress
2300 are set, the right side of rear side stringer 1600 is set to and is applied to pulling force of 1700 rear end of base cross members to upper right side, behind the right side
The upper end of skew back drawing device 2300 with the top surface for connecting, and lower end with 1700 rear end of base cross members for connecting.Above-mentioned system
System is mentioned due to being provided with the oblique drawing devices such as front side oblique drawing device 1800, rear side oblique drawing device 1900, front left side oblique drawing device 2000
High structural stability, enhances the electromechanical installation hanger system entirety anti-seismic performance of building.
Further, the front side oblique drawing device, rear side oblique drawing device, front left side oblique drawing device, left rear side oblique drawing device,
Forward right side oblique drawing device, right lateral side oblique drawing device use identical structure, i.e. oblique drawing device includes oblique pull part 2410, is located at tiltedly
The connector 2420 of draw piece upper end and connector 2430 positioned at oblique pull part lower end, positioned at oblique pull part upper end connector respectively with
Corresponding anchor bolt 1100 and the oblique pull part upper end connection, positioned at oblique pull part lower end connector respectively with corresponding channel steel and
Oblique pull part lower end connection.Figure 24 shows an implementation of the connector 2420 for being located at its oblique pull part upper end in each oblique drawing device
The specific structure of example;Figure 25 shows another embodiment for being located at the connector 2420 of oblique pull part upper end in each oblique drawing device
Specific structure;Figure 26-27 shows the connector 2430 for being located at oblique pull part lower end in front side oblique drawing device and rear side oblique drawing device
One embodiment specific structure;Figure 28-29, which is shown in front side oblique drawing device and rear side oblique drawing device, to be located under oblique pull part
The specific structure of one embodiment of the connector 2430 at end;Figure 30 show front left side oblique drawing device, left rear side oblique drawing device,
It is located at the tool of one embodiment of the connector 2430 of oblique pull part lower end in forward right side oblique drawing device and right lateral side oblique drawing device
Body structure.
As shown in figure 24, the connector 2420 of the embodiment includes support 2421, U-board 2422 and shaft 2423;Wherein,
The support includes a pair of side plates and below described a pair of side plates and the bottom plate that is connected between described a pair of side plates,
Mutual corresponding shaft mounting hole is respectively arranged in described a pair of side plates, there are two for installing anchor for setting on the bottom plate
The bottom plate connecting hole of bolt 1100, the two bottom plate connecting holes for being used to install anchor bolt 1100 are distributed in the two sides of shaft;The U-shaped
The two sides of plate are flexibly connected with corresponding side plate in the pair of side plate by shaft 2423 respectively, are set on the bottom surface of the U-board
Set oblique pull part connecting hole.As shown in figure 25, the connector 2420 of the embodiment and the difference of connector shown in Figure 24 are only that: figure
In 25 connector 2420, a bottom plate connecting hole is provided only on bottom plate, which is located at the side of shaft.Figure
Connector shown in 24-25 realizes the connection between the anchor bolt 1100 of each oblique drawing device and oblique pull part, and then can pass through anchor bolt
One end of oblique pull part is fixed on a top surface.Oblique pull part can use screw rod or wirerope, and the end of screw rod or wirerope penetrates U-shaped
The limiting component (such as stop nut) that oblique pull part connecting hole can be greater than with diameter after oblique pull part connecting hole on plate be connect, to incite somebody to action
One end of oblique pull part is connect with U-board.Anchor bolt in connector shown in Figure 24-25 preferably uses anchor bolt shown in Figure 21-22.
As shown in figs. 26-27, the connector 2430 of the embodiment includes: connecting plate 2431, have upper side edge, lower side,
Left side and right edge, upper side edge are oppositely arranged with lower side, and left side is oppositely arranged with right edge, are also set up on the connecting plate
Have the through-hole 2438 for installing locking device connecting plate being connected on one channel steel 600;Upper side edge is respectively arranged at under
Locating fastener 2432 in a pair of of channel steel on side, locating fastener for resisting and the connection from inside to outside in the pair of channel steel
The medial surface of the opposite sides plate of the outer openings of the channel steel of plate connection;A pair of of the slot being respectively arranged in left side and right edge
The outer locating fastener 2433 of steel, the pair of channel steel outer locating fastener is used to clamp from outside to inside respectively to be connect with the connecting plate
The lateral surface of the opposite sides plate of the outer openings of channel steel;The a pair of side plates being respectively arranged in connecting plate left side and right edge
2434, the shaft mounting hole to correspond to each other is provided on the pair of side plate;And it is hinged on by shaft 2435 the pair of
U-board 2436 on side plate, the two sides of the U-board are connected with corresponding side plate in the pair of side plate by shaft 2435 respectively
It connects, oblique pull part connecting hole 2437 is provided on the bottom surface of the U-board;The through-hole 2438 is two and is respectively positioned on the same of shaft
Side, locating fastener, a pair of of left plate and a pair of of right side plate pass through the punching press on same steel plate in the connecting plate, a pair of of channel steel
Molding.As indicated by figs. 28-29, the connector 2430 of the embodiment and the difference of connector shown in Figure 26-27 are only that: Figure 28-
In 29 connector 2430, two through-holes 2438 are symmetrically distributed in the two sides of shaft 2435, and the outer locating fastener of a pair of of channel steel
2433 to be truncated at the pair of side plate 2434 be discontinuous two sections.Before connector 2430 shown in Figure 26-29 realizes
Between the oblique pull part of skew back drawing device and the channel steel of front side stringer, the channel steel of the oblique pull part of rear side oblique drawing device and rear side stringer it
Between connection.Wherein, oblique pull part can use screw rod or wirerope, and the end of screw rod or wirerope penetrates the oblique pull in U-board 2436
The limiting component (such as stop nut) that oblique pull part connecting hole can be greater than with diameter after part connecting hole 2437 be connect, so as to by oblique pull part
One end connect with U-board.And it is used to connect the locking device of connecting plate 2431 Yu corresponding channel-section steel, it can be using in this specification
Any one locking device provided, at this point, channel steel should also have corresponding structure, the i.e. edge of a wing and the right side of the left plate of channel steel
The edge of a wing of side plate is turned back respectively inwards forms symmetrical a pair of of in-flanges, and it is fixed to be equipped on the end face of the pair of in-flanges
Position rack gear.It will be positioned in concrete mode and channel steel that connecting plate 2431 is attached with corresponding channel-section steel about by locking device
The effect of buckle 2432 and the outer locating fastener 2433 of channel steel, can obtain from the part before this specification.
As shown in figure 30, the connector 2430 of the embodiment includes: connecting plate 2431, the connecting plate have front side edge, after
Side, the front side edge are oppositely arranged with back side edge, are additionally provided on the connecting plate and connecting plate is connected to a slot for installing
The through-hole of locking device on steel;It is respectively arranged at locating fastener 2432 in a pair of of channel steel in front side edge and back side edge, it is described
Locating fastener is used to resist the opposite sides plate of the outer openings for the channel steel connecting with the connecting plate from inside to outside in a pair of of channel steel
Medial surface;It is respectively arranged at front side edge and a pair of of left plate 2434a in back side edge, is provided with that on the pair of left plate
This corresponding left-hand rotation shaft mounting hole, and the pair of left plate is located at the left side of locating fastener in a pair of of channel steel;It is respectively arranged at
A pair of of right side plate 2434b in front side edge and back side edge is provided with the right spindle installation to correspond to each other on the pair of right side plate
Hole, and the pair of right side plate is located at the right side of locating fastener in a pair of of channel steel;And it is hinged on by left rotary shaft 2435a described
Left U-shaped plate 2436a on a pair of of left plate, the two sides of the left U-shaped plate are logical with corresponding side plate in the pair of left plate respectively
Left-hand rotation axis connection is crossed, oblique pull part connecting hole 2437a is provided on the bottom surface of the left U-shaped plate;Institute is hinged on by right spindle 2435b
State the right U-board 2436b on a pair of of right side plate, the two sides of the right U-board respectively with corresponding side plate in the pair of right side plate
By right-hand rotation axis connection, oblique pull part connecting hole 2437b is provided on the bottom surface of the right U-board.Wherein, with the oblique pull of left U-shaped plate
The oblique pull part of part connecting hole connection and the oblique pull part that is connect with the oblique pull part connecting hole of right U-board can be respectively adopted screw rod or
Wirerope;The end of screw rod or wirerope penetrates after corresponding oblique pull part connecting hole the limiting component that can be greater than oblique pull part connecting hole with diameter
Connection.In addition, locating fastener, a pair of of left plate and a pair of of right side plate can be by same in the connecting plate, a pair of of channel steel
Punch forming on steel plate.Locking device for connecting connecting plate 2431 and corresponding channel-section steel can be using providing in this specification
Any one locking device, at this point, channel steel should also have corresponding structure.
In one embodiment of the electromechanical installation hanger system of the building shown in Figure 23, the slot of front side stringer and rear side stringer
Steel has been all made of the H-type groove steel 601 that both-side opening is located on front-rear direction, the wing of the left plate of the both-side opening of the H-type groove steel
The edge of a wing of edge and right side plate is turned back respectively inwards forms symmetrical a pair of of in-flanges, on the end face of the pair of in-flanges
Be equipped with positioning tooth bar, and front side oblique drawing device and rear side oblique drawing device pass through respectively connector 2430 shown in Figure 28-29 with
Corresponding H-type groove steel connection;The channel steel of base cross members then uses the U-type groove steel 602 of opening upwards, the left side of the opening of U-type groove steel
The edge of a wing of plate and the edge of a wing of right side plate are turned back respectively inwards forms symmetrical a pair of of in-flanges, the pair of in-flanges
Positioning tooth bar is equipped on end face, and front left side oblique drawing device and forward right side oblique drawing device shown in same Figure 30 by connecting
Part 2430 is connect with U-type groove steel, and wherein the oblique pull part of front left side oblique drawing device is connect with the oblique pull part connecting hole of left U-shaped plate, right
The oblique pull part of front side oblique drawing device is connect with the oblique pull part connecting hole of right U-board;Left rear side oblique drawing device and right lateral side oblique pull dress
It sets and is equally connect by connector 2430 shown in a Figure 30 with U-type groove steel;Then may be used between above-mentioned H-type groove steel and U-type groove steel
It is connected by connector shown in Fig. 10, but preferably passes through connector 2600 shown in connector 2600 shown in Figure 31 or Figure 32
Connection.
As shown in Figure 31-32, connector 2600 includes: the first connecting plate 2610, is located in the first plane, and has first
Connecting plate upper side edge, the first connecting plate lower side, the first connecting plate left side and the first connecting plate right edge, on the first connecting plate
Side is oppositely arranged with the first connecting plate lower side, and the first connecting plate left side is oppositely arranged with the first connecting plate right edge, and
The first connecting hole 2611 is additionally provided on first connecting plate;Second connecting plate 2620, positioned at perpendicular with the first plane second
In plane, and have the second connecting plate front side edge, the second connecting plate back side edge, the second connecting plate left side and the second connecting plate right
Side, the second connecting plate front side edge are connected with the first connecting plate lower side and connect respectively with the first connecting plate upper side edge, second
Plate back side edge is oppositely arranged, and the second connecting plate left side is oppositely arranged with the second connecting plate right edge, and on the second connecting plate also
It is provided with the second connecting hole 2621;And it is respectively arranged at a pair on the first connecting plate upper side edge and the second connecting plate back side edge
Locating fastener 2630 in channel steel, locating fastener is used for from introversion in one of channel steel in the pair of channel steel in locating fastener
Outside resist channel steel that is parallel with the first plane and being connected on the first connecting plate (for above-described embodiment, i.e., on front side of stringer
Or the H-type groove steel 601 of rear side stringer) opposite sides plate medial surface, locating fastener is for from inside to outside in another channel steel
Resist channel steel that is parallel with the second plane and being connected on the second connecting plate (for above-described embodiment, i.e. the U of base cross members
Type groove steel 602) opposite sides plate medial surface;And it is respectively arranged on the right side of the first connecting plate left side and the first connecting plate
The outer locating fastener 2640 of the first channel steel of a pair on side, for clamping parallel with the first plane and being connected to from outside to inside respectively
The lateral surface of the opposite sides plate of channel steel on first connecting plate;It is connect with the second connecting plate left side is respectively arranged at second
The outer locating fastener 2650 of the second channel steel of a pair in plate right edge, for clamp from outside to inside respectively it is parallel with the second plane simultaneously
It is connected to the lateral surface of the opposite sides plate of the channel steel on the second connecting plate.The connector 2600 can be provided by this specification
Any one locking device (such as connection type with reference to connector in Figure 10 and channel steel) is connect with channel steel.Due to connector
2600 are equipped with outside locating fastener 2630 in a pair of of channel steel, the outer locating fastener 2640 of a pair of first channel steel and a pair of second channel steel
Locating fastener 2650 improves the connective stability between connector 2600 and channel steel, while also enhancing the resistance to deformation of channel steel
Ability improves shock resistance.Preferably, first connecting hole is that shape size is identical and length is greater than with the second connecting hole
The strip-shaped hole of width;Wherein, the length direction of first connecting hole and second plane are perpendicular, second connecting hole
Length direction and first plane it is perpendicular.Preferably, along the length direction of the first connecting hole on first connecting plate
It is arranged at intervals with two the first connecting holes;Length direction on second connecting plate along the second connecting hole is arranged at intervals with two
Second connecting hole (as shown in figure 32).
Connector 2600 shown in Figure 31-32 can be formed entirely through steel plate punched;On this basis, in order to further mention
High 2600 integral strength of connector, the left and right in the bending region between the first connecting plate lower side and the second connecting plate front side edge
Two sides are respectively arranged with left connection board 2661 and right connection board 2662, between the left connection board and the left side in the bending region
It is provided with left resigning mouthful 2671, is provided with right resigning mouthful, the left side between the right connection board and the right side in the bending region
Connecting plate 2661 is with the outer locating fastener of the channel steel being located on the first connecting plate left side and on the second connecting plate left side
The outer locating fastener of channel steel is integrally formed, the right connection board 2662 and the outer positioning card of the channel steel being located in the first connecting plate right edge
Button and the locating fastener integrated molding outside the channel steel in the second connecting plate right edge.Due to that will be located at by left connection board 2661
The outer locating fastener of channel steel on first connecting plate left side connects with the outer locating fastener of channel steel being located on the second connecting plate left side
It is connected into one, locating fastener outside the channel steel in the first connecting plate right edge will be located at by right connection board 2662 and is located at the second company
The outer locating fastener of channel steel in fishplate bar right edge links into an integrated entity, and can prevent the angle between the first connecting plate and the second connecting plate
It deforms under external force;Left resigning mouthful 2671 and right resigning mouthful are set, avoids and orthogonal is formed to steel plate bending
The process of one connecting plate and the second connecting plate with steel plate bending is formed left connection board 2661 and right connection board 2662 process it
Between the existing molding obstacle of material.
The base cross members 1700 of the electromechanical installation hanger system of building shown in Figure 23 are for carrying more round tubes, these circles
The clamping piece 2700 that pipe passes through Figure 33-34 respectively is fixed in base cross members 1700.In addition, between front side stringer and rear side stringer
Additional horizontal beams 2500 are also connected with, above base cross members to further increase the electromechanical installation hanger system of building
Integral rigidity simultaneously installs more facilities using additional horizontal beams 2500.In one embodiment of the electromechanical installation hanger system of building
In, two additional horizontal beams 2500 are arranged at intervals with above base cross members, each additional horizontal beams 2500 have been all made of and front side stringer
Or the identical H-type groove steel of rear side stringer or U-type groove steel identical with base cross members, and the both ends of each additional horizontal beams 2500 lead to respectively
It crosses connector 2600 shown in connector 2600 or Figure 32 shown in Figure 31 to connect with front side stringer and rear side stringer, two attached
Add the ventilation shaft that rectangle is fixed between crossbeam 2500.Each H in the electromechanical installation hanger system of the building of the embodiment
Type groove steel, U-type groove steel are provided with above-mentioned flanging bore 640, the channel steel reinforced structure in addition provided in also mountable this specification.
As shown in Figure 33-34, the clamping piece 2700 includes front clamp piece 2710, rear clamping piece 2720 and is used for fore-clamp
Hold the connector 2730 being detachably connected between the head of piece and the head of rear clamping piece, the tail portion of the front clamp piece and after
The tail portion of clamping piece is provided with the bar shaped convex shoulder 2740 that length is greater than width, and the close convex shoulder is long on the top surface of the convex shoulder 2740
The both ends in degree direction are respectively arranged with the positioning tooth socket 2741 extended along the convex shoulder width direction.The clamping piece 2700 uses
When, positioning tooth socket 2741 is corresponding with each positioning tooth bar on in-flanges a pair of of on the U-type groove steel of base cross members 1700 respectively to be nibbled
It closes, and clamped round tube is then held in U-type groove steel top, front clamp piece and the rear clamping piece institute shape by base cross members 1700
At clamping zone.Due to each positioning on each positioning tooth socket 2741 of clamping piece 2700 and the U-type groove steel of base cross members 1700
Rack gear is engaged, and is improved firmness of the connection of the clamping piece 2700 in base cross members 1700, is enhanced clamping anti seismic efficiency.
Further, the convex shoulder is and opening up through slot in the two sides of corresponding tail portion the shape of the tail portion is made to be in I-shaped
It is formed.Further, the top surface of the convex shoulder is all processed as positioning tooth socket.Further, simultaneously along the length of the convex shoulder
Direction out of convex shoulder extroversion convex shoulder, each tooth socket that positions are obliquely installed in a manner of the bottom surface for moving closer to convex shoulder.And as folder
A kind of specific structure of connector 2730 in gripping member 2700, the head of the front clamp piece and the head of clamping piece are respectively arranged with
Mutual corresponding connecting hole, the connector 2730 include bolt 2731 and nut 2732, and the screw rod of the bolt passes through the phase
Connection is adapted to nut after mutual corresponding connecting hole;Wherein, nut can be used provided in this specification have can twist into two parts structure
Nut.
The channel steel of front side stringer in the electromechanical installation hanger system of building shown in Figure 23 and the channel steel of base cross members it
Between and the channel steel and the channel steel of base cross members of rear side stringer between it is mutually vertical, connector shown in Fig. 10, figure can be used
Connector shown in connector or Figure 32 shown in 31 is attached.But in some cases, the electromechanical installation suspension and support system of building
The direction or angle connected between channel steel and channel steel in system is more special, at this moment, above-mentioned connector will be difficult to realize channel steel with
Connection between channel steel.For this purpose, present invention also provides connector 1210 shown in Figure 35-38 and attachment devices 2800.Such as
Shown in Figure 35-38, connector 1210 includes being sequentially connected of being formed after the different parts of a steel plate are carried out with bending process respectively
And it is located at the head section connecting plate 1201 in Different Plane, middle section connecting plate 1202 and endpiece connecting plate 1203, the head section
Connecting hole is respectively arranged on connecting plate and endpiece connecting plate, the endpiece connecting plate has a pair of opposite side and one being parallel to each other
Item is connected to adjacent side between the pair of opposite side being parallel to each other and vertical to the opposite side being parallel to each other with this;The connector packet
It includes the outer locating fastener 1211 of a pair of of the channel steel being respectively arranged on the pair of opposite side being parallel to each other and is set to the neighbour
Locating fastener 1212 in channel steel on side;The outer locating fastener of a pair of of channel steel is used to clamp from outside to inside respectively and endpiece
Connecting plate is parallel and the lateral surface of the opposite sides plate of channel steel that is connected on the endpiece connecting plate, locating fastener in the channel steel
For resisting the medial surface of the opposite sides plate of the channel steel from inside to outside.Preferably, the head section connecting plate, middle section connecting plate
It with endpiece connecting plate is formed after carrying out bending process respectively by two different parts to the steel plate;The middle section connects
Fishplate bar is directly connect with head section connecting plate and endpiece connecting plate respectively.Further, connector 1210 is entirely through steel plate punched
It forms.Preferably, in connector 1210, the connecting hole on the endpiece connecting plate is the strip-shaped hole that length is greater than width;This
The length direction in shape hole is consistent with the direction of the pair of opposite side being parallel to each other.Preferably, in connector 1210, the endpiece
Two connecting holes are arranged at intervals with along the direction of the pair of opposite side being parallel to each other on connecting plate.Connect as shown in Figure 35-38
Connection device 2800, including two above-mentioned connectors 1210 pass through screw bolt and nut between the head section connecting plate of the two connectors
Connection, the screw rod of the bolt are adapted to connection with nut after passing through the connecting hole on the head section connecting plate of the two connectors.Institute
Stating nut can use what is provided in this specification to have the nut that can twist into two parts structure.Connection structure as shown in figure 36, including
Two channel steels 600 connected using above-mentioned attachment device 2800, every channel steel pass through locking device and the attachment device respectively
Two endpiece connecting plates in corresponding person connection, each locking device and the connecting hole on corresponding endpiece connecting plate
Match;The outer locating fastener of a pair of of channel steel on two endpiece connecting plates of the attachment device clamps corresponding groove from outside to inside respectively
The lateral surface of the opposite sides plate of steel, in the channel steel on two endpiece connecting plates in the attachment device locating fastener respectively from
The medial surface of the opposite sides plate of corresponding channel-section steel is resisted from inside to outside.Above-mentioned locking device can be appointed using what is provided in this specification
It anticipates a kind of locking device, at this point, channel steel should also have corresponding structure.Above-mentioned connector 1210 and attachment device 2800 can be used
In there is the connection between the channel steel of particular/special requirement and channel steel to the direction of connection or angle;And due to locating fastener and slot outside channel steel
The setting of locating fastener in steel, improves channel steel anti-seismic performance.
A kind of channel steel reinforced structure improved on the basis of the channel steel reinforced structure of Fig. 8-9 is shown in Figure 39.Figure 39
Channel steel reinforced structure on the basis of the channel steel reinforced structure of Fig. 8-9, specifically improve channel steel reinforced member 701, i.e., by slot
The positioning card as composed by locating fastener 730 in locating fastener 720 outside a pair of of channel steel and a pair of of channel steel on steel reinforced member 701
Button race is designed as using the straight line perpendicular to central plate 710 and by the geometric center of central plate as rotary shaft, rotation angle being 90 °
Rotational symmetry structure.In this way, each locating fastener for allowing in locating fastener race not only can be used as in channel steel locating fastener but also
It can be used as the outer locating fastener of channel steel, facilitate the installation of channel steel reinforced member.And the locking in order to use this specification to provide
Device (can be locking device shown in locking device shown in Fig. 4-5, locking device shown in Fig. 9 or Figure 40) carrys out mounting groove
The geometric center of steel reinforced member, the central plate is equipped with through-hole, which is preferably circular hole.
Figure 40 then shows a kind of locking device 3000 that can be used for locking device shown in alternate figures 4-5, the locking device
3000 include the threaded connector 3100 with screw rod 3110, and the upper end of screw rod 3110 is provided with the spiral shell that connection is adapted to the screw rod
Mother 3200, lower end is provided with to be integrated and length is greater than the bar shaped convex shoulder 3120 of width with the screw rod, is leaned on the top surface of the convex shoulder
The both ends of the nearly convex shoulder length direction are respectively arranged with the positioning tooth socket 3121 extended along the convex shoulder width direction.Further
, platen 3300 is set on the screw rod between convex shoulder and nut.Convex shoulder 3120 in above-mentioned locking device 3000 with
Nut 200 in locking device shown in Fig. 4-5 act on it is identical, but due to convex shoulder 3120 and the one of screw rod 3110,3120 nothing of convex shoulder
Part rotation need to be turned by taking again, therefore locking device 3000 can save to take and turn part, structure is simpler.
The related content of the application is illustrated above.Those of ordinary skill in the art are in the feelings illustrated based on these
The application will be realized under condition.Above content based on the application, those of ordinary skill in the art are not making creativeness
Every other embodiment obtained, shall fall within the protection scope of the present application under the premise of labour.
Claims (10)
1. the connector for building electromechanical installation hanger system, it is characterised in that: including support, U-board and shaft;Its
In, the support includes a pair of side plates and below described a pair of side plates and the bottom that is connected between described a pair of side plates
Plate is respectively arranged with mutual corresponding shaft mounting hole in described a pair of side plates, is provided on the bottom plate for installing anchor
The bottom plate connecting hole of bolt;The two sides of the U-board are flexibly connected with corresponding side plate in the pair of side plate by shaft respectively,
Oblique pull part connecting hole is provided on the bottom surface of the U-board.
2. as described in claim 1 for building the connector of electromechanical installation hanger system, it is characterised in that: the bottom plate
Connecting hole is respectively positioned on the same side of shaft or is distributed in the two sides of shaft.
3. as described in claim 1 for building the connector of electromechanical installation hanger system, it is characterised in that: with it is described tiltedly
The oblique pull part of draw piece connecting hole connection is screw rod or wirerope;The end of screw rod or wirerope penetrates big with diameter after oblique pull part connecting hole
It is connected in the limiting component of oblique pull part connecting hole.
4. as described in claim 1 for building the connector of electromechanical installation hanger system, it is characterised in that: with the bottom
The anchor bolt of plate connecting hole connection, is provided with locking nut be adapted to the threaded shank in the threaded shank of the anchor bolt, including spiral shell
Pit and in the locking nut of the wall of the threaded hole, with the wherein wall corresponding to one section in the threaded hole axial direction
The torque for being designed to be applied on the locking nut during fastening the locking nut in the threaded shank reaches pre-
It is described to twist if fracture occurs when value to make the structure of twisting into two parts at the locking nut disjunction front independent of each other and rear portion
Disconnected structure become after the locking nut disjunction do not interfere rear portion continue to rotate to make along former fastening direction front and rear portion it
Between structure axially has been twisted into two parts to pressure in the threaded shank.
5. as claimed in claim 4 for building the connector of electromechanical installation hanger system, it is characterised in that: the locking
For constituting the shape of the part of the front and the shape and construction of construction and the part for constituting the rear portion on nut
It is symmetrical to be presented in the two sides that twist into two parts structure.
6. as claimed in claim 4 for building the connector of electromechanical installation hanger system, it is characterised in that: described to twist
Disconnected structure is formed at least through thinnedization is carried out to the wall thickness for being used to form the wall that can twist into two parts structure.
7. as claimed in claim 6 for building the connector of electromechanical installation hanger system, it is characterised in that: locking nut
Outer cylinder on be provided with along the circumferential direction of nut for carrying out thinned annular groove to the wall thickness.
8. as claimed in claim 7 for building the connector of electromechanical installation hanger system, it is characterised in that: the annular
The profile of groove cross section is the smooth curve of a spill.
9. as claimed in claim 4 for building the connector of electromechanical installation hanger system, it is characterised in that: described to twist
Disconnected structure is formed at least through through-hole is carried out to the part for being used to form the wall that can twist into two parts structure.
10. as claimed in claim 9 for building the connector of electromechanical installation hanger system, it is characterised in that: it is described can
Twisting into two parts structure includes 2-4 that the one week uniform intervals along locking nut being made of the wall left after the through-hole are arranged
Neck is connected, is long and narrow arc-shaped slot pass between adjacent connection neck, the through slot is with can ensure in the locking nut disjunction
Afterwards and between front and rear portion on the screw rod axially to pressure before, the width circumferentially collided does not occur between the connection neck of fracture
Degree.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820281497.2U CN208578819U (en) | 2018-02-28 | 2018-02-28 | For building the connector of electromechanical installation hanger system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820281497.2U CN208578819U (en) | 2018-02-28 | 2018-02-28 | For building the connector of electromechanical installation hanger system |
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Publication Number | Publication Date |
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CN208578819U true CN208578819U (en) | 2019-03-05 |
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Family Applications (1)
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CN201820281497.2U Active CN208578819U (en) | 2018-02-28 | 2018-02-28 | For building the connector of electromechanical installation hanger system |
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2018
- 2018-02-28 CN CN201820281497.2U patent/CN208578819U/en active Active
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