CN210485174U - Electromechanical one-way anti-seismic support and hanger for building - Google Patents

Abstract

The utility model provides a building electromechanical one-way antidetonation gallows. The one-way antidetonation gallows of building electromechanics includes: supporting the wall; the two mounting devices are respectively arranged on the surface of the supporting wall body and comprise mounting bottom frames, and one sides of the mounting bottom frames are provided with mounting openings; the bottom of the clamping rotating block is rotatably connected inside the mounting underframe; the connecting device is arranged inside the clamping rotating block and comprises an L-shaped frame. The utility model provides a pair of one-way antidetonation gallows of building electromechanics has certain economic benefits and security benefit, also can effectively play antidetonation effect under the multiple complex condition such as macroseism and difference in temperature are great, and then greatly reduced because of loss of property and casualties that the earthquake brought, effectively resist the destruction that comes from earthquake power on level and the vertical direction, electromechanical device on the protective cradle.

Description

Electromechanical one-way anti-seismic support and hanger for building

Technical Field

The utility model relates to a gallows equipment field especially relates to an electromechanical one-way antidetonation gallows of building.

Background

The support and hanger frame is mainly used for steam-water pipelines or boiler equipment of a power plant, and thermal displacement and equipment devices thereof generated in the process of operation. According to the working and thermal displacement requirements of the spring support and hanger determined by calculation of the stress condition of the pipeline, the spring support and hanger is set according to the design load by the factory: namely, the spring is pre-pressed and is positioned at a cold load position; at the theoretical working position of cold state on the same time scale, the supporting and hanging frames can be mainly divided into four categories; the spring support and hanger, the pipe support and hanger, the root support and hanger and the accessory support and hanger are set in a factory before leaving factory, and after the spring support and hanger is installed on a pipeline and equipment, relevant thread adjustment is carried out to disengage a set pin, and at the moment, the actual bearing of the spring is the cold load required by design.

The existing electromechanical earthquake-resistant support hanger for the building is easy to loosen due to temperature difference aging deformation in the area with large temperature difference after long time installation, and the screw rod of the earthquake-resistant support is easy to loosen, so that the electromechanical earthquake-resistant support hanger cannot play an effective earthquake-resistant role in the actual strong earthquake.

Therefore, it is necessary to provide an electromechanical unidirectional anti-seismic support and hanger for buildings to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a one-way antidetonation gallows of building electromechanics has solved a current electromechanical antidetonation gallows of building, because of the long back of installation back time, in the great area of the difference in temperature, the difference in temperature ageing deformation takes off when easily taking place, and the screw rod that leads to the antidetonation support easily takes off, when actually meetting strong earthquake, can not play the problem of effectual antidetonation effect.

In order to solve the technical problem, the utility model provides a pair of one-way antidetonation gallows of building electromechanics, include: supporting the wall; the two mounting devices are respectively arranged on the surface of the supporting wall body and comprise mounting bottom frames, and one sides of the mounting bottom frames are provided with mounting openings; the bottom of the clamping rotating block is rotatably connected inside the mounting underframe; the connecting device is arranged inside the clamping rotating block and comprises an L-shaped frame, and the bottom of the L-shaped frame is fixedly connected with a connecting frame; the supporting device is arranged at the bottom of the connecting frame and comprises a transverse frame, and limiting frames penetrate through two sides of the transverse frame; the top of the bearing frame is fixed at the bottom of the limiting frame; the placing device is arranged at the top of the bearing frame and comprises a placing frame, a placing frame is fixedly connected between two sides of the inner wall of the placing frame, and an electromechanical body is placed at the top of the placing frame; the two anti-seismic devices are respectively arranged at the bottom of the inner wall of the placing frame and comprise anti-seismic frames, and a moving plate is connected between two sides of the inner wall of each anti-seismic frame in a sliding manner; the protection device is arranged at the bottom of the placing rack and comprises a fixing frame.

Preferably, an installation screw is rotatably connected between two sides of the inner wall of the installation underframe, and a fixing nut is in threaded connection with the surface of the installation screw.

Preferably, one side of the clamping rotating block is rotatably connected with a clamping thread.

Preferably, the top of the moving plate is fixedly connected with an anti-seismic rod, and the top end of the anti-seismic rod penetrates through and extends to the outside of the anti-seismic frame.

Preferably, a damping spring is fixedly connected between the bottom of the moving plate and the bottom of the inner wall of the anti-seismic frame.

Preferably, the bottom of the inner wall of the placing frame is fixedly connected with an underframe, and a fixing spring is fixedly connected between the top of the underframe and the bottom of the fixing frame.

Preferably, the top and the bottom of the opposite side of the two limiting frames are fixedly connected with telescopic rods, and telescopic springs are sleeved on the surfaces of the telescopic rods.

Compared with the prior art, the utility model provides a pair of one-way antidetonation gallows of building electromechanics has following beneficial effect: through placing the electromechanical body in the whole inside of placing the frame, utilize antidetonation frame and the crossbearer of rack bottom, provide absorbing effect to whole rack, and the crossbearer through the bearing plate of antidetonation frame bottom and top is propped up and is hung, utilize L type frame and link to rotate the connection through the chucking turning block, carry out stable connection through the installation chassis, a whole antidetonation gallows, the installation is simple, high durability and stability, the anti-seismic performance after the installation of electromechanical device has been improved, certain economic benefits and security benefit have, also can effectively play antidetonation effect under multiple complex conditions such as macroseism and difference in temperature are great, and then greatly reduced because of loss of property and casualties that the earthquake brought, effectively resist the destruction that comes from the earthquake power on level and the vertical direction, electromechanical device on the protective cradle.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of an electromechanical unidirectional anti-seismic support and hanger for a building provided by the present invention;

FIG. 2 is a schematic structural view of the mounting device shown in FIG. 1;

fig. 3 is a schematic structural view of the placement device shown in fig. 1.

Reference numbers in the figures: 1. supporting wall, 2, installation device, 21, installation underframe, 22, installation opening, 23, clamping rotating block, 24, installation screw, 25, fixing nut, 26, clamping screw thread, 3, connecting device, 31, L-shaped frame, 32, connecting frame, 4, supporting device, 41, cross frame, 42, limiting frame, 43, bearing frame, 5, placing device, 51, placing frame, 52, placing frame, 53, electromechanical body, 6, anti-seismic device, 61, anti-seismic frame, 62, moving plate, 63, anti-seismic rod, 64, damping spring, 7, protective device, 71, fixing frame, 72, underframe, 73, fixing spring, 8, telescopic rod, 9, telescopic spring.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2, and fig. 3, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of an electromechanical unidirectional anti-seismic support and hanger for a building according to the present invention; FIG. 2 is a schematic structural view of the mounting device shown in FIG. 1; fig. 3 is a schematic structural view of the placement device shown in fig. 1. A building electromechanical unidirectional anti-seismic support and hanger comprises: supporting the wall body 1; the two installation devices 2 are respectively arranged on the surface of the support wall 1, each installation device 2 comprises an installation underframe 21, one side of each installation underframe 21 is provided with an installation opening 22, and the whole installation underframe 21 is installed on the support wall 1 through a main body screw by using the installation openings 22; the bottom of the clamping rotating block 23 is rotatably connected to the inside of the mounting underframe 21, and the bottom of the clamping rotating block 23 is positioned in the whole mounting underframe 21 and can rotate; the connecting device 3 is arranged inside the clamping rotating block 23, the connecting device 3 comprises an L-shaped frame 31, the bottom of the L-shaped frame 31 is fixedly connected with a connecting frame 32, and the L-shaped frame 31 is fixed inside the clamping rotating block 23 by using a clamping thread 26; the supporting device 4 is arranged at the bottom of the connecting frame 32, the supporting device 4 comprises a cross frame 41, limiting frames 42 penetrate through two sides of the cross frame 41, and the surfaces, located at the top of the cross frame 41, of the limiting frames 42 are fixed through iron sheets; the top of the bearing frame 43 is fixed at the bottom of the limiting frame 42; the placing device 5 is arranged at the top of the bearing frame 43, the placing device 5 comprises a placing frame 51, the bottom of the placing frame 51 is fixedly connected with the top of the bearing frame 43, a placing frame 52 is fixedly connected between two sides of the inner wall of the placing frame 51, a placing groove is formed in the surface of the placing frame 52 and used for placing an electromechanical body 53, and the electromechanical body 53 is placed at the top of the placing frame 52; the two anti-seismic devices 6 are respectively arranged at the bottom of the inner wall of the placing frame 51, each anti-seismic device 6 comprises an anti-seismic frame 61, and a moving plate 62 is connected between two sides of the inner wall of each anti-seismic frame 61 in a sliding manner; the protection device 7 is arranged at the bottom of the placing rack 52, the protection device 7 comprises a fixing frame 71, and the top of the fixing frame 71 is fixedly connected with the bottom of the placing rack 52.

A mounting screw 24 is rotatably connected between two sides of the inner wall of the mounting chassis 21, and a fixing nut 25 is screwed on the surface of the mounting screw 24, and the fixing nut 25 is used for fixing the mounting screw 24 on the surface of the mounting chassis 21.

And one side of the clamping rotating block 23 is rotatably connected with a clamping thread 26.

The top of the moving plate 62 is fixedly connected with an anti-seismic rod 63, the top end of the anti-seismic rod 63 penetrates through and extends to the outside of the anti-seismic frame 61, and one end, located outside the anti-seismic frame 61, of the anti-seismic rod 63 is fixedly connected with the bottom of the placing frame 52.

A damping spring 64 is fixedly connected between the bottom of the moving plate 62 and the bottom of the inner wall of the anti-vibration frame 61.

The bottom of the inner wall of the placing frame 51 is fixedly connected with a bottom frame 72, and a fixing spring 73 is fixedly connected between the top of the bottom frame 72 and the bottom of the fixing frame 71.

The top and the equal fixedly connected with telescopic link 8 in bottom of two relative one sides in spacing frame 42 side, and telescopic link 8's surface cover is equipped with expanding spring 9, the top of telescopic link 8 with place the both sides contact of frame 51.

The utility model provides a pair of building electromechanical one-way antidetonation gallows's theory of operation as follows:

the first step is as follows: firstly, the electromechanical body 53 is placed on the top of the whole placing frame 52, then the electromechanical body is in clamping connection with the L-shaped frame 31 through the connecting frames 32 on the two sides of the top of the cross frame 41 and is fixed through the clamping threads 26 on the surface of the clamping rotating block 23, then the whole clamping rotating block 23 is installed inside the installation underframe 21 through the installation screw 24, and the whole installation underframe 21 is installed on the support wall 1 through the main body screw through the installation opening 22;

the second step is that: when the whole installation underframe 21 shakes, the L-shaped frame 31 and the connecting frame 32 are driven by the rotation of the clamping rotating block 23, the whole placing frame 51 is driven preliminarily to absorb shock, and then the shock resistance of the building is achieved by the shock resistance rod 63 and the shock resistance spring 64 inside the shock resistance frame 61 and the mutual shock absorption of the fixing frame 71 and the underframe 72 inside the placing frame 51.

Compared with the prior art, the utility model provides a pair of one-way antidetonation gallows of building electromechanics has following beneficial effect: by placing the electromechanical body 53 inside the entire placing frame 51, with the shock-resistant frame 61 and the fixing frame 71 at the bottom of the placing frame 52, the whole placing frame 52 is provided with a shock absorption effect, and is supported and hung through the bearing plate 43 at the bottom of the shock-proof frame 51 and the cross frame 41 at the top, the L-shaped frame 31 and the connecting frame 32 are rotatably connected through the clamping rotating block 23, the stable connection is carried out through the installation underframe 21, the whole anti-seismic support and hanger has simple installation and good use stability, improves the anti-seismic performance of the electromechanical equipment after installation, has certain economic benefit and safety benefit, the earthquake-proof support can effectively play an earthquake-proof role under various complex conditions of strong earthquake, large temperature difference and the like, further greatly reduces property loss and casualties caused by the earthquake, effectively resists damage from earthquake force in the horizontal and vertical directions, and protects electromechanical equipment on the support.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a building electromechanical one-way antidetonation gallows which characterized in that includes:

supporting the wall;

the two mounting devices are respectively arranged on the surface of the supporting wall body and comprise mounting bottom frames, and one sides of the mounting bottom frames are provided with mounting openings;

the bottom of the clamping rotating block is rotatably connected inside the mounting underframe;

the connecting device is arranged inside the clamping rotating block and comprises an L-shaped frame, and the bottom of the L-shaped frame is fixedly connected with a connecting frame;

the supporting device is arranged at the bottom of the connecting frame and comprises a transverse frame, and limiting frames penetrate through two sides of the transverse frame;

the top of the bearing frame is fixed at the bottom of the limiting frame;

the placing device is arranged at the top of the bearing frame and comprises a placing frame, a placing frame is fixedly connected between two sides of the inner wall of the placing frame, and an electromechanical body is placed at the top of the placing frame;

the two anti-seismic devices are respectively arranged at the bottom of the inner wall of the placing frame and comprise anti-seismic frames, and a moving plate is connected between two sides of the inner wall of each anti-seismic frame in a sliding manner;

the protection device is arranged at the bottom of the placing rack and comprises a fixing frame.

2. The electro-mechanical unidirectional anti-seismic support and hanger of claim 1, wherein a mounting screw is rotatably connected between two sides of the inner wall of the mounting underframe, and a fixing nut is screwed on the surface of the mounting screw.

3. A unidirectional anti-seismic support and hanger for building machinery and electricity according to claim 1, wherein a clamping thread is rotatably connected to one side of the clamping rotating block.

4. The electro-mechanical unidirectional anti-seismic support and hanger of claim 1, wherein an anti-seismic rod is fixedly connected to the top of the moving plate, and the top end of the anti-seismic rod penetrates through and extends to the outside of the anti-seismic frame.

5. The unidirectional anti-seismic support and hanger for building machinery and electricity according to claim 1, wherein a damping spring is fixedly connected between the bottom of the moving plate and the bottom of the inner wall of the anti-seismic frame.

6. A unidirectional earthquake-proof support and hanger for building machinery and electricity as claimed in claim 1, wherein the bottom of the inner wall of the placing frame is fixedly connected with an underframe, and a fixing spring is fixedly connected between the top of the underframe and the bottom of the fixing frame.

7. The electromechanical unidirectional anti-seismic support and hanger for the building as claimed in claim 1, wherein telescopic rods are fixedly connected to the top and the bottom of the side opposite to the two limit racks, and telescopic springs are sleeved on the surfaces of the telescopic rods.

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