CN209294657U

CN209294657U - A kind of Architectural Equipment quake-proof seat

Info

Publication number: CN209294657U
Application number: CN201822152180.1U
Authority: CN
Inventors: 陈葶葶; 孙磊
Original assignee: Jinling Institute of Technology
Current assignee: Nanjing Huaxie Chemical Technology Co ltd
Priority date: 2018-12-21
Filing date: 2018-12-21
Publication date: 2019-08-23
Anticipated expiration: 2028-12-21

Abstract

A kind of Architectural Equipment quake-proof seat, it is related to Architectural Equipment technical field of auxiliary facilities.Sliding rail is provided at left and right sides of the inside of the pedestal, lower connecting plate is fixedly connected on the inside bottom middle position of pedestal, air cushion is vertically fixedly connected on the top of lower connecting plate, upper junction plate is fixedly connected on the surface of air cushion, balance plate is fixedly connected on the top of upper junction plate, spring is provided between balance plate and the bottom of pedestal, connection pedestal is located at the surface of balance plate, the top middle position of connection pedestal is provided with cavity, the bottom of connection pedestal is provided with several imitation-shaped grooves, several spin are located between several imitation-shaped grooves and balance plate, sliding slot is mounted at left and right sides of balance plate, and sliding slot and sliding rail are cooperatively connected, several drag-lines are located at the surrounding of connection pedestal, clamping device is located at left and right sides of the top of pedestal, its structure is simple, suitable for promoting, the utility model can be effectively solved Architectural Equipment The vibration of operation, it is ensured that the normal operation of equipment.

Description

A kind of Architectural Equipment quake-proof seat

Technical field

The utility model relates to Architectural Equipment technical field of auxiliary facilities, and in particular to a kind of Architectural Equipment antidetonation bottom Seat.

Background technique

Architectural Equipment is widely used in our building trades, but traditional Architectural Equipment does not have the structure of damping, Therefore when in use, the impact force that Architectural Equipment generates always influences the smooth of architectural plane to Architectural Equipment, has sometimes very big Mechanical noise propagated in building, noise just will increase, so influence worker mood or hearing, seriously affect building Construction efficiency, traditional Architectural Equipment is mostly big machinery, and when in use due to the influence of vibration, the normal operation of equipment It cannot be guaranteed.

Utility model content

The purpose of this utility model is that it is in view of the drawbacks of the prior art and insufficient, a kind of Architectural Equipment antidetonation bottom is provided Seat, its structure is simple, is suitable for promoting, can be effectively solved the vibration of Architectural Equipment operation by the utility model, it is ensured that set Standby normal operation.

To achieve the above object, the utility model is using following technical scheme: it include pedestal 1, lower connecting plate 2, on Connecting plate 3, air cushion 4, spring 5, sliding rail 6, sliding slot 7, balance plate 8, connection pedestal 9, clamping device 10, drag-line 11, spin 12, institute It is provided with sliding rail 6 at left and right sides of the inside for the pedestal 1 stated, lower connecting plate 2 is fixedly connected on the inside bottom interposition of pedestal 1 It sets, air cushion 4 is vertically fixedly connected on the top of lower connecting plate 2, and upper junction plate 3 is fixedly connected on the surface of air cushion 4, balance plate 8 are fixedly connected on the top of upper junction plate 3, spring 5 are provided between balance plate 8 and the bottom of pedestal 1, and spring 5 is located at gas The left and right sides of pad 4, connection pedestal 9 are located at the surface of balance plate 8, and the top middle position of connection pedestal 9 is provided with cavity 92, the bottom of connection pedestal 9 is provided with several imitation-shaped grooves 91, and several spin 12 are located at several imitation-shaped grooves 91 and balance plate 8 Between, the left and right sides of balance plate 8 is mounted on sliding slot 7, and sliding slot 7 and sliding rail 6 are cooperatively connected, and several drag-lines 11 are located at connection The surrounding of pedestal 9, and one end of drag-line 11 is fixedly connected with pedestal 9 is connect, the inner wall of the other end and pedestal 1 of drag-line 11 is fixed Connection, clamping device 10 are located at left and right sides of the top of pedestal 1.

The clamping device 10 includes clamping plate 101, screw rod 102, gear 106, connecting rod 103, regulating wheel 104, support Bar 105, clamping plate 101 are located at the inside of cavity 92, and one end of screw rod 102 is vertical with clamping plate 101 to be fixedly connected, screw rod 102 it is another One end runs through the inner wall of cavity 92 and extends to the outside of connection pedestal 9, and the bottom of connecting rod 103 is through the top of connection pedestal 9 Portion and the side for extending to screw rod 102, gear 106 are fixedly connected on the bottom of connecting rod 103 and are cooperatively connected with screw rod 102, Regulating wheel 104 is fixedly connected on the top of connecting rod 103, and support rod 105 is located at the two sides of screw rod 102, and the one of support rod 105 End is fixedly connected with clamping plate 101, and the other end of support rod 105 runs through the inner wall of cavity 92 and extends to the outside of connection pedestal 9.

The bottom of the cavity 92 and the outside of pedestal 1 are provided with resilient cushion 921.

The drag-line 11 is elastomeric cords.

The spin 12 is high strength steel spin, and the outer surface of spin 12 is coated with wear-resisting coating.

The bottom outside of the pedestal 1 is provided with shoring 13, and the bottom of shoring 13 is equipped with disc support leg 131。

The shoring 13 is aeroelastic shoring.

The support rod 105 is provided with sliding sleeve 15 with the junction for connecting pedestal 9.

After adopting the above technical scheme, the utility model has the beneficial effect that its structure is simple, it is suitable for promoting, by this reality With the novel vibration that can be effectively solved Architectural Equipment operation, it is ensured that the normal operation of equipment.

Detailed description of the invention

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the top view of corresponding diagram 1；

Fig. 3 is the connection schematic diagram of sliding rail 6 and sliding slot 7 in the utility model；

Fig. 4 is the structural schematic diagram that pedestal 9 is connected in the utility model；

Fig. 5 is the attachment structure schematic diagram of the utility model middle gear 106 and screw rod 102；

Fig. 6 is the structural schematic diagram of support leg 131 in the utility model.

Description of symbols: pedestal 1, lower connecting plate 2, upper junction plate 3, air cushion 4, spring 5, sliding rail 6, sliding slot 7, balance plate 8, connect pedestal 9, clamping device 10, drag-line 11, spin 12, cavity 92, imitation-shaped groove 91, clamping plate 101, screw rod 102, gear 106, Connecting rod 103, regulating wheel 104, support rod 105, resilient cushion 921, sliding sleeve 15, shoring 13, support leg 131.

Specific embodiment

Referring to shown in Fig. 1-Fig. 6, present embodiment the technical solution adopted is that: it include pedestal 1, lower connecting plate 2, Upper junction plate 3, air cushion 4, spring 5, sliding rail 6, sliding slot 7, balance plate 8, connection pedestal 9, clamping device 10, drag-line 11, spin 12, It is provided with sliding rail 6 at left and right sides of the inside of the pedestal 1, lower connecting plate 2 is fixedly connected among the inside bottom of pedestal 1 Position, air cushion 4 are vertically fixedly connected on the top of lower connecting plate 2, and upper junction plate 3 is fixedly connected on the surface of air cushion 4, balance Plate 8 is fixedly connected on the top of upper junction plate 3, spring 5 is provided between balance plate 8 and the bottom of pedestal 1, and spring 5 is located at The left and right sides of air cushion 4, connection pedestal 9 are located at the surface of balance plate 8, and the top middle position setting of connection pedestal 9 is free The bottom of chamber 92, connection pedestal 9 is provided with several imitation-shaped grooves 91, and several spin 12 are located at several imitation-shaped grooves 91 and balance plate Between 8, the left and right sides of balance plate 8 is mounted on sliding slot 7, and sliding slot 7 and sliding rail 6 are cooperatively connected, and several drag-lines 11, which are located at, to be connected The surrounding of pedestal 9 is connect, and one end of drag-line 11 is fixedly connected with pedestal 9 is connect, the other end of drag-line 11 and the inner wall of pedestal 1 are solid Fixed connection, clamping device 10 are located at left and right sides of the top of pedestal 1.

The clamping device 10 includes clamping plate 101, screw rod 102, gear 106, connecting rod 103, regulating wheel 104, support Bar 104, clamping plate 101 are located at the inside of cavity 92, and one end of screw rod 102 is vertical with clamping plate 101 to be fixedly connected, screw rod 102 it is another One end runs through the inner wall of cavity 92 and extends to the outside of connection pedestal 9, and the bottom of connecting rod 103 is through the top of connection pedestal 9 Portion and the side for extending to screw rod 102, gear 106 are fixedly connected on the bottom of connecting rod 103 and are cooperatively connected with screw rod 102, Regulating wheel 104 is fixedly connected on the top of connecting rod 103, and support rod 105 is located at the two sides of screw rod 102, and the one of support rod 105 End is fixedly connected with clamping plate 101, and the other end of support rod 105 runs through the inner wall of cavity 92 and extends to the outside of connection pedestal 9. The inside that the support leg of Architectural Equipment is stabilized in cavity 92 of clamping device 10, using the transmission connection side of gear and screw rod Formula, can enhance the stability of connection, while reinforce the service life of clamping device 10.

The bottom of the cavity 92 and the outside of pedestal 1 are provided with resilient cushion 921.The bottom of cavity 92 and pedestal 1 Outside is provided with resilient cushion 921, and the support leg of Architectural Equipment is placed on the inside of cavity 92, and resilient cushion 921 can eliminate part and set Vibration when received shipment row, while the friction between Architectural Equipment and the utility model can also be avoided, the outside of pedestal 1 is provided with Resilient cushion 921, resilient cushion 921 can mitigate the vibration that building brings pedestal 1.

The drag-line 11 is elastomeric cords.Drag-line 11 is elastomeric cords, and connection pedestal 9 runs in Architectural Equipment and generates rolling When dynamic, the nosing force of shaking can be buffered, drag-line 11 may insure the stability of connection pedestal 9, while also ensure that on connection pedestal 9 The stabilization of Architectural Equipment.

The spin 12 is high strength steel spin, and the outer surface of spin 12 is coated with wear-resisting coating.Spin 12 is used for The total weight of Architectural Equipment is supported, so spin 12 is made of high strength steel, the outer surface of spin 12 is coated with wear-resistant painting Layer, can reduce the abrasion between spin 12 and imitation-shaped groove 91.

Four corners of the bottom outside of the pedestal 1 are provided with shoring 13, and the bottom of shoring 13 is equipped with Disc support leg 131.Pedestal 1 is put it on the ground by the support leg 131 of 13 bottom of shoring, and support leg 131 is disc Structure can reinforce the contact stabilization with ground.

The shoring 13 is aeroelastic shoring.Shoring 13 uses aeroelastic shoring, can buffer and build It builds equipment to shake to 1 bring of pedestal, avoids vibration from passing to and cause to resonate on ground.

The support rod 105 is provided with sliding sleeve 15 with the junction for connecting pedestal 9.Sliding sleeve 15 may insure support rod 105 running tracks, while support rod 105 being avoided directly to contact generation abrasion with connection pedestal 9, enhance making for support rod 105 Use the service life.

Working principle of the utility model is: the utility model is mounted in the support leg of Architectural Equipment, clamping device 10 Company can be enhanced using the transmission connection mode of gear and screw rod with the inside that the support leg of Architectural Equipment is stabilized in cavity 92 The stability connect, while reinforcing the service life of clamping device 10, the bottom of cavity 92 and the outside of pedestal 1 are provided with resilient cushion 921, the support leg of Architectural Equipment is placed on the inside of cavity 92, and resilient cushion 921 can eliminate vibration when equipment component operation, together When can also avoid friction between Architectural Equipment and the utility model, the outside of pedestal 1 is provided with resilient cushion 921, resilient cushion 921 can mitigate the vibration that building brings pedestal 1, and four corners of the bottom outside of pedestal 1 are provided with shoring 13, support The bottom of cylinder 13 is equipped with disc support leg 131, and pedestal 1 is put it on the ground by the support leg 131 of 13 bottom of shoring, props up Support foot 131 is that disc-shaped structure can reinforce the contact stabilization with ground, and shoring 13 uses aeroelastic shoring, Ke Yihuan It rushes Architectural Equipment to shake to 1 bring of pedestal, avoids vibration from passing to and cause to resonate on ground.

The above is merely intended for describing the technical solutions of the present application, but not for limiting the present application, those of ordinary skill in the art couple The other modifications or equivalent replacement that the technical solution of the utility model is made, without departing from technical solutions of the utility model Spirit and scope should all cover in the scope of the claims of the utility model.

Claims

1. a kind of Architectural Equipment quake-proof seat, it is characterised in that: it includes pedestal (1), lower connecting plate (2), upper junction plate (3), air cushion (4), spring (5), sliding rail (6), sliding slot (7), balance plate (8), connection pedestal (9), clamping device (10), drag-line (11), the inside left and right sides of spin (12), the pedestal (1) is provided with sliding rail (6), and lower connecting plate (2) is fixedly connected In the inside bottom middle position of pedestal (1), air cushion (4) is vertically fixedly connected on the top of lower connecting plate (2), upper junction plate (3) be fixedly connected on the surface of air cushion (4), balance plate (8) is fixedly connected on the top of upper junction plate (3), balance plate (8) with It is provided between the bottom of pedestal (1) spring (5), and spring (5) is located at the left and right sides of air cushion (4), connection pedestal (9) is located at The top middle position of the surface of balance plate (8), connection pedestal (9) is provided with cavity (92), and the bottom of connection pedestal (9) is set It is equipped with several imitation-shaped grooves (91), several spin (12) are located between several imitation-shaped grooves (91) and balance plate (8), balance plate (8) it is mounted at left and right sides of sliding slot (7), and sliding slot (7) and sliding rail (6) are cooperatively connected, several drag-lines (11) are located at connection The surrounding of pedestal (9), and one end of drag-line (11) is fixedly connected with pedestal (9) is connect, the other end of drag-line (11) and pedestal (1) Inner wall be fixedly connected, clamping device (10) is located at left and right sides of the top of pedestal (1).

2. a kind of Architectural Equipment quake-proof seat according to claim 1, it is characterised in that: the clamping device (10) Include clamping plate (101), screw rod (102), gear (106), connecting rod (103), regulating wheel (104), support rod (105), clamping plate (101) be located at cavity (92) inside, one end of screw rod (102) is vertical with clamping plate (101) to be fixedly connected, screw rod (102) it is another One end runs through the inner wall of cavity (92) and extends to the outside of connection pedestal (9), and the bottom of connecting rod (103) is through connection pedestal (9) top and the side for extending to screw rod (102), gear (106) are fixedly connected on the bottom of connecting rod (103) and and screw rod (102) it is cooperatively connected, regulating wheel (104) is fixedly connected on the top of connecting rod (103), and support rod (105) is located at screw rod (102) Two sides, and one end of support rod (105) is fixedly connected with clamping plate (101), and the other end of support rod (105) runs through cavity (92) Inner wall and extend to connection pedestal (9) outside.

3. a kind of Architectural Equipment quake-proof seat according to claim 1, it is characterised in that: the cavity (92) it is interior The outside of side bottom and pedestal (1) is provided with resilient cushion (921).

4. a kind of Architectural Equipment quake-proof seat according to claim 1, it is characterised in that: the drag-line (11) is bullet Property drag-line.

5. a kind of Architectural Equipment quake-proof seat according to claim 1, it is characterised in that: the spin (12) is height Strength steel spin, and the outer surface of spin (12) is coated with wear-resisting coating.

6. a kind of Architectural Equipment quake-proof seat according to claim 1, it is characterised in that: the bottom of the pedestal (1) It is provided with shoring (13) on the outside of portion, the bottom of shoring (13) is equipped with disc support leg (131).

7. a kind of Architectural Equipment quake-proof seat according to claim 6, it is characterised in that: the shoring (13) is Aeroelastic shoring.

8. a kind of Architectural Equipment quake-proof seat according to claim 2, it is characterised in that: the support rod (105) Sliding sleeve (15) are provided with the junction for connecting pedestal (9).