CN105370792A

CN105370792A - Shock isolation device for construction equipment

Info

Publication number: CN105370792A
Application number: CN201510980433.2A
Authority: CN
Inventors: 黄斌
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-12-23
Filing date: 2015-12-23
Publication date: 2016-03-02
Also published as: CN107575516A

Abstract

A shock isolation device for construction equipment comprises a bottom plate, a support device, a supporting table device, a connection device and rolling devices, wherein first through holes are formed in the bottom plate; the support device comprises a first support, first springs, a second support, a first vertical rod, a first limiting block and a second vertical rod; the supporting table device comprises a supporting table, a sponge cushion, a first transverse plate, second springs, third springs, first moving rods, first connection rods and pressing blocks; the connection device comprises a first cross rod, a third vertical rod, a fourth vertical rod and a second cross rod; each rolling device comprises first moving frames, first supporting rods, rollers, a fourth spring, a middle block and a fifth spring, the first moving frames are L-shaped, one end of each first moving frame is fixedly connected with one side surface of the corresponding first moving rod, the other end of each first moving frame is vertical, and end parts of the second cross rod are fixedly connected with the side surfaces of the first moving frames. The shock isolation device can perform shock absorption on the construction equipment effectively and prevent the equipment from being damaged due to shock and has a good shock absorption effect.

Description

A kind of Architectural Equipment shock-proof device

Technical field

The present invention relates to building machinery technical field, particularly relate to a kind of Architectural Equipment shock-proof device.

Background technique

Architectural Equipment refers to all technical measures being applicable to room and building, comprise the energy (heating of management place and public place, illumination) and supply (water, air) or waste discharge (sewage, rubbish), its objective is and provide the normal use of building and necessary Security to resident and user.On the one hand, the facility that it is usually necessary, such as sewage, power supply and illumination, on the other hand, all equipment of building can automatic operating.

Existing vibratory equipment is when installing beam, and its inconvenient operation, and regulate inaccurate, cause poor stability, shock-absorbing effect is poor.

Therefore, need to provide a kind of new technological scheme to solve the problems of the technologies described above.

Summary of the invention

The object of this invention is to provide a kind of Architectural Equipment shock-proof device that can effectively solve the problems of the technologies described above.

In order to solve the problems of the technologies described above, the present invention adopts following technological scheme:

A kind of Architectural Equipment shock-proof device, described Architectural Equipment shock-proof device comprises base plate, be positioned at the holder device above described base plate, be positioned at the support platform device above described holder device, the tourelle being positioned at the connection set below described support platform device and being positioned at below described connection set, described base plate is provided with the first through hole, described holder device comprises the first support, be arranged at the first spring on described first support, be arranged at the second support on described first spring, be positioned at the first montant above described second support, the first stop block being positioned at described first montant side and the second montant be positioned at above described first support, described support platform device comprises support platform, be positioned at the sponge mat below described support platform, be positioned at the first transverse slat below described sponge mat, be positioned at the second spring above described first transverse slat, be positioned at the 3rd spring below described first transverse slat, be positioned at the first movement rod of described 3rd spring side, the briquetting being positioned at the head rod below described first movement rod and being positioned at below described head rod, described connection set comprises the first cross bar, be positioned at the 3rd montant above described first cross bar, the second cross bar being positioned at the 4th montant below described first cross bar and being positioned at below described 4th montant, described tourelle comprises the first movable stand, be positioned at the first strut below described first movable stand, be arranged at the roller on described first strut, the 4th spring between described first strut, be positioned at the intermediate mass below described 4th spring and be positioned at the 5th spring of described first strut opposite side, described first movable stand is provided with two and lays respectively at the left and right sides of described first movement rod, described first movable stand is L-type, one end of described first movable stand is fixedly connected with the side of described first movement rod, the other end of described first movable stand is vertical shape, the end of described second cross bar is fixedly connected with the side of described first movable stand, described first strut is provided with two and lays respectively at the left and right sides, described first strut is cuboid, the upper end of described first strut turns with the lower end axle of described first movable stand and is connected, the lower end of described first strut is provided with groove, described roller is cylindrical body, described roller is contained in turn in described groove and with described first strut axle and is connected, described 4th spring is horizontal, the end of described 4th spring is fixedly connected with the side of described first strut, described intermediate mass is cuboid, described intermediate mass is vertically placed, the lower surface of described intermediate mass is fixedly connected with the upper surface of described base plate, described 5th spring is horizontal, the end of described 5th spring is fixedly connected with the side of described first strut.

Described first through hole is provided with two and lays respectively at the left and right sides, and described first through hole is rectangular-shaped, and described first through hole runs through the upper and lower surface of described base plate.

Described first support is L-type, one end of described first support is fixedly connected with the upper surface of described base plate, the other end of described first support is horizontal, described first spring is provided with two and lays respectively at upper and lower both sides, described first spring is horizontal, one end of described first spring is fixedly connected with described first support, the other end of described first spring is fixedly connected with described second support, described second support is L-type, one end of described second support is connected with the upper surface slide of described base plate, the other end of described second support is horizontal, described first montant is cuboid, described first montant is vertically placed, the upper end of described first montant is fixedly connected with described first support, the lower end of described first montant is fixedly connected with the upper surface of described second support.

Described first stop block is cuboid, described first stop block is vertically placed, one side of described first stop block is fixedly connected with described first support, described second montant is vertical shape, the cross section of described second montant is at right angles trapezoidal, the upper surface of described second montant is skewed, and the lower surface of described second montant is fixedly connected with the upper surface of described first support.

Described support platform is cuboid, described support platform horizontal positioned, described sponge mat is cuboid, described sponge mat horizontal positioned, the upper surface of described sponge mat is fixedly connected with the lower surface of described support platform, and the lower surface of described sponge mat is fixedly connected with the upper surface of described first transverse slat, and described first transverse slat is cuboid, described first transverse slat horizontal positioned, described first transverse slat is positioned at the top of described first support.

Described second spring is provided with two and lays respectively at the left and right sides, described second spring is vertically placed, the upper end of described second spring is fixedly connected with the lower surface of described support platform, the lower end of described second spring is fixedly connected with the upper surface of described first transverse slat, described 3rd spring is provided with two and lays respectively at the left and right sides, described 3rd spring is vertically placed, the upper end of described 3rd spring is fixedly connected with the lower surface of described first transverse slat, and the lower end of described 3rd spring is fixedly connected with the upper surface of described first support.

Described first movement rod is provided with two and lays respectively at the left and right sides, described first movement rod is cuboid, described first movement rod is vertical shape, the upper end of described first movement rod is fixedly connected with the lower surface of described first transverse slat, one end of described first support to lean on the side of described first movement rod and is slidably connected with it, described head rod is provided with two and lays respectively at the left and right sides, described head rod is cylindrical body, described head rod is vertically placed, the upper end of described head rod is fixedly connected with the lower surface of described first movement rod, described briquetting is provided with two and lays respectively at the left and right sides, the cross section of described briquetting is isosceles trapezoid, the lower surface of described head rod is fixedly connected with the upper surface of described briquetting.

Described first cross bar is cuboid, described first cross bar horizontal positioned, described first cross bar is between described first movement rod, the end of described first cross bar is fixedly connected with the side of described first movement rod, described 3rd montant is cuboid, described 3rd montant is vertically placed, the upper end of described 3rd montant is fixedly connected with the lower surface of described first transverse slat, the lower end of described 3rd montant is fixedly connected with the upper surface of described first cross bar, described 4th montant is cuboid, described 4th montant is vertically placed, the upper end of described 4th montant is fixedly connected with the lower surface of described first cross bar, described second cross bar is cuboid, described second cross bar horizontal positioned, the lower end of described 4th montant is fixedly connected with the upper surface of described second cross bar.

After adopting technique scheme, tool of the present invention has the following advantages:

Architectural Equipment shock-proof device structure of the present invention is simple, easy to use, effective damping can be carried out to Architectural Equipment, place the damage shaking and equipment is caused, good damping effect, and easy for installation, substantially increase the efficiency of its operation, it is more stable that the damping effect of Simultaneous Stabilization makes it use, and serves and well support cushioning effect, greatly reduce cost to the safe handling of equipment.

Accompanying drawing explanation

Be described further below in conjunction with the embodiment of accompanying drawing to Architectural Equipment shock-proof device of the present invention:

Fig. 1 is the structural representation of Architectural Equipment shock-proof device of the present invention;

Embodiment

As shown in Figure 1, the Architectural Equipment shock-proof device of the present invention tourelle 5 that comprises base plate 1, be positioned at holder device 2 above described base plate 1, be positioned at support platform device 3 above described holder device 2, be positioned at the connection set 4 below described support platform device 3 and be positioned at below described connection set 4.

As shown in Figure 1, described base plate 1 is cuboid, described base plate 1 horizontal positioned, described base plate 1 is provided with the first through hole 11, described first through hole 11 is provided with two and lays respectively at the left and right sides, and described first through hole 11 is in rectangular-shaped, and described first through hole 11 runs through the upper and lower surface of described base plate 1.

As shown in Figure 1, described holder device 2 is provided with two and lays respectively at the left and right sides, and described holder device 2 comprises the first support 21, the first spring 22 be arranged on described first support 21, the second support 23 be arranged on described first spring 22, be positioned at the first montant 24 above described second support 23, the first stop block 25 being positioned at described first montant 24 side and the second montant 26 be positioned at above described first support 21.Described first support 21 is in L-type, and one end of described first support 21 is fixedly connected with the upper surface of described base plate 1, and the other end of described first support 21 is horizontal.Described first spring 22 is provided with two and lays respectively at upper and lower both sides, and described first spring 22 is horizontal, and one end of described first spring 22 is fixedly connected with described first support 21, and the other end of described first spring 22 is fixedly connected with described second support 23.Described second support 23 is in L-type, and one end of described second support 23 is connected with the upper surface slide of described base plate 1, and the other end of described second support 23 is horizontal.Described first montant 24 is in cuboid, described first montant 24 is vertically placed, the upper end of described first montant 24 is fixedly connected with described first support 21, and the lower end of described first montant 24 is fixedly connected with the upper surface of described second support 23, and described second support 23 can be moved left and right.Described first stop block 25 is in cuboid, and described first stop block 25 is vertically placed, and a side of described first stop block 25 is fixedly connected with described first support 21, thus prevents described second support 23 from excessively moving to the direction of described first support 21.Described second montant 26 is in vertical shape, and the cross section of described second montant 26 is at right angles trapezoidal, and the upper surface of described second montant 26 is skewed, and the lower surface of described second montant 26 is fixedly connected with the upper surface of described first support 21.

As shown in Figure 1, described support platform device 3 comprise support platform 31, be positioned at sponge mat 32 below described support platform 31, be positioned at the first transverse slat 34 below described sponge mat 32, be positioned at the second spring 33 above described first transverse slat 34, be positioned at the 3rd spring 35 below described first transverse slat 34, the first movement rod 36 being positioned at described 3rd spring 35 side, the briquetting 38 that is positioned at the head rod 37 below described first movement rod 36 and is positioned at below described head rod 37.Described support platform 31 is in cuboid, and described support platform 31 horizontal positioned, described support platform 31 places Architectural Equipment.Described sponge mat 32 is in cuboid, and described sponge mat 32 horizontal positioned, the upper surface of described sponge mat 32 is fixedly connected with the lower surface of described support platform 31, and the lower surface of described sponge mat 32 is fixedly connected with the upper surface of described first transverse slat 34.Described first transverse slat 34 is in cuboid, and described first transverse slat 34 horizontal positioned, described first transverse slat 34 is positioned at the top of described first support 21.Described second spring 33 is provided with two and lays respectively at the left and right sides, described second spring 33 is vertically placed, the upper end of described second spring 33 is fixedly connected with the lower surface of described support platform 31, the lower end of described second spring 33 is fixedly connected with the upper surface of described first transverse slat 34, thus plays a supporting role to described support platform 31.Described 3rd spring 35 is provided with two and lays respectively at the left and right sides, described 3rd spring 35 is vertically placed, the upper end of described 3rd spring 35 is fixedly connected with the lower surface of described first transverse slat 34, and the lower end of described 3rd spring 35 is fixedly connected with the upper surface of described first support 21.Described first movement rod 36 is provided with two and lays respectively at the left and right sides, described first movement rod 36 is in cuboid, described first movement rod 36 is in vertical shape, the upper end of described first movement rod 36 is fixedly connected with the lower surface of described first transverse slat 34, and one end of described first support 21 to lean on the side of described first movement rod 36 and is slidably connected with it.Described head rod 37 is provided with two and lays respectively at the left and right sides, and described head rod 37 is in cylindrical body, and described head rod 37 is vertically placed, and the upper end of described head rod 37 is fixedly connected with the lower surface of described first movement rod 36.Described briquetting 38 is provided with two and lays respectively at the left and right sides, the cross section of described briquetting 38 is isosceles trapezoid, the area of the lower surface of described briquetting 38 is less than the area of its upper surface, and the lower surface of described head rod 37 is fixedly connected with the upper surface of described briquetting 38.

As shown in Figure 1, described connection set 4 the second cross bar 44 of comprising the first cross bar 42, being positioned at the 3rd montant 41 above described first cross bar 42, being positioned at the 4th montant 43 below described first cross bar 42 and being positioned at below described 4th montant 43.Described first cross bar 42 is in cuboid, and described first cross bar 42 horizontal positioned, described first cross bar 42 is between described first movement rod 36, and the end of described first cross bar 42 is fixedly connected with the side of described first movement rod 36.Described 3rd montant 41 is in cuboid, and described 3rd montant 41 is vertically placed, and the upper end of described 3rd montant 41 is fixedly connected with the lower surface of described first transverse slat 34, and the lower end of described 3rd montant 41 is fixedly connected with the upper surface of described first cross bar 42.Described 4th montant 43 is in cuboid, and described 4th montant 43 is vertically placed, and the upper end of described 4th montant 43 is fixedly connected with the lower surface of described first cross bar 42.Described second cross bar 44 is in cuboid, and described second cross bar 44 horizontal positioned, the lower end of described 4th montant 43 is fixedly connected with the upper surface of described second cross bar 44.

As shown in Figure 1, described tourelle 5 is provided with two and lays respectively at the left and right sides, and described tourelle 5 comprises the first movable stand 51, the first strut 52 below described first movable stand 51, the roller 53 be arranged on described first strut 52, the 4th spring 54 between described first strut 52, is positioned at the intermediate mass 55 below described 4th spring 54 and is positioned at the 5th spring 56 of described first strut 52 opposite side.Described first movable stand 51 is provided with two and lays respectively at the left and right sides of described first movement rod 36, described first movable stand 51 is in L-type, one end of described first movable stand 51 is fixedly connected with the side of described first movement rod 36, the other end of described first movable stand 51 is vertical shape, and the end of described second cross bar 44 is fixedly connected with the side of described first movable stand 51.Described first strut 52 is provided with two and lays respectively at the left and right sides, described first strut 52 is in cuboid, the upper end of described first strut 52 turns with the lower end axle of described first movable stand 51 and is connected, described first strut 52 can be rotated relatively with described first movable stand 51, the lower end of described first strut 52 is provided with groove 521, and described groove 521 is in rectangular-shaped.Described roller 53 is in cylindrical body, and described roller 53 is contained in turn in described groove 521 and with described first strut 52 axle and is connected, and described roller 53 can be rotated in described groove 521, and described roller 53 rolls on described base plate 1.Described 4th spring 54 is horizontal, and the end of described 4th spring 54 is fixedly connected with the side of described first strut 52, makes described first strut 52 close to each other.Described intermediate mass 55 is in cuboid, described intermediate mass 55 is vertically placed, the lower surface of described intermediate mass 55 is fixedly connected with the upper surface of described base plate 1, and described intermediate mass 55 can prevent roller 53 from moving to intermediate mass 55 direction, thus plays more stable supporting effect.Described 5th spring 56 is horizontal, and the end of described 5th spring 56 is fixedly connected with the side of described first strut 52.

As shown in Figure 1, when described Architectural Equipment shock-proof device of the present invention uses, first Architectural Equipment is placed on support platform 31, uses other fixing device to be fixed it.Then when Architectural Equipment is rocked, first sponge mat 32 can cushion, and then the second spring 33 can support the two ends of support platform 31, prevents it from rocking, thus can play good supporting effect.3rd spring 35 is played a supporting role to the first transverse slat 34 simultaneously, makes comparatively firm can not the rocking of described first transverse slat 34.The setting of the second montant 26, makes the first transverse slat 34 to move straight down, plays comparatively firm fixation to the first transverse slat 34.When Architectural Equipment is heavier, described first movement rod 36 moves down, described first strut 52 rotates around described first movable stand 51, described roller 53 rolls on described base plate 1, when roller 53 is rolled to the first through hole 11, described roller 53 is trapped in the first through hole 11, thus effect can be fixed by pair roller 53, make roller 53 can not continue rolling to go down, thus make the first movement rod 36 can not continue to move down, first transverse slat 34 is fixed up, thus Architectural Equipment is fixed up, prevent from moving down further causing damage to it, and briquetting 38 can withstand on the 4th spring 54, roller 53 can lean on the second support 23 simultaneously, second support 23 is moved to side, first spring 22 is compressed, thus the second support 23 is played a supporting role, make the first transverse slat 34 comparatively firm when moving down, thus good protective action is played to Architectural Equipment.So far, Architectural Equipment shock-proof device of the present invention using process is described.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those skilled in the art are in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims

1. an Architectural Equipment shock-proof device, it is characterized in that: described Architectural Equipment shock-proof device comprises base plate, be positioned at the holder device above described base plate, be positioned at the support platform device above described holder device, the tourelle being positioned at the connection set below described support platform device and being positioned at below described connection set, described base plate is provided with the first through hole, described holder device comprises the first support, be arranged at the first spring on described first support, be arranged at the second support on described first spring, be positioned at the first montant above described second support, the first stop block being positioned at described first montant side and the second montant be positioned at above described first support, described support platform device comprises support platform, be positioned at the sponge mat below described support platform, be positioned at the first transverse slat below described sponge mat, be positioned at the second spring above described first transverse slat, be positioned at the 3rd spring below described first transverse slat, be positioned at the first movement rod of described 3rd spring side, the briquetting being positioned at the head rod below described first movement rod and being positioned at below described head rod, described connection set comprises the first cross bar, be positioned at the 3rd montant above described first cross bar, the second cross bar being positioned at the 4th montant below described first cross bar and being positioned at below described 4th montant, described tourelle comprises the first movable stand, be positioned at the first strut below described first movable stand, be arranged at the roller on described first strut, the 4th spring between described first strut, be positioned at the intermediate mass below described 4th spring and be positioned at the 5th spring of described first strut opposite side, described first movable stand is provided with two and lays respectively at the left and right sides of described first movement rod, described first movable stand is L-type, one end of described first movable stand is fixedly connected with the side of described first movement rod, the other end of described first movable stand is vertical shape, the end of described second cross bar is fixedly connected with the side of described first movable stand, described first strut is provided with two and lays respectively at the left and right sides, described first strut is cuboid, the upper end of described first strut turns with the lower end axle of described first movable stand and is connected, the lower end of described first strut is provided with groove, described roller is cylindrical body, described roller is contained in turn in described groove and with described first strut axle and is connected, described 4th spring is horizontal, the end of described 4th spring is fixedly connected with the side of described first strut, described intermediate mass is cuboid, described intermediate mass is vertically placed, the lower surface of described intermediate mass is fixedly connected with the upper surface of described base plate, described 5th spring is horizontal, the end of described 5th spring is fixedly connected with the side of described first strut.

2. Architectural Equipment shock-proof device according to claim 1, is characterized in that: described first through hole is provided with two and lays respectively at the left and right sides, and described first through hole is rectangular-shaped, and described first through hole runs through the upper and lower surface of described base plate.

3. Architectural Equipment shock-proof device according to claim 2, it is characterized in that: described first support is L-type, one end of described first support is fixedly connected with the upper surface of described base plate, the other end of described first support is horizontal, described first spring is provided with two and lays respectively at upper and lower both sides, described first spring is horizontal, one end of described first spring is fixedly connected with described first support, the other end of described first spring is fixedly connected with described second support, described second support is L-type, one end of described second support is connected with the upper surface slide of described base plate, the other end of described second support is horizontal, described first montant is cuboid, described first montant is vertically placed, the upper end of described first montant is fixedly connected with described first support, the lower end of described first montant is fixedly connected with the upper surface of described second support.

4. Architectural Equipment shock-proof device according to claim 3, it is characterized in that: described first stop block is cuboid, described first stop block is vertically placed, one side of described first stop block is fixedly connected with described first support, described second montant is vertical shape, the cross section of described second montant is at right angles trapezoidal, and the upper surface of described second montant is skewed, and the lower surface of described second montant is fixedly connected with the upper surface of described first support.

5. Architectural Equipment shock-proof device according to claim 4, it is characterized in that: described support platform is cuboid, described support platform horizontal positioned, described sponge mat is cuboid, described sponge mat horizontal positioned, the upper surface of described sponge mat is fixedly connected with the lower surface of described support platform, the lower surface of described sponge mat is fixedly connected with the upper surface of described first transverse slat, described first transverse slat is cuboid, described first transverse slat horizontal positioned, described first transverse slat is positioned at the top of described first support.

6. Architectural Equipment shock-proof device according to claim 5, it is characterized in that: described second spring is provided with two and lays respectively at the left and right sides, described second spring is vertically placed, the upper end of described second spring is fixedly connected with the lower surface of described support platform, the lower end of described second spring is fixedly connected with the upper surface of described first transverse slat, described 3rd spring is provided with two and lays respectively at the left and right sides, described 3rd spring is vertically placed, the upper end of described 3rd spring is fixedly connected with the lower surface of described first transverse slat, the lower end of described 3rd spring is fixedly connected with the upper surface of described first support.

7. Architectural Equipment shock-proof device according to claim 6, it is characterized in that: described first movement rod is provided with two and lays respectively at the left and right sides, described first movement rod is cuboid, described first movement rod is vertical shape, the upper end of described first movement rod is fixedly connected with the lower surface of described first transverse slat, one end of described first support to lean on the side of described first movement rod and is slidably connected with it, described head rod is provided with two and lays respectively at the left and right sides, described head rod is cylindrical body, described head rod is vertically placed, the upper end of described head rod is fixedly connected with the lower surface of described first movement rod, described briquetting is provided with two and lays respectively at the left and right sides, the cross section of described briquetting is isosceles trapezoid, the lower surface of described head rod is fixedly connected with the upper surface of described briquetting.

8. Architectural Equipment shock-proof device according to claim 7, it is characterized in that: described first cross bar is cuboid, described first cross bar horizontal positioned, described first cross bar is between described first movement rod, the end of described first cross bar is fixedly connected with the side of described first movement rod, described 3rd montant is cuboid, described 3rd montant is vertically placed, the upper end of described 3rd montant is fixedly connected with the lower surface of described first transverse slat, the lower end of described 3rd montant is fixedly connected with the upper surface of described first cross bar, described 4th montant is cuboid, described 4th montant is vertically placed, the upper end of described 4th montant is fixedly connected with the lower surface of described first cross bar, described second cross bar is cuboid, described second cross bar horizontal positioned, the lower end of described 4th montant is fixedly connected with the upper surface of described second cross bar.