CN208605533U - Build electromechanical equipment antidetonation connecting elements - Google Patents

Abstract

The utility model discloses building electromechanical equipment antidetonation connecting elements, including the first vibration damper plate, symmetrically arranged triangular steel plate there are two being fixedly connected at the top of first vibration damper plate, the first pull rod is rotatably connected on the triangular steel plate, the top of first vibration damper plate is equipped with the second pull rod, is equipped with mounting groove corresponding with the second pull rod in first vibration damper plate.The synergistic effect that the utility model passes through the first pull rod, the second pull rod, triangular steel plate, the first spring, sliding block, gag lever post and first rotating shaft, guarantee after being connect at the top of pull rod and equipment in this way, when shaking, a part vibration is offset using the elastic potential energy of the first spring, by the mating reaction for passing through the first damping, the second damping, bolt and U-shaped steel slot, guarantee device when a wide range of shake occurs in this way, horizontal and vertical vibration is all offset by damping, guarantees that the bolt of U-shaped steel slot connection will not be squeezed deformation.

Description

Build electromechanical equipment antidetonation connecting elements

Technical field

The utility model relates to connecting component technical fields, more particularly to building electromechanical equipment antidetonation connecting elements.

Background technique

With the rapid development of society, people's lives level is continuously available raising, and wherein building field technology also obtains Very big promotion, however in terms of the antidetonation of building electromechanical equipment, still still have several drawbacks.

The existing cooperation built electromechanical equipment and use antidetonation connecting elements and connecting rod substantially, but existing antidetonation Connecting elements is connect only by the bolt of C-type steel slot with pull rod, and when shaking, a wide range of shake can be such that bolt deforms, Leading to structure, surely the property put declines, the problem of anti seismic efficiency deficiency.

For this purpose, we design a kind of building electromechanical equipment antidetonation connecting elements.

Utility model content

Purpose of the utility model is to solve connecting elements in the prior art when shaking, and stability is insufficient Problem, and the building electromechanical equipment antidetonation connecting elements proposed.

To achieve the goals above, the utility model adopts the technical scheme that

Electromechanical equipment antidetonation connecting elements, including the first vibration damper plate are built, is fixedly connected at the top of first vibration damper plate There are two symmetrically arranged triangular steel plate, the first pull rod, the top of first vibration damper plate are rotatably connected on the triangular steel plate Portion is equipped with the second pull rod, and mounting groove corresponding with the second pull rod, second pull rod and installation are equipped in first vibration damper plate Slot inner sidewall is slidably connected, and first vibration damper plate bottom is connected with the second vibration damper plate by multiple first dampings, described The two sides of first vibration damper plate pass through the second damping and connect with the second vibration damper plate, and the bottom of second vibration damper plate is equipped with U Fashioned iron slot, the both ends of the U-shaped steel slot are threaded with bolt, and the bottom of second vibration damper plate is equipped with corresponding with bolt Screw hole.

Preferably, rotation slot corresponding with the first pull rod is equipped in the triangular steel plate, the inner sidewall of the rotation slot is solid Surely it is connected with first rotating shaft, the first pull rod rotation is socketed in first rotating shaft.

Preferably, the two sides of second pull rod are fixedly connected to sliding block, and the inner sidewall of the mounting groove is equipped with and cunning The corresponding sliding slot of block, the inner sidewall of the sliding slot are fixedly connected with gag lever post, and the sliding block is slidably socketed on gag lever post, described The top and bottom sidewall of sliding slot passes through the first spring and connect with sliding block, and first spring is set on gag lever post.

Preferably, first damping includes the first mounting base for being fixedly connected on the first vibration damper plate bottom, described Third shaft is fixedly connected in first mounting base, rotation is socketed with telescopic rod in the third shaft, and the telescopic rod is separate One end of third shaft is fixedly connected on the second vibration damper plate, and first mounting base is connected by second spring and the second vibration damper plate It connects, the second spring is set on telescopic rod.

Preferably, second damping includes the support rod being rotatably connected on the first vibration damper plate, the support rod One end far from the first vibration damper plate is rotatably connected to movable block, and the top of second vibration damper plate is equipped with work corresponding with movable block Dynamic slot, the inner sidewall of the loose slot are fixedly connected with fixed link, and the movable block is slidably socketed in fixed link, the activity The left and right inner sidewall of slot passes through third spring and connect with movable block, and the third spring is set in fixed link.

Preferably, it is fixedly connected to the second mounting base at the top of the side wall of first vibration damper plate and movable block, described the The second shaft is fixedly connected in two mounting bases, the end of the support rod rotates and is socketed in the second shaft.

The utility model has the beneficial effects that

1, pass through the collaboration of the first pull rod, the second pull rod, triangular steel plate, the first spring, sliding block, gag lever post and first rotating shaft After connecting at the top of effect, in this way guarantee pull rod and equipment, when shaking, a part is offset using the elastic potential energy of the first spring Vibration；

2, by passing through the mating reaction of the first damping, the second damping, bolt and U-shaped steel slot, guarantee in this way Device when a wide range of shake occurs, all offset by damping by horizontal and vertical vibration, guarantees the bolt of U-shaped steel slot connection Deformation will not be squeezed.

Detailed description of the invention

Fig. 1 be the utility model proposes building electromechanical equipment antidetonation connecting elements structural schematic diagram；

Fig. 2 be the utility model proposes building electromechanical equipment antidetonation connecting elements U-shaped steel slot attachment structure schematic diagram.

In figure: 1 first vibration damper plate, 2 triangular steel plates, 3 first pull rods, 4 second pull rods, 5 second vibration damper plates, 6U fashioned iron slot, 7 Bolt, 8 first rotating shafts, 9 sliding blocks, 10 gag lever posts, 11 first springs, 12 telescopic rods, 13 second springs, 14 support rods, 15 activities Block, 16 fixed links, 17 third springs, 18 second shafts.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.

In the description of the present invention, it should be understood that term " on ", "lower", "front", "rear", "left", "right", The orientation or positional relationship of the instructions such as "top", "bottom", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.

Referring to Fig.1-2, electromechanical equipment antidetonation connecting elements, including the first vibration damper plate 1, the top of the first vibration damper plate 1 are built It is fixedly connected there are two symmetrically arranged triangular steel plate 2, is rotatably connected to the first pull rod 3, triangular steel plate 2 on triangular steel plate 2 Interior to be equipped with rotation slot corresponding with the first pull rod 3, the inner sidewall of rotation slot is fixedly connected with first rotating shaft 8, the rotation of the first pull rod 3 It is socketed in first rotating shaft 8, the top of the first vibration damper plate 1 is equipped with the second pull rod 4, is equipped with and the second pull rod 4 in the first vibration damper plate 1 Corresponding mounting groove, the second pull rod 4 are slidably connected with mounting groove inner sidewall, and the two sides of the second pull rod 4 are fixedly connected to sliding block 9, the inner sidewall of mounting groove is equipped with sliding slot corresponding with sliding block 9, and the inner sidewall of sliding slot is fixedly connected with gag lever post 10, and sliding block 9 is sliding Dynamic to be socketed on gag lever post 10, the top and bottom sidewall of sliding slot passes through the first spring 11 and connect with sliding block 9, and the first spring 11 is set in On gag lever post 10, the vertical vibration of a part is offset by the elastic potential energy of the first spring 11.

Wherein, 1 bottom of the first vibration damper plate is connected with the second vibration damper plate 5, the first damping machine by multiple first dampings Structure includes the first mounting base for being fixedly connected on 1 bottom of the first vibration damper plate, and third shaft is fixedly connected in the first mounting base, the Rotation is socketed with telescopic rod 12 in three shafts, and telescopic rod 12 is fixedly connected on the second vibration damper plate 5 far from one end of third shaft, First mounting base is connect by second spring 13 with the second vibration damper plate 5, and second spring 13 is set on telescopic rod 12, by flexible The elastic potential energy of bar 12 and second spring 13 offsets the vertical vibration of a part.

Wherein, the two sides of the first vibration damper plate 1 are connect by the second damping with the second vibration damper plate 5, the second damping machine Structure includes the support rod 14 being rotatably connected on the first vibration damper plate 1, and support rod 14 is rotatablely connected far from one end of the first vibration damper plate 1 There is movable block 15, the top of the second vibration damper plate 5 is equipped with loose slot corresponding with movable block 15, and the inner sidewall of loose slot is fixedly connected Have fixed link 16, movable block 15 is slidably socketed in fixed link 16, the left and right inner sidewall of loose slot pass through third spring 17 with Movable block 15 connects, and third spring 17 is located in fixed link 16, is offset by the elastic potential energy of third spring 17 most of lateral Vibration and partial vertical vibration are fixedly connected to the second installation at the top of the side wall and movable block 15 of the first vibration damper plate 1 , it is fixedly connected with the second shaft 18 in the second mounting base, the end of support rod 14, which rotates, to be socketed in the second shaft 18, this The rotation connection of sample, convenient for pushing the operation of movable block 15 and damping, the bottom of the second vibration damper plate 5 is equipped with U-shaped steel slot 6, U The both ends of fashioned iron slot 6 are threaded with bolt 7, and the bottom of the second vibration damper plate 5 is equipped with screw hole corresponding with bolt 7.

In the utility model, when equipment shakes, the present apparatus is transmitted to by top first, shakes and generates when top Transverse vibration when because the first pull rod 3 and the main effect of the second pull rod 4 are to guarantee that device is stable to connect with equipment top, So transverse vibration will drive the rotation of support rod 14, the rotation of support rod 14 will drive the side-to-side movement of movable block 15, activity The left and right of block 15 is all connected with third spring 17, is offset by the elastic potential energy of third spring 17 to transverse vibration, works as shake When movable property life shakes vertically, wherein the second pull rod 4 can offset a part of erect by stretching the first spring 11 under shock effect Straight vibration, on the first vibration damper plate 1, the first about 1 vibration damper plate pulls telescopic rod 12, about 12 telescopic rod for most of shock effect The second vibration damper plate 5 is pulled, wherein by the elastic potential energy for the second spring 13 being arranged on telescopic rod 12 to a part of vertical vibration Counteracting damping is carried out, while support rod 14 also rotates, passes through the elastic potential of the third spring 17 of the connection on movable block 15 It can be carried out vertical direction damping, ensure that equipment largely offset by the elastic potential energy of device by vibration in this way, the U for connecting bottom Bolt 7 on fashioned iron slot 6 not will receive too many extruding, and cause to deform, and reduce the stability of device.

The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (6)

1. building electromechanical equipment antidetonation connecting elements, including the first vibration damper plate (1), which is characterized in that first vibration damper plate (1) Top be fixedly connected there are two symmetrically arranged triangular steel plate (2), be rotatably connected to the first pull rod on the triangular steel plate (2) (3), the top of first vibration damper plate (1) is equipped with the second pull rod (4), is equipped with and the second pull rod in first vibration damper plate (1) (4) corresponding mounting groove, second pull rod (4) are slidably connected with mounting groove inner sidewall, and the first vibration damper plate (1) bottom is logical It crosses multiple first dampings to be connected with the second vibration damper plate (5), the two sides of first vibration damper plate (1) pass through the second damping machine Structure is connect with the second vibration damper plate (5), and the bottom of second vibration damper plate (5) is equipped with U-shaped steel slot (6), the U-shaped steel slot (6) Both ends are threaded with bolt (7), and the bottom of second vibration damper plate (5) is equipped with screw hole corresponding with bolt (7).

2. building electromechanical equipment antidetonation connecting elements according to claim 1, which is characterized in that the triangular steel plate (2) Interior to be equipped with rotation slot corresponding with the first pull rod (3), the inner sidewall of the rotation slot is fixedly connected with first rotating shaft (8), described First pull rod (3) rotation is socketed on first rotating shaft (8).

3. building electromechanical equipment antidetonation connecting elements according to claim 1, which is characterized in that second pull rod (4) Two sides be fixedly connected to sliding block (9), the inner sidewall of the mounting groove is equipped with sliding slot corresponding with sliding block (9), the sliding slot Inner sidewall be fixedly connected with gag lever post (10), the sliding block (9) is slidably socketed on gag lever post (10), the sliding slot up and down Side wall passes through the first spring (11) and connect with sliding block (9), and first spring (11) is set on gag lever post (10).

4. building electromechanical equipment antidetonation connecting elements according to claim 1, which is characterized in that first damping The first mounting base including being fixedly connected on the first vibration damper plate (1) bottom is fixedly connected with third in first mounting base and turns Axis is rotated in the third shaft and is socketed with telescopic rod (12), and the one end of the telescopic rod (12) far from third shaft is fixed to be connected It connecing on the second vibration damper plate (5), first mounting base is connect by second spring (13) with the second vibration damper plate (5), and described the Two springs (13) are set on telescopic rod (12).

5. building electromechanical equipment antidetonation connecting elements according to claim 1, which is characterized in that second damping Including the support rod (14) being rotatably connected on the first vibration damper plate (1), the one of the support rod (14) separate first vibration damper plate (1) End is rotatably connected to movable block (15), and the top of second vibration damper plate (5) is equipped with loose slot corresponding with movable block (15), institute The inner sidewall for stating loose slot is fixedly connected with fixed link (16), and the movable block (15) is slidably socketed on fixed link (16), institute The left and right inner sidewall for stating loose slot passes through third spring (17) and connect with movable block (15), and the third spring (17) is set in In fixed link (16).

6. building electromechanical equipment antidetonation connecting elements according to claim 5, which is characterized in that first vibration damper plate (1) it is fixedly connected to the second mounting base at the top of side wall and movable block (15), the is fixedly connected in second mounting base Two shafts (18), the end of the support rod (14), which rotates, to be socketed on the second shaft (18).