CN108361315A - A kind of multidirectional damper of reed-type - Google Patents

Abstract

The present invention relates to a kind of multidirectional dampers of reed-type, including the mobility framework and buffer cell being set in shock frame, are wherein slidably connected between mobility framework and shock frame；It is provided with fixed frame in the middle part of mobility framework, is slidably connected between mobility framework and sliding rail；Buffer cell includes the support plate B and the support plate A that is set among support plate B of annular, and connecting rod B is rotatably connected on support plate B, is rotatablely connected connecting rod A on support plate A, connecting rod A, connecting rod B are connect with fixed frame, mobility framework respectively；Buffer cell further includes connecting cylinder, and the bottoms support plate A are vertically and fixedly provided with swingle, and rotary sleeve is socketed with outside swingle, and support plate B is fixed on the end of rotary sleeve；Latch plate B is arranged in rotary sleeve inner wall annular array, and connecting cylinder inner wall is provided with support plate B corresponding with latch plate B, and swingle inner wall annular array is provided with several latch plate A, and connecting cylinder inner wall is provided with support plate A corresponding with latch plate A.

Description

A kind of multidirectional damper of reed-type

Technical field

The present invention relates to a kind of multidirectional dampers of reed-type, belong to shock-absorption device field.

Background technology

Shock absorbing buffer is often employed in the more complicated operating mode of pipe arrangement, such as ship as a kind of shock-absorption device The transfer pipeline of the steam of oceangoing ship etc., the fluid delivery pipeline of power plant, because of high pressure and the shake of itself, if not to pipeline into The processing of row dampingization, pipeline are easy under the operating mode of shake, and generation endurance failure ahead of time influences the normal work of equipment； Traditional shock-absorption device carries out damping using coil spring or gas, and at different temperatures, damping can change gas, And coil spring antifouling property is poor simultaneously, and diastole and contraction can not be normally carried out once being stained.

Invention content

The technical problem to be solved by the present invention is to：Overcome in the prior art that coil spring, gas spring environmental resistance are poor The technical issues of, a kind of multidirectional damper of reed-type is provided.

The technical solution adopted by the present invention to solve the technical problems is：

A kind of multidirectional damper of reed-type, including shock frame and the mobility framework being set in shock frame and one It is slidably connected between buffer cell, wherein the upper and lower ends portion of mobility framework and the upper and lower ends portion of shock frame, mobility framework Sliding axis is parallel to the plane of the upper and lower ends of mobility framework；It is provided with fixed frame, the shifting in the middle part of the mobility framework The sliding rail of mobility framework sliding axis, the fixed frame and sliding rail are provided perpendicular between the upper and lower ends of dynamic frame Between be slidably connected；There are one extensible arm A for one end setting of the fixed frame, and there are one one end settings of the mobility framework Extensible arm B；Orthogonal setting between extensible arm A and extensible arm B；The buffer cell include an annular support plate B and There are one connecting rod connecting seat B, the branch for rotation connection on one the support plate A, the support plate B being set among support plate B There are one connecting rod connecting seat A for rotation connection on support plate A；Initial position, the connecting rod connecting seat A and connecting rod connecting seat B are opposite to be propped up Support plate is in 90 ° of arrangements；There are one clampings on connecting rod A, the connecting rod connecting seat B one for clamping on the wherein described connecting rod connecting seat A It is rotatablely connected between the end and extensible arm A of a connecting rod B, the connecting rod A, is rotated between the end and extensible arm B of the connecting rod B Connection；The buffer cell further includes a connecting seat, and the connecting seat includes a connecting cylinder, and the bottoms the support plate A are hung down It is straight fixed there are one swingle, be socketed with a rotary sleeve outside the swingle, the support plate B is fixed on the end of rotary sleeve Portion is rotatablely connected between the swingle bottom and connecting cylinder bottom, and the periphery of the support plate B passes through an annular sliding It is slidably connected between circle and connecting cylinder end；Rotary dampening mechanism, the rotary dampening mechanism are provided between the connecting cylinder The latch plate B, the latch plate B that rotary sleeve inner wall is set to including annular array are arc, and the connecting cylinder inner wall is provided with Support plate B corresponding with latch plate B, the support plate B are contacted with latch plate B, and the swingle inner wall annular array is provided with Several latch plate A, the latch plate A are arc, and the connecting cylinder inner wall is provided with support plate A corresponding with latch plate A, described Support plate A is contacted with latch plate A.

As a further improvement on the present invention, the surface of the latch plate A is also set up there are one secondary spring plate A, described Be arranged symmetrically at Y shape between latch plate A and secondary spring plate A, the support plate A be set to latch plate A and secondary spring plate A it Between；The surface of the latch plate B is also set up there are one secondary spring plate B, at Y shape between the latch plate B and secondary spring plate B It is arranged symmetrically, the support plate B is set between latch plate B and secondary spring plate B.

As a further improvement on the present invention, it is fixedly connected by rivet between the secondary spring plate A and latch plate A； It is fixedly connected by rivet between the secondary spring plate B and latch plate B.

As a further improvement on the present invention, connecting cylinder bottom setting is there are one rotating hole, the connecting cylinder it is outer There are one limited block, the limited blocks to pass through the bottom that the screw rod of rotating hole is fixed to swingle by one for portion's setting.

As a further improvement on the present invention, the sliding rail includes two symmetrically arranged slide bars, the fixed frame Transverse ends and slide bar between be slidably connected.

As a further improvement on the present invention, there are one extending seat, the extending seats for the bottom setting of the fixed frame It extend out to outside shock frame, the extensible arm B is fixed on the projecting end of extending seat.

The beneficial effects of the invention are as follows：

The spring leaf for the Y shape that the present invention is arranged by several annular arrays, is arranged support chip between spring leaf, passes through bullet Reed clamps support chip, and when supporting disc spins, support chip can squeeze spring leaf to generate elastic resistance, for trembling for XY axis The dynamic power for providing damping and return, the corrosion-resistant materials such as different materials, such as carbon fiber may be used in spring leaf, because of this knot The spring leaf of structure is embedding structure, and fouling resistance is strong.

Description of the drawings

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the schematic diagram of the present invention；

Fig. 2 is the diagrammatic cross-section of buffer cell；

Fig. 3 is the vertical view of buffer cell.

In figure：1, shock frame；2, mobility framework；3, slide bar；4, fixed frame；5, extending seat；6, extensible arm A；7, expand Swing arm B；8, support plate A；9, support plate B；10, connecting rod B；11, connecting rod A；12, connecting cylinder；13, connecting rod connecting seat A；14, it rotates Bar；15, rotary sleeve；16, spring leaf B；17, support plate B；18, latch plate A；19, support plate A；20, limited block；21, screw rod； 22, rebound leaf of the spring A；23, rivet.

Specific implementation mode

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates the basic structure of the present invention, therefore it only shows the composition relevant to the invention.

As shown in Figures 1 to 3, the present invention is a kind of multidirectional damper of reed-type, including shock frame and is set to damping Mobility framework in frame and a buffer cell, wherein the upper and lower ends portion in the upper and lower ends portion of mobility framework and shock frame Between be slidably connected, mobility framework sliding axis be parallel to mobility framework upper and lower ends plane；In the middle part of the mobility framework It is provided with fixed frame, the sliding of mobility framework sliding axis is provided perpendicular between the upper and lower ends of the mobility framework Rail is slidably connected between the fixed frame and sliding rail；One end setting of the fixed frame is described there are one extensible arm A There are one extensible arm B for one end setting of mobility framework；Orthogonal setting between extensible arm A and extensible arm B；The buffer cell It is rotatably connected on the support plate A, the support plate B being set among support plate B including an annular support plate B and one There are one connecting rod connecting seat A for rotation connection on one connecting rod connecting seat B, the support plate A；Initial position, the connecting rod connection Seat A and connecting rod connecting seat B is with respect to support plate in 90 ° of arrangements；Clamping is described there are one connecting rod A on the wherein described connecting rod connecting seat A It is rotatablely connected between the end and extensible arm A of connecting rod B, the connecting rod A there are one clampings on connecting rod connecting seat B, the connecting rod B's It is rotatablely connected between end and extensible arm B；The buffer cell further includes a connecting seat, and the connecting seat includes a connection Cylinder, the bottoms the support plate A are vertically and fixedly provided with a swingle, a rotary sleeve, the branch are socketed with outside the swingle Support plate B is fixed on the end of rotary sleeve, is rotatablely connected between the swingle bottom and connecting cylinder bottom, the support plate B's Periphery between an annular sliding ring and connecting cylinder end by being slidably connected；It is provided with damping due to rotation between the connecting cylinder Mechanism, the rotary dampening mechanism include the latch plate B that annular array is set to rotary sleeve inner wall, and the latch plate B is arc, The connecting cylinder inner wall is provided with support plate B corresponding with latch plate B, and the support plate B is contacted with latch plate B, the rotation Bar inner wall annular array is provided with several latch plate A, and the latch plate A is arc, and the connecting cylinder inner wall is provided with and spring Plate A corresponding support plate A, the support plate A are contacted with latch plate A；

Further, the surface of the latch plate A also sets up there are one secondary spring plate A, the latch plate A and assists bullet It is arranged symmetrically at Y shape between spring plank A, the support plate A is set between latch plate A and secondary spring plate A；The latch plate B Surface also set up there are one secondary spring plate B, be arranged symmetrically at Y shape between the latch plate B and secondary spring plate B, it is described Support plate B is set between latch plate B and secondary spring plate B；

Further, it is fixedly connected by rivet between the secondary spring plate A and latch plate A；The secondary spring plate B It is fixedly connected by rivet between latch plate B；

Further, there are one rotating holes for the connecting cylinder bottom setting, and there are one limits for the external setting of the connecting cylinder Position block, the limited block pass through the bottom that the screw rod of rotating hole is fixed to swingle by one；

Further, the sliding rail includes two symmetrically arranged slide bars, the transverse ends and cunning of the fixed frame It is slidably connected between bar；

Further, there are one extending seat, the extending seat extend out to shock frame for the bottom setting of the fixed frame Outside, the extensible arm B are fixed on the projecting end of extending seat；

In use, first by Pipe installing to fixed frame, when vibrated, vibration force is decomposed towards X, Y direction, So that fixed frame relative movement frame movement, meanwhile, mobility framework is moved relative to shock frame, when moving, drives extension Arm A and extensible arm B movements push support plate A and support respectively when extensible arm A and extensible arm B are moved by connecting rod A, connecting rod B Disk B rotations, to drive swingle and the opposite sliding of rotary sleeve, when swingle and rotary sleeve rotate, support plate A, support plate B meetings Squeeze latch plate A, secondary spring plate A, latch plate B, secondary spring plate B, using latch plate A, secondary spring plate A, latch plate B, The flexible deformation of secondary spring plate B provides elastic damping for rotation, and then obtains elastic buffer.

It is starting with above-mentioned desirable embodiment according to the present invention, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to determine its technical scope according to right.

Claims (6)

1. a kind of multidirectional damper of reed-type, it is characterized in that：Including shock frame and the movable frame being set in shock frame It is slidably connected between frame and a buffer cell, wherein the upper and lower ends portion of mobility framework and the upper and lower ends portion of shock frame, Mobility framework sliding axis is parallel to the plane of the upper and lower ends of mobility framework；It is provided with fixed frame in the middle part of the mobility framework Frame is provided perpendicular to the sliding rail of mobility framework sliding axis, the fixed frame between the upper and lower ends of the mobility framework It is slidably connected between frame and sliding rail；There are one extensible arm A, one end of the mobility framework for one end setting of the fixed frame There are one extensible arm B for setting；Orthogonal setting between extensible arm A and extensible arm B；The buffer cell includes one annular There are one connecting rod connecting seats for rotation connection on support plate B and support plate an A, the support plate B being set among support plate B There are one connecting rod connecting seat A for rotation connection on B, the support plate A；Initial position, the connecting rod connecting seat A and connecting rod connecting seat B is with respect to support plate in 90 ° of arrangements；There are one filled on connecting rod A, the connecting rod connecting seat B for clamping on the wherein described connecting rod connecting seat A Folder there are one being rotatablely connected between the end and extensible arm A of connecting rod B, the connecting rod A, the end of the connecting rod B and extensible arm B it Between be rotatablely connected；The buffer cell further includes a connecting seat, and the connecting seat includes a connecting cylinder, the support plate A Bottom is vertically and fixedly provided with a swingle, and a rotary sleeve is socketed with outside the swingle, and the support plate B is fixed on rotation The end of set is rotatablely connected between the swingle bottom and connecting cylinder bottom, and the periphery of the support plate B passes through an annular Sliding ring and connecting cylinder end between be slidably connected；Rotary dampening mechanism, the rotation resistance are provided between the connecting cylinder Buddhist nun mechanism includes the latch plate B that annular array is set to rotary sleeve inner wall, and the latch plate B is arc, the connecting cylinder inner wall It is provided with support plate B corresponding with latch plate B, the support plate B is contacted with latch plate B, the swingle inner wall annular array Several latch plate A are provided with, the latch plate A is arc, and the connecting cylinder inner wall is provided with support plate corresponding with latch plate A A, the support plate A are contacted with latch plate A.

2. a kind of multidirectional damper of reed-type as described in claim 1, it is characterized in that：The surface of the latch plate A is also set up There are one secondary spring plate A, are arranged symmetrically at Y shape between the latch plate A and secondary spring plate A, the support plate A is set to Between latch plate A and secondary spring plate A；The surface of the latch plate B is also set up there are one secondary spring plate B, the latch plate B It is arranged symmetrically at Y shape between secondary spring plate B, the support plate B is set between latch plate B and secondary spring plate B.

3. a kind of multidirectional damper of reed-type as claimed in claim 2, it is characterized in that：The secondary spring plate A and latch plate A Between be fixedly connected by rivet；It is fixedly connected by rivet between the secondary spring plate B and latch plate B.

4. a kind of multidirectional damper of reed-type as described in claim 1, it is characterized in that：There are one the connecting cylinder bottom settings Rotating hole, there are one limited block, the limited block passes through the screw rod of rotating hole solid by one for the external setting of the connecting cylinder Surely the bottom of swingle is arrived.

5. a kind of multidirectional damper of reed-type as described in claim 1, it is characterized in that：The sliding rail is symmetrically set including two The slide bar set is slidably connected between the transverse ends and slide bar of the fixed frame.

6. a kind of multidirectional damper of reed-type as described in claim 1, it is characterized in that：The bottom of the fixed frame is provided with One extending seat, the extending seat are extend out to outside shock frame, and the extensible arm B is fixed on the projecting end of extending seat.