CN109487980A - A kind of shock insulation floor of connecting lever support - Google Patents

Abstract

A kind of shock insulation floor of connecting lever support, technical solution of the present invention by Tipple Bottom board group at, installation spring and connecting lever antishock device are respectively used between Tipple Bottom plate, spring is used to absorb the vertical vibration energy that explosion generates, connecting lever antishock device is used to buffer the transverse vibration energy that explosion generates, upper and lower support connecting lever on connecting lever antishock device is mutually hinged, spring is also connected between upper and lower support connecting lever, the energy of buffering and absorption explosion that this setting can be comprehensive, significantly promotes the shock insulation function on shock insulation floor.

Description

A kind of shock insulation floor of connecting lever support

Technical field

The present invention relates to the technical fields on shock insulation floor, more particularly to a kind of multiple spot spherical surface rolling support with limit rope Shock insulation floor.

Background technique

Under blast shock environment, requirement of engineering takes isolation measure to guarantee the safety of internal staff and equipment.Every Shake floor is the isolation measure that engineering shock insulation generallys use, and existing shock insulation floor installs additional generally by between upper layer and lower layer plate Elastic element, for example the vibration of blast impulse generation is buffered using spring, spring is generally used for solving the perpendicular of detonation shock Absorption to the energy of vibration, and for explosion, the impact of generation is not merely vertical vibration energy, will also include one A little lateral vibration energy, existing shock insulation floor do not have the function of this respect substantially, it is necessary to which innovation and improvement are promoted.

Summary of the invention

To solve the above problems, the present invention proposes a kind of shock insulation floor of connecting lever support.

The technical scheme is that a kind of shock insulation floor of connecting lever support, including top plate, intermediate plate and lower plywood, It is characterized in that: be evenly distributed with several anti-seismic springs between the top plate and middle plate, up and down the two of the anti-seismic spring End is fixedly connected with top plate and intermediate plate respectively；There are four mutually equal for support between the quadrangle of the middle plate and lower plywood Capable connecting lever antishock device, including at least in the connecting lever antishock device has support connecting lever, by turning between middle plate and lower plywood Arm antishock device can be swung；

The quadrangle of plate and lower plywood is equipped with limit rope in middle level, which is slightly larger than between middle plate and lower plywood Spacing.

Preferably, the support connecting lever of the connecting lever antishock device by intermediate cross-brace body and is connected between support The upper and lower supporting leg at body both ends forms, and upper and lower supporting leg is in opposite direction and intermediate support is vertically vertical connect respectively, middle plate Position corresponding with upper and lower supporting leg with lower plywood is equipped with bearing block, and the end of upper and lower supporting leg connects shape with bearing block by bearing At revolute pair.

Preferably, the connecting lever antishock device includes spring, and support connecting lever includes that upper support connecting lever and lower support are turned Arm, upper support connecting lever are formed by lateral upper articulated body and with the vertical upper connecting lever supporting leg connected vertically in upper articulated body one end, Lower support connecting lever is formed by lateral lower articulated body and with the vertical lower connecting lever supporting leg connected vertically in lower articulated body one end, described Upper support connecting lever and lower support connecting lever are hingedly linked together by the hinged end of upper articulated body and the hinged end of lower articulated body, described Spring is located at the angle of upper and lower articulated body, the middle part horizontal connection at the both ends of spring and upper and lower articulated body；Middle plate and Lower plywood position corresponding with upper and lower connecting lever supporting leg is equipped with bearing block, and upper and lower connecting lever supporting leg connects shape with bearing block by bearing At revolute pair.

Preferably, the hinged end of the upper articulated body, which extends outwardly, is equipped with and the lateral vertical holding tank of upper articulated body, under Articulated body is located in the holding tank.

Preferably, the cross section of the upper support connecting lever and lower support connecting lever is that round and size is identical.

Preferably, the size matching of the size of the holding tank and lower support connecting lever.

Preferably, the size of the upper, middle and lower laminate is all the same, between the laminate of upper, middle and lower install anti-seismic spring and Corresponding each side is parallel to each other after crutches arm antishock device.

Preferably, after the upper supporting leg and lower limb leg are connect by bearing with middle plate and lower plywood, two intermediate supports Body is identical with the distance of lower plywood away from middle plate.

The method have the benefit that: shock insulation bottom plate of the invention is set as three layers, sets between top plate and middle plate There is anti-seismic spring to be used to absorb vertical vibration energy, connecting lever antishock device, shock insulation bottom plate are equipped between middle plate and lower plywood When receiving lateral vibration, the support connecting lever stress on antishock device will drive bottom plate swing, to sponge each orientation Transverse vibration energy, under the collective effect of anti-seismic spring and connecting lever antishock device, shock insulation bottom plate of the invention can be comprehensive Vibration energy is sponged, the more stable safety of shock insulation bottom plate is made.

Detailed description of the invention

Fig. 1 is a kind of one of the perspective view on the shock insulation floor of connecting lever support；

Fig. 2 is a kind of one of the main view on the shock insulation floor of connecting lever support；

Fig. 3 is the partial enlarged view of Fig. 2；

Fig. 4 is the sectional view along A-A of Fig. 2；

Fig. 5 is the two of the perspective view on the shock insulation floor of a kind of connecting lever support；

Fig. 6 is the two of the main view on the shock insulation floor of a kind of connecting lever support；

Fig. 7 is the B-B direction cross-sectional view of Fig. 5；

Fig. 8 is the two of the connecting lever antishock device on the shock insulation floor of a kind of connecting lever support；

Fig. 9 is the two of the connecting lever antishock device another kind state on the shock insulation floor of a kind of connecting lever support；

In figure, 1. top plates；2. intermediate plate；3. lower plywood；4. anti-seismic spring；5. connecting lever antishock device；6. limiting rope；In 7. Between supporter；701. upper supporting leg；702. lower supporting legs；8. bearing block；9. spring；10. connecting lever is supported on；Articulated body on 101.； Connecting lever on 102.；103. holding tank；11. lower support connecting lever；1101. lower articulated body；1102. lower connecting lever supporting legs.

Specific embodiment

Embodiment one, referring to Figure of description 1-4, a kind of shock insulation floor of connecting lever support, including top plate, intermediate plate and Lower plywood is evenly distributed with several anti-seismic springs, the upper and lower ends of the anti-seismic spring between the top plate and middle plate It is fixedly connected respectively with top plate and intermediate plate, vertical vibration energy can be absorbed in anti-seismic spring；The middle plate and There are four connecting lever antishock devices parallel to each other for support between the quadrangle of lower plywood, and connecting lever antishock device can be absorbed lateral Vibration energy includes support connecting lever in the connecting lever antishock device, and the support connecting lever is by intermediate support and is connected to Between supporter both ends upper and lower supporting leg composition, upper and lower supporting leg is in opposite direction and intermediate support is vertically vertical connect respectively, Middle plate and lower plywood position corresponding with upper and lower supporting leg are equipped with bearing block, and the end of upper and lower supporting leg passes through bearing and bearing block Connection forms revolute pair；It can be swung between middle plate and lower plywood by connecting lever antishock device；

The quadrangle of plate and lower plywood is equipped with limit rope in middle level, which is slightly larger than between middle plate and lower plywood Spacing, when the jerk received is very big, limit rope can hold top plate, intermediate plate and lower plywood, avoid shock insulation Excessive swing occurs for bottom plate.

The cross section of the upper support connecting lever and lower support connecting lever is that round and size is identical, the support connecting lever of cylindrical body It can more easily be connected with bearing, be able to ascend the installation and removal speed of shock insulation bottom plate.

The size of the upper, middle and lower laminate is all the same, and anti-seismic spring is installed between the laminate of upper, middle and lower and crutches arm is anti- Corresponding each side is parallel to each other after shaking device.

Embodiment two, referring to Figure of description 5-9, a kind of shock insulation floor of connecting lever support, including top plate, intermediate plate and Lower plywood is evenly distributed with several anti-seismic springs, the upper and lower ends of the anti-seismic spring between the top plate and middle plate It is fixedly connected respectively with top plate and intermediate plate, vertical vibration energy can be absorbed in anti-seismic spring；The middle plate and Support includes that support is turned in the connecting lever antishock device there are four connecting lever antishock device parallel to each other between the quadrangle of lower plywood Arm and spring, the connecting lever antishock device includes spring, and support connecting lever includes upper support connecting lever and lower support connecting lever, upper branch Support connecting lever is formed by lateral upper articulated body and with the vertical upper connecting lever supporting leg connected vertically in upper articulated body one end, and lower support is turned Arm is formed by lateral lower articulated body and with the vertical lower connecting lever supporting leg connected vertically in lower articulated body one end, the upper articulated body Hinged end and the hinged end of lower articulated body hingedly upper support connecting lever and lower support connecting lever are linked together, the spring is located at The angle of upper and lower articulated body, the middle part horizontal connection at the both ends of spring and upper and lower articulated body；Middle plate and lower plywood with The corresponding position of connecting lever supporting leg is equipped with bearing block above and below, and upper and lower connecting lever supporting leg connects to form rotation with bearing block by bearing Pair, upper and lower supporting leg can twist mutually when by lateral vibration energy, swing between middle plate and lower plywood to drive, The transverse energy in each orientation can be buffered,

Transverse vibration in embodiment one come power will appear if consistent with supporter direction support connecting lever both ends will not be around axis Forward it is dynamic, in this way support connecting lever cannot play the role of deflection.The spring connected between upper and lower articulated body in the present embodiment To an elastic force each other, avoid as shaking connecting lever antishock device failure phenomenon caused by carrying out power angle problem.

The hinged end of the upper articulated body, which extends outwardly, to be equipped with and the lateral vertical holding tank of upper articulated body, lower hinged position In in the holding tank, holding tank can keep connecting lever antishock device structure stronger to articulated body one support.

The quadrangle of plate and lower plywood is equipped with limit rope in middle level, which is slightly larger than middle plate and lower plywood Between spacing, when the jerk received is very big, limit rope can hold intermediate plate and lower plywood, avoid shock insulation bottom plate Excessive swing occurs.

The support connecting lever is cylindrical body, and the support connecting lever of cylindrical body more can be connected easily with bearing, can Promote the installation and removal speed of shock insulation bottom plate.

The size matching of the size of the holding tank and lower support connecting lever, after holding tank can give upper and lower connecting lever hinged One support, increases upper and lower connecting lever to the support force of top bottom plate.

The size of the upper, middle and lower laminate is all the same, and anti-seismic spring is installed between the laminate of upper, middle and lower and crutches arm is anti- Corresponding each side is parallel to each other after shaking device.

After the upper supporting leg and lower limb leg is connect by bearing with middle plate and lower plywood, two intermediate supports are away from middle layer Plate is identical with the distance of lower plywood, can make two intermediate support uniform forces in this way, avoids unbalance stress that connecting lever antidetonation is caused to fill Set unstable, decrease anti seismic efficiency.

Lower plywood can be fixed on ground, as stabilization by above-described embodiment one and two by anchoring piece during installation Support, then connecting lever antishock device, middle plate, anti-seismic spring and top plate are installed upwards in turn, the limit rope of quadrangle uses Wirerope or tension spring.

Claims (8)

1. a kind of shock insulation floor of connecting lever support, including top plate, intermediate plate and lower plywood, it is characterized in that: the top plate Be evenly distributed with several anti-seismic springs between middle plate, the upper and lower ends of the anti-seismic spring respectively with top plate and intermediate plate It is fixedly connected；There are four connecting lever antishock devices parallel to each other for support between the quadrangle of the middle plate and lower plywood, this is turned Including at least in arm antishock device has support connecting lever, can be swung between middle plate and lower plywood by connecting lever antishock device；

The quadrangle of plate and lower plywood is equipped with limit rope in middle level, which is slightly larger than between middle plate and lower plywood Spacing.

2. a kind of shock insulation floor of connecting lever support according to claim 1, it is characterized in that: the connecting lever antishock device Support connecting lever is made of intermediate cross-brace body with the upper and lower supporting leg for being connected between supporter both ends, upper and lower supporting leg difference In opposite direction with intermediate support is vertically vertical connect, middle plate and lower plywood position corresponding with upper and lower supporting leg are equipped with axis Seat is held, the end of upper and lower supporting leg connects to form revolute pair by bearing with bearing block.

3. the shock insulation floor of a kind of connecting lever support according to claim 1, it is characterized in that: the connecting lever antishock device packet Included spring, support connecting lever includes upper support connecting lever and lower support connecting lever, upper support connecting lever by transverse direction upper articulated body and with The vertical upper connecting lever supporting leg composition connected vertically in upper articulated body one end, lower support connecting lever by lateral lower articulated body and with lower hinge It cuts with scissors the hinged end of the vertical lower connecting lever supporting leg composition connected vertically in junctor one end, the hinged end of the upper articulated body and lower articulated body It connects and is linked together upper support connecting lever and lower support connecting lever, the spring is located at the angle of upper and lower articulated body, spring The middle part horizontal connection at both ends and upper and lower articulated body；Middle plate and lower plywood position corresponding with upper and lower connecting lever supporting leg are equipped with axis Seat is held, upper and lower connecting lever supporting leg connects to form revolute pair by bearing with bearing block.

4. a kind of shock insulation floor of connecting lever support according to claim 3, it is characterised in that: the upper articulated body it is hinged End extend outwardly be equipped with and upper articulated body laterally vertical holding tank, lower articulated body are located in the holding tank.

5. the shock insulation floor of a kind of connecting lever support according to claim 2 or 3, it is characterized in that: the upper support connecting lever Cross section with lower support connecting lever is that round and size is identical.

6. a kind of shock insulation floor of connecting lever support according to claim 3, it is characterized in that: the size of the holding tank and The size matching of lower support connecting lever.

7. a kind of shock insulation floor of connecting lever support according to claim 1, it is characterized in that: the upper, middle and lower laminate Size is all the same, and corresponding each side is mutual after installing anti-seismic spring and crutches arm antishock device between the laminate of upper, middle and lower In parallel.

8. the shock insulation floor of a kind of connecting lever support according to claim 1, it is characterized in that: the upper supporting leg and lower limb leg After being connect by bearing with middle plate and lower plywood, two intermediate supports are identical with the distance of lower plywood away from middle plate.