CN212387533U - Shock-absorbing structure for construction elevator - Google Patents

Abstract

The utility model discloses a shock-absorbing structure for construction elevator, including the connecting piece body, the connecting piece body includes lug formula rubber piece shock attenuation clamp plate one, yielding rubber clamp plate, yielding rubber piece one, yielding rubber piece two and lug formula rubber piece shock attenuation clamp plate two, a lug formula rubber piece shock attenuation clamp plate upper wall is located to yielding rubber piece one, a lug formula rubber piece shock attenuation clamp plate lower wall is located to yielding rubber piece two, a yielding rubber piece upper wall is located to the yielding rubber clamp plate, lug formula rubber piece shock attenuation clamp plate two is located on the two diapalls of yielding rubber piece. The utility model belongs to the technical field of engineering machine tool, specifically indicate a noise that reduces construction elevator reduces vibrations among the operation process, ensures operator and takes personnel's personal safety's shock-absorbing structure for construction elevator.

Description

Shock-absorbing structure for construction elevator

Technical Field

The utility model belongs to the technical field of engineering machine tool, specifically indicate a shock-absorbing structure for construction elevator.

Background

Construction elevators are generally referred to as construction elevators, but construction elevators comprise a broader definition and construction platforms also belong to the construction elevator series. The simple construction elevator consists of a lift car, a driving mechanism, a standard knot, an attached wall, a chassis, a fence, an electrical system and the like, and is a manned cargo-carrying construction machine frequently used in buildings. At present, a construction elevator used in a construction site has high noise, the possibility of loosening and welding of an elevator mechanism and a suspension cage bolt is greatly increased due to vibration, and personal danger is brought to an operator and a passenger.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a reduce construction elevator's noise reduces vibrations in the operation process, ensures operator and takes personnel personal safety's shock-absorbing structure for construction elevator.

In order to realize the above functions, the utility model discloses the technical scheme who takes as follows: a damping structure for a construction elevator comprises a connecting piece body, wherein the connecting piece body is used for connecting a driving mechanism of the construction elevator with a suspension cage and comprises a first lifting lug type rubber block damping pressure plate, a damping rubber pressure plate, a first damping rubber block, a second damping rubber block and a second lifting lug type rubber block damping pressure plate, the first damping rubber block is arranged on the upper wall of the first lifting lug type rubber block damping pressure plate, the second damping rubber block is arranged on the lower wall of the first lifting lug type rubber block damping pressure plate, the damping rubber pressure plate is arranged on the upper wall of the first damping rubber block, the second lifting lug type rubber block damping pressure plate is arranged on the bottom wall of the second damping rubber block, the first lifting lug type rubber block damping pressure plate is connected with the driving mechanism, the second lifting lug type rubber block damping pressure plate is connected with the suspension cage, the connection between the driving mechanism of the construction elevator and the suspension cage is realized, the vibration generated in the operation process is eliminated through the first damping rubber block and the second damping rubber block arranged on the two, simultaneously, the sandwich type structure of the damping rubber block I, the damping rubber block II and the lifting lug type rubber block damping pressing plate I is arranged, and the noise generated by mutual friction of the traditional steel hinged structure in the operation process is avoided.

Furthermore, the first lug type rubber block damping pressure plate comprises a first bottom plate and a first lug, the first bottom plate is of a plate-shaped structure, the vertical central section of the first bottom plate in the front view and the vertical central section of the first bottom plate in the side view are both of I-shaped structures, an upper wall and a lower wall of the first bottom plate form a groove, the first damping rubber block is buckled in the groove of the upper wall of the first bottom plate during installation, the second damping rubber block is buckled in the groove of the bottom wall of the first bottom plate, the first lug is arranged at the center of the upper wall of the first bottom plate and penetrates through the first damping rubber block and the damping rubber pressure plate to set a construction elevator driving mechanism, and the first lug type rubber block damping pressure plate is connected with the first lug.

Furthermore, the lifting lug type rubber block damping pressing plate II comprises a second bottom plate and a second lifting lug, the second bottom plate is arranged on the bottom wall of the second damping rubber block, the second bottom plate is arranged in a flat plate type structure, the second lifting lug is arranged on the bottom wall of the second bottom plate, the second lifting lug is provided with two groups of damping pressing plates and symmetrically arranged along the vertical central plane of the second bottom plate, the suspension cage is connected with the second lifting lug type rubber block damping pressing plate through welding or pin joint with the second lifting lug, and the second lifting lug is symmetrically arranged, so that the second suspension cage can be prevented from shaking in the operation process of the construction elevator.

Further, be equipped with the shock attenuation on the connecting piece body and connect the clamp plate hole, the shock attenuation is connected the clamp plate hole and is equipped with the multiunit and sets up about a lug formula rubber piece shock attenuation clamp plate central plane symmetry, the shock attenuation is connected the clamp plate hole and is run through damping rubber clamp plate, damping rubber piece one, lug formula rubber piece shock attenuation clamp plate one, damping rubber piece two and setting of lug formula rubber piece shock attenuation clamp plate two, and it is fixed to connect the clamp plate hole to screw through inserting the bolt shock attenuation, realizes that the compaction between connecting piece body layer and the layer is fixed, and convenient to detach changes simultaneously.

The utility model adopts the above structure to gain beneficial effect as follows: the utility model provides a pair of shock-absorbing structure for construction elevator, moreover, the steam generator is simple in structure, high durability and convenient use, through set up damping rubber piece one and damping rubber piece two in a lug formula rubber piece shock attenuation clamp plate both sides, possible noise that reduces the construction elevator, vibrations have been reduced, reduce operating personnel safety risk, improve construction safety greatly, and through at a damping rubber piece compaction damping rubber clamp plate, avoid this shock-absorbing structure to cause the damage to damping rubber piece one when self is fixed, prolong this shock-absorbing structure's life.

Drawings

Fig. 1 is a front sectional view of the shock-absorbing structure for construction elevator of the present invention;

fig. 2 is the utility model relates to a damping structure's for construction elevator right side cut-away view.

The connecting piece comprises a connecting piece body 1, a first lug type rubber block damping pressure plate 2, a first lug type rubber block damping pressure plate 3, a damping rubber pressure plate 4, a first damping rubber block 5, a second damping rubber block 6, a second lug type rubber block damping pressure plate 7, a first base plate 8, a first lug, a second base plate 9, a second base plate 10, a second lug, 11 and a damping connecting pressure plate hole 12 and a groove.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the following embodiments, and the technical features or the connection relations of the present invention, which are not described in detail, are the prior art adopted.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-2, the utility model relates to a shock-absorbing structure for construction elevator, including connecting piece body 1, connecting piece body 1 includes lug formula block rubber shock attenuation clamp plate 2, yielding rubber clamp plate 3, a yielding rubber piece 4, two 5 and two 6 of lug formula block rubber shock attenuation clamp plate, lug formula block rubber shock attenuation clamp plate 2 upper walls are located to a yielding rubber piece 4, a lug formula block rubber shock attenuation clamp plate 2 lower walls are located to a yielding rubber piece two 5, a yielding rubber piece 4 upper walls are located to a yielding rubber clamp plate 3, on lug formula block rubber shock attenuation clamp plate two 5 diapalls are located to a lug formula block rubber shock attenuation clamp plate 6.

The lifting lug type rubber block damping pressing plate 2 comprises a first bottom plate 7 and a first lifting lug 8, the vertical central section of the first bottom plate 7 in the front view and the vertical central section of the first bottom plate in the side view are both of a plate-shaped structure, a groove 12 is formed in the upper wall and the lower wall of the first bottom plate 7, a first damping rubber block 4 is buckled in the groove 12 in the upper wall of the first bottom plate during installation, a second damping rubber block 5 is buckled in the groove 12 in the bottom wall of the first bottom plate, and the first lifting lug 8 is arranged at the center of the upper wall of the first bottom plate 7 and penetrates through the first damping rubber block 4 and the damping rubber pressing plate 3.

The lifting lug type rubber block damping pressure plate II 6 comprises a bottom plate II 9 and lifting lugs II 10, the bottom plate II 9 is arranged on the bottom wall of the damping rubber block II 5, the bottom plate II 9 is arranged in a flat plate type structure, the lifting lugs II 10 are arranged on the bottom wall of the bottom plate II 9, and the lifting lugs II 10 are arranged in two groups and symmetrically arranged along the vertical central plane of the bottom plate II 9.

Connecting plate hole 11 is connected in the shock attenuation that is equipped with on connecting piece body 1, pressure plate hole 11 is connected in the shock attenuation is equipped with the multiunit and sets up about 2 central plane symmetries of lug formula block rubber shock attenuation clamp plate, pressure plate hole 11 is connected in the shock attenuation runs through damping rubber clamp plate 3, damping rubber block 4, lug formula block rubber shock attenuation clamp plate 2, damping rubber block two 5 and lug formula block rubber shock attenuation clamp plate two 6 settings.

During the specific use, connect construction actuating mechanism on lug formula block rubber shock attenuation clamp plate one 2 through lug one 8, connect the cage on lug formula block rubber shock attenuation clamp plate two 6 through lug two 10, link this shock-absorbing structure into the construction elevator, the damping rubber block one 4 and the damping rubber block two 5 of locating lug formula block rubber shock attenuation clamp plate one 2 both sides filter and eliminate the vibrations that produce in the construction elevator operation process, the sandwich type structure setting of damping rubber block one 4 and damping rubber block two 5 and lug formula block rubber shock attenuation clamp plate one 2 replaces the articulated structure setting of traditional steel construction simultaneously, thereby reduce the noise that produces because of the friction.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (4)

1. The utility model provides a shock-absorbing structure for construction elevator, includes the connecting piece body, its characterized in that: the connecting piece body comprises a first lug type rubber block damping pressing plate, a first damping rubber block, a second damping rubber block and a second lug type rubber block damping pressing plate, wherein the first damping rubber block is arranged on the first lug type rubber block damping pressing plate, the second damping rubber block is arranged on the lower wall of the first lug type rubber block damping pressing plate, the upper wall of the first damping rubber block is arranged on the damping rubber pressing plate, and the second lug type rubber block damping pressing plate is arranged on the bottom wall of the second damping rubber block.

2. The shock-absorbing structure for construction elevator according to claim 1, characterized in that: the first lug type rubber block damping pressure plate comprises a first bottom plate and a first lug, the first bottom plate is of a plate-shaped structure, the vertical central section of the first bottom plate is in the front view, the vertical central section of the first bottom plate is in an I-shaped structure, the vertical central section of the first bottom plate in the side view is provided with a groove, the upper wall and the lower wall of the first bottom plate form a groove, the first damping rubber block is buckled in the groove of the upper wall of the first bottom plate during installation, the second damping rubber block is buckled in the groove of the lower wall of the first bottom plate, and the first lug is arranged at the center of the upper wall of the.

3. The shock-absorbing structure for construction elevator according to claim 1, characterized in that: the lifting lug type rubber block damping pressing plate II comprises a bottom plate II and lifting lugs II, the bottom plate II is arranged on the bottom wall of the damping rubber block II, the bottom plate II is arranged in a flat plate type structure, the lifting lugs II are arranged on the bottom wall of the bottom plate II, and the lifting lugs II are arranged in two groups and symmetrically arranged along the vertical central plane of the bottom plate II.

4. The shock-absorbing structure for construction elevator according to claim 1, characterized in that: the connecting piece is characterized in that a shock absorption connecting pressing plate hole is formed in the connecting piece body, multiple groups of shock absorption connecting pressing plate holes are formed in the shock absorption connecting pressing plate hole, and the shock absorption connecting pressing plate hole is symmetrically arranged about a center plane of the lifting lug type rubber block shock absorption pressing plate, and penetrates through the shock absorption rubber pressing plate, the first shock absorption rubber block, the first lifting lug type rubber block shock absorption pressing plate, the second shock absorption rubber block and the second lifting lug type rubber block shock absorption pressing plate.

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