CN213171030U - Double-layer suspension cage structure for traction type construction elevator - Google Patents

Abstract

The utility model relates to a jacking equipment field discloses a double-deck cage structure for towed construction elevator. The structure comprises two cages, wherein the two cages are arranged between two vertical beams, and one cage is positioned right above the other cage; the upper beam is arranged above each suspension cage, the lower beam is fixedly arranged below each suspension cage, two ends of the upper beam and two ends of the lower beam are respectively slidably arranged on the two vertical beams, the upper beam and the suspension cages are connected through pull wires, and the other ends of the pull wires are connected with the elevator. The utility model provides a double-deck cage structure for towed construction elevator can transport construction material and equipment simultaneously to two adjacent floors simultaneously through two cage structures about setting up, is applicable to the construction elevator of floor building work to the efficiency of building work has been improved.

Description

Double-layer suspension cage structure for traction type construction elevator

Technical Field

The utility model relates to a jacking equipment field, in particular to a double-deck cage structure for towed construction elevator.

Background

In lifting equipment such as elevators, the core of the lifting equipment is a lift car for loading, namely, a cage structure, and a passenger elevator commonly used is generally only provided with one cage structure, so that the floors required to be reached by each user are different, and even if the cage structures with different heights are arranged, the elevator can be influenced mutually when in use, and the efficiency of the elevator is reduced.

In the construction work of a floor building, construction materials and equipment are often required to be conveyed to adjacent floors simultaneously, and the elevator equipment such as a construction elevator used for the work is low in working efficiency under the condition that only one cage structure is arranged, so that the space capable of being improved exists.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a double-deck cage structure for towed construction elevator.

According to one aspect of the utility model, a double-layer suspension cage structure for a traction type construction elevator is provided, which comprises two suspension cages, wherein the two suspension cages are arranged between two vertical beams, and one of the suspension cages is positioned right above the other suspension cage; the upper beam is arranged above each suspension cage, the lower beam is fixedly arranged below each suspension cage, two ends of the upper beam and two ends of the lower beam are respectively slidably arranged on the two vertical beams, the upper beam and the suspension cages are connected through pull wires, and the other ends of the pull wires are connected with the elevator.

The utility model provides a double-deck cage structure for towed construction elevator can transport construction material and equipment simultaneously to two adjacent floors simultaneously through two cage structures about setting up, is applicable to the construction elevator of floor building work to the efficiency of building work has been improved.

In some embodiments, the side of the cage is provided with a door structure. Thus, the door structure can be used for user access.

In some embodiments, a top plate is disposed on the top of the suspension cage, the top plate is connected with a stay wire, and the stay wire is further fixed to the upper beam. Therefore, the suspension cage can be pulled and moved by the pulling wire under the action of the lifter.

In some embodiments, two side surfaces of each cage are further connected to each upright beam by a tie rod. Therefore, the movement of the suspension cage relative to the vertical beam can be smoother when the suspension cage is lifted and pulled by arranging the pull rod.

In some embodiments, each side surface of each cage is provided with two inclined pull rods, the upper end of each pull rod is connected with the middle part of the vertical beam, and the lower end of each pull rod is movably connected with the bottom of the cage. Therefore, the number and the specific installation mode of the pull rods are set, so that the pull rods can smoothly play a corresponding role.

In some embodiments, the bottom of the suspension cage is provided with a bottom plate, and two ends of each side of the bottom plate are movably connected with the two pull rods of the side. Therefore, the suspension cage and the specific structure connected with the pull rod are arranged.

In some embodiments, two ends of each side of the bottom plate are slidably provided with a ring buckle, and the lower end of the pull rod is connected with the ring buckles. Therefore, the suspension cage and the concrete structure of the suspension cage connected with the pull rod are further arranged.

In some embodiments, a plurality of adjustment holes are provided in the upright. Therefore, the horizontal height of the upper and lower suspension cages can be adjusted through the adjusting holes so as to be suitable for different building floor heights.

Drawings

Fig. 1 is a schematic structural diagram of a double-layer cage structure for a traction type construction hoist according to an embodiment of the present invention;

fig. 2 is a front view of a double-deck cage structure for a traction type construction hoist shown in fig. 1;

FIG. 3 is a schematic view of the structure associated with the single cage of FIG. 1;

figure 4 is a schematic view of a portion of the structure associated with the single cage of figure 3.

In the figure: the lifting cage comprises a lifting cage 1, a vertical beam 2, an upper beam 3, a lower beam 4, a pull rod 5, a door structure 11, a top plate 12, a bottom plate 13, a ring buckle 14 and an adjusting hole 21.

Detailed Description

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

Fig. 1 schematically shows a double-layered cage structure for a traction type construction elevator according to an embodiment of the present invention, fig. 2 shows a front view of the double-layered cage structure for a traction type construction elevator of fig. 1, fig. 3 shows a structure of a single cage and related parts of fig. 1, and fig. 4 shows a structure of a portion of the single cage and related parts of fig. 1. As shown in fig. 1-4, the structure mainly comprises two cages 1 with identical shapes, wherein the two cages 1 are arranged between two vertical beams 2, and one cage 1 is positioned right above the other cage 1. Wherein two rails are installed in the elevator shaft and run through the whole building, and each cage 1 can slide up and down in the direction limited by the vertical beams 2 under the action of the elevator and the wires.

The cage 1 is substantially rectangular and a vertical door structure 11 is provided on one of the side surfaces of the cage 1. The top of the suspension cage 1 is provided with a horizontal top plate 12, the bottom is provided with a horizontal bottom plate 13, and the two vertical beams 2 are respectively positioned at the outer sides of two opposite side surfaces which are vertical to the side surface of the door structure 11.

A plurality of adjusting holes 21 are distributed on the vertical beam 2 from top to bottom, and the horizontal height of the suspension cage 1 can be adjusted through the adjusting holes 21 so as to be suitable for different building floor heights.

An upper beam 3 is arranged above each cage 1, wherein the upper beam 3 is positioned at a distance from one end above the cage 1, two ends of the upper beam 3 are respectively and slidably mounted on the two vertical beams 2, a stay wire extending out of the elevator extends from the upper side and is fixed on the upper beam 3 positioned above the cage 1 on the upper layer, and then the stay wire continuously extends and is connected with a top plate 12 of the cage 1. The cage 1 can be pulled by the wires to perform a lifting movement under the action of the lift, wherein the upper beam 3 further stabilizes and positions the wires. In addition, if necessary, a pull wire may also extend from the bottom of the cage 1 on the upper layer to connect with the cage 1 on the lower layer and the upper beam 3 above the cage.

Still all fixed mounting has a underbeam 4 in the below of every cage 1, and wherein, the both ends of underbeam 4 slidable mounting respectively is on two upright roof beams 2, and the bottom of cage 1 is placed on underbeam 4 through bottom plate 13, then underbeam 4 can be used for bearing the weight of cage 1, makes the installation setting of cage 1 more firm.

The side of each cage 1 on which the upright 2 is arranged is also connected to the upright 2 by means of an inclined tie rod 5. Preferably, there are two tie rods 5 at each side. Taking one of the side surfaces as an example, two ends of the bottom plate 13 of the suspension cage 1, which are located at the side edge of the side surface, are provided with a ring buckle 14 capable of sliding on the side edge, the ring buckle 14 extends out of the side edge, and a hole is formed in the ring buckle 14. Furthermore, the two lateral outer uprights 2 are connected on both sides in the middle with the upper ends of two tie rods 5, which are typically a sliding connection, while the lower ends of the two tie rods 5 extend into the eye 14. When the cage 1 is lifted along the vertical beam 2, the mutual movement between the cage and the vertical beam 2 can drive the two to move together, the ring buckle 14 is driven to slide along the side surface of the bottom plate 13 of the cage 1, and the upper end of the pull rod 5 can also slide along the vertical beam 2 if necessary. Thus, the presence of the tie rods 5 not only further stabilizes the connection between the cage 1 and the upright 2, but also does not affect the lifting movement of the cage 1.

The utility model provides a double-deck cage structure generally applies in high building construction place for tow formula construction elevator, because it has two cage 1 from top to bottom, then in the construction, can put into the personnel that need the transport simultaneously in two cage 1 in the low department, material and equipment etc, then promote two adjacent floor departments of eminence simultaneously along founding roof beam 2 under the effect of lift and acting as go-between with two cage 1, unload simultaneously again, and be used for the construction with the material and the equipment that unload, thereby construction's efficiency has effectively been improved.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (8)

1. The utility model provides a double-deck cage structure for towing formula construction elevator which characterized in that: the device comprises two cages (1), wherein the two cages (1) are arranged between two vertical beams (2), and one cage (1) is positioned right above the other cage (1); each upper beam (3) is arranged above the suspension cage (1), a lower beam (4) is fixedly arranged below the suspension cage, the two ends of the upper beam (3) and the lower beam (4) are respectively and slidably arranged on the vertical beams (2), the upper beam (3) is connected with the suspension cage (1) through a stay wire, and the other end of the stay wire is connected with the elevator.

2. The double-deck cage structure for a traction-type construction elevator according to claim 1, wherein: and a door structure (11) is arranged on the side surface of the suspension cage (1).

3. The double-deck cage structure for a traction-type construction elevator according to claim 1, wherein: the top of the suspension cage (1) is provided with a top plate (12), the top plate (12) is connected with the stay wire, and the stay wire is further fixed with the upper beam (3).

4. The double-deck cage structure for a traction-type construction elevator according to claim 1, wherein: two side surfaces of each suspension cage (1) are also respectively connected with each upright beam (2) through a pull rod (5).

5. The double-deck cage structure for a traction-type construction elevator according to claim 4, wherein: each side surface of each suspension cage (1) is provided with two inclined pull rods (5), the upper end of each pull rod (5) is connected with the middle part of the vertical beam (2), and the lower end of each pull rod is movably connected with the bottom of the suspension cage (1).

6. The double-deck cage structure for a traction-type construction elevator according to claim 5, wherein: the bottom of the suspension cage (1) is provided with a bottom plate (13), and two ends of each side of the bottom plate (13) are movably connected with the two pull rods (5) on the side.

7. The double-deck cage structure for a traction-type construction elevator according to claim 6, wherein: both ends of each side of the bottom plate (13) are respectively provided with a buckle (14) in a sliding way, and the lower end of the pull rod (5) is connected with the buckles (14).

8. The double-deck cage structure for a traction-type construction elevator according to claim 1, wherein: the vertical beam (2) is provided with a plurality of adjusting holes (21).

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