CN210635579U - Mounting structure of no computer lab elevator host computer - Google Patents

Abstract

The utility model relates to an elevator installation field installs the problem that occupies the well height above the well to the elevator host computer, the utility model provides a mounting structure of no computer lab elevator host computer, including host computer base, elevator guide rail and linking bridge, host computer pedestal mounting is between elevator guide rail and well wall body, and the host computer base is the font of falling U, including vertical portion one that is parallel to each other, vertical portion two and horizontal part, vertical portion one and elevator guide rail fixed connection, vertical portion two and well wall body fixed connection, vertical portion two are inside hollow cuboid structure, and the widest lateral surface that one side is vertical portion two of cuboid, lateral surface and well wall body contact, horizontal part are used for installing the host computer, and the linking bridge is located the upper end of the fixed host computer of host computer base top. The utility model discloses establish the host computer base between elevator guide rail and well wall body, effectively utilized the horizontal space of well, can reduce the high requirement to the well, need not dig the hole at the well wall moreover, reduced the construction degree of difficulty.

Description

Mounting structure of no computer lab elevator host computer

Technical Field

The utility model belongs to the technical field of the elevator installation and specifically relates to a mounting structure of no computer lab elevator host computer is related to.

Background

The elevator without the machine room is relative to the elevator without the machine room, the elevator without the machine room utilizes the modern production technology to miniaturize equipment in the machine room as far as possible on the premise of keeping the original performance, the machine room is omitted, and the equipment such as a host machine in the original machine room and the like are moved to the top part of an elevator shaft or the side part of the shaft, so that the special requirements of customers on the height and the roof are met. The existing host installation method of the elevator without the machine room generally comprises the steps that a bearing beam is arranged on the top of the elevator, a host installation seat is arranged on the bearing beam, the bearing beam still occupies the longitudinal space of a well, and the bearing beam is built in the well, so that the civil engineering requirement is high, and the construction difficulty is high. The main machine is also arranged at the side part of the shaft, so that the longitudinal space of the shaft is saved, but the main machine needs to be accommodated in an opening on the side wall of the shaft, and the building of the opening part needs to have enough thickness. Accordingly, an ideal technical structure is needed to solve the above problems.

Disclosure of Invention

The utility model discloses a problem of overcoming provides a mounting structure of no computer lab elevator host computer, installs the host computer between elevator guide rail and well wall body, has effectively utilized the horizontal space of well, need not dig the hole at the well wall moreover, has reduced the construction degree of difficulty.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a mounting structure of no computer lab elevator host computer, includes host computer base, elevator guide rail and linking bridge, and the host computer pedestal mounting is between elevator guide rail and well wall body, and the host computer base is the font of falling U, including vertical portion one that is parallel to each other, vertical portion two and the horizontal part of connecting vertical portion one, two upper ends of vertical portion, vertical portion one and elevator guide rail fixed connection, vertical portion two and well wall body fixed connection, vertical portion two is inside hollow cuboid structure, and the widest lateral surface that is vertical portion two of one side of cuboid, lateral surface and well wall body contact, horizontal part are used for the installation host computer, and the linking bridge is located the upper end that is used for the stationary host computer above the host computer base.

Establish the host computer base between elevator guide rail and well wall body, effectively utilized the horizontal space of well, do not occupy the vertical space of well, can reduce the altitude mixture demand to the well, need not dig the hole at the well wall moreover, reduced the construction degree of difficulty. The base of the host is in an inverted U shape, so that materials are saved compared with a solid square structure, and the contact area of two vertical side surfaces is increased compared with a thin plate. Vertical portion two is inside hollow cuboid structure, plays main supporting role to the host computer, and the widest one side of cuboid is the lateral surface and the well wall body contact of vertical portion two, greatly increased vertical portion two with the area of contact of well wall body, just also increased the stability of whole host computer base, can prevent the host computer vibrations well. The connecting support is used for fixing the upper end of the host, and the upper end and the lower end of the host are fixed, so that the installation is more reliable.

Preferably, the horizontal part of the main frame base is provided with a shock pad at a main frame mounting part. In order to further prevent the main machine from vibrating, a shock absorption pad is arranged at the installation part of the main machine.

Preferably, the first vertical part and the horizontal part of the main machine base are integrally arranged, a reinforcing rib is arranged between the first vertical part and the horizontal part, and the horizontal part is fixedly connected with the upper surface of the second vertical part through a bolt. Vertical portion one and vertical portion two set up can easy to assemble, and the upper surface of vertical portion two has certain width, is favorable to the fixed of horizontal part, so with vertical portion one and the integrative setting of horizontal part, for the load capacity of strengthening the horizontal part, established the strengthening rib between vertical portion one and horizontal part. During installation, the second vertical part is fixed, the first vertical part is fixed, and finally the horizontal part is fixed on the upper surface of the second vertical part. One of the most important benefits of this arrangement is: the upper surfaces of the two vertical parts have certain width, so long as the bearing is not influenced, the horizontal part can be in contact with any part of the upper surfaces of the two vertical parts to be fixed, so that the width of the host machine base can be adjusted, different tracks of the elevator and the interval between the elevator and the well wall body cannot be completely the same, the installation of the elevator host machine which can adapt to different ranges is fixed by the arrangement, and therefore the elevator guide rail and the well wall body are completely attached to two side surfaces of the host machine base respectively, and the elevator guide rail and the well wall body are flexible.

Preferably, a horizontal cross beam is arranged in the hollow cuboid structure of the second vertical part for reinforcing.

Preferably, the connecting support comprises a section of horizontal part, one end of the horizontal part is bent upwards for 90 degrees and is connected with the elevator guide rail, the bent part is rounded, and the other end of the horizontal part is bent downwards for 90 degrees and is connected with the upper end of the main machine. The one end of linking bridge is buckled downwards and can be stretched into the interstitial space of host computer upper end and be connected with the host computer, and is nimble convenient, and the other end of linking bridge is buckled up, conveniently with linking bridge fixed assembly on elevator track, the structure of this kind of broken line type is favorable to connecting two host computers and elevator guide rail not in coplanar, same height.

Preferably, the connecting bracket is connected with the elevator guide rail through a bolt, and a gasket is arranged at the joint. The gasket can fill up the irregularity of the contact surface of the connecting bracket and the elevator guide rail and reduce the vibration of the main machine.

Therefore, the utility model discloses following beneficial effect has: (1) the host machine is arranged between the elevator guide rail and the wall body of the well, so that the transverse space of the well is effectively utilized, the longitudinal space of the well is not occupied, the requirement on the height of the well can be reduced, holes do not need to be dug in the wall of the well, and the construction difficulty is reduced; (2) the contact area between the host machine base and the well wall body is large, so that the stability of the whole host machine base is improved, and the host machine can be well prevented from vibrating; (3) the horizontal part of the host machine base is provided with a shock pad at the host machine installation part, so that the host machine is effectively prevented from vibrating; (4) the first vertical part and the horizontal part of the main machine base are integrally arranged, and the horizontal part is fixed on the upper surface of the second vertical part through bolts; (5) the connecting support is used for fixing the upper end of the host, and the upper end and the lower end of the host are fixed, so that the installation is more reliable.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1. elevator guide rail, 2, well wall body, 3, host computer base, 31, vertical portion one, 32, horizontal part, 33, strengthening rib, 34, vertical portion two, 35, horizontal beam, 4, host computer, 5, shock pad, 6, linking bridge, 61, gasket.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the detailed description.

As shown in figure 1, the installation structure of the machine-room-less elevator host comprises a host base 3, elevator guide rails 1 and a connecting support 6, wherein the host base 3 is installed between the elevator guide rails 1 and a well wall body 2, and a host 4 is installed on the host base 3, so that the horizontal space of the well is effectively utilized, the vertical space of the well is not occupied, the height requirement on the well can be reduced, holes do not need to be dug in the well wall body 2, and the construction difficulty is reduced. The main machine base 3 is in an inverted U shape and comprises a first vertical part 31, a second vertical part 34 and a horizontal part 32, wherein the first vertical part 31 and the second vertical part 34 are parallel to each other, the horizontal part 32 is connected with the upper ends of the first vertical part 31 and the second vertical part 34, the first vertical part 31 is fixed on the elevator guide rail 1 through a row of longitudinal bolts, the horizontal part 32 and the first vertical part 31 are integrally arranged to form a 90-degree structure, and in order to strengthen the load capacity of the horizontal part 32, the inner side walls of the first vertical part 31 and. Vertical two 34 of portion are inside hollow cuboid structure, play main supporting role to host computer 4, the cuboid vertically places, the great one side of cuboid area is the lateral surface of two 34 inverted U fonts of vertical portion, fix on well wall body 2 through two rows of fore-and-aft bolts, the great one side of cuboid area and well wall body 2 contact, greatly increased the area of contact of two 34 vertical portions and well wall body 2, just also increased the stability of whole host computer base 3, can prevent host computer 4 vibrations well. The longitudinal span of the hollow cuboid structure of the second vertical part 34 is large, and a horizontal cross beam 35 is arranged in the cuboid for reinforcement. The horizontal portion 32 is fixedly connected to the upper surface of the second vertical portion 34 by bolts. When the installation is carried out, the second vertical part 34 is fixed, then the first vertical part 31 is fixed, and finally the horizontal part 32 is fixed on the upper surface of the second vertical part 34. The vertical part I31 and the vertical part II 34 are separately arranged to facilitate installation, the upper surface of the vertical part II 34 has certain width, the fixing of the horizontal part 32 is facilitated, the vertical part I31 and the horizontal part 32 are integrally arranged, the upper surface of the vertical part II 34 has certain width, as long as the bearing is not influenced, the horizontal part 32 can be fixedly contacted with any part of the upper surface of the vertical part II 34, so that the width of the inverted U-shaped host base 3 can be adjusted, the distance between the elevator track 1 and the shaft wall body 2 of different elevators cannot be completely the same, the installation and the fixation of different elevator hosts 4 in a certain range can be adapted by the arrangement, and the elevator track 1 and the shaft wall body 2 are completely attached to two side surfaces of the host base 3 respectively, and the installation and the fixation are flexible and practical. The main unit 4 is mounted above the horizontal portion 32, and the horizontal portion 32 of the main unit base 3 is provided with a shock absorbing pad 5 at a mounting portion of the main unit 4 in order to further prevent the main unit 4 from vibrating.

In order to ensure that the host 4 is more stably installed, the upper end of the host 4 is fixed by the connecting bracket 6 arranged above the host base 3, and the upper end and the lower end of the host 4 are fixed by the connecting bracket 6 and the host base 3 in a matching way. The connecting support 6 comprises a horizontal part, one end of the horizontal part is bent upwards for 90 degrees and is fixedly connected with the elevator guide rail 1 through a bolt, the other end of the horizontal part is bent downwards for 90 degrees and is connected with the upper end of the host machine 4. The one end of linking bridge 6 is buckled downwards and can be stretched into the interstitial space of host computer 4 upper end and be connected with host computer 4, and is nimble convenient, and the other end of linking bridge 6 is buckled up, conveniently with linking bridge 6 fixed mounting on the elevator track, and local stress concentration, increase of service life can be reduced to kink radius angle. This fold-line type of construction is advantageous for connecting two main machines 4 and elevator guide rails 1 which are not in the same plane and at the same height. In order to reduce the vibration of the main machine 4, a gasket 61 is arranged at the joint, so that the irregularity of the contact surface of the connecting bracket and the elevator guide rail 1 can be filled, and the connection is more stable.

The utility model discloses establish host computer base 3 between elevator guide rail 1 and well wall body 2, effectively utilized the horizontal space of well, do not occupy the vertical space of well, can reduce the high requirement to the well, need not dig the hole at well wall body 2 moreover, reduced the construction degree of difficulty. The host base 3 is in an inverted U shape formed by a first vertical part 31, a second vertical part 34 and a horizontal part 32 which are parallel to each other, the first vertical part 31 and the horizontal part 32 are integrally arranged, and the horizontal part 32 is fixedly connected with the upper surface of the second vertical part 34. Because the upper surface of the second vertical part 34 has a certain width, as long as the bearing is not influenced, the horizontal part 32 can be in contact fixation with any part of the upper surface of the second vertical part 34, so that the width of the inverted U-shaped main machine base 3 can be adjusted, two side surfaces of the main machine base 3 are ensured to be completely attached to the elevator guide rail 1 and the well wall body 2 respectively, and the elevator guide rail is flexible and practical. The connecting bracket 6 is used for fixing the upper end of the host 4, and the upper end and the lower end of the host 4 are both fixed, so that the installation is more reliable.

Claims (6)

1. The mounting structure of the machine-room-less elevator main machine is characterized by comprising a main machine base (3), an elevator guide rail (1) and a connecting support (6), wherein the main machine base (3) is mounted between the elevator guide rail (1) and a well wall body (2), the main machine base (3) is in an inverted U shape and comprises a first vertical part (31), a second vertical part (34) and a horizontal part (32) connected with the first vertical part (31) and the upper end of the second vertical part (34), the first vertical part (31) is fixedly connected with the elevator guide rail (1), the second vertical part (34) is fixedly connected with the well wall body (2), the second vertical part (34) is in a hollow cuboid structure, the widest side face of the cuboid is the outer side face of the second vertical part (34), the outer side surface is in contact with the well wall body (2), the horizontal part (32) is used for installing the main machine (4), and the connecting support (6) is located above the main machine base (3) and used for fixing the upper end of the main machine (4).

2. The mounting structure of the main machine of the machineroom-less elevator according to claim 1, wherein the horizontal portion (32) of the main machine base (3) is provided with a shock-absorbing pad (5) at the mounting portion of the main machine (4).

3. The mounting structure of the main machine of the machineroom-less elevator according to claim 1, wherein the first vertical part (31) and the horizontal part (32) of the main machine base (3) are integrally formed, a reinforcing rib (33) is provided between the first vertical part (31) and the horizontal part (32), and the horizontal part (32) is fixedly connected to the upper surface of the second vertical part (34) by a bolt.

4. The mounting structure of the main machine of the machine room-less elevator according to claim 1, 2 or 3, wherein the horizontal cross beam (35) is provided in the hollow rectangular parallelepiped structure of the second vertical part (34) for reinforcement.

5. The mounting structure of the main machine of the elevator without the machine room according to claim 1, wherein the connecting bracket (6) comprises a horizontal part, one end of the horizontal part is bent upwards by 90 degrees and connected with the elevator guide rail (1), the bent part is rounded, and the other end of the horizontal part is bent downwards by 90 degrees and connected with the upper end of the main machine (4).

6. The mounting structure of the main machine of the machine-room-less elevator according to claim 5, wherein the connecting bracket (6) is connected with the elevator guide rail (1) through a bolt, and a gasket (61) is arranged at the joint.

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