CN215160138U

CN215160138U - Elevator assembly system with forced-drive main engine arranged in top floor or shaft wall

Info

Publication number: CN215160138U
Application number: CN202121495191.5U
Authority: CN
Inventors: 刘靠政
Original assignee: Shanghai Faxi Drive Technology Co ltd
Current assignee: Shanghai Faxi Drive Technology Co ltd
Priority date: 2021-07-01
Filing date: 2021-07-01
Publication date: 2021-12-14
Anticipated expiration: 2031-07-01

Abstract

The utility model discloses a drive elevator assembly system that host computer was arranged in top floor or well wall by force. The device comprises a strong drive main machine, a main machine frame, a steel wire rope, a guide wheel assembly, a rope head assembly and a lift car; the lift car is arranged in the shaft; the guide wheel assembly is fixedly arranged at the top of the well; the guide wheel assembly comprises two guide wheels which are connected together through a guide shaft; the forced driving host is fixedly arranged on the top floor or in the wall of the well; the forced driving host comprises a motor, a gear and a roller; the motor is arranged on the upper part of the main frame; the gear is connected with the motor shaft; the transverse roller shaft is connected with the gear and synchronously rotates with the motor shaft through the gear; the two rollers are respectively arranged on two sides of the roller shaft; a group of steel wire ropes is wound on each of the two rollers; one end of each group of steel wire ropes is wound on the roller, the middle of each group of steel wire ropes draws the steel wire ropes to pass by the guide wheels of the guide wheel assemblies, and the other end of each group of steel wire ropes is connected with the lift car through the rope head combination. The utility model provides a villa top layer and the bottom can not install the problem of elevator.

Description

Elevator assembly system with forced-drive main engine arranged in top floor or shaft wall

Technical Field

The utility model belongs to the technical field of the elevator, a drive elevator assembly system that the host computer was arranged in top floor or well wall by force is related to.

Background

Villa elevators are also called home elevators. In the past, a private residence or a villa can only go upstairs and downstairs by virtue of stairs, and in order to better meet the requirement of improving the living quality of people, a villa elevator or a household elevator is developed and designed. At present, villa elevators are mostly inclined to use van elevators. The existing van elevator comprises a hoistway, a car arranged in the hoistway, a guide rail vertically arranged on the side part of the hoistway, and a host machine driving the car to ascend and descend along the guide rail, wherein when the elevator works, the host machine drives the car to ascend and descend along the guide rail. The host comprises a strong driving host (a strong driving host) and a traction host (a traction host). The forced driving type main engine utilizes self driving force to directly pull the lift car to lift, has a simpler structure and is suitable for the working condition with smaller load.

Because the well space in the private residence is less, and also less to the load requirement, so can adopt simple structure's formula host computer of driving by force, when the installation, formula host computer of driving by force will be installed at well top or bottom, and need carry out secondary civil engineering construction work to well top or bottom and form the computer lab for installation host computer, had both had the trouble problem of installation, still can have the influence to the structural strength of building.

Along with the appearance of driving the host computer by force, the installation of villa ladder is more and more diversified, and some special wellways (install additional), the host computer can neither adorn at the top of wellway, also can not adorn in the bottom of wellway because, the top and the bottom of wellway do not have the position to install the host computer well, and this has just caused and can not install the elevator at villa top layer and bottom. Therefore, how to install the elevator at the top floor and the bottom floor of the villa becomes a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's not enough, provide one kind and can drive the host computer at villa top layer and bottom installation elevator by force and arrange the elevator assembly system in top layer floor or well wall.

The technical scheme of the utility model as follows:

an elevator assembly system with a strong drive main machine arranged on a top floor or in a shaft wall comprises the strong drive main machine, a main machine frame, a steel wire rope, one or two groups of guide wheel assemblies, a rope head combination and a lift car; the lift car is arranged in the shaft; the guide wheel assembly is fixedly arranged at the top of the well; each group of guide wheel assemblies comprises two guide wheels which are connected together through a guide shaft; the forced driving host is fixedly arranged on the floor (top floor) of the top floor or in the wall of the well; the forced driving host comprises a motor, a gear and a roller; the motor is arranged on the upper part of the main frame; the gear is connected with the motor shaft; the transverse roller shaft is connected with the gear and synchronously rotates with the motor shaft through the gear; the two rollers are respectively arranged on two sides of the roller shaft; a group of steel wire ropes is wound on each of the two rollers; one end of each group of steel wire ropes is wound on the roller, the middle of each group of steel wire ropes is drawn to wind around the guide wheels of one or two groups of guide wheel assemblies, and the other end of each group of steel wire ropes is connected with the lift car through a rope head combination; the motor drives the roller to rotate through the gear, so that the roller pulls the lift car to lift through winding and unwinding the steel wire rope; the forced driving type main machine is connected with the car through a steel wire rope, a guide wheel and a rope head combination, and can drive the car to lift.

Further, the horizontal installation position of the two guide wheels of each group of guide wheel assemblies is located in the middle of the two rollers of the strong driving main machine.

Furthermore, the horizontal installation positions of the two guide wheels of each group of guide wheel assemblies are respectively located at the central positions of the two rollers of the strong driving main machine, that is, the vertical feet of the two guide wheels are respectively located at the central positions of the two rollers of the strong driving main machine, and when the steel wire rope is located at the central positions of the rollers, the pulling direction of the steel wire rope is perpendicular to the roller shaft.

Further, the strong drive host is fixed on the host frame through bolts.

Further, the main machine frame is fixed on the floor of the top floor (top floor) or in the shaft wall through expansion bolts.

Further, the main drive unit is wound around the guide wheel arranged on the top layer through steel wire ropes wound on the rollers on the two sides, and then is connected with the car through bolts and nuts on the rope head combination.

The utility model discloses a theory of operation: the strong driving host machine is firmly fixed on the top floor (or in a well wall) through the host machine frame, after the strong driving host machine is electrified, the steel wire rope wound on the roller is wound or loosened, and after the strong driving host machine is guided by the guide wheels, the rope head combination at the tail end of the steel wire rope drives the lift car to move up and down.

The utility model has the advantages that:

the utility model relates to a novel arrangement scheme of driving host computer by force has solved the problem that villa top layer and bottom can not install the elevator well: the strong drive main machine can be installed on the top floor or embedded in the wall of the hoistway.

The utility model discloses an it arranges the elevator assembly system in top floor or well wall to drive host computer by force, has following technical characterstic and advantage:

1. the forced driving main engine is arranged on the floor of the top layer or in the wall of the shaft. The novel arrangement mode of the forced driving main machine greatly saves the space of a well.

2. Because the main engine of driving by force arranges on the floor of building top layer, and the cylinder of driving by force to the distance of top layer leading wheel is nearer, and wire rope's declination is great, consequently, the mounted position of the horizontal direction of two leading wheels must be located the intermediate position of two cylinders of driving by force the main engine, promptly, the distance of leading wheel two-wheeled must be in the intermediate position of two cylinders of driving by force the main engine, and like this, wire rope's declination can reduce half, can satisfy wire rope's removal requirement.

The utility model discloses an it arranges the elevator assembly system in top floor or well wall to drive host computer by force, has solved following technical problem:

1. the problem that the elevator cannot be installed on the top layer and the bottom layer of the villa is solved.

2. The well space is saved.

3. The distance between the two guide wheels is in the middle position between the two rollers of the strong driving main machine, so that the deflection angle of the steel wire rope is reduced, and the steel wire rope moves smoothly.

The utility model discloses a drive elevator assembly system that the host computer was arranged in top layer floor or well wall by force not only is applicable to villa ladder elevator field, still is applicable to the industry transmission field.

Drawings

Fig. 1 is a schematic structural view of an elevator assembly system with a forced driving main machine arranged in a top floor or a shaft wall according to the present invention;

fig. 2 is an enlarged schematic structural diagram of the main drive unit 4 in the elevator assembling system of the present invention.

In the figure: 1. top floor 2, host frame 3, cylinder 4, strong host computer 5, wire rope 6, car 7, leading wheel 8, fag end combination 9, motor of driving

Detailed Description

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

Examples

As shown in fig. 1, the elevator assembly system with a strong driving main machine arranged in the top floor or the hoistway wall of the present invention comprises a strong driving main machine 4, a main machine frame 2, a steel wire rope 5, two sets of guide wheel assemblies, a rope end combination 8 and a car 6; the lift car 6 is arranged in the shaft, and the two groups of guide wheel assemblies are fixedly arranged at the top of the shaft side by side; each group of guide wheel assemblies comprises two guide wheels 7 which are connected together through a guide shaft; the strong drive host machine 4 is fixedly arranged on the floor of the top floor (on the top floor 1 or in the wall of the shaft); the rollers 3 are arranged on two sides of the forced driving type host machine 4; a group of steel wire ropes 5 are wound on the two rollers 3 respectively; one end of each group of steel wire ropes 5 is wound on the roller 3, the middle of each group of steel wire ropes is drawn to wind guide wheels 7 of two groups of guide wheel assemblies, and the other end of each group of steel wire ropes is connected with the lift car 6 through a rope end combination 8; the strong drive main machine 4 is connected with the car 6 through a steel wire rope 5, a guide wheel 7 and a rope head combination 8, and can drive the car 6 to ascend and descend.

As shown in fig. 2, the strong drive main machine 4 comprises a motor 9, a gear and a roller 3; the motor 9 is arranged at the upper part of the main frame 2; the gear is connected with the motor shaft; the transverse roller shaft is connected with the gear and synchronously rotates with the motor shaft through the gear; two rollers 3 are respectively arranged at two sides of the roller shaft; a group of steel wire ropes 5 are wound on the two rollers 3 respectively; one end of each group of steel wire ropes 5 is wound on the roller 3, the middle of each group of steel wire ropes is drawn to wind guide wheels 7 of two groups of guide wheel assemblies, and the other end of each group of steel wire ropes is connected with the lift car 6 through a rope end combination 8; the motor 9 drives the drum 3 to rotate through a gear, so that the drum 3 pulls the car 6 to ascend and descend through winding and unwinding the wire rope 5.

The specific installation method comprises the following steps:

the strong drive main machine 4 is fixed on the main machine frame 2 through bolts, and the main machine frame 2 is fixed on the floor (on the top floor 1 or in the shaft wall) of the top floor by expansion bolts; the main drive unit 3 is wound around the guide wheel 7 at the top layer through the steel wire ropes 5 wound on the rollers 3 at two sides, and the lift car 6 is connected through bolts and nuts on the rope head combination 8.

The horizontal installation positions of the two guide wheels 7 are respectively located at the central positions of the two rollers 3 of the strong driving main machine 4, that is, the vertical feet of the two guide wheels 7 are respectively located at the central positions of the two rollers 3 of the strong driving main machine 4, and when the steel wire rope 5 is located at the central position of the rollers 3, the pulling direction of the steel wire rope 5 is perpendicular to the roller shaft.

The utility model discloses a theory of operation: the main frame 4 is firmly fixed on the top floor 1 (in the wall) through the main frame 2, after the main frame 4 is powered on, the steel wire rope 5 wound on the drum 3 is wound or loosened, and after the main frame is guided by the guide wheel 7, the rope end combination 8 at the tail end of the steel wire rope 5 drives the car 6 to move up and down.

The utility model discloses an it arranges the elevator assembly system in top floor or well wall to drive host computer by force, has following technical advantage:

2. The forced driving host is arranged on the floor of the top layer or in the wall of the well, so that the space of the well is greatly saved.

3. The horizontal installation positions of the two guide wheels 7 are respectively positioned at the central positions of the two rollers 3 of the strong driving host 4, and the distance between the two guide wheels is positioned at the middle position between the two rollers of the strong driving host, so that the deflection angle of the steel wire rope is reduced, and the steel wire rope can move smoothly.

Claims

1. An elevator assembly system with a strong drive main machine arranged on a top floor or in a shaft wall is characterized by comprising the strong drive main machine, a main machine frame, a steel wire rope, one or two groups of guide wheel assemblies, a rope head combination and a lift car; the lift car is arranged in the shaft; the guide wheel assembly is fixedly arranged at the top of the well; each group of guide wheel assemblies comprises two guide wheels which are connected together through a guide shaft; the forced driving host is fixedly arranged on the top floor or in the wall of the well; the forced driving host comprises a motor, a gear and a roller; the motor is arranged on the upper part of the main frame; the gear is connected with the motor shaft; the transverse roller shaft is connected with the gear and synchronously rotates with the motor shaft through the gear; the two rollers are respectively arranged on two sides of the roller shaft; a group of steel wire ropes is wound on each of the two rollers; one end of each group of steel wire ropes is wound on the roller, the middle of each group of steel wire ropes is drawn to pass around the guide wheels of one or two groups of guide wheel assemblies, and the other end of each group of steel wire ropes is connected with the lift car through the rope head combination.

2. An elevator assembling system having a main strong driving machine disposed on the top floor or in the hoistway wall as set forth in claim 1, wherein the horizontal installation position of the two guide wheels of each guide wheel assembly is located at the middle position of the two rollers of the main strong driving machine.

3. An elevator assembling system with a main strong driving machine disposed on the top floor or the wall of the shaft as recited in claim 2, wherein the horizontal installation positions of the two guide wheels of each guide wheel assembly are respectively located at the center positions of the two rollers of the main strong driving machine.

4. An elevator assembly system having a strong drive main unit disposed in a top floor or a hoistway wall as set forth in claim 1, 2 or 3, wherein the strong drive main unit is fixed to a main unit frame by bolts.

5. An elevator assembly system having a strong drive main machine disposed on the top floor or in the hoistway wall as set forth in claim 1, 2 or 3, wherein the main machine frame is fixed on the floor of the top floor or in the hoistway wall by means of expansion bolts.

6. An elevator assembly system with a strong driving main machine arranged on the top floor or in the wall of a hoistway as claimed in claim 1, 2 or 3, wherein the strong driving main machine is connected with the car through a steel wire rope wound on the rollers at two sides, passes around a guide wheel arranged at the top layer and is connected with the car through a bolt and a nut on the rope head combination.