CN111942998A - Relay type lifting method and system applied to high-rise building - Google Patents

Abstract

The invention discloses a relay type lifting method and a relay type lifting system applied to a high-rise building, wherein the system comprises an elevator shaft in the building and more than two sets of lifting devices arranged in the elevator shaft in a staggered manner, each lifting device comprises guide rails fixedly arranged on two sides of the elevator shaft and a carrying box connected between the two guide rails in a sliding manner, a driving device is fixedly arranged at the top of each guide rail, and the driving device is connected with the carrying box through a synchronous belt. After the goods are lifted to a certain height by one set of lifting device, the goods are transferred to the other set of lifting device, and then the goods are continuously lifted by the other set of lifting device, and the process is repeated, so that the purpose of lifting the goods in a relay manner can be achieved, the conveying efficiency of the goods such as medical supplies and the like is greatly improved, the overload operation of the same lifting device is avoided, the service life of the equipment is prolonged, and the maintenance is convenient.

Description

Relay type lifting method and system applied to high-rise building

Technical Field

The invention relates to a relay type lifting method and a relay type lifting system applied to a high-rise building, and belongs to the technical field of safe delivery of medical materials.

Background

With the rapid development of the building industry, high-rise buildings and super high-rise buildings are emerging continuously, and the requirements on the logistics transportation efficiency of the high-rise buildings and the super high-rise buildings are higher and higher. In the prior art, in order to improve the transportation efficiency of a building, the number of logistics transportation equipment is generally increased or the power of the logistics transportation equipment is generally increased, but the mode is limited to the space size and the structural strength of the building, and the logistics transportation efficiency still cannot meet daily requirements. Particularly, in some medical buildings, the situations of intensive personnel, emergency medical material transportation and the like exist, the transportation of a large number of personnel and the transportation of medical drugs need to be met, and if a common elevator is adopted for conveying medical materials, the elevator can run in an overload mode and has long waiting time, so that the service life of the elevator is shortened, the personnel taking the elevator in line are congested, and the actual requirements of hospitals cannot be met.

Disclosure of Invention

The invention aims to provide a relay type lifting method and a relay type lifting system which are high in lifting efficiency, safe, reliable and convenient to maintain and are applied to high-rise buildings, so that the purpose of efficiently transporting materials in high-rise buildings and super-rise buildings is achieved, the service life of equipment is prolonged, and the waiting time during lifting is shortened.

The technical scheme of the invention is as follows: a relay lifting method for high-rise building includes installing more than two sets of lifting units in elevator shaft of building alternatively, lifting goods to a certain height by one set of lifting unit, transferring the goods to another set of lifting unit, lifting the goods by another set of lifting unit, repeating said steps to obtain the goal of lifting goods in relay mode.

In the method, door openings are arranged on two sides of the elevator shaft at certain intervals, and goods can be conveyed to the lifting device through any door opening.

Meanwhile, the invention also provides a relay type lifting system applied to high-rise buildings, which comprises an elevator shaft in the building and more than two sets of lifting devices arranged in the elevator shaft in a staggered manner, wherein each lifting device comprises guide rails fixedly arranged on two sides of the elevator shaft and a carrying box connected between the two guide rails in a sliding manner, a driving device is fixedly arranged at the top of each guide rail, and the driving device is connected with the carrying box through a synchronous belt.

Further, drive arrangement includes upper bracket and bottom suspension strut at both ends about the guide rail fixed mounting, and fixed mounting has lifting motor and last synchronous pulley on upper bracket, and fixed mounting has the drive wheel on lifting motor's main shaft, and fixed mounting has two lower synchronous pulleys on the bottom suspension strut, at the top fixedly connected with hold-in range of carrying the thing case, the other end of hold-in range is walked around the drive wheel in proper order, go up behind synchronous pulley and two lower synchronous pulleys and the bottom fixed connection who carries the thing case.

Further, the distance between the driving wheel and the upper synchronous pulley is equal to the distance between the two lower synchronous pulleys.

Further, the objective box includes two-layer objective table, installs two rows of electronic rollers side by side on every layer of objective table, installs drive sprocket and driven sprocket respectively in the bottom of two rows of electronic rollers, drive sprocket is connected with the driving motor transmission, installs the chain between drive sprocket and driven sprocket, and the top of chain is parallel with two rows of electronic rollers, fixedly connected with scraper blade on the chain.

Further, the carrying box is of a rectangular structure, sliding blocks are symmetrically arranged at two opposite corners of the carrying box, and the sliding blocks are connected with the guide rails in a sliding mode.

Furthermore, door openings are formed in the two sides of the elevator shaft at certain intervals, and conveying lines are installed on the outer sides of the door openings.

Due to the adoption of the technical scheme, the invention has the advantages that: the invention installs more than two sets of lifting devices in the elevator shaft of the building in a staggered way, when lifting goods, after the goods are lifted to a certain height by one set of lifting device, the goods are transferred to the other set of lifting device, and then the goods are continuously lifted by the other set of lifting device, and the process is repeated, thus achieving the purpose of lifting the goods in a relay way, greatly improving the conveying efficiency of the goods such as medical supplies and the like, avoiding the overload operation of the same lifting device, prolonging the service life of the equipment and facilitating the maintenance.

Drawings

FIG. 1 is a perspective view of a schematic structural view of the present invention;

FIG. 2 is a front view of the structural schematic of the present invention;

FIG. 3 is a perspective view of a schematic construction of the lifting device;

FIG. 4 is an enlarged view of FIG. 3 at A;

FIG. 5 is an enlarged view of FIG. 3 at B;

FIG. 6 is a front view of a schematic of the construction of the lifting device;

FIG. 7 is a perspective view of a schematic of the carrier case;

fig. 8 is a front view of a schematic of the carrier case.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples.

The embodiment of the invention comprises the following steps: a structural schematic diagram of a relay type lifting system applied to a high-rise building is shown in figures 1-8, and comprises an elevator shaft in the building and six sets of lifting devices installed in the elevator shaft in a staggered mode, wherein each lifting device comprises guide rails 1 fixedly installed on two sides of the elevator shaft and a carrying box 3 connected between the two guide rails 1 in a sliding mode, each carrying box 3 is of a rectangular structure, sliding blocks 19 are symmetrically installed at two opposite corners of each carrying box 3, and each sliding block 19 is connected with the corresponding guide rail 1 in a sliding mode. A driving device 2 is fixedly arranged at the top of the guide rail 1, and the driving device 2 is connected with a carrying box 3 through a synchronous belt 5. The lifting height of each set of lifting device is related to the length of the guide rail 1, when the guide rail 1 is arranged, the lifting device can be arranged according to the height of a floor, door openings are formed in the two sides of an elevator shaft according to the height of the floor, and a conveying line 4 is installed on the outer side of each door opening, so that goods can be placed on the conveying line 4 after being loaded into the standard box 18 and then conveyed to the loading box 3 through the conveying line 4. In addition, if the system is applied to departments such as hospitals and the like, the fire resistance of the departments is higher, so that in order to improve the fire resistance, a fire door can be installed at a door opening, and the fire door can be a class A fire door or a special fire door.

Further, drive arrangement 2 includes upper support frame 7 and bottom suspension strut 9 at both ends about guide rail 1, fixed mounting has lifting motor 6 and last synchronous pulley 10 on upper support frame 7, fixed mounting has drive wheel 11 on lifting motor 6's main shaft, fixed mounting has two lower synchronous pulleys 8 on bottom suspension strut 9, at the top fixedly connected with hold-in range 5 of year thing case 3, drive wheel 11 is walked around in proper order to the other end of hold-in range 5, go up synchronous pulley 10 and two lower synchronous pulleys 8 after with the bottom fixed connection of carrying thing case 3. The distance between the driving wheel 11 and the upper synchronous belt wheel 10 is equal to the distance between the two lower synchronous belt wheels 8, so that the two sides of the synchronous belt 5 are parallel to each other, and the uniform stress of the synchronous belt is ensured.

Further, the objective box 3 comprises two layers of objective tables 15, two rows of electric rollers 12 are installed on each layer of objective table 15 side by side, a driving chain wheel 13 and a driven chain wheel 17 are installed at the bottom of each row of electric rollers 12 respectively, the driving chain wheel 13 is in transmission connection with a driving motor, a chain 14 is installed between the driving chain wheel 13 and the driven chain wheel 17, the top of the chain 14 is parallel to the two rows of electric rollers 12, and a scraper 16 is fixedly connected to the chain 14.

The working principle of the invention is as follows:

firstly, six sets of lifting devices are installed in a staggered manner in an elevator shaft of a building, and when lifting goods, the goods are loaded into a standard box 18, then placed on a conveyor line 4, and then conveyed into a carrying box 3 by the conveyor line 4. In order to improve the conveying efficiency, the object box 3 is divided into two layers of object tables 15, two rows of electric rollers 12 are arranged on each layer of object table 15 side by side, and the conveying line 4 corresponding to the object box 3 is also provided with two layers. Therefore, when the standard box 18 moves from the conveyor line 4 to one of the rows of electric rollers 12, the driving motor drives the driving chain wheel 13 to rotate, so as to drive the scraper 16 on the chain 14 to move, so that the standard box 18 is pushed to the other row of electric rollers 12 through the scraper 16, and then the other standard box 18 filled with goods is conveyed to the original electric roller 12 through the conveyor line 4, so that the two rows of electric rollers 12 can be simultaneously filled with the standard boxes 18, namely 4 standard boxes 18 are simultaneously loaded. At this moment, after the carrying box 3 full of the standard box 18 is lifted to the first floor by the lifting device, the other lifting device is lowered to the position with the same height as the lifting device, the electric roller 12 on the lifting device full of the standard box 18 starts to work, the standard box 18 is transferred to the other lifting device, and then the goods are continuously lifted by the other lifting device. In addition, each set of lifting device can be independently arranged, the number of the lifting devices can be continuously increased along with the height of the floor, so that the lifting height of the goods is not limited by the height of a building, and the lifting efficiency of the relay type lifting mode is not reduced by the increase of the total lifting height.

Claims (8)

1. A relay type lifting method applied to high-rise buildings is characterized in that: the method comprises the steps of firstly, installing more than two sets of lifting devices in a staggered manner in an elevator shaft of a building, lifting the goods to a certain height through one set of lifting device when the goods are lifted, transferring the goods to the other set of lifting device, continuously lifting the goods through the other set of lifting device, and repeating the process to achieve the purpose of lifting the goods in a relay manner.

2. A relay lifting system for high-rise buildings according to claim 1, wherein: the elevator shaft is characterized in that door openings are formed in two sides of the elevator shaft at certain intervals, and cargos can be conveyed to the lifting device through any one door opening.

3. The utility model provides a relay formula hoist system for high-rise building, includes the elevartor shaft in the building and installs two sets of above hoisting device in the elevartor shaft in a staggered way, its characterized in that: the lifting device comprises guide rails (1) fixedly installed on two sides of the elevator shaft and a carrying box (3) connected between the two guide rails (1) in a sliding mode, a driving device (2) is fixedly installed at the top of each guide rail (1), and the driving device (2) is connected with the carrying box (3) through a synchronous belt (5).

4. A relay lifting system for high-rise buildings according to claim 3, wherein: drive arrangement (2) including fixed mounting at upper bracket (7) and bottom suspension frame (9) at both ends about guide rail (1), fixed mounting has lifting motor (6) and last synchronous pulley (10) on upper bracket (7), fixed mounting has drive wheel (11) on the main shaft that lifting motor (6), fixed mounting has two lower synchronous pulley (8) on bottom suspension frame (9), top fixedly connected with hold-in range (5) at year thing case (3), drive wheel (11) are walked around in proper order to the other end of hold-in range (5), go up behind synchronous pulley (10) and two lower synchronous pulley (8) and carry the bottom fixed connection of thing case (3).

5. A relay lifting system applied to high-rise buildings according to claim 4, characterized in that: the distance between the driving wheel (11) and the upper synchronous belt wheel (10) is equal to the distance between the two lower synchronous belt wheels (8).

6. A relay lifting system for high-rise buildings according to claim 3, wherein: objective case (3) include two-layer objective table (15), install two rows of electric roller (12) side by side on every layer of objective table (15), install drive sprocket (13) and driven sprocket (17) respectively in the bottom of two rows of electric roller (12), drive sprocket (13) are connected with the driving motor transmission, install chain (14) between drive sprocket (13) and driven sprocket (17), and the top of chain (14) is parallel with two rows of electric roller (12), fixedly connected with scraper blade (16) on chain (14).

7. A relay lifting system for high-rise buildings according to claim 3, wherein: the carrying box (3) is of a rectangular structure, sliding blocks (19) are symmetrically arranged at two opposite corners of the carrying box (3), and the sliding blocks (19) are connected with the guide rail (1) in a sliding mode.

8. A relay lifting system for high-rise buildings according to claim 3, wherein: the elevator shaft is characterized in that door openings are formed in two sides of the elevator shaft at certain intervals, and conveying lines (4) are installed on the outer sides of the door openings.

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