CN215924106U - Energy-saving cargo elevator - Google Patents

Abstract

The utility model discloses an energy-saving freight elevator, which comprises an elevator cage, a fixing component and a goods stacking component, wherein the fixing component is composed of a screw rod, clamping plates, a support rod, a fixing block, a rotating shaft, a screw block and a bearing, the clamping plates are arranged at two sides in the elevator cage, the screw rod is rotated to drive the clamping plates to slide left and right in the elevator cage through the support rod so as to clamp and fix two sides of goods, the goods are prevented from falling and impacting the inner wall of the elevator to be damaged in the ascending or descending process of the elevator, wheel rails arranged at two ends of the bottom of the elevator cage are connected with idler wheels in a sliding way, the idler wheels are arranged at the bottom of a bottom plate and are provided with a bearing plate, the goods are conveniently stacked on the surface of the bearing plate after the bearing plate is drawn out from the elevator cage, a guide plate is arranged at the top end of the bearing plate through a hinge, the goods are pushed onto the bearing plate and can abut against the bottom of the elevator cage to fix the position of the bearing plate, the roller is prevented from rotating in the lifting process to drive the bearing plate to move.

Description

Energy-saving cargo elevator

Technical Field

The utility model relates to the technical field of elevators, in particular to an energy-saving freight elevator.

Background

At present, the freight elevator is a large electromechanical device with electromechanical integration, and the automation degree is high. The service life of the freight elevator can be greatly prolonged by scientific maintenance. The elevator as a precise transportation means cannot be never lost no matter what the quality of the product is excellent. For a new freight elevator which is qualified by installation, debugging and inspection, whether the new freight elevator can run safely and reliably after being put into use or not is critical to the safety management, perfect maintenance and reasonable use of the freight elevator by a user. The freight elevator is characterized by that its working characteristics, normal wear of equipment, ageing of electric equipment and personal misuse can affect its service performance, so that it can be said that "freight elevator is used for three times and maintained for seven times". The maintenance of freight elevators is as in cars, and it is known that regular maintenance is necessary to ensure the safety of cars. Regular maintenance is carried out on the freight elevator every 15 days through a professional freight elevator maintenance unit or a freight elevator manufacturing unit, and possible faults can be eliminated in time, so that the safe use of the freight elevator is guaranteed.

Patent No. 201821123446.3 discloses an energy-efficient freight elevator, it includes: the elevator comprises a lift car, a car frame, a counterweight frame, a guide rail and a machine room; the car is fixed by the installation of sedan-chair frame, and lift and fall motion are carried out along the guide rail that is arranged in the elevartor shaft to car and sedan-chair frame thereof, and the computer lab includes: the tractor comprises a tractor and a power supply for supplying power to the tractor, wherein a bearing beam of the tractor is supported by a concrete seat, two ends of the bearing beam extend into a bearing wall, one end of a steel wire rope bypassing the tractor is connected with a lift car, the other end of the steel wire rope is connected with a counterweight frame, a power supply box of the tractor is installed on one side of a machine room door of a machine room where the power supply box is located, and the distance between the power supply box and the ground of the machine room is 1.4-1.6 m. The efficient energy-saving freight elevator disclosed by the utility model is beneficial to the installation of a high-power traction system by optimally designing the bearing beam, thereby being beneficial to improving the carrying capacity of the elevator. In addition, the high-efficiency energy-saving freight elevator is also provided with a buffer system, so that the running safety of the elevator is guaranteed.

This energy-efficient type freight elevator has following drawback: when the goods is assembled in the elevator, the goods cannot be fixed, the goods are prone to toppling over and impacting the inner side wall of the elevator due to shaking in the lifting process of the elevator, the goods are damaged and damaged, the goods need to be manually carried into the elevator, pushed and placed neatly, and due to the limitation of the space of the elevator, the goods are inconvenient to carry and push the goods when being heavier, and the elevator is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide an energy-saving freight elevator which can effectively solve the problems in the background technology.

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

the utility model provides an energy-saving cargo elevator, includes the elevator cage, still includes fixed subassembly and piles the goods subassembly, fixed subassembly specifically comprises lead screw, splint, vaulting pole, fixed block, pivot, spiral shell piece and bearing, splint are installed to elevator cage both sides, the fixed block is installed to splint bottom both ends and elevator incasement inside wall, and the fixed block is provided with four groups, be provided with the pivot in the fixed block, the vaulting pole bottom is connected in the pivot, the bearing is connected on the vaulting pole top, the bearing is installed in the spiral shell piece, spiral shell piece threaded connection is at lead screw surface both ends, it specifically comprises bearing plate, baffle, hinge, gyro wheel and wheel rail to pile the goods subassembly.

Furthermore, wheel rails are arranged at two ends of the bottom of the elevator cage, rollers are connected in the wheel rails in a sliding way, the rollers are arranged at the bottom of the bottom plate, a bearing plate is arranged above the bottom plate, the top end of the bearing plate is connected with a guide plate through a hinge, the rollers are slidably connected in wheel rails arranged at two ends of the bottom of the elevator cage and are arranged at the bottom of the bottom plate, and a bearing plate is arranged above the bottom plate, so that the bearing plate can be conveniently pulled out from the elevator cage, then goods are stacked on the surface of the bearing plate, and then the bearing plate is pushed into the elevator cage to be fixed, the top end of the bearing plate is provided with a guide plate through a hinge, when goods are piled up, the top end of the guide plate is put down to contact the ground, the goods are pushed to the bearing plate, and after the bearing plate is pushed into the elevator cage, the guide plate can be used to prop against the bottom of the elevator cage, the position of the bearing plate is fixed, and the situation that the bearing plate is driven to move due to the rotation of the idler wheel in the ascending process is prevented.

Further, damping spring shock absorbers are installed at four corners of the surface of the base plate, the top end of each damping spring shock absorber is connected with the bottom of the bearing plate, the surface of the base plate is connected with the bearing plate through four groups of damping spring shock absorbers, each damping spring shock absorber can provide a damping effect for buffering goods placed on the surface of the bearing plate, the goods are prevented from being damaged due to large-amplitude vibration in the moving and lifting processes to influence the use of the goods, a piston in each damping spring shock absorber moves up and down, oil in a cavity of each damping spring shock absorber repeatedly flows into another cavity from one cavity through different pores, and at the moment, friction between a hole wall and the oil and internal friction between oil molecules form damping force for vibration, so that the vibration energy of the device is converted into oil heat energy, and then the oil is absorbed by the shock absorbers and emitted into the atmosphere, and the safety of the device is improved.

Further, splint surface adhesion has the rubber pad, and the rubber pad of splint surface adhesion can provide the guard action to the goods surface of the inboard centre gripping of splint, prevents when pressing from both sides tight goods, and the goods surface between the friction and cause the damage to the goods.

Compared with the prior art, the utility model has the following beneficial effects: the bottom of the support rod is connected in the fixing block through a rotating shaft, the top end of the support rod is connected with a bearing arranged in the screw block, the screw block is in threaded connection with the two ends of the surface of the screw rod, the screw rod is rotated to drive the support rod to slide left and right in the elevator cage through the support rod so as to clamp and fix the two sides of the goods, the goods are prevented from falling and impacting the inner wall of the elevator to be damaged in the ascending or descending process of the elevator, the rollers are slidably connected with the wheel rails arranged at the two ends of the bottom of the elevator cage and arranged at the bottom of the bottom plate, the bearing plate is arranged above the bottom plate, the goods are stacked on the surface of the bearing plate after the bearing plate is conveniently drawn out of the elevator cage, then the bearing plate is pushed into the elevator cage to be fixed, the guide plate is arranged at the top end of the bearing plate through a hinge, when the goods are stacked, the top end of the guide plate is put down to contact with the ground, push away the goods to the bearing plate on to promote the bearing plate to the elevator incasement after, can use the baffle to support the elevator bottom of the case, fix the position of bearing plate, prevent to rotate and drive the bearing plate and remove at the in-process gyro wheel that rises.

Drawings

Fig. 1 is a schematic perspective view of the whole energy-saving freight elevator of the present invention.

Fig. 2 is a schematic plane structure diagram of the screw rod of the energy-saving type cargo elevator of the utility model.

Fig. 3 is a schematic perspective view of the bearing plate of the energy-saving cargo elevator of the present invention.

Fig. 4 is a schematic plane structure diagram of the damping spring shock absorber of the energy-saving cargo elevator.

Fig. 5 is a schematic perspective view of the wheel rail of the energy-saving freight elevator of the utility model.

In the figure: 1. a stacking assembly; 101. a bearing plate; 102. a guide plate; 103. a hinge; 104. a roller; 105. a wheel rail; 2. a fixing assembly; 201. a screw rod; 202. a splint; 203. a stay bar; 204. a fixed block; 205. a rotating shaft; 206. a screw block; 207. a bearing; 3. a rubber pad; 4. an elevator cage; 5. a base plate; 6. damping spring shock absorber.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-5, an energy-saving cargo elevator comprises an elevator cage 4, and further comprises a fixing assembly 2 and a stacking assembly 1, wherein the fixing assembly 2 specifically comprises a screw rod 201, clamping plates 202, a supporting rod 203, fixing blocks 204, a rotating shaft 205, a screw block 206 and bearings 207, the clamping plates 202 are installed on two sides in the elevator cage 4, the fixing blocks 204 are installed at two ends of the bottom of the clamping plates 202 and on the inner side wall of the elevator cage 4, the four groups of fixing blocks 204 are arranged, the rotating shaft 205 is arranged in the fixing blocks 204, the rotating shaft 205 is connected with the bottom end of the supporting rod 203, the top end of the supporting rod 203 is connected with the bearings 207, the bearings 207 are installed in the screw block 206, the screw block 206 is in threaded connection with two ends of the surface of the screw rod 201, and the stacking assembly 1 specifically comprises a bearing plate 101, a guide plate 102, a hinge 103, a roller 104 and a roller track 105.

Wherein, wheel rail 105 has been seted up at elevator 4 bottom both ends, sliding connection has gyro wheel 104 in wheel rail 105, gyro wheel 104 installs in bottom plate 5 bottom, bottom plate 5 top is provided with bearing plate 101, bearing plate 101 top is connected with baffle 102 through hinge 103, sliding connection gyro wheel 104 in wheel rail 105 that elevator 4 bottom both ends were seted up, gyro wheel 104 installs in bottom plate 5 bottom, and set up bearing plate 101 above bottom plate 5, be convenient for pile up the goods behind bearing plate 101 surface after taking bearing plate 101 out from elevator 4, again promote bearing plate 101 to elevator 4 in the fixing, install baffle 102 through hinge 103 at bearing plate 101 top, when piling up the goods, put down baffle 102 top and contact ground, push the goods to bearing plate 101, and after promoting bearing plate 101 to elevator 4 in, can use baffle 102 to support elevator 4 bottom, the position of the bearing plate 101 is fixed, so that the bearing plate 101 is prevented from being driven to move by the rotation of the roller 104 in the lifting process.

Damping spring shock absorbers 6 are installed at four corners of the surface of the bottom plate 5, the top end of each damping spring shock absorber 6 is connected with the bottom of the bearing plate 101, four groups of damping spring shock absorbers 6 are installed on the surface of the bottom plate 5 to be connected with the bearing plate 101, each damping spring shock absorber 6 can provide a damping effect for buffering the goods placed on the surface of the bearing plate 101, the goods are prevented from being damaged due to large-amplitude vibration in the moving and lifting processes to influence the use of the goods, a piston in each damping spring shock absorber 6 moves up and down, oil in each damping spring shock absorber 6 cavity repeatedly flows into the other cavity from one cavity through different pores, and at the moment, friction between the hole wall and the oil and internal friction between oil molecules form damping force for vibration, so that the device is converted into oil heat energy, and then is absorbed by the shock absorbers to be emitted into the atmosphere, and the safety of the device is improved.

Wherein, the rubber pad 3 is adhered to the surface of the clamping plate 202, and the rubber pad 3 adhered to the surface of the clamping plate 202 can provide a protective effect for the outer surface of the goods clamped at the inner side of the clamping plate 202, so as to prevent the goods from being damaged due to friction between the outer surface of the goods and the clamping plate 202 when the goods are clamped.

It should be noted that, the utility model is an energy-saving cargo elevator, during operation, when assembling goods, after pulling the bearing plate 101 outward, the roller 104 at the bottom of the bearing plate 101 slides outward in the roller rail 105 arranged at the bottom in the elevator cage 4, after pulling the bearing plate 101 out, the guide plate 102 is put down under the action of the hinge 103, and the top end contacts the ground, the goods is carried or pushed to the surface of the bearing plate 101 along the surface of the guide plate 102 for stacking, after stacking the goods, the guide plate 102 is erected, and after pushing the roller 104 at the bottom of the bottom plate 5 to the inside of the elevator cage 4 along the roller rail 105, the guide plate 102 is put down to abut against the edge of the elevator cage 4, the bottom plate 5 is limited and fixed, the bottom plate 5 is prevented from falling due to the fact that the bottom plate 5 is driven to move by the rotation of the roller 104 during the ascending, the goods placed on the surface of the bottom plate 5 and the bearing plate 101 are pushed to the inside of the elevator cage 4 and fixed, the damping spring shock absorbers 6 of the bottom connecting bottom plate 5 of the bearing plate 101 can provide buffering protection for goods in the ascending and descending processes, the screw rods 201 on two sides in the elevator cage 4 are rotated clockwise, the screw rods 201 are rotated clockwise to drive two groups of screw blocks 206 which are in threaded connection with two ends of the surface to slide towards two ends on the surface of the screw rods 201, so that the supporting rod 203 is driven by the bearing 207 to gradually erect and the two groups of clamping plates 202 are pushed by the rotating shaft 205 to slide close to each other, thereby contacting the two sides of the goods, clamping and fixing the goods by the clamping plate 202, starting the elevator to lift after the goods are fixed, when the goods need to be taken out after being lifted to the required use position, the screw rod 201 only needs to be rotated anticlockwise to drive the support rod 203 to tilt so as to separate the two groups of clamping plates 202 from each other, and after the guide plate 102 is lifted, the bottom plate 5 and the bearing plate 101 are pulled outwards, and the goods on the surface of the bearing plate 101 can be taken out.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (4)

1. The energy-saving cargo elevator comprises an elevator cage (4) and is characterized by further comprising a fixing assembly (2) and a cargo piling assembly (1), wherein the fixing assembly (2) specifically comprises a screw rod (201), a clamping plate (202), support rods (203), fixing blocks (204), a rotating shaft (205), screw blocks (206) and bearings (207), the clamping plate (202) is installed on two sides in the elevator cage (4), the fixing blocks (204) are installed at two ends of the bottom of the clamping plate (202) and the inner side wall of the elevator cage (4), the four groups of the fixing blocks (204) are arranged, the rotating shaft (205) is arranged in the fixing block (204), the rotating shaft (205) is connected with the bottom end of the support rod (203), the bearings (207) are connected with the top end of the support rod (203), the bearings (207) are installed in the screw blocks (206), and the screw blocks (206) are in threaded connection with two ends of the surface of the screw rod (201), the stacking assembly (1) is composed of a bearing plate (101), a guide plate (102), a hinge (103), a roller (104) and a wheel rail (105).

2. An energy-saving freight elevator according to claim 1, characterized in that: wheel rail (105) have been seted up at elevator case (4) bottom both ends, sliding connection has gyro wheel (104) in wheel rail (105), install in bottom plate (5) bottom gyro wheel (104), bottom plate (5) top is provided with bearing plate (101), bearing plate (101) top is connected with baffle (102) through hinge (103).

3. An energy-saving freight elevator according to claim 2, characterized in that: damping spring shock absorbers (6) are installed at four corners of the surface of the bottom plate (5), and the top end of each damping spring shock absorber (6) is connected with the bottom of the bearing plate (101).

4. An energy-saving freight elevator according to claim 1, characterized in that: the surface of the clamping plate (202) is adhered with a rubber pad (3).

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