CN116534765B - High protection type elevator - Google Patents

Abstract

The application provides a high-protection elevator applied to the field of elevators, which is characterized in that an input conveying device and a gravity center detecting device are arranged at the lower end of a circulating elevator, and a pushing device and an output conveying device are arranged at the upper end of the circulating elevator; the gravity center detection equipment comprises a plurality of weighing platforms which are uniformly distributed; the circulating elevator comprises a pair of brackets, a transmission belt and a pair of power devices are arranged in the brackets, and a plurality of lifting supporting plates are fixedly connected to the transmission belt; the lifting layer board includes the connection terminal of being connected with the drive belt, fixedly connected with supporting seat on the connection terminal, fixedly connected with a plurality of multistage telescopic links on the supporting seat, is connected with two sets of controllable magnet groups between a plurality of multistage telescopic links, realizes carrying out the lifting transportation of high protection type to the commodity circulation goods of great and focus skew of weight, makes the commodity circulation case when carrying out elevator lifting transportation, is difficult for leading to the commodity circulation case local to appear collapsing and even the condition that drops from the elevator because of local pressure is too big produces.

Description

High protection type elevator

Technical Field

The application relates to the field of elevators, in particular to a high-protection elevator.

Background

At present, in floor warehouse logistics, goods are required to be transported through an elevator, and the problem of material transportation in high-rise buildings is one problem which needs to be solved.

The existing continuous lifting elevators mostly lift the two ends of the logistics box after being lifted, but the gravity center of the logistics box is easy to deviate due to uneven mass distribution of goods due to different types of goods, and in the process of carrying out high-rise logistics transportation, if the gravity center of the logistics box is suspended between two supporting plates of the lifting elevators, the logistics box is easy to deform locally and even fall from the lifting elevators, and the distance between the supporting plates for supporting the logistics box in the existing lifting elevators is certain and is not easy to adapt to logistics box transportation with different sizes;

what is needed is a logistics elevator that can perform high-safety protection lifting transportation on logistics boxes with different gravity center distributions.

Disclosure of Invention

Compared with the prior art, the elevator provided by the application comprises a circulating elevator, wherein an input conveying device and a gravity center detecting device are arranged at the lower end of the circulating elevator, and a pushing device and an output conveying device are arranged at the upper end of the circulating elevator;

the gravity center detection equipment comprises a plurality of weighing platforms which are uniformly distributed;

the circulating elevator comprises a pair of brackets, a transmission belt and a pair of power devices are arranged in the brackets, and a plurality of lifting supporting plates are fixedly connected to the transmission belt;

the lifting supporting plate comprises a wire holder connected with the transmission belt, a supporting seat is fixedly connected to the wire holder, a plurality of multi-section telescopic rods are fixedly connected to the supporting seat, two groups of controllable magnet groups are connected between the multi-section telescopic rods, each of the two groups of controllable magnet groups comprises a plurality of parallel electromagnetic iron bars, the two groups of controllable magnet groups are distributed in a staggered mode, one end, located at the inner side of the transmission belt, of the wire holder is fixedly connected with a quick connection wire board, and a displacement sensor is installed in the quick connection wire board;

the support adjusting device is arranged in the support and comprises a control box, a movable binding post is fixedly connected to the control box, and a quick connector matched with the quick connector wiring board is fixedly connected to the movable binding post;

realize carrying out the lifting transportation of high protection formula to the commodity circulation goods of weight great and focus skew, make the commodity circulation case when carrying out elevator lifting transportation, be difficult for because of local pressure is too big and the local circumstances that appears collapsing of commodity circulation case and even drop from the elevator produce.

Still include a control system, control system includes the controller, and circulation companion ladder, input conveyer, focus check out test set, push device, output conveyer and support adjustment equipment all with controller telecommunication connection is connected with on the controller with support adjustment equipment assorted supplementary support module, be connected with data storage module and data processing module on the controller, install displacement sensor, rechargeable battery and current output regulation and control module in the lifting layer board.

Optionally, an elastic protection layer is laid between the wire holder and the controllable magnet group, the elastic protection layer is fixedly connected with the controllable magnet group, a supporting wire is connected between the elastic protection layer and the transmission belt, and the elastic protection layer is supported in an auxiliary way through the supporting wire.

Optionally, the plurality of electromagnet bars of the controllable magnet assembly are connected by elastic wires.

Optionally, the driving belt is any one of a driving belt and a driving crawler belt.

Optionally, when the two controllable magnet groups attract each other and are attached, the lifting support plate is in the shortest state, and when the lifting support plate is in the maximum extension length, the electromagnets at the top ends of the pair of lifting support plates are in the mutual attraction state, so that the lifting support plate can fully support the bottom of the logistics box after being fully unfolded.

Optionally, the multi-section telescopic rod comprises a plurality of telescopic joints, and each electromagnet strip is fixedly connected with one telescopic joint respectively.

Compared with the prior art, the application has the advantages that:

(1) Realize carrying out the lifting transportation of high protection formula to the commodity circulation goods of weight great and focus skew, make the commodity circulation case when carrying out elevator lifting transportation, be difficult for because of local pressure is too big and the local circumstances that appears collapsing of commodity circulation case and even drop from the elevator produce.

(2) An elastic protection layer is paved between the wiring seat and the controllable magnet group and fixedly connected with the controllable magnet group, a supporting wire is connected between the elastic protection layer and the transmission belt, and the elastic protection layer is supported in an auxiliary mode through the supporting wire.

(3) The plurality of electromagnet strips of the controllable magnet groups are connected through elastic wires, the lifting supporting plates are in the shortest state when the two controllable magnet groups are attracted and attached, and when the lifting supporting plates are in the maximum extension length, the electromagnets at the top ends of the pair of lifting supporting plates are in the mutual attraction state, so that the bottom of a logistics box can be completely supported after the lifting supporting plates are completely unfolded.

(3) The specific work flow of lifting layer board resets is, when the displacement sensor of installation detects circulation companion ladder top in the lifting layer board, the current output of a set of controllable magnet group of current output regulation and control module control reverses, makes two sets of controllable magnet group inhale mutually, and rechargeable battery outage at last, and lifting layer board conveniently expandes and resets.

Drawings

FIG. 1 is a perspective view of the present application with a lifting of a logistics box;

FIG. 2 is a front view of the application without lifting the box

FIG. 3 is an enlarged partial cross-sectional view of the input conveyor of the present application at its output end;

FIG. 4 is a state change diagram of the lifting process of the logistics box of the present application;

FIG. 5 is a cross-sectional view of the present application;

FIG. 6 is a schematic diagram of the structure at A in FIG. 5;

FIG. 7 is a system block diagram of the present application;

FIG. 8 is a flow chart of the use of the present application;

FIG. 9 is a partial perspective view of the lifting blade of the present application;

FIG. 10 is a cross-sectional view of a lifting pallet of the present application;

FIG. 11 is a schematic view of the structure of the lifting pallet of the present application when contracted;

fig. 12 is a schematic view of the structure of the lifting pallet of the present application when it is unfolded.

The reference numerals in the figures illustrate:

1 circulation companion ladder, 101 support, 102 drive belt, 103 power device, 2 input conveyer, 3 focus check out test set, 5 output conveyer, 6 lifting layer board, 601 wiring seat, 602 supporting seat, 603 multistage telescopic link, 604 controllable magnet group, 605 connect the wiring board soon, 7 support adjusting device, 701 control box, 702 terminal, 703 connect soon.

Detailed Description

The embodiments will be described in detail and by reference to the drawings, wherein the technical solutions of the present application are clearly and completely described, and all other embodiments obtained by those skilled in the art without making any inventive effort are included in the scope of the present application.

Example 1

The application provides a high-protection elevator, referring to fig. 1-2, which comprises a circulating elevator 1, wherein the lower end of the circulating elevator 1 is provided with an input conveying device 2 and a gravity center detection device 3, the gravity center detection device 3 is positioned at the input end of the input conveying device 2, the upper end of the circulating elevator 1 is provided with a pushing device and an output conveying device 5, the pushing device comprises an electric push rod, and the pushing device is used for pushing a logistics box from the circulating elevator 1 into the output conveying device 5;

the gravity center detection device 3 comprises a plurality of weighing platforms which are uniformly distributed;

referring to fig. 2-5, the circulating elevator 1 includes a pair of brackets 101, a driving belt 102 and a pair of power devices 103 are installed in the brackets 101, the pair of power devices 103 are used for driving the driving belt 102 to move, the driving belt 102 is any one of the driving belt and a driving crawler, and a plurality of lifting supporting plates 6 are fixedly connected to the driving belt 102; the output end of the input conveying device 2 is positioned between a pair of driving belts 102, and the distance between the output end of the input conveying device 2 and the driving belts 102 is larger than the length of the lifting supporting plate 6 in a contracted state, so that the lifting supporting plate 6 can normally move to the position below a logistics box placed on the output end of the driving belts 102 when in the contracted state and moves along with the driving belts 102;

referring to fig. 9-12, the lifting supporting plate 6 includes a wire holder 601 connected with the driving belt 102, a supporting seat 602 is fixedly connected to the wire holder 601, a plurality of multi-section telescopic rods 603 are fixedly connected to the supporting seat 602, two groups of controllable magnet groups 604 are connected between the plurality of multi-section telescopic rods 603, the two groups of controllable magnet groups 604 include a plurality of parallel electromagnetic iron bars, the two groups of controllable magnet groups 604 are distributed in a staggered manner, one end of the wire holder 601 located inside the driving belt 102 is fixedly connected with a quick connection wire board 605, and a displacement sensor is installed in the quick connection wire board 605;

the multi-section telescopic rod 603 comprises a plurality of telescopic joints, each electromagnet strip is fixedly connected with one telescopic joint, the lifting support plates 6 are in the shortest state when the two groups of controllable magnet groups 604 attract each other to be attached, when the lifting support plates 6 are in the maximum extension length, the electromagnets at the top ends of the pair of lifting support plates 6 are in the mutual attraction state, so that the lifting support plates 6 can fully support the bottom of a logistics box after being fully unfolded, and the plurality of electromagnet strips of the controllable magnet groups 604 are connected through elastic wires.

An elastic protection layer is paved between the wire holder 601 and the controllable magnet set 604, the elastic protection layer is fixedly connected with the controllable magnet set 604, a supporting wire is connected between the elastic protection layer and the transmission belt 102, and the elastic protection layer is supported in an auxiliary way through the supporting wire.

Referring to fig. 5-6, a support adjusting device 7 is installed in a bracket 101, the support adjusting device 7 includes a control box 701, a movable binding post 702 is fixedly connected to the control box 701, a driving structure (e.g. an electric push rod) for driving the movable binding post 702 to move horizontally is installed in the control box 701, a quick connector 703 matched with a quick connector 605 is fixedly connected to the movable binding post 702, the quick connector 703 is used for being in butt joint with the quick connector 605, and a butt joint position of the quick connector 605 and the quick connector 703 is located at the lower side of the upper surface of the input conveying device 2;

referring to fig. 7, the control system further comprises a controller, the circulating elevator 1, the input conveying device 2, the gravity center detecting device 3, the pushing device, the output conveying device 5 and the supporting and adjusting device 7 are all in telecommunication connection with the controller, an auxiliary supporting module matched with the supporting and adjusting device 7 is connected to the controller, a data storage module and a data processing module are connected to the controller, and a displacement sensor, a rechargeable battery and a current output adjusting and controlling module are installed in the lifting supporting plate 6.

Referring to fig. 8, the usage method of the high protection elevator in this scheme is as follows:

s1, conveying a logistics box to a gravity center detection device 3 by using a conveying device, and carrying out weight measurement and gravity center detection on the logistics box by using the gravity center detection device 3;

the specific steps of weight measurement and gravity center detection include: measuring the pressure of the logistics box on the weighing platforms respectively by controlling the weighing platforms to work, and calculating the gravity center of the logistics box by a data processing module through the measured pressure value difference value, wherein the gravity center is measured by a weighing method, and the offset of the gravity center position of the logistics box relative to the central line of the logistics box is judged by the data processing module by taking the central line of the logistics box as a reference;

according to the gravity center offset, the corresponding elongation of the lifting supporting plate 6 is calculated, and the calculation method comprises the following steps: the length of the lifting supporting plate 6 when being contracted is subtracted from the distance of one half of the transmission belt 102, and the gravity center offset is subtracted, so that the elongation of the lifting supporting plate 6 can be obtained; the magnetic field force and the power thereof which are required to be provided when the controllable magnet assembly 604 works can be obtained through the elongation of the lifting supporting plate 6, so that the power consumption of the lifting supporting plate 6 for completing the lifting work is further obtained, and the charging amount of the lifting supporting plate 6 by the supporting and adjusting equipment 7 each time is more than or equal to the power consumption;

according to the scheme, the required elongation of the lifting supporting plate 6 for lifting the logistics box and the required working parameters for maintaining the elongation are obtained by calculating the gravity center offset and detecting the pressure of the logistics box;

s2, when the pressure of the logistics box on two ends of the logistics box exceeds a standard set value but is lower than a maximum set value, in the embodiment, the pressure of at least one end of the logistics box is larger than the standard set value of the lifting supporting plate 6, the supporting and adjusting device 7 is connected with the lifting supporting plate 6, the quick-connection joint 703 is matched with the quick-connection wiring board 605 to realize the electrifying of the lifting supporting plate 6, the lifting supporting plate 6 is charged through the supporting and adjusting device 7, the working power and the working duration of the two groups of controllable magnet groups 604 are regulated through the supporting and adjusting device 7, and the regulating parameters are working parameters required for maintaining the elongation in the step S1;

the whole length extension control of the lifting supporting plate 6 is realized, (the charge amount of the supporting and adjusting equipment 7 on the lifting supporting plate 6 is that the power consumption of the controllable magnet group 604 when the lifting supporting plate 6 is lifted to a designated height is reduced under the condition that the working power of the controllable magnet group 604 after the length of the lifting supporting plate 6 is adjusted), and at least the gravity center area of the flow box is covered when the lifting supporting plate 6 is extended;

when the pressure of the material box on the two ends of the material box is larger than a maximum set value, the equipment alarms, and technicians transfer the material box out of the main shaft;

s3, conveying the logistics box to a circulating elevator through the input conveying device 2, namely conveying the logistics box between a pair of supports 101, driving a pair of lifting supporting plates 6 to the lower side of the logistics box by a driving belt 102, and continuously driving the driving belt 102 to enable the lifting supporting plates 6 to move so as to enable the pair of lifting supporting plates 6 to support the logistics box to ascend;

when the pressure of the logistics box on two ends of the logistics box exceeds a standard set value but is lower than a maximum set value, when the lifting supporting plate 6 lifts the material box and leaves the output end of the input conveying device 2, detecting the rising height of the lifting supporting plate 6 through a displacement sensor arranged in the lifting supporting plate 6, judging whether the material box is lifted preliminarily or not, and after the material box is lifted preliminarily, electrifying the lifting supporting plate 6 to expand and stretch, wherein the elongation length is the elongation of the lifting supporting plate 6 calculated in the step S1;

when the extension is performed, the extension of the multi-section telescopic rod 603 is realized through the repulsion of the two controllable magnet groups 604, and at the moment, the length of the multi-section telescopic rod 603 can be controlled by controlling the working power of the controllable magnet groups 604;

when the pressure of the logistics box on the two ends of the logistics box is lower than a standard set value, the lifting supporting plates 6 are not adjusted, and the pair of lifting supporting plates 6 are directly driven to lift the logistics box in the vertical direction;

s4, lifting the logistics box to the top end of the circulating elevator 1 by a pair of lifting supporting plates 6, pushing the logistics box to the upper side of the output conveying device 5 by logistics box pushing equipment, pushing the logistics box from the side direction through an external pushing device at the moment, enabling the logistics box to be pushed into the output conveying device 5 from the lifting supporting plates 6, resetting the lifting supporting plates 6 at the moment, and enabling the lifting supporting plates 6 to reset the specific workflow when a displacement sensor installed in the lifting supporting plates 6 detects the top end of the circulating elevator 1, wherein a current output regulation and control module controls current output inversion of a group of controllable magnet groups 604, enabling the two groups of controllable magnet groups 604 to attract each other, and finally powering off a rechargeable battery.

Example 2:

for simplicity, only the points of distinction from example 1 are described below. This embodiment 2 is different from embodiment 1 in that:

the embodiment is used for a logistics box with uniform weight distribution and total weight exceeding the total standard carrying capacity of a pair of lifting supporting plates 6;

at this time, the controllable magnet set 604 works with the maximum power, at this time, opposite ends of the pair of lifting supporting plates 6 attract each other, at this time, the pair of lifting supporting plates 6 are connected into a whole, so that the lower end of the logistics box is comprehensively supported, and the safety of the overweight logistics box during transportation is ensured;

according to the scheme, the lifting supporting plate 6 can be adaptively adjusted according to the gravity center distribution, weight or size of logistics cargoes, the charging amount is adjusted according to the requirement when the lifting supporting plate 6 is adjusted each time, and the lifting supporting plate 6 is ensured to complete lifting work with less power consumption;

realize carrying out the lifting transportation of high protection formula to the commodity circulation goods of weight great and focus skew, make the commodity circulation case when carrying out elevator lifting transportation, be difficult for because of local pressure is too big and the local circumstances that appears collapsing of commodity circulation case and even drop from the elevator produce.

The foregoing is merely illustrative of the best modes of carrying out the application in connection with the actual requirements, and the scope of the application is not limited thereto.

Claims (4)

1. The high-protection elevator is characterized by comprising a circulating elevator (1), wherein an input conveying device (2) and a gravity center detection device (3) are arranged at the lower end of the circulating elevator (1), the gravity center detection device (3) is positioned at the input end of the input conveying device (2), and a pushing device and an output conveying device (5) are arranged at the upper end of the circulating elevator (1);

the gravity center detection device (3) comprises a plurality of uniformly distributed weighing platforms;

the circulating elevator (1) comprises a pair of brackets (101), a transmission belt (102) and a pair of power devices (103) are arranged in the brackets (101), a plurality of lifting supporting plates (6) are fixedly connected to the transmission belt (102), and the output end of the input conveying device (2) is positioned between the pair of transmission belts (102);

the lifting support plate (6) comprises a wire holder (601) connected with the transmission belt (102), a supporting seat (602) is fixedly connected to the wire holder (601), a plurality of multi-section telescopic rods (603) are fixedly connected to the supporting seat (602), two groups of controllable magnet groups (604) are connected between the multi-section telescopic rods (603), the two groups of controllable magnet groups (604) comprise a plurality of parallel electromagnetic iron strips, the two groups of controllable magnet groups (604) are distributed in a staggered mode, and one end of the wire holder (601) located inside the transmission belt (102) is fixedly connected with a quick connection wire plate (605); the plurality of electromagnet strips of the controllable magnet group (604) are connected through elastic wires; the multi-section telescopic rod (603) comprises a plurality of telescopic joints, and each electromagnet strip is fixedly connected with one telescopic joint respectively;

a support adjusting device (7) is arranged in the bracket (101), the support adjusting device (7) comprises a control box (701), a movable binding post (702) is fixedly connected to the control box (701), and a quick connector (703) matched with the quick connector wiring board (605) is fixedly connected to the movable binding post (702);

the control system comprises a controller, the circulating elevator (1), the input conveying device (2), the gravity center detection device (3), the pushing device, the output conveying device (5) and the support adjusting device (7) are all in telecommunication connection with the controller, an auxiliary supporting module matched with the support adjusting device (7) is connected to the controller, a data storage module and a data processing module are connected to the controller, and a displacement sensor, a rechargeable battery and a current output adjusting module are installed in the lifting supporting plate (6).

2. The high protection elevator according to claim 1, characterized in that an elastic protection layer is laid between the wire holder (601) and the controllable magnet group (604), the elastic protection layer is fixedly connected with the controllable magnet group (604), and a supporting wire is connected between the elastic protection layer and the driving belt (102).

3. The high protection elevator according to claim 1, characterized in that the drive belt (102) is any one of a drive belt and a drive track.

4. A high protection elevator according to claim 1, characterized in that the lifting support plates (6) are in the shortest state when the two controllable magnet groups (604) are attracted to each other and attached, and the electromagnets at the top ends of a pair of the lifting support plates (6) are in the mutual attraction state when the lifting support plates (6) are in the maximum extension length.