CN210365533U - Single-machine multi-platform skin raft lifting system - Google Patents

Abstract

The embodiment of the application provides a single-machine multi-platform skin raft lifting system, which comprises a controller; an inlet drag conveyor connected to the controller; the side chain plate conveyor is connected with the controller; the skin raft hoister is connected with the controller; the first-stage platform chain plate machine is connected with the controller; the second-stage platform climbing chain plate machine is connected with the controller; the second-level platform chain plate machine is connected with the controller; the edge chain plate conveyor is connected with the inlet chain plate conveyor; the skin raft hoister is connected with the side chain plate conveyor; the primary platform chain plate machine is connected with the skin raft hoister; the secondary platform climbing chain plate machine is connected with the primary platform chain plate machine, and a skin raft reversing device connected with the controller is arranged on the primary platform chain plate machine; the tail end of the inlet chain plate conveyor is provided with a first skin raft position detection device; a second skin raft position detection device is arranged at the joint of the tail end of the side chain plate conveyor and the skin raft elevator; and a third skin raft position detection device is arranged at the tail end of the skin raft elevator.

Description

Single-machine multi-platform skin raft lifting system

Technical Field

The application relates to the technical field of amusement equipment, in particular to a single-machine multi-platform skin raft lifting system.

Background

At present, the skin raft lifting machine in the existing aquatic recreational facilities is lifted according to a single machine, and when a secondary or multistage platform exists, a plurality of skin raft lifting machines are adopted for independent lifting, so that the performance of the skin raft lifting machine cannot be fully utilized, and the cost and the energy consumption of the skin raft lifting machine and related infrastructure are increased in the transmission process.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the application is to provide a single-machine multi-platform skin raft lifting system, which is used for achieving the technical effects of conveying skin rafts to platforms at different levels by using a single skin raft lifting machine and reducing equipment cost and energy consumption.

The embodiment of the application provides a single-machine multi-platform skin raft lifting system, which comprises a controller; an inlet drag conveyor connected to the controller; the side chain plate conveyor is connected with the controller; the skin raft hoister is connected with the controller; the first-stage platform chain plate machine is connected with the controller; the second-stage platform climbing chain plate machine is connected with the controller; the secondary platform chain plate machine is connected with the controller; the edge chain plate conveyor is connected with the inlet chain plate conveyor; the skin raft hoister is connected with the side chain plate conveyor; the primary platform chain plate machine is connected with the skin raft hoister; the secondary platform climbing chain plate machine is connected with the primary platform chain plate machine, and a skin raft reversing device connected with a controller is arranged on the primary platform chain plate machine; the tail end of the inlet chain plate conveyor is provided with a first skin raft position detection device; a second skin raft position detection device is arranged at the joint of the tail end of the side chain plate conveyor and the skin raft elevator; and a third skin raft position detection device is arranged at the tail end of the skin raft elevator.

In the implementation process, the controller is according to setting up at the terminal first skin raft position detection device of entry drag chain conveyer, set up at the terminal second skin raft position detection device and the terminal third skin raft position detection device of skin raft lifting machine of handing-over department of side chain conveyer terminal and skin raft lifting machine promote the skin raft to one-level platform chain trigger in proper order, the controller is according to received control command control skin raft reversing arrangement to the skin raft, make the skin raft continue to carry second grade platform chain trigger or carry the skin raft to one-level platform chain trigger through second grade platform climbing chain trigger, use a skin raft lifting machine, can carry the skin raft to platforms at different levels, the performance of skin raft lifting machine raft has been promoted, equipment cost and energy consumption have been reduced.

Further, the skin raft switching-over device includes: the base is connected with the primary platform chain plate machine; a drive device disposed on the base; the driving device comprises a driving lever connected with the driving device and a control button connected with the driving device.

In the implementation process, the skin raft switching device comprises a base arranged on the first-stage platform chain plate machine, a driving device is arranged on the base, a driving lever is connected with the driving device, the driving lever can push the skin raft to move under the driving of the driving device by utilizing a control button, the movement direction of the skin raft is changed, and the skin raft is transmitted to a corresponding slide port.

Further, the driving device is a conveyor, and the deflector rod is fixedly connected with a bearing surface of the conveyor.

In the implementation process, the driving device selects a conveyor, the deflector rod is fixedly connected with the bearing surface of the conveyor, and the deflector rod can move back and forth under the driving of the conveyor to push the skin raft to two directions and push the skin raft to two opposite outlets on the same platform.

Furthermore, a fourth skin raft position detection device is arranged at one end, close to the starting end of the primary platform chain plate machine, of the base.

In the implementation process, a fourth skin raft position detection device is arranged at one end, close to the initial end of the first-stage platform chain trigger, of the base, the controller starts the skin raft reversing device according to a received control instruction when detecting that the tail of the skin raft passes through the fourth skin raft position detection device, the skin raft is pushed to a corresponding slide way port of a platform where the first-stage platform chain trigger is located, the skin raft reversing device is not started when the control instruction is not received, the second-stage platform climbing chain trigger is used for continuously conveying the skin raft to the second-stage platform chain trigger, and the energy consumption of the skin raft reversing device is reduced when the skin raft is conveyed to each-stage platform in an orderly manner.

Further, the transmission speed of the inlet chain plate conveyor and the transmission speed of the skin raft hoister are consistent with the transmission speed of the side chain plate conveyor.

In the implementation process, the transmission speed of the inlet chain plate conveyor and the transmission speed of the skin raft hoister are consistent with the transmission speed of the side chain plate conveyor, so that the skin raft is more stable during conveying.

Further, the side chain plate conveyor comprises a first sub chain plate conveyor and a second sub chain plate conveyor, the starting end of the skin raft hoister is arranged between the first sub chain plate conveyor and the second sub chain plate conveyor, a baffle is arranged on a bearing plate of the skin raft hoister, a baffle position detection device is arranged on a base on one side of a bearing surface of the starting end of the skin raft hoister, and a fifth skin raft position detection device is arranged at a position where the side chain plate conveyor is flush with the starting end of the skin raft hoister.

In the implementation process, the side chain plate conveyor comprises a first sub chain plate conveyor and a second sub chain plate conveyor, the starting end of the skin raft elevator is arranged between the first sub chain plate conveyor and the second sub chain plate conveyor, a baffle is arranged on a bearing plate of the skin raft elevator, a baffle position detection device is arranged on a base on one side of a bearing surface of the starting end of the skin raft elevator, and a fifth skin raft position detection device is arranged at a position where the side chain plate conveyor is flush with the starting end of the skin raft elevator. The controller is used for detecting the position of the skin raft and the position of the baffle plate through the structure, so that the baffle plate can be accurately abutted against the tail of the skin raft.

Further, the bearing surface of the first sub-chain plate conveyor and the bearing surface of the second sub-chain plate conveyor are located on the same plane, the bearing surface of the skin raft hoister is lower than the plane where the bearing surface of the first sub-chain plate conveyor and the bearing surface of the second sub-chain plate conveyor are located, and the baffle is higher than the plane where the bearing surface of the first sub-chain plate conveyor and the bearing surface of the second sub-chain plate conveyor are located.

In the implementation process, the bearing surface of the first sub-chain plate conveyor and the bearing surface of the second sub-chain plate conveyor are located on the same plane, and the bearing surface of the skin raft elevator is lower than the planes where the bearing surfaces of the first sub-chain plate conveyor and the second sub-chain plate conveyor are located. The baffle is higher than the plane where the bearing surface of the first sub-chain plate conveyor and the bearing surface of the second sub-chain plate conveyor are located, and by means of the mode, the situation that the skin raft elevator drives the skin raft to move in the adjusting process is avoided, and sufficient thrust can be provided for the skin raft when the skin raft elevator is used for conveying the skin raft.

Further, the transmission speed of the primary platform chain plate machine is not lower than twice of the transmission speed of the skin raft hoister.

In the implementation process, the transmission speed of the one-level platform chain trigger is not lower than the double of the transmission speed of the skin raft elevator, the skin raft is timely transmitted to the one-level platform chain trigger from the skin raft elevator, and the damage to the skin raft is avoided when the push rod turns to along the tail end of the skin raft elevator.

Further, the single-machine multi-platform skin raft lifting system further comprises a plurality of rolling machines connected with the first-stage platform chain plate machine or the second-stage platform chain plate machine, and the tail ends of the rolling machines are arranged at the inlet positions of the slideways.

In the implementation process, the multiple roller machines connected with the first-stage platform chain plate machine or the second-stage platform chain plate machine can adjust the skin raft reversing device to the back skin raft, and the back skin raft is directly conveyed to the slide inlets corresponding to the roller machines, so that the workload of workers is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments of the present application will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on the drawings without inventive efforts.

Fig. 1 is a block diagram of a single-machine multi-platform skin raft lifting system according to an embodiment of the present application;

fig. 2 is a schematic view of an overall structure of a stand-alone multi-platform skin raft lifting system according to an embodiment of the present application;

FIG. 3 is a schematic view of an inlet chain conveyor and an edge chain conveyor connection configuration provided in an embodiment of the present application;

fig. 4 is a schematic view of a connection structure of a skin raft reversing device provided in an embodiment of the present application.

Icon: 10-single-machine multi-platform skin raft lifting system; 100-inlet drag conveyor; 110-a first skin raft position detection device; 200-side chain plate conveyor; 210-a first subchain conveyor; 220-a second sub-chain plate conveyor; 230-a fifth skin raft position detecting device; 300-skin raft elevator; 310-a second skin raft position detection device; 320-a third skin raft position detection device; 330-a baffle; 340-baffle position detection means; 400-first stage platform chain plate machine; 410-a skin raft reversing device; 411-a base; 412-a drive device; 413-a driving lever; 414-fourth raft position detecting means; 500-a second-level platform climbing chain plate machine; 600-a secondary platform chain plate machine; 700-a roller machine; 800-a controller; 900-control panel.

Detailed Description

The technical solutions in the embodiments of the present application will be described below with reference to the drawings in the embodiments of the present application.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Meanwhile, in the description of the present application, the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 and 2, fig. 1 is a block diagram of a single-unit multi-platform raft lifting system according to an embodiment of the present disclosure; fig. 2 is a schematic view of an overall structure of a stand-alone multi-platform skin raft lifting system according to an embodiment of the present application.

The single-machine multi-platform skin raft lifting system 10 provided by the embodiment of the application comprises a controller 800; an inlet chain conveyor 100 connected to the controller 800; the side chain plate conveyor 200 connected to the controller 800; a raft elevator 300 connected to the controller 800; a first-stage platform chain plate machine 400 connected to the controller 800; a second-stage platform climbing chain plate machine 500 connected with the controller 800; a secondary platform chain plate machine 600 connected with the controller 800; the side chain conveyor 200 is connected to the inlet chain conveyor 100; the skin raft elevator 300 is connected with the side chain plate conveyor 200; the primary platform chain plate machine 400 is connected with the skin raft hoister 300; the secondary platform climbing chain plate machine 500 is connected with the primary platform chain plate machine 400, and the primary platform chain plate machine 400 is provided with a skin raft reversing device 410 connected with the controller 800; the tail end of the inlet chain plate conveyor 100 is provided with a first skin raft position detection device 110; a second skin raft position detection device 310 is arranged at the joint of the tail end of the side chain plate conveyor 200 and the skin raft elevator 300; the end of the skin raft elevator 300 is provided with a third skin raft position detecting device 320.

In one possible embodiment, when the head of a skin raft is transported to the end of the inlet drag chain conveyor 100, the first skin raft position detection device 110 is activated, the controller 800 activates the side drag chain conveyor 200, when the tail of a skin raft is transported to the intersection of the end of the side drag chain conveyor 200 and the skin raft elevator 300, the second skin raft position detection device 310 is activated, the controller 800 closes the inlet drag chain conveyor 100 and the side drag chain conveyor 200, when the head of a skin raft is transported to the third skin raft position detection device 320, the controller 800 activates the inlet drag chain conveyor 100 to prepare for the next skin raft for transport, and simultaneously the controller 800 activates the first stage pallet chain 400. When the skin raft moves to the skin raft reversing device 410, switching the transmission track of the skin raft according to the received control instruction; if the skin raft reversing device 410 does not receive the control instruction, the skin raft is directly conveyed to the second-stage platform climbing chain plate machine 500, and finally conveyed to the second-stage platform chain plate machine 600, and the skin raft is conveyed to the slide entrance corresponding to the second-stage platform by the second-stage platform chain plate machine 600.

The first skin raft position detecting device 110, the second skin raft position detecting device 310, and the third skin raft position detecting device 320 may be photoelectric switches, but are not limited thereto, and may also be proximity switches, etc. The Controller 800 may be a Programmable Logic Controller (PLC), an STM32 single chip microcomputer, or the like.

Referring to fig. 3 and 4, fig. 3 is a schematic view illustrating a connection structure of an inlet chain conveyor and an edge chain conveyor according to an embodiment of the present application; fig. 4 is a schematic view of a connection structure of a skin raft reversing device provided in the embodiment of the present application.

The side chain plate conveyor 200 comprises a first sub-chain plate conveyor 210 and a second sub-chain plate conveyor 220, the starting end of the skin raft elevator 300 is arranged between the first sub-chain plate conveyor 210 and the second sub-chain plate conveyor 220, a baffle 330 is arranged on the bearing surface of the skin raft elevator 300, a baffle position detection device 340 is arranged on a base on one side of the bearing surface of the starting end of the skin raft elevator 300, and a fifth skin raft position detection device 230 is arranged at the position where the side chain plate conveyor 200 is flush with the starting end of the skin raft elevator 300. The skin raft reversing device 410 includes: a base 411 connected to the primary platform trigger 400; a driving device 412 provided on the base 411; and a lever 413 connected to the driving device 412. A fourth skin raft position detecting device 414 is disposed at an end of the base 411 close to the beginning end of the first-stage platform chain plate machine 400.

Illustratively, the bearing surface of the first sub-chain plate conveyor 210 and the bearing surface of the second sub-chain plate conveyor 220 are located on the same plane, and are higher than the bearing surface of the raft lifter 300; the flap 330 is higher than the plane of the bearing surface of the first sub-chain plate conveyor 210 and the bearing surface of the second sub-chain plate conveyor 220. When the tail of the skin raft is transported to the end of the inlet chain conveyor 100, the first skin raft position detecting device 110 is triggered, the controller 800 closes the inlet chain conveyor 100, the first sub-chain plate conveyor 210 and the second sub-chain plate conveyor 220 continue to convey the skin raft, when the tail of the skin raft passes over the fifth skin raft position detecting device 230 provided on the side chain plate conveyor 200, the first sub-chain plate conveyor 210 and the second sub-chain plate conveyor 220 are closed, the skin raft lifter 300 is started, when the baffle 330 on the skin raft lifter 300 reaches the baffle position detecting device 340, the first sub-chain plate conveyor 210 and the second sub-chain plate conveyor 220 are simultaneously started, when the tail of the skin raft passes over the second skin raft position detecting device 310, the first sub-chain plate conveyor 210 and the second sub-chain plate conveyor 220 are closed, when the head of the skin raft passes over the third skin raft position detecting device 320 along the skin raft lifter 300, the inlet chain plate conveyor 100 is started to prepare for next skin raft transportation, meanwhile, the primary platform chain plate machine 400 is started to transport the skin raft to the primary platform chain plate machine 400, when the tail of the skin raft crosses a fourth skin raft position detection device 414 on the skin raft reversing device 410, the primary platform chain plate machine 400 stops, if the controller 800 receives a control instruction, the skin raft reversing device 410 is started, and the deflector rod 413 pushes the skin raft into a skin raft transmission rail corresponding to the slide way; if the control instruction is not received, the skin raft is conveyed to the second-stage platform climbing chain plate machine 500, then the skin raft is conveyed to the second-stage platform chain plate machine 600, the skin raft is conveyed to the corresponding slide entrance by the second-stage platform chain plate machine 600, and by means of the mode, energy consumption is reduced when the skin raft is conveyed to the corresponding slide entrance in order.

In one possible embodiment, the driving device 412 is a conveyor, the rod 413 is fixedly connected to the conveyor, and the controller 800 controls the conveyor to drive the rod 413 to move back and forth according to the received control command. The fourth skin raft position detecting device 414 is a photoelectric switch, and the photoelectric switch is disposed at an end of the base 411 of the skin raft reversing device 410 near the start end of the first-stage platform chain plate machine 400. When the tail of the skin raft passes over the photoelectric switch, the primary platform chain plate machine 400 stops running, and the controller 800 controls the driving lever 413 to push the skin raft towards the corresponding direction according to the received control instruction; if the control instruction is not received, the primary platform chain plate machine 400 is restarted, and the skin raft is conveyed to the secondary platform chain plate machine 600 through the secondary platform climbing chain plate machine 500.

It should be noted that, when the skin raft needs to be transported to a platform above the second level, the skin raft reversing device 410 may be continuously arranged on the climbing chain trigger 500 of the second level platform, and then the skin raft is transported to the platform chain trigger of the next level by the climbing chain trigger of the next level platform.

The controller 800 comprises a control panel 900 connected with the controller 800, control buttons of the slide ways are arranged on the control panel 900, the corresponding buttons are pressed, and the skin raft is conveyed to the corresponding slide way inlets.

Illustratively, when the slide way of the primary platform is selected by the control button, the controller 800 controls the skin raft elevator 300 to transfer the skin raft to the primary platform chain trigger 400, when the tail of the skin raft exceeds the fourth skin raft position detecting device 414, the controller 800 closes the primary platform chain trigger 400, and if the control button corresponding to the primary platform is pressed, the controller 800 starts the skin raft reversing device 410 to push the skin raft to the corresponding slide way inlet.

In order to transmit the skin raft more stably and avoid damaging the skin raft in the transmission process, the distance between the tail end of the skin raft lifter 300 and the first-stage platform chain plate machine 400 is larger than the height of the baffle 330; the transmission speed of the inlet chain plate conveyor 100, the transmission speed of the skin raft hoister 300 and the transmission speed of the side chain plate conveyor 200 are kept consistent; the transmission speed of the primary platform chain plate machine 400 is not lower than twice of the transmission speed of the skin raft hoister 300.

In one possible embodiment, the conveying speed of the inlet chain scraper conveyor 100, the side chain scraper conveyor 200 and the skin raft elevator 300 is controlled at V₁The conveying speed of the first-level chain scraper conveyor is controlled to be V at 0.33 m/s₂Make the skin raft more steady when carrying out the transmission between entry drag chain conveyor 100, side link chain conveyer 200, skin raft lifting machine 300 about 0.66 m/s, avoid leading to the skin raft to come too late to avoid the fish tail skin raft when the end is circular motion because of baffle 330 that sets up on the skin raft lifting machine 300 simultaneously.

The primary platform chain plate machine 400 is connected with the plurality of rolling machines 700, the tail end of each rolling machine 700 is arranged at the inlet of each slide way, the deflector rod 413 pushes the skin raft to the rolling machine 700, and the skin raft can be conveyed to the corresponding slide way inlet through inertia, so that energy consumption is reduced.

In summary, the embodiment of the present application provides a single-machine multi-platform raft lifting system, which includes a controller; an inlet drag conveyor connected to the controller; the side chain plate conveyor is connected with the controller; the skin raft hoister is connected with the controller; the first-stage platform chain plate machine is connected with the controller; the second-stage platform climbing chain plate machine is connected with the controller; the second-level platform chain plate machine is connected with the controller; the edge chain plate conveyor is connected with the inlet chain plate conveyor; the skin raft hoister is connected with the side chain plate conveyor; the primary platform chain plate machine is connected with the skin raft hoister; the secondary platform climbing chain plate machine is connected with the primary platform chain plate machine, and a skin raft reversing device connected with the controller is arranged on the primary platform chain plate machine; the tail end of the inlet chain plate conveyor is provided with a first skin raft position detection device; a second skin raft position detection device is arranged at the joint of the tail end of the side chain plate conveyor and the skin raft elevator; and a third skin raft position detection device is arranged at the tail end of the skin raft elevator. According to the position of the skin raft, each conveyor in the conveying process is started step by step, and energy consumption is saved while the skin raft is conveyed to the multistage platform by one skin raft elevator.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (9)

1. The utility model provides a single-machine multi-platform skin raft lift system which characterized in that includes: a controller; an inlet drag conveyor connected to the controller; the side chain plate conveyor is connected with the controller; the skin raft hoister is connected with the controller; the first-stage platform chain plate machine is connected with the controller; the second-stage platform climbing chain plate machine is connected with the controller; the secondary platform chain plate machine is connected with the controller; the edge chain plate conveyor is connected with the inlet chain plate conveyor; the skin raft hoister is connected with the side chain plate conveyor; the primary platform chain plate machine is connected with the skin raft hoister; the secondary platform climbing chain plate machine is connected with the primary platform chain plate machine, and a skin raft reversing device connected with a controller is arranged on the primary platform chain plate machine; the tail end of the inlet chain plate conveyor is provided with a first skin raft position detection device; a second skin raft position detection device is arranged at the joint of the tail end of the side chain plate conveyor and the skin raft elevator; and a third skin raft position detection device is arranged at the tail end of the skin raft elevator.

2. The stand-alone multi-platform liferaft lifting system of claim 1, wherein the liferaft reversing device comprises:

the base is connected with the primary platform chain plate machine;

a drive device disposed on the base;

the driving device is connected with the driving rod;

and the control button is connected with the driving device.

3. The stand-alone multi-platform liferaft lifting system according to claim 2, wherein the driving means is a conveyor, and the deflector rod is fixedly connected to the conveyor.

4. The stand-alone multi-platform liferaft lifting system according to claim 2, wherein a fourth liferaft position detecting device is arranged at the end of the base close to the initial end of the primary platform chain board machine.

5. The stand-alone multi-platform liferaft lifting system of claim 1, wherein the conveying speed of the entrance chain conveyors, the conveying speed of the liferaft lifts and the conveying speed of the side chain conveyors are kept the same.

6. The stand-alone multi-platform skin raft lifting system according to claim 1, wherein the sidelink conveyors comprise a first sub-chain conveyor and a second sub-chain conveyor, the starting end of the skin raft lifter is arranged between the first sub-chain conveyor and the second sub-chain conveyor, a baffle is arranged on the bearing surface of the skin raft lifter, a baffle position detection device is arranged on a base on the bearing surface side of the starting end of the skin raft lifter, and a fifth skin raft position detection device is arranged at a position where the sidelink conveyors are flush with the starting end of the skin raft lifter.

7. The stand-alone multi-platform skin raft lifting system of claim 6, wherein the bearing surfaces of the first and second sub-chain plate conveyors are located on the same plane, the bearing surfaces of the skin raft lifter are lower than the planes on which the bearing surfaces of the first and second sub-chain plate conveyors are located, and the baffle plate is higher than the planes on which the bearing surfaces of the first and second sub-chain plate conveyors are located.

8. The stand-alone multi-platform liferaft lifting system according to claim 6, wherein the conveying speed of the primary platform chain board machine is not lower than twice the conveying speed of the liferaft lifter.

9. The stand-alone multi-platform liferaft lifting system according to claim 1, wherein the stand-alone multi-platform liferaft lifting system further comprises a plurality of rollers connected to the primary platform chain trigger or the secondary platform chain trigger, wherein the ends of the rollers are arranged at the entrance positions of the respective slideways.

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