CN205527184U - Adjustable speed is hanging accessible lift platform system to one side - Google Patents
Adjustable speed is hanging accessible lift platform system to one side Download PDFInfo
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- CN205527184U CN205527184U CN201620063386.5U CN201620063386U CN205527184U CN 205527184 U CN205527184 U CN 205527184U CN 201620063386 U CN201620063386 U CN 201620063386U CN 205527184 U CN205527184 U CN 205527184U
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Abstract
The utility model relates to an adjustable speed is hanging accessible lift platform system to one side belongs to mechanical technical field. It includes control box, engine case, lift platform, guide rail and stand, its characterized in that: still including stopping level induction system, adding speed reduction induction system and retinue switch, it installs on the guide rail of berthhing some department to stop level induction system, it installs on the stand to add speed reduction induction system, the retinue switch is connected with control box to install on lift platform, the retinue switch includes flush mounting plate of switch and installs the upper and lower level induction proximity switch on flush mounting plate of switch and add speed reduction spring pipe switch, stops level induction system and adds speed reduction induction system's use through the cooperation, control respectively upper and lower level stop with lift table plate with speed reduction running state. The utility model discloses can automize and adjust lift platform's motion state, speed governing and off -position all need not manual operation, and be simple convenient, while the system is more humanized, and flexibility and degree of safety are high.
Description
Technical field
This utility model relates to a kind of oblique hanging accessible elevating platform system of adjustable speed, belongs to field of mechanical technique.
Background technology
Oblique hanging accessible elevating platform is the jacking equipment that wheelchair-bound handicapped personnel and wheel-chair thereof will be taken advantage of to transport stair activity along corridor, a similar easy little elevator.Track is embedded on the wall of entrance and exit of the passage, along with the gradient of stair extends up or down.And oblique hanging accessible elevating platform can fold when not in use and place against wall, will not the space of active channel porch.Taking advantage of wheelchair-bound people with disability in use, the four wheels of wheelchair can be fixed on platen, just can control accessible elevating platform and upstairs or go downstairs after pressing switch, simple and convenient.
In existing oblique hanging accessible elevating platform system, running of hoistable platform is controlled by the PLC set in advance, but a substantially homogeneous speed but can only be maintained to rise or fall, and can not regulate the speed to meet actually used demand.This makes hoistable platform be required for bearing a bigger inertia and impulsive force corridor turns round and stops when, causes the potential safety hazard of the personnel of taking.
Utility model content
The purpose of this utility model is to overcome above-mentioned deficiency present in prior art, and provides the oblique hanging accessible elevating platform system of adjustable speed of a kind of safety convenient.
The technical scheme in the invention for solving the above technical problem is: a kind of oblique hanging accessible elevating platform system of adjustable speed, including controlling cabinet, power cabinet, hoistable platform, guide rail and column, it is characterized in that: also include stop layers position induction installation, acceleration and deceleration induction installation and retinue switch, described stop layers position induction installation is arranged on the guide rail at anchor point, and described acceleration and deceleration induction installation is arranged on column;Described retinue switch is connected with controlling cabinet, and be arranged on hoistable platform, retinue switch includes switch panel and position, the upper strata inductive proximity switch being arranged on switch panel, lower floor's position inductive proximity switch and acceleration and deceleration bourdon tube switch, by coordinating stop layers position induction installation and the use of acceleration and deceleration induction installation, control the stop of position, upper strata, lower floor's position stop and the acceleration and deceleration running status of lifting table plate respectively.
Stop layers position induction installation and position, upper strata inductive proximity switch, the cooperation of lower floor's position inductive proximity switch, can automatically detect when hoistable platform arrives anchor point and stop hoistable platform, without artificial range estimation and Non-follow control, increase reliability and stability when hoistable platform is stopped.
Acceleration and deceleration induction installation and the cooperation of acceleration and deceleration bourdon tube switch, can carry out the adjustment of the kinestate to hoistable platform so that while system more hommization, improve motility and the degree of safety of use in the place needing speed change.
Acceleration and deceleration induction installation is four, rising at section start, the section start that turns round, end of turning round and rising on the column at end when being separately mounted to hoistable platform motion.At these four key positions, acceleration and deceleration induction installation is set, can the work efficiency of significantly more efficient lifting hoistable platform and take degree of safety and the comfort level of personnel.
Acceleration and deceleration bourdon tube switch is arranged in the middle of position, upper strata inductive proximity switch and lower floor's position inductive proximity switch, and it is the longest in a length of three, ensure that during hoistable platform rises or declines, acceleration and deceleration induction installation can only touch acceleration and deceleration bourdon tube switch, rather than encounter upper and lower layer position inductive proximity switch by mistake;Ensure that first stop layers position induction installation can sense upper and lower layer inductive proximity switch, thus avoid the probability of maloperation when hoistable platform arrives anchor point simultaneously.
This utility model compared with prior art, has the following advantages and effect: this utility model kinestate to hoistable platform can carry out automatization's adjustment, speed governing and off-position all without manual operation according to the actual requirements, simple and easy;Simultaneity factor more hommization, improves motility and the degree of safety of use.
Accompanying drawing explanation
Fig. 1 is this utility model structural representation.
Fig. 2 is vertical view structure for amplifying schematic diagram at this utility model A.
In accompanying drawing: 1 for controlling cabinet, and 2 is power cabinet, and 3 is hoistable platform, and 4 is guide rail, 5 is column, and 6 is position, upper strata inductive proximity switch, and 7 is lower floor's position inductive proximity switch, 8 switch for acceleration and deceleration bourdon tube, and 9 is stop layers position induction installation, and 10 is acceleration and deceleration induction installation.
Detailed description of the invention
The utility model is described in further detail below in conjunction with the accompanying drawings and by embodiment, and following example are that this utility model is not limited to following example to explanation of the present utility model.
Seeing Fig. 1-Fig. 2, the present embodiment includes controlling cabinet 1, power cabinet 2, hoistable platform 3, guide rail 4 and column 5.
Deposit PLC in controlling cabinet, and be connected with power cabinet, control being turned on and off of driving source, the most also control the kinestate of hoistable platform.Power cabinet then provides power for hoistable platform.Guide rail is fixed on corridor by column, and hoistable platform realizes the process of whole rising or decline by the chain drive in guide rail.
Hoistable platform is additionally provided with retinue switch, respectively position, upper strata inductive proximity switch 6, lower floor's position inductive proximity switch 7 and acceleration and deceleration bourdon tube switch 8.Retinue switch is connected with PLC, controls the kinestate of hoistable platform.Being equipped with stop layers position induction installation 9 on the guide rail of upper and lower two anchor point, when hoistable platform is near anchor point, stop layers position induction installation can touch upper strata inductive proximity switch or lower floor's position inductive proximity switch, thus completes to stop smoothly.
It is additionally provided with acceleration and deceleration bourdon tube switch on the switch panel of retinue switch, is in position, upper strata inductive proximity switch and the centre of lower floor's position inductive proximity switch.Rise at section start, the section start that turns round, end of turning round at hoistable platform and rise and be separately installed with an acceleration and deceleration induction installation 10 on the column at end.Length upper strata the to be considerably longer than position inductive proximity switch of the switch contact of acceleration and deceleration bourdon tube switch and lower floor's position inductive proximity switch, thus ensure during hoistable platform raising and lowering, the switch contact of acceleration and deceleration bourdon tube switch can encounter acceleration and deceleration induction installation smoothly, it is achieved the adjustment to hoistable platform movement velocity.
When needs use hoistable platform to rise, being set level by the platform of hoistable platform, after passenger and wheelchair get on, fixing wheelchair makes it significantly to rock.Subsequently, pressing unlatching switch, hoistable platform begins to ramp up, and after first acceleration and deceleration induction installation, acceleration and deceleration bourdon tube is touched, and hoistable platform starts to accelerate.After speed reaches the speed that PLC sets in advance, hoistable platform at the uniform velocity travels.
Hoistable platform rises to corridor corner subsequently, and now second acceleration and deceleration induction installation touches acceleration and deceleration bourdon tube again, and hoistable platform slows down, and completes turning process gently.
Then, hoistable platform is through the 3rd acceleration and deceleration induction installation, and hoistable platform continues after again speeding up the speed set at the uniform velocity to rise.
After hoistable platform completes to rise, just past the 4th acceleration and deceleration induction installation, hoistable platform slows down and advances to anchor point.
After arriving the anchor point on upper strata, the stop layers position induction installation that position, upper strata inductive proximity switch is installed on the guide rail of position, upper strata anchor point touches, and hoistable platform stop motion smoothly completes docking process.
Although this utility model is open as above with embodiment; but it is not limited to protection domain of the present utility model; any technical staff being familiar with this technology, the change made in without departing from spirit and scope of the present utility model and retouching, protection domain of the present utility model all should be belonged to.
Claims (3)
1. the oblique hanging accessible elevating platform system of adjustable speed, including controlling cabinet, power cabinet, hoistable platform, guide rail and column, it is characterized in that: also include stop layers position induction installation, acceleration and deceleration induction installation and retinue switch, described stop layers position induction installation is arranged on the guide rail at anchor point, and described acceleration and deceleration induction installation is arranged on column;Described retinue switch is connected with controlling cabinet, and be arranged on hoistable platform, retinue switch includes switch panel and position, the upper strata inductive proximity switch being arranged on switch panel, lower floor's position inductive proximity switch and acceleration and deceleration bourdon tube switch, by coordinating stop layers position induction installation and the use of acceleration and deceleration induction installation, control the stop of position, upper strata, lower floor's position stop and the acceleration and deceleration running status of lifting table plate respectively.
The oblique hanging accessible elevating platform system of adjustable speed the most according to claim 1, it is characterised in that: described acceleration and deceleration induction installation is four, is separately mounted to rise at section start, the section start that turns round, end of turning round and rises on the column at end.
The oblique hanging accessible elevating platform system of adjustable speed the most according to claim 1, it is characterised in that: described acceleration and deceleration bourdon tube switch is arranged in the middle of position, upper strata inductive proximity switch and lower floor's position inductive proximity switch, and the longest in a length of three.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620063386.5U CN205527184U (en) | 2016-01-22 | 2016-01-22 | Adjustable speed is hanging accessible lift platform system to one side |
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CN201620063386.5U CN205527184U (en) | 2016-01-22 | 2016-01-22 | Adjustable speed is hanging accessible lift platform system to one side |
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CN201620063386.5U Active CN205527184U (en) | 2016-01-22 | 2016-01-22 | Adjustable speed is hanging accessible lift platform system to one side |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106744169A (en) * | 2017-02-06 | 2017-05-31 | 昆山市苞蕾众创投资管理有限公司 | The manned heavy burden climbing device of stair |
CN108313854A (en) * | 2018-04-16 | 2018-07-24 | 海南华侨中学 | A kind of device upstairs |
-
2016
- 2016-01-22 CN CN201620063386.5U patent/CN205527184U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106744169A (en) * | 2017-02-06 | 2017-05-31 | 昆山市苞蕾众创投资管理有限公司 | The manned heavy burden climbing device of stair |
CN108313854A (en) * | 2018-04-16 | 2018-07-24 | 海南华侨中学 | A kind of device upstairs |
CN108313854B (en) * | 2018-04-16 | 2023-12-19 | 海南华侨中学 | Upstairs device |
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