CN204410967U - Medical hoist tower system - Google Patents

Abstract

This utility model relates to medical hoist tower system.This medical hoist tower system comprises movable part, execution unit and bus, movable part comprises key control module, it comprises brake system and controls button and tower crane elevating control button, execution unit comprises master control borad module, drive plate module, bus power source, tower crane motor and brake system, master control borad model calling is to drive plate module, bus power source and brake system, drive plate model calling is to tower crane motor, movable part and execution unit are connected respectively to bus, bus is for transmitting power supply supply and instruction, tower crane elevating control button comprises tower crane rising button and tower crane decline button, be two step button.This utility model can play following Advantageous Effects: short transverse can step-less adjustment, and without the need to changing length of cable; Reduce cable core number; Optimization Design of Electronic Circuits, easily installation, easy care; Be convenient to function i ntegration, expansion; Meet the single failure condition requirement of armarium; Promote reliability.

Description

Medical hoist tower system

Technical field

This utility model relates to technical field of medical equipment, particularly relates to a kind of medical hoist tower system.

Background technology

Medical hoist tower is the requisite armarium such as hospital modernization operating room, intensive care unit.Current medical hoist tower system is main by the following technical solutions: circuit control part is the fixed connection in position; Circuit control section connects one to one, has several control button just corresponding several loop, see Fig. 1; Different main control circuits is existed for different application.

The shortcoming of this kind of scheme is: be not easy to user position adjustments; Number of cables is more, takes up room, and length of cable is fixed; Do not possess expanded function; Safeguard inconvenient; Main control board is more, does not possess versatility; Discontented podiatrist treats the single failure condition requirement of equipment.

Utility model content

The purpose of this utility model is to provide a kind of medical hoist tower system, and this medical hoist tower system especially can meet the single failure condition requirement of armarium.

Above object of the present utility model is realized by a kind of medical hoist tower system, described medical hoist tower system comprises movable part, execution unit and bus, described movable part comprises key control module, described key control module comprises brake system and controls button and tower crane elevating control button, described execution unit comprises master control borad module, drive plate module, bus power source, tower crane motor and brake system, described master control borad model calling is to described drive plate module, described bus power source and described brake system, described drive plate model calling is to described tower crane motor, described movable part and described execution unit are connected respectively to described bus, described bus is for transmitting power supply supply, and also for transmitting instruction from described movable part to described execution unit, described tower crane elevating control button comprises tower crane rising button and tower crane decline button, described tower crane rising button and tower crane decline button are two step button.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: short transverse can step-less adjustment, and without the need to changing length of cable; Reduce cable core number; Optimization Design of Electronic Circuits, easily installation, easy care; Be convenient to function i ntegration, expansion; Meet the single failure condition requirement of armarium; Promote reliability.

Preferably, described tower crane rising button comprises as the rising release first step tower crane rising button of button and the second step tower crane rising button as rising function button, and described tower crane decline button comprises as the decline release first step tower crane decline button of button and the second step tower crane decline button as decline function button.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: tower crane elevating function is realized by specific two step button, when guaranteeing single inefficacy, unexpected action can not occur.

It is preferred that described movable part also comprises contact control module, described contact control module is used for individually or controls button with described brake system controlling described brake system in combination.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: control brake system more easily by touch manner.

It is preferred that described key control module also comprises the first microcontroller be connected with described bus and the first microcontroller power supply be connected with described first microcontroller, described first microcontroller power supply is used for powering to described first microcontroller.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: by arranging the first microcontroller and power supply thereof, when can guarantee single inefficacy further, unexpected action can not occur.

It is preferred that when described first step tower crane rising button or described first step tower crane decline button are pressed, described first microcontroller electric power starting, to make described first microcontroller energising; When described first step tower crane rising button or described first step tower crane decline button are not pressed, described first microcontroller power-off, to make described first microcontroller power-off.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: when can guarantee single inefficacy further, unexpected action can not occur, and provide power supply energy saving solution.

It is preferred that when described second step tower crane rising button or described second step tower crane decline button are pressed, described first microcontroller is triggered, so that command adapted thereto is sent to described bus; When described second step tower crane rising button or described second step tower crane decline button are not pressed, described first microcontroller is not triggered.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: by rationally arranging the trigger timing of the first microcontroller, when can guarantee single inefficacy further, unexpected action can not occur.

Preferably, described master control borad module comprises the second microcontroller, and described second microcontroller is connected with described bus, when described master control borad module scans is to when being sent to the command adapted thereto of described bus, described second microcontroller is triggered, command adapted thereto to be sent to described drive plate module.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: by arranging the second microcontroller, when can guarantee single inefficacy further, unexpected action can not occur.

It is preferred that described master control borad module also comprises the drive plate power supply with described drive plate model calling, described drive plate power supply is used for described drive plate module for power supply.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: by arranging drive plate power supply, when can guarantee single inefficacy further, unexpected action can not occur.

Preferably, described master control borad module also comprises and being connected and the analog circuit be connected with described bus with described drive plate power supply, when described bus has command adapted thereto to transmit, described analog circuit opens described drive plate power supply, is energized to make described drive plate module.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: when can guarantee single inefficacy further, unexpected action can not occur, and provide power supply energy saving solution further.

Preferably, described master control borad module also comprises and is connected with described drive plate power supply, is connected with described second microcontroller and the 3rd microcontroller be not directly connected with described bus, described 3rd microcontroller is monitored described second microcontroller, when described second microcontroller sends command adapted thereto, described drive plate power supply opened by described 3rd microcontroller, is energized to make described drive plate module.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: when can guarantee single inefficacy further, unexpected action can not occur, and provide power supply energy saving solution further.

Comprise first brake control button and the second brake controls button it is preferred that described brake system controls button, described first brake controls button and the second brake and controls button and be two step button.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: brake controls to be realized by two step button, when guaranteeing single inefficacy, unexpected action can not occur.

Preferably, the first step first brake that described first brake control button comprises as first brake release button controls button and the second step first brake control button as first brake function button, and the first step second brake that described second brake control button comprises as the second brake release button controls button and controls button as second step second brake of the second brake function button.

According to technique scheme, medical hoist tower system of the present utility model can play following Advantageous Effects: brake controls to be realized by specific two step button, when guaranteeing single inefficacy, unexpected action can not occur.

Accompanying drawing explanation

Fig. 1 is the medical hoist tower system button control end layout of prior art.

Fig. 2 is the system construction drawing of the medical hoist tower system of this utility model one embodiment.

Fig. 3 is the control logic figure of the medical hoist tower system of this utility model one embodiment.

Detailed description of the invention

Below in conjunction with specific embodiments and the drawings, the utility model is described in further detail; set forth more details in the following description so that fully understand this utility model; but this utility model obviously can be implemented with multiple this alternate manner described that is different from; those skilled in the art can when roughly promoting according to practical situations without prejudice to when this utility model intension, deduce, therefore should with the content constraints of this specific embodiment protection domain of the present utility model.

Fig. 2 shows the layout of the medical hoist tower system of this utility model one embodiment.Fig. 3 shows the control logic figure of the medical hoist tower system of this utility model one embodiment.

This utility model have employed Power Carrier technology, utilize two wires or conductor as bus carrier, on the one hand for transmitting power supply supply, on the other hand for transmitting control instruction (namely, transmit from the instruction of movable part to execution unit), realize key control module and/or contact control module to the control of execution unit and driving.Bus can be such as SPI (Serial Peripheral Interface (SPI)) bus shown in Fig. 3.

As shown in Figure 2, the medical hoist tower system of this utility model one embodiment comprises movable part, execution unit and bus, described movable part comprises key control module, described key control module comprises brake system and controls button and tower crane elevating control button, described execution unit comprises master control borad module, drive plate module, bus power source, tower crane motor and brake system, described master control borad model calling is to described drive plate module, described bus power source and described brake system, described drive plate model calling is to described tower crane motor, described movable part and described execution unit are connected respectively to described bus, described bus is for transmitting power supply supply, and also for transmitting instruction from described movable part to described execution unit, described tower crane elevating control button comprises tower crane rising button SW1 and tower crane decline button SW2, described tower crane rising button and tower crane decline button are two step button.

Preferably, tower crane rising button comprises as the first step tower crane rising button of release button (" release button " also can be described as " power button ") and the second step tower crane rising button as rising function button of rising, and tower crane decline button comprises as the decline release first step tower crane decline button of button and the second step tower crane decline button as decline function button.

It is preferred that movable part also comprises contact control module, contact control module is used for individually or controls button with brake system controlling brake system in combination.

It is preferred that key control module and/or contact control module can be connected with keyset, with by user operation instruction transformation for bus transmits discernible instruction.

The correlation module that hereafter may adopt this utility model medical hoist tower system or parts are introduced in more detail.

Level or vertical handle control module, it comprises the key control module and/or contact control module that are connected with keyset, and it can be the integrated design, for realizing the operation of basic function.Tower crane elevating function is realized by two step button (also can be described as " twin-stage button "), when guaranteeing single inefficacy, unexpected action can not occur.As shown in Figure 2, only have when tower crane rising release button (that is, first step tower crane rising button) and tower crane rising function button (that is, second step tower crane rising button) are pressed simultaneously, tower crane just can rise.In like manner, only have when tower crane decline release button (that is, first step tower crane decline button) and tower crane decline function button (that is, second step tower crane decline button) are pressed simultaneously, tower crane just can decline.Brake function can control button switching by the brake in key control module on the one hand and realize, and can be realized on the other hand by contact control module.It is that bus transmits discernible instruction that keyset is used for user operation instruction transformation.The probability (consider that different tower crane face all likely can be installed, be convenient to execute-in-place convenient) being greater than one can be there is in this level or vertical handle control module in tower crane system.

Optional drawer lamp and/or reading lamp, they can directly be connected with bus.

Optional first remote controller and/or the second remote controller, this first remote controller constructs identical with the second remote controller with level or vertical handle control module, namely key control module and/or contact control module is comprised equally, thus control the lifting of tower crane, with level or vertical handle control module unlike: remote controller is remote control form, with user-friendly.Certainly, this first remote controller and the second remote controller also can be reduced to only has tower crane rising button and tower crane decline button, thus only realizes tower crane elevating function and do not realize touch control pattern and brake function.It should be noted that as shown in Figure 2, the first remote controller can be connected with bus by transit module; Second remote controller can directly and drive plate model calling.

Master control borad module; for realizing the instruction in bus to be converted into by its translation interface the instruction that controller can identify, go the normal work of each execution unit of interactive controlling (such as drive plate module, brake system, tower crane protection sensor, height limit unit etc.).Such as, with the brake system (aerodynamic brake or electromagnetic brake) of master control borad model calling, fix for the position controlling axle.Sensor is protected with the tower crane of master control borad model calling, for realizing protection during outside armarium action, can by the change-over switch in master control borad module, make it work or inoperative.With the height limit unit of master control borad model calling, for providing the restriction to tower crane range.

Bus power source, it can be 24V DC source, for providing the electric power needed for bus and/or brake system (such as aerodynamic brake or electromagnetic brake).

Drive plate module, for realizing the transmission of tower crane lifting signal, controlling the rotating of tower crane motor, thus realizing rising or the decline of tower crane.Drive plate power supply (exchanging or DC source) can be used for providing driving electric to tower crane motor.

Optional transit module, is connected with electric, the mechanical interface of bus for realizing movable part/execution unit.

The correlation module that hereafter may adopt this utility model medical hoist tower system or parts carry out more detailed function introduction.

The concrete function of key control module can be as follows: tower crane elevating control button comprises tower crane rising button and tower crane decline button, and tower crane rising button and tower crane decline button are two step button, for sending rising or the decline instruction of tower crane.Two step button comprises two steps (or two-stage) button, when first step button is pressed, as described in detail below, only makes microcontroller be energized; Only have when continuing to press thus second step button is pressed (that is, first step button and second step button are pressed simultaneously), microcontroller just can be triggered that command adapted thereto is sent to bus.Like this, compared with single step button (when single step button, if this single step keys deactivation and being sticked together, then tower crane will be continuously driven via complex gearing and rise or decline and cannot stop, the motion of unexpected tower crane can be there is), two step button ensure that wherein single step keys deactivation time can not there is unexpected action, ensure that the safety of patient and medical worker.It should be noted that instruction identification is herein for single button (a two step button is considered to single button), if more than one button is pressed simultaneously, execution unit will stop any action.

The concrete function of contact control module can be as follows: when operator are with hand-tight handle, release first brake and the second brake; When operator use hand-tight handle, during the SW3 that simultaneously pushes button (as shown in Figure 2), only discharge the second brake.

The concrete function of transit module can be as follows: for electric, mechanical connection, by modules/units/components access bus.

The concrete function of bus can be as follows: it, supplies for transmitting power supply on the one hand for transmitting instruction to master control borad module on the other hand as carrier.

The concrete function of master control borad module can be as follows: master control borad module can whether periodic scanning bus have instruction to send, and when receiving the instruction of coupling, is converted into control instruction, goes to drive corresponding execution unit.

The concrete function of drive plate module can be as follows: when drive plate module receives the tower crane elevating control instruction that master control borad module sends, go the rotating controlling tower crane motor, thus realize the lifting work of electric suspension-tower by the relay in drive plate module.

Preferably, as shown in Figure 3, described key control module also comprises the first microcontroller be connected with described bus and the first microcontroller power supply be connected with described first microcontroller, and described first microcontroller power supply is used for powering to described first microcontroller.

It is preferred that as shown in Figure 3, when described first step tower crane rising button or described first step tower crane decline button are pressed, described first microcontroller electric power starting, to make described first microcontroller energising; When described first step tower crane rising button or described first step tower crane decline button are not pressed, described first microcontroller power-off, to make described first microcontroller power-off.

It is preferred that as shown in Figure 3, when described second step tower crane rising button or described second step tower crane decline button are pressed, described first microcontroller is triggered, so that command adapted thereto is sent to described bus; When described second step tower crane rising button or described second step tower crane decline button are not pressed, described first microcontroller is not triggered.

Preferably, as shown in Figure 3, described master control borad module comprises the second microcontroller, described second microcontroller is connected with described bus, when described master control borad module scans is to when being sent to the command adapted thereto of described bus, described second microcontroller is triggered, command adapted thereto to be sent to described drive plate module.

It is preferred that as shown in Figure 3, described master control borad module also comprises the drive plate power supply with described drive plate model calling, and described drive plate power supply is used for described drive plate module for power supply.

Preferably, as shown in Figure 3, described master control borad module also comprises and being connected and the analog circuit be connected with described bus with described drive plate power supply, when described bus has command adapted thereto to transmit, described analog circuit opens described drive plate power supply, is energized to make described drive plate module.When described bus does not have command adapted thereto to transmit, described analog circuit closes described drive plate power supply, to make described drive plate module power-down.

Preferably, as shown in Figure 3, described master control borad module also comprise be connected with described drive plate power supply, be connected with described second microcontroller and the 3rd microcontroller be not directly connected with described bus (as analog circuit substitute), described 3rd microcontroller is monitored described second microcontroller, when described second microcontroller sends command adapted thereto, described drive plate power supply opened by described 3rd microcontroller, is energized to make described drive plate module.When described second microcontroller does not send command adapted thereto, described 3rd microcontroller cuts out described drive plate power supply, to make described drive plate module power-down.

It is preferred that as shown in Figure 3, described brake system controls button and comprises first brake and control button and the second brake controls button, and described first brake controls button and the second brake and controls button and be two step button.That is, not only tower crane rising button and tower crane decline button can be two step buttons, and it also can be two step buttons that brake controls button.

Preferably, as shown in Figure 3, the first step first brake that described first brake control button comprises as first brake release button controls button and the second step first brake control button as first brake function button, and the first step second brake that described second brake control button comprises as the second brake release button controls button and controls button as second step second brake of the second brake function button.

Preferably, as shown in Figure 3, key control module and master control borad module can comprise power line communication modem/Transmit-Receive Unit (PLM/TRX) separately, and the power line communication modem/Transmit-Receive Unit of key control module and the power line communication modem/Transmit-Receive Unit of master control borad module are interconnected by Power Carrier line.

It is preferred that as shown in Figure 3, once by next button (such as, tower crane rising button, tower crane decline button, first brake control button or the second brake controls button), master control borad module will be waken up.Request is sent the value of current button by the master control borad module after waking up from key control module.After key control module receives the request from master control borad module, the value of current button is returned to master control borad module.Master control borad module receives the value (that is, the information of asking) of this current button, and operates brake system or tower crane motor by drive plate module.

Be exemplarily described this utility model by reference to the accompanying drawings above, obvious specific implementation of the present utility model is not by the restriction of above-mentioned embodiment.Those skilled in the art under the prerequisite not departing from this utility model technical conceive, can make various amendment or modification to this utility model, and these amendments or modification also fall within protection domain of the present utility model certainly.

Claims (12)

1. a medical hoist tower system, it is characterized in that, described medical hoist tower system comprises movable part, execution unit and bus, described movable part comprises key control module, described key control module comprises brake system and controls button and tower crane elevating control button, described execution unit comprises master control borad module, drive plate module, bus power source, tower crane motor and brake system, described master control borad model calling is to described drive plate module, described bus power source and described brake system, described drive plate model calling is to described tower crane motor, described movable part and described execution unit are connected respectively to described bus, described bus is for transmitting power supply supply, and also for transmitting instruction from described movable part to described execution unit, described tower crane elevating control button comprises tower crane rising button and tower crane decline button, described tower crane rising button and tower crane decline button are two step button.

2. medical hoist tower system as claimed in claim 1, it is characterized in that, described tower crane rising button comprises as the rising release first step tower crane rising button of button and the second step tower crane rising button as rising function button, and described tower crane decline button comprises as the decline release first step tower crane decline button of button and the second step tower crane decline button as decline function button.

3. medical hoist tower system as claimed in claim 1, it is characterized in that, described movable part also comprises contact control module, and described contact control module is used for individually or controls button with described brake system controlling described brake system in combination.

4. medical hoist tower system as claimed in claim 2, it is characterized in that, described key control module also comprises the first microcontroller be connected with described bus and the first microcontroller power supply be connected with described first microcontroller, and described first microcontroller power supply is used for powering to described first microcontroller.

5. medical hoist tower system as claimed in claim 4, is characterized in that, when described first step tower crane rising button or described first step tower crane decline button are pressed, described first microcontroller electric power starting, to make described first microcontroller energising; When described first step tower crane rising button or described first step tower crane decline button are not pressed, described first microcontroller power-off, to make described first microcontroller power-off.

6. medical hoist tower system as claimed in claim 4, it is characterized in that, when described second step tower crane rising button or described second step tower crane decline button are pressed, described first microcontroller is triggered, so that command adapted thereto is sent to described bus; When described second step tower crane rising button or described second step tower crane decline button are not pressed, described first microcontroller is not triggered.

7. medical hoist tower system as claimed in claim 1, it is characterized in that, described master control borad module comprises the second microcontroller, described second microcontroller is connected with described bus, when described master control borad module scans is to when being sent to the command adapted thereto of described bus, described second microcontroller is triggered, command adapted thereto to be sent to described drive plate module.

8. medical hoist tower system as claimed in claim 7, it is characterized in that, described master control borad module also comprises the drive plate power supply with described drive plate model calling, and described drive plate power supply is used for described drive plate module for power supply.

9. medical hoist tower system as claimed in claim 8, it is characterized in that, described master control borad module also comprises and being connected and the analog circuit be connected with described bus with described drive plate power supply, when described bus has command adapted thereto to transmit, described analog circuit opens described drive plate power supply, is energized to make described drive plate module.

10. medical hoist tower system as claimed in claim 8, it is characterized in that, described master control borad module also comprises and is connected with described drive plate power supply, is connected with described second microcontroller and the 3rd microcontroller be not directly connected with described bus, described 3rd microcontroller is monitored described second microcontroller, when described second microcontroller sends command adapted thereto, described drive plate power supply opened by described 3rd microcontroller, is energized to make described drive plate module.

11. medical hoist tower systems as claimed in claim 1, is characterized in that, described brake system controls button and comprises first brake and control button and the second brake controls button, and described first brake controls button and the second brake and controls button and be two step button.

12. medical hoist tower systems as claimed in claim 11, it is characterized in that, the first step first brake that described first brake control button comprises as first brake release button controls button and the second step first brake control button as first brake function button, and the first step second brake that described second brake control button comprises as the second brake release button controls button and controls button as second step second brake of the second brake function button.