CN203749593U - Head-up tilt testing system - Google Patents

Abstract

The utility model provides a head-up tilt testing system, and relates to the technical field of medical instruments. The system comprises a head-up tilt testing bed, the head-up tilt testing bed comprises a base and a bed body arranged on the base, and the head-up tilt testing bed further comprises at least one physiological parameter collecting device and a transmission interface. The physiological parameter collecting devices and the head-up tilt testing bed are integrated with the head-up tilt testing bed. The head-up tilt testing system further comprises a monitoring system connected with the head-up tilt testing bed, and the bed body comprises a lifting device, a tilting device and a tested person supporting device. The lifting device is arranged on the base and used for executing the lifting operation, the tilting device is arranged on the lifting device and used for executing the tilting operation, and the tested person supporting device is arranged on the tilting device and used for supporting a tested person. The device solves the problems that in the current head-up tilt test, after the tested person feels uncomfortable, physiological parameters of the tested person cannot be recorded in time, and the posture of the tested person is not beneficial for treatment and curing by medical workers.

Description

A kind of head-up tilt test system

Technical field

This utility model relates to technical field of medical instruments, relates in particular to a kind of head-up tilt test system.

Background technology

Head-up tilt test (Head-up Tilt Testing is called for short HUT) is that the angle of the inclination by adjusting test bed makes the tester's passive tilt on test bed, thereby in order to excite a kind of method of fainting with acatalepsia.In head-up tilt test, need to coordinate electrocardiograph by upright slanting testing bed, the equipment such as the monitor that sphygomanometer or bed are other carry out the measurement of physiological parameter to experimenter, for example, measure the data such as ecg wave form, blood pressure, heart rate.

Current, the process of head-up tilt test is as follows: first experimenter is fixed on upright slanting testing bed, and by electrocardiograph, sphygomanometer, the equipment connections such as monitor are to experimenter's health; By manual adjustments, this upright slanting testing bed is tilted to certain angle static; By electrocardiograph, sphygomanometer, monitors etc., obtain an experimenter's physiological parameter at set intervals; Medical personnel also need the above-mentioned physiological parameter measuring to carry out record.

In current head-up tilt test, because the parameter display of monitor comparatively lags behind, and experimenter occurs that the time of positive sign (fainting) is shorter, the physiological parameter while causing medical personnel to record in time experimenter to occur positive sign.In head-up tilt test, uncomfortable if experimenter occurs, need to give treatment in time experimenter, medical personnel can not record experimenter's physiological parameter in time, and experimenter is on this upright slanting testing bed, is unfavorable for that medical personnel give treatment to it.

Utility model content

Embodiment of the present utility model provides a kind of head-up tilt test system, cannot trace, and experimenter occurs when uncomfortable to solve physiological parameter in current head-up tilt test simultaneously, cannot carry out the problem for the treatment of effectively fast.

For achieving the above object, this utility model adopts following technical scheme:

A kind of head-up tilt test system, it comprises upright slanting testing bed, this upright slanting testing bed comprises base and is arranged on the bed body on this base, and described upright slanting testing bed also comprises: with integrated at least one physiological parameter harvester, the coffret of this upright slanting testing bed;

Described head-up tilt test system also comprises the monitoring system associated with described upright slanting testing bed;

Described bed body comprises:

Lowering or hoisting gear, it is arranged on described base, for carrying out descending operation;

Tilting gearing, it is arranged on described lowering or hoisting gear, for carrying out tilt operation; And

Experimenter's bracing or strutting arrangement, it is arranged on described tilting gearing, for supporting experimenter.

Concrete, described lowering or hoisting gear comprises lifting motor, lifting column and height sensor;

Described lifting motor, for driving described lifting column to elongate or shorten, thereby causes the lifting of described tilting gearing and described experimenter's bracing or strutting arrangement;

Described height sensor is arranged on described lifting column, for measuring the height of described height sensor position.

Concrete, described tilting gearing comprises tilt drive motor, the tilting rack being connected with described experimenter's bracing or strutting arrangement, middle link and the angle of bank measurement sensor being connected with described lowering or hoisting gear;

Described tilt drive motor is for driving described tilting rack to tilt to first angle setting in advance with respect to described link;

Described angle of bank measurement sensor setting is on described tilting rack, and for measuring the angle of inclination data of described tilting rack with respect to described link.

Concrete, described experimenter's bracing or strutting arrangement comprises that main support portion, lower limb adjusting bracket, pedal, pivot driver motor, pivoting angle measuring transducer and pedal regulate motor;

Described main support portion is used for supporting experimenter's back and head, and is fixedly arranged on described tilting rack;

Described lower limb adjusting bracket is used for supporting experimenter's lower limb part, and is articulated in described tilting rack, can carry out pivotable with respect to described tilting rack under the driving at described pivot driver motor;

Second angle of described pivot driver motor for driving described lower limb adjusting bracket to set in advance with respect to pivoted to;

Described pivoting angle measuring transducer is arranged on described lower limb adjusting bracket, and for measuring the pivoting angle data of described lower limb adjusting bracket with respect to described horizontal level;

Described pedal and described pedal regulate motor to be arranged at the end of described lower limb adjusting bracket; Described pedal is for supporting experimenter's foot portion;

Described pedal regulates motor for driving the described pedal length setting in advance to one of stretching.

Concrete, described coffret comprises: physiological parameter data coffret, bed body attitude data coffret, bed body attitude control instruction coffret.

The head-up tilt test system that this utility model embodiment provides, can gather experimenter's physiological parameter, and described physiological parameter can be transferred in described monitoring system by described coffret by physiological parameter harvester.In addition, described monitoring system can be controlled lowering or hoisting gear and carry out descending operation, and tilting gearing is carried out tilt operation, and coordinates experimenter's bracing or strutting arrangement, adjusts the attitude of described bed body, thereby reaches the attitude that is beneficial to treatment experimenter.This monitoring system, in the time of head-up tilt test, can also be obtained experimenter's physiological parameter in time, has avoided recording in time the problem of physiological parameter.

Brief description of the drawings

In order to be illustrated more clearly in this utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The structural representation of the head-up tilt test system that Fig. 1 provides for the embodiment of the present invention;

The structural representation of the first state of the upright slanting testing bed in the head-up tilt test system that Fig. 2 provides for the embodiment of the present invention;

The structural representation of the second state of the upright slanting testing bed in the head-up tilt test system that Fig. 3 provides for the embodiment of the present invention;

The structural representation of the second state of the upright slanting testing bed in the head-up tilt test system that Fig. 4 provides for the embodiment of the present invention;

The structural representation of the second state of the upright slanting testing bed in the head-up tilt test system that Fig. 5 provides for the embodiment of the present invention;

The structural representation of the third state of the upright slanting testing bed in the head-up tilt test system that Fig. 6 provides for the embodiment of the present invention;

The structural representation of the third state of the upright slanting testing bed in the head-up tilt test system that Fig. 7 provides for the embodiment of the present invention.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, obviously, described embodiment is only this utility model part embodiment, instead of whole embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of this utility model protection.

As shown in Figure 1, the embodiment of the present invention provides a kind of head-up tilt test system, it comprises upright slanting testing bed 10, this upright slanting testing bed 10 comprises base 11 and is arranged on the bed body 12 on this base 11, and this upright slanting testing bed 10 also comprises: with integrated at least one physiological parameter harvester 13, the coffret 14 of this upright slanting testing bed 10.

In addition, head-up tilt test system also comprises the monitoring system associated with upright slanting testing bed 10 15.

Above-mentioned bed body 12 comprises:

Lowering or hoisting gear 16, it is arranged on base 11, for carrying out descending operation.

Tilting gearing 17, it is arranged on lowering or hoisting gear 16, for carrying out tilt operation.

Experimenter's bracing or strutting arrangement 18, it is arranged on tilting gearing 17, for supporting experimenter.

In one embodiment, above-mentioned coffret 14 can comprise: physiological parameter data coffret, bed body attitude data coffret and bed body attitude control instruction coffret.

Concrete, as shown in Figure 1, above-mentioned lowering or hoisting gear 16, it is arranged on base 11, can carry out descending operation.

Tilting gearing 17, it is arranged on lowering or hoisting gear 16, can carry out tilt operation.

Experimenter's bracing or strutting arrangement 18, it is arranged on tilting gearing 17, can be for supporting experimenter.

In one embodiment, as shown in Figure 1, lowering or hoisting gear 16 can comprise lifting motor 101, lifting column 107 and height sensor.

Above-mentioned lifting motor 101 can drive lifting column 107 to elongate or shorten, thereby causes the lifting of tilting gearing 17 and experimenter's bracing or strutting arrangement 18.

Above-mentioned height sensor is arranged on lifting column 107, can be for the height of measuring height sensor self position.

In one embodiment, as shown in Figure 1, above-mentioned tilting gearing 17 comprises tilt drive motor 102, the tilting rack 105 being connected with experimenter's bracing or strutting arrangement 18, middle link 106 and the angle of bank measurement sensor being connected with lowering or hoisting gear 16.

Above-mentioned tilt drive motor 102 can drive tilting rack 105 to tilt to first angle setting in advance with respect to middle link 106.

Above-mentioned angle of bank measurement sensor setting is on tilting rack 105, and for measuring the angle of inclination data of tilting rack 105 with respect to link 106.

In one embodiment, as shown in Figure 1, experimenter's bracing or strutting arrangement 18 comprises that main support portion 108, lower limb adjusting bracket 104, pedal 110, pivot driver motor 103, pivoting angle measuring transducer and pedal regulate motor 111.

Above-mentioned main support portion 108 can be for supporting experimenter's back and head, and be fixedly arranged on tilting rack 105.

Above-mentioned lower limb adjusting bracket 104 can be for supporting experimenter's lower limb part, and be articulated in tilting rack 105, can carry out pivotable with respect to tilting rack 105 under the driving at pivot driver motor 103, thereby regulates experimenter's position.

Second angle of above-mentioned pivot driver motor 103 for driving lower limb adjusting bracket 104 to set in advance with respect to pivoted to.

Above-mentioned pivoting angle measuring transducer is arranged on lower limb adjusting bracket 104, and is set to measure the pivoting angle data of lower limb adjusting bracket 104 with respect to horizontal level.

In addition, above-mentioned pedal 110 regulates motor 111 to be arranged at the end of lower limb adjusting bracket 104 with pedal, and this pedal 110 is for supporting experimenter's foot.

Above-mentioned pedal regulates motor 111 for driving pedal 110 length setting in advance to one of stretching.Can ensure that like this this upright slanting testing bed can hold the experimenter of different heights.

In one embodiment, lowering or hoisting gear 16, tilting gearing 17 and experimenter's bracing or strutting arrangement 18 can co-operatings, bed body 12 is adjusted to rescued position height in the given time, experimenter's position adjusted to concave clinostatism simultaneously.

In one embodiment, above-mentioned concave clinostatism can be by upwards deflection of tilting rack 105, horizontal by 10 ° to 20 ° angles, by upwards deflection of lower limb adjusting bracket 104, horizontal by 20 ° to 30 ° angles.Like this, the back of the experimenter on this inclining experiment bed can be elevated 10 ° to 20 °, and experimenter's lower limb are elevated 20 ° to 30 °, thereby ensures that experimenter is in being beneficial to the position of rescue.This kind of position is applicable to shock patient, in the time of this position, raises cephalothorax, is conducive to breathe; Lower limb lifting, is conducive to experimenter's venous return, increases cardiac output.

As shown in Fig. 2,3,4,5, in the time that the experimenter on upright slanting testing bed is tested, experimenter lies low on this upright slanting testing bed, and foot can be placed on pedal 110.This tilt drive motor 102 is worked afterwards, and this pivot driver motor 103 is not worked, thereby makes tilting rack 105 horizontal by a preset angles.Now, lifting motor 101 can drive lifting column 107 to one preset height.Now above-mentioned lower limb adjusting bracket 104 is in the same plane with this tilting rack 105.

As shown in Figure 1, in the time that experimenter is uncomfortable, lifting motor 101 drives link 106 in lifting column 107 picking-ups to be elevated to the height setting in advance.Tilt drive motor 102 drives this tilting rack 105, pivot driver motor 103 drives this lower limb adjusting bracket 104, make tilting rack 105 and horizontal level form an angle setting in advance, make lower limb adjusting bracket 104 and horizontal level form the angle that another sets in advance.

In addition, as shown in Figure 6, above-mentioned coffret 14 can be arranged on above-mentioned base 11.At the other electric power connection line 112 that is also provided with of coffret 14, can be head-up tilt test system power supply connecting after power supply.In addition, as shown in Figure 7, on this upright slanting testing bed 10, be provided with and set up bed board 113 and handrail 114.For example, this bed board 113 can comprise the first bed board 1131 being arranged on main support portion 108,, this bed board 113 can also comprise the second bed board 1132 being arranged on lower limb adjusting bracket 104, so that in the time of concave clinostatism, the bed board of upright slanting testing bed can bend.

The head-up tilt test system that this utility model embodiment provides, can gather experimenter's physiological parameter, and physiological parameter can be transferred in monitoring system by coffret by physiological parameter harvester.In addition, monitoring system can be controlled lowering or hoisting gear and carry out descending operation, and tilting gearing is carried out tilt operation, and coordinates experimenter's bracing or strutting arrangement, adjusts the attitude of bed body, thereby reaches the attitude that is beneficial to treatment experimenter.This monitoring system, in the time of head-up tilt test, can also be obtained experimenter's physiological parameter in time, has avoided recording in time the problem of physiological parameter.

In this utility model, applied specific embodiment principle of the present utility model and embodiment are set forth, the explanation of above embodiment is just for helping to understand method of the present utility model and core concept thereof; , for one of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model meanwhile.

Claims (5)

1. a head-up tilt test system, it comprises upright slanting testing bed, this upright slanting testing bed comprises base and is arranged on the bed body on this base, it is characterized in that:

Described upright slanting testing bed also comprises: with integrated at least one physiological parameter harvester, the coffret of this upright slanting testing bed;

Described head-up tilt test system also comprises the monitoring system associated with described upright slanting testing bed;

Described bed body comprises:

Lowering or hoisting gear, it is arranged on described base, for carrying out descending operation;

Tilting gearing, it is arranged on described lowering or hoisting gear, for carrying out tilt operation; And

Experimenter's bracing or strutting arrangement, it is arranged on described tilting gearing, for supporting experimenter.

2. head-up tilt test system according to claim 1, is characterized in that, described lowering or hoisting gear comprises lifting motor, lifting column and height sensor;

Described lifting motor, for driving described lifting column to elongate or shorten, thereby causes the lifting of described tilting gearing and described experimenter's bracing or strutting arrangement;

Described height sensor is arranged on described lifting column, for measuring the height of described height sensor position.

3. head-up tilt test system according to claim 2, it is characterized in that, described tilting gearing comprises tilt drive motor, the tilting rack being connected with described experimenter's bracing or strutting arrangement, middle link and the angle of bank measurement sensor being connected with described lowering or hoisting gear;

Described tilt drive motor is for driving described tilting rack to tilt to first angle setting in advance with respect to described link;

Described angle of bank measurement sensor setting is on described tilting rack, and for measuring the angle of inclination data of described tilting rack with respect to described link.

4. head-up tilt test system according to claim 3, is characterized in that, described experimenter's bracing or strutting arrangement comprises that main support portion, lower limb adjusting bracket, pedal, pivot driver motor, pivoting angle measuring transducer and pedal regulate motor;

Described main support portion is used for supporting experimenter's back and head, and is fixedly arranged on described tilting rack;

Described lower limb adjusting bracket is used for supporting experimenter's lower limb part, and is articulated in described tilting rack, can carry out pivotable with respect to described tilting rack under the driving at described pivot driver motor;

Second angle of described pivot driver motor for driving described lower limb adjusting bracket to set in advance with respect to pivoted to;

Described pivoting angle measuring transducer is arranged on described lower limb adjusting bracket, and for measuring described lower limb adjusting bracket with respect to described pivoted angle-data;

Described pedal and described pedal regulate motor to be arranged at the end of described lower limb adjusting bracket; Described pedal is for supporting experimenter's foot portion;

Described pedal regulates motor for driving the described pedal length setting in advance to one of stretching.

5. according to the head-up tilt test system described in claim 1-4 any one, it is characterized in that, described coffret comprises: physiological parameter data coffret, bed body attitude data coffret, bed body attitude control instruction coffret.