CN103892981A

CN103892981A - Head-up tilt testing equipment quick dropping device

Info

Publication number: CN103892981A
Application number: CN201410097453.0A
Authority: CN
Inventors: 孙圣龙; 李文绩; 幺继东
Original assignee: BEIJING JUCHI MEDICINE TECHNOLOGY Co Ltd
Current assignee: BEIJING JUCHI MEDICINE TECHNOLOGY Co Ltd
Priority date: 2014-03-14
Filing date: 2014-03-14
Publication date: 2014-07-02
Anticipated expiration: 2034-03-14
Also published as: CN103892981B

Abstract

The invention provides a head-up tilt testing equipment quick dropping device, and relates to the technical field of medical equipment. The head-up tilt testing equipment quick dropping device comprises a head-up tilt testing bed which comprises a base and a bed body, the bed body comprises a lifting device, a tilting device and a subject supporting device, and the head-up tilt testing bed further comprises at least one physiological parameter collecting device and a transmission interface which are integrated with the head-up tilt testing bed; the head-up tilt testing equipment quick dropping device further comprises a monitoring system related to the head-up tilt testing bed; the monitoring system is used for obtaining physiological parameter data through the transmission interface, receiving posture data of the bed body through the transmission interface, and sending bed body posture control instructions to the bed body through the transmission interface so as to instruct the lifting device, the tilting device and the subject supporting device to act synergistically, the bed body is adjusted to the height of a rescue position in preset time, and meanwhile the position of a subject is adjusted to a shock position. The head-up tilt testing equipment quick dropping device can solve the problem that the posture of the subject is not beneficial to timely treatment on the subject conducted by medical workers.

Description

The quick fall-back device of a kind of head-up tilt test equipment

Technical field

The present invention relates to technical field of medical instruments, relate in particular to the quick fall-back device of a kind of head-up tilt test equipment.

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.

Inventor's discovery, at least there is following problem in current head-up tilt test:

1, in head-up tilt test, if experimenter occur uncomfortable (for example, there is positive sign), need to give treatment in time experimenter, and traditional upright slanting testing bed, only there is simple head-up tilt function, and do not there is the bed appearance regulatory function of being convenient to experimenter to implement treatment, be therefore not easy in time experimenter be given treatment in time.

Therefore the head-up tilt test system that, need a kind of integrated form, automatically manipulates, is convenient to experimenter to give treatment in time.

Summary of the invention

Embodiments of the invention provide a kind of head-up tilt test equipment quick fall-back device, and to solve in current head-up tilt test, experimenter occurs when uncomfortable, the problem that cannot give treatment to it fast.

For achieving the above object, the present invention adopts following technical scheme:

The quick fall-back device of a kind of head-up tilt test equipment, it comprises upright slanting testing bed, this upright slanting testing bed comprises base and is arranged on the bed body on this base, described bed body, comprise the lowering or hoisting gear being arranged on described base, be arranged on the tilting gearing on described lowering or hoisting gear and be arranged on the experimenter's bracing or strutting arrangement on described tilting gearing;

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

The quick fall-back device of described head-up tilt test equipment also comprises the monitoring system associated with described upright slanting testing bed;

Described monitoring system is set to obtain by described coffret the experimenter's who is gathered by described at least one physiological parameter harvester physiological parameter data, and by the attitude data of the described bed of described coffret reception body, with send bed body attitude control instruction to indicate described lowering or hoisting gear, described tilting gearing and the co-operating of described experimenter's bracing or strutting arrangement by described coffret to described bed body, in the given time bed body is adjusted to and rescued position height, experimenter's position is adjusted to concave clinostatism simultaneously.

Concrete, described coffret comprises:

Physiological parameter data coffret, for transmitting described experimenter's physiological parameter data;

Bed body attitude data coffret, for transmitting the attitude data of described bed body;

Bed body attitude control instruction coffret, for transmitting described bed body attitude control instruction.

Concrete, described lowering or hoisting gear, for according to the bed body attitude control instruction receiving from described monitoring system via described bed body attitude control instruction coffret, carries out descending operation;

Described tilting gearing, for according to the bed body attitude control instruction receiving from described monitoring system via described bed body attitude control instruction coffret, carries out tilt operation; And

Described experimenter's bracing or strutting arrangement, for supporting experimenter.

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

Described lifting motor is set to according to the bed body attitude control instruction receiving from described monitoring system via described bed body attitude control instruction coffret, drive described lifting column to elongate or shorten, thereby cause 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, and measured altitude information is transferred to described monitoring system via described bed body attitude data coffret.

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 set to, according to the bed body attitude control instruction receiving from described monitoring system via described bed body attitude control instruction coffret, drive described tilting rack to tilt to the angle corresponding with described bed body attitude control instruction with respect to described middle link;

Described angle of bank measurement sensor setting is on described tilting rack, and be set to measure the angle of inclination data of described tilting rack with respect to described middle link, and measured angle of inclination data are transferred to described monitoring system via described bed body attitude data coffret.

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, thus adjusting experimenter's position;

Described pivot driver motor is set to, according to the bed body attitude control instruction receiving from described monitoring system via described bed body attitude control instruction coffret, drive described lower limb adjusting bracket to be pivoted to the angle corresponding with described bed body attitude control instruction with respect to described tilting rack;

Described pivoting angle measuring transducer is arranged on described lower limb adjusting bracket, and be set to measure the pivoting angle data of described lower limb adjusting bracket with respect to described tilting rack, and measured described pivoting angle data are transferred to described monitoring system via described bed body attitude data coffret;

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 to be set to, according to the bed body attitude control instruction receiving from described monitoring system via described bed body attitude control instruction coffret, drive described pedal to stretch to the length corresponding with described bed body attitude control instruction.

In addition, described monitoring system is also set to, according to manual command or the experimenter's based on obtained physiological parameter data, generate bed body attitude control instruction, and generated bed body attitude control instruction is transferred to described bed body via described bed body attitude control instruction coffret, carry out individually or synergistically corresponding operation with at least one in lowering or hoisting gear, described tilting gearing and described experimenter's bracing or strutting arrangement described in instruction.

Further, described monitoring system is also set to, and when the physiological parameter data of the experimenter based on obtained, judges when positive sign appears in experimenter, generates corresponding bed body attitude control instruction.

The quick fall-back device of head-up tilt test equipment that the embodiment of the present invention provides, comprise upright slanting testing bed, this upright slanting testing bed comprises base and is arranged on the bed body on this base, described bed body, comprise the lowering or hoisting gear being arranged on described base, be arranged on the tilting gearing on described lowering or hoisting gear and be arranged on the experimenter's bracing or strutting arrangement on described tilting gearing.The quick fall-back device of this head-up tilt test equipment can send bed body attitude control instruction to indicate described lowering or hoisting gear, described tilting gearing and the co-operating of described experimenter's bracing or strutting arrangement to described bed body by coffret, in the given time bed body is adjusted to and rescued position height, experimenter's position is adjusted to concave clinostatism simultaneously, in time it is given treatment to thereby be beneficial to medical personnel.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention 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 some embodiments of the present invention, for those of ordinary skills, 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.

The specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is only the present invention's part embodiment, rather than whole embodiment.Based on the embodiment in the present invention, those of ordinary skills, not making the every other embodiment obtaining under creative work prerequisite, belong to the scope of protection of the invention.

The quick fall-back device of head-up tilt test equipment that the embodiment of the present invention provides, as shown in Figure 1, comprises upright slanting testing bed 10, and this upright slanting testing bed 10 comprises base 11 and is arranged on the bed body 12 on this base 11.

Above-mentioned bed body 12, comprises the lowering or hoisting gear 16 being arranged on base 11, is arranged on the tilting gearing 17 on described lowering or hoisting gear 16 and is arranged on the experimenter's bracing or strutting arrangement 18 on described tilting gearing 17.

Above-mentioned 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, the quick fall-back device of above-mentioned head-up tilt test equipment also comprises the monitoring system associated with upright slanting testing bed 10 15.

This monitoring system 15 is set to obtain by coffret 14 experimenter's who is gathered by least one physiological parameter harvester 13 physiological parameter data, and by the attitude data of coffret 14 reception bed bodies 12, with send bed body attitude control instructions to indicate described lowering or hoisting gear 16, described tilting gearing 17 and described experimenter's bracing or strutting arrangement 18 co-operatings by coffret 14 to bed body 12, in the given time bed body 12 is adjusted to and rescued position height, experimenter's position is adjusted to concave clinostatism simultaneously.

In one embodiment, above-mentioned coffret 14 can comprise:

Physiological parameter data coffret (further not illustrating in figure), it is connected with described at least one physiological parameter harvester 13, is transferred to monitoring system 15 for experimenter's that described at least one physiological parameter harvester 13 is gathered physiological parameter data;

Bed body attitude data coffret (further not illustrating in figure), it is connected with the sensor that is arranged on each attitude regulation actuator place on upright slanting testing bed 10, for these sensors are obtained bed body attitude data be transferred to monitoring system 15; And

Bed body attitude control instruction coffret (not shown), is transferred to each attitude regulation actuator of upright slanting testing bed 10 for the bed body attitude control instruction that monitoring system 15 is generated.

Concrete, as shown in Figure 1, above-mentioned lowering or hoisting gear 16, can, for according to the bed body attitude control instruction receiving from monitoring system 15 via bed body attitude control instruction coffret, carry out descending operation.

Tilting gearing 17, can, for according to the bed body attitude control instruction receiving from monitoring system 15 via bed body attitude control instruction coffret, carry out tilt operation.

Experimenter's bracing or strutting arrangement 18, can be for supporting experimenter.

Like this, upright slanting testing bed 10 can be under the control of monitoring system 15, carries out respectively or synchronously the whole bed descending operation of body and experimenter's tilt operation, bed body is adjusted to the state of expectation.

In one embodiment, as shown in Figure 1, lowering or hoisting gear 16 can comprise lifting motor 101, lifting column 107 and height sensor (not shown).Preferably, lifting motor 101 and lifting column 107 can become one.

Above-mentioned lifting motor 101 is set to according to the bed body attitude control instruction receiving from monitoring system 15 via bed body attitude control instruction coffret, drive lifting column 107 to elongate or shorten, thereby cause the lifting of tilting gearing 17 and experimenter's bracing or strutting arrangement 18.

Height sensor for example can be arranged on lifting column 107, for the height of measuring height sensor self position, and measured altitude information is transferred to monitoring system 15 via bed body attitude data coffret.It will be understood by those skilled in the art that height sensor also can be arranged on other positions of a body 12, to measure the height based on a certain reference position.

In one embodiment, as shown in Figure 1, above-mentioned tilting gearing 17 comprise tilt drive motor 102, the tilting rack 105 being connected with experimenter's bracing or strutting arrangement 18, the middle link 106 being connected with lowering or hoisting gear 16 and angle of bank measurement sensor (not shown).

Above-mentioned tilt drive motor 102 is set to, according to the bed body attitude control instruction receiving from monitoring system 15 via bed body attitude control instruction coffret, drive tilting rack 105 to tilt to the angle corresponding with bed body attitude control instruction with respect to middle link 106.

Above-mentioned angle of bank measurement sensor setting is on tilting rack 105, and be set to measure the angle of inclination data of tilting rack 105 with respect to middle link 106, and measured angle of inclination data are transferred to monitoring system 15 via bed body attitude data coffret.

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 regulate experimenter's position, specifically, regulate experimenter's lower limb with respect to the angle of inclination of upper body.

Above-mentioned pivot driver motor 103 is set to, according to the bed body attitude control instruction receiving from monitoring system 15 via bed body attitude control instruction coffret, drive lower limb adjusting bracket 104 to be pivoted to the angle corresponding with bed body attitude control instruction with respect to tilting rack 105.

Above-mentioned pivoting angle measuring transducer is arranged on lower limb adjusting bracket 104, and be set to measure the pivoting angle data of lower limb adjusting bracket 104 with respect to tilting rack 105, and measured pivoting angle data are transferred to monitoring system 15 via bed body attitude data coffret.

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 to be set to, according to the bed body attitude control instruction receiving from monitoring system 15 via bed body attitude control instruction coffret, drive pedal 110 to stretch to the length corresponding with bed body attitude control instruction.Can guarantee that like this this upright slanting testing bed can hold the experimenter of different heights.

In one embodiment, monitoring system 15 is also set to, according to manual command or the experimenter's based on obtained physiological parameter data, generate bed body attitude control instruction, and generated a bed body attitude control instruction is transferred to a body 12 via bed body attitude control instruction coffret, to indicate at least one in lowering or hoisting gear 16, tilting gearing 17 and experimenter's bracing or strutting arrangement 18 to carry out individually or synergistically corresponding operation.

Above-mentioned physiological parameter data can comprise experimenter's ecg wave form, heart rate value, pressure value, breathing rate value, pulse frequency value and blood oxygen levels etc., but is not only confined to this.Above-mentioned bed body attitude data can comprise above-mentioned pivoting angle data, angle of inclination data and above-mentioned altitude information.

Above-mentioned manual command can be that medical personnel wait the manual command who sets in advance in operation supervise and control system 15, but is not only confined to this.

In one embodiment, monitoring system 15 is also set to, and receives experimenter's information.Wherein, experimenter's information comprises experimenter's height, body weight and experimenter's age.

Monitoring system 15 is also set to, according to the speed of service of experimenter's height, body weight and experimenter's age and above-mentioned physiological parameter data control lifting motor 101, tilt drive motor 102, pivot driver motor 103.For example, in the time of experimenter's body weight or experimenter older, the speed of service of lifting motor 101, tilt drive motor 102 and pivot driver motor 103 can be slower.

For example, can set in advance experimenter's height, body weight, age and physiological parameter data and the corresponding relation of this speed of service in this monitoring system 15, for example, can be mapping table etc., but not only limitation is like this.For example, with the example that operates to of lifting motor 101, above-mentioned corresponding relation can have following several situation, but be not only confined to this: experimenter's height is greater than 180 centimetres, body weight is greater than 80 kilograms, age is greater than 50 years old, and the high pressure of the pressure value in physiological parameter is greater than 140 millimetress of mercury, the rising or falling speed of lifting motor 101 can be 5 centimetres/per second.Again for example, experimenter's height is less than 175 centimetres, and body weight is less than 80 kilograms, and the age is less than 40 years old, and the high pressure of the pressure value in physiological parameter is less than 120 millimetress of mercury, the rising or falling speed of lifting motor 101 can be 10 centimetres/per second.The scheme of two above-mentioned rising or falling speeds is only two schemes in above-mentioned corresponding relation, and the scheme of other rising or falling speeds repeats no more herein.

Again for example, this monitoring system 15 can also, by setting in advance experimenter's height, body weight, age and physiological parameter data, be calculated the speed of service value that generates lifting motor 101, tilt drive motor 102, pivot driver motor 103.

In one embodiment, monitoring system 15 is also set to, when the physiological parameter data of the experimenter based on obtained, judge when positive sign appears in experimenter, generate corresponding bed body attitude control instruction, with indication lowering or hoisting gear 16, tilting

gearing

17 and 18 co-operatings of experimenter's bracing or strutting arrangement, for example, within the scheduled time (5 seconds) bed body 12 is adjusted to and rescued position height, experimenter's position is 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 guarantees 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 predetermined angle.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, monitoring system 15 receives bed body attitude control instruction, thereby indication 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, and pivot driver motor 103 drives this lower limb adjusting bracket 104, makes tilting rack 105 and lower limb adjusting bracket 104 form an angle setting 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 the quick fall-back device power supply of head-up tilt test equipment 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.

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

Claims

1. the quick fall-back device of head-up tilt test equipment, 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 bed body, comprises the lowering or hoisting gear being arranged on described base, is arranged on the tilting gearing on described lowering or hoisting gear and is arranged on the experimenter's bracing or strutting arrangement on described tilting gearing;

2. the quick fall-back device of head-up tilt test equipment according to claim 1, is characterized in that, described coffret comprises:

3. the quick fall-back device of head-up tilt test equipment according to claim 2, it is characterized in that, described lowering or hoisting gear, for according to the bed body attitude control instruction receiving from described monitoring system via described bed body attitude control instruction coffret, carries out descending operation;

4. the quick fall-back device of head-up tilt test equipment according to claim 3, is characterized in that, described lowering or hoisting gear comprises lifting motor, lifting column and height sensor;

5. according to the quick fall-back device of head-up tilt test equipment described in claim 3 or 4, 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;

6. the quick fall-back device of head-up tilt test equipment according to claim 5, it 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;

7. the quick fall-back device of head-up tilt test equipment according to claim 6, it is characterized in that, described monitoring system is also set to, according to manual command or the experimenter's based on obtained physiological parameter data, generate bed body attitude control instruction, and generated bed body attitude control instruction is transferred to described bed body via described bed body attitude control instruction coffret, carry out individually or synergistically corresponding operation with at least one in lowering or hoisting gear, described tilting gearing and described experimenter's bracing or strutting arrangement described in instruction.

8. the quick fall-back device of head-up tilt test equipment according to claim 7, it is characterized in that, described monitoring system is also set to, when the physiological parameter data of the experimenter based on obtained, judge when positive sign appears in experimenter, generate corresponding bed body attitude control instruction.