CN104095617A - Palm type multi-parameter measurement instrument - Google Patents

Abstract

The invention provides a palm type multi-parameter measurement instrument, comprising a shell, a main parameter measurement component and an infrared measuring temperature sensor unit, wherein the shell is internally provided with an isolation wall which divides the shell into a main body cavity and an isolation cavity; the main parameter measurement component is arranged in the main body cavity; the infrared measuring temperature sensor unit is arranged in the isolation cavity, and thus the heat effect of the main body cavity is isolated by the isolation wall. An accurate temperature can also be measured without a separate infrared thermometer, the structure of the palm type multi-parameter measurement instrument provided by the invention is compact, the waterproof effect is good, the use is convenient, and the operation is simple.

Description

Palm-type multi-parameter measurer

Technical field

The present invention relates to medical instruments field, particularly relate to a kind of palm-type multi-parameter measurer.

Background technology

The kind that human body physiological parameter is measured has a lot, and modal have electrocardiogram, heart rate, blood pressure, blood oxygen, body temperature, in addition blood glucose, components of exhaled breath, heart and lung sounds, fetal rhythm etc. in addition.

The product of domestic physiological parameter measurement is mainly single function type at present, and in order to detect a plurality of physiological parameters, user need to buy plurality of devices.Such as user is in order to detect body temperature, need to buy an electronic clinical thermometer; In order to detect electrocardio, need to buy an electro-cardiograph; In order to test blood oxygen, need to buy one and refer to folder oximeter; For Measure blood pressure, need to buy a sphygomanometer.Cause like this using very inconvenient.Also there are on the market a plurality of measurement functions to combine, such as electrocardio and blood oxygen be combined on same equipment.Multiparameter integrates and can cause some new problems, thus the accuracy that impact is measured, such as infrared body temperature and other parameters integrate and will run into inner heat and cause infrared body temperature to measure inaccurate problem.Because infrared, provide based on thermoelectric pile operation principle, by being present in the temperature difference on thermoelectric pile both sides, producing electromotive force and measure.The temperature of the cold junction of thermoelectric pile will keep relative stability and just can carry out Measurement accuracy.The circuit of hot outer measurement of bldy temperature sensor and other measurement functions integrates and is, can be subject to the impact of other circuit part heatings.Integrated parameter is more, and volume is less, and internal temperature is higher, and impact is just larger, cannot Measurement accuracy infrared body temperature thereby cause.

Summary of the invention

The invention provides a kind of palm-type multi-parameter measurer, to solve, infrared thermopile sensor is integrated into the problem that causes certainty of measurement accuracy rate to reduce on the multi-parameter measurer main frame of small size.

For solving the problems of the technologies described above, the technical scheme that the present invention adopts is: a kind of palm-type multi-parameter measurer is provided, comprise housing, principal parameter measurement assembly and infrared temperature-test sensor unit, this enclosure interior is provided with dividing wall, and this dividing wall is divided into main cavity and separate cavities by this housing; Stating principal parameter measurement assembly is located in this main cavity; This infrared temperature-test sensor unit is located in this separate cavities, to isolate to reduce the heat effects of this main cavity by this dividing wall.

According to one preferred embodiment of the present invention, this separate cavities comprises assembly cavity and a separate space, and this infrared temperature-test sensor cellular installation is in this assembly cavity, further to isolate the heat effects of this main cavity by this separate space.

According to one preferred embodiment of the present invention, this dividing wall comprises the first vertical wall, connecting wall, the second vertical wall and diapire, and this first vertical wall, this connecting wall and this second vertical wall connect successively; This diapire is connected with this second vertical wall; Wherein, this first vertical wall and this connecting wall form this assembly cavity, and this second vertical wall and this diapire form this separate space.

According to one preferred embodiment of the present invention, this dividing wall also comprises limited wall, and this limited wall is connected with this first vertical wall.

According to one preferred embodiment of the present invention, this infrared temperature-test sensor unit comprises holder, circuit board and infrared temperature-test sensor, and this holder is carried on this connecting wall; This circuit-board card is located in this holder; This infrared inductor is located on this circuit board and is inserted in this holder.

According to one preferred embodiment of the present invention, this holder comprises circuit board fixed part, hot molten column, stage portion and sleeve part, and this circuit fixed part is inserted between this connecting wall and this limited wall, and this circuit board is located in this circuit board fixed part; This hot molten column is fixed on this circuit board fixed part by this circuit board; This stage portion is connected with this circuit fixed part and matches with this limited wall; This sleeve is connected with this stage portion, and this infrared temperature-test sensor is inserted in this sleeve.

According to one preferred embodiment of the present invention, this circuit board is provided with through hole, and this hot molten column extends to this diapire to support this holder through this through hole.

According to one preferred embodiment of the present invention, this palm-type multi-parameter measurer also comprises cage ring and packing ring, and this cage ring is sheathed on outside this sleeve; This packing ring is located between this infrared temperature-test sensor and this circuit board.

According to one preferred embodiment of the present invention, this palm-type multi-parameter measurer also comprises control unit and display unit, this control unit is located in this main cavity, this circuit board is electrically connected to this control unit, and this control unit is measured the temperature of human body for controlling this infrared temperature-test sensor unit; This display unit is located at this main cavity surface, for the result that shows that this infrared temperature-test sensor unit is measured to human body temperature.

According to one preferred embodiment of the present invention, this palm-type multi-parameter measurer also comprises time block, and this time block is for setting the interval between double measurement human body temperature.

According to one preferred embodiment of the present invention, this palm-type multi-parameter measurer also comprises power supply, and this power supply is located in this main cavity and away from one end of this infrared temperature-test sensor unit.

According to one preferred embodiment of the present invention, this housing also comprises thermometric button, and this thermometric button is located at this housing edge and is electrically connected to this control unit.

The invention has the beneficial effects as follows: palm-type multi-parameter measurer provided by the invention is provided with the dividing wall of main cavity, separate cavities, formation separate cavities and is located at the infrared temperature-test sensor unit in separate cavities, the present invention isolates to reduce the heat effects of described main cavity by dividing wall, compare with the palm-type multi-parameter measurer of prior art, the present invention needn't use independent infrared thermometer also can measure accurate body temperature, and palm-type multi-parameter measurer compact conformation of the present invention, waterproof effect is good, easy to use, simple to operate.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the embodiment of the present invention, below the accompanying drawing of required use during embodiment is described is briefly described, 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 according to these accompanying drawings, obtain other accompanying drawing, wherein:

Fig. 1 is the perspective view of first embodiment of the invention palm-type multi-parameter measurer;

Fig. 2 is the explosive view of first embodiment of the invention palm-type multi-parameter measurer;

Fig. 3 is the enclosure interior construction module schematic diagram shown in Fig. 1;

Fig. 4 is the assembly structure partial schematic diagram of the infrared temperature-test sensor unit in second embodiment of the invention palm-type multi-parameter measurer;

Fig. 5 is the partial structurtes schematic diagram of the separate cavities shown in Fig. 4;

Fig. 6 is the explosive view of infrared temperature-test sensor unit in Fig. 4.

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 a part of embodiment of the present invention, rather than whole embodiment.Embodiment based 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 first embodiment

See also Fig. 1 and Fig. 2, Fig. 1 is the perspective view of the first embodiment palm-type multi-parameter measurer, and Fig. 2 is the explosive view of first embodiment of the invention palm-type multi-parameter measurer.

Palm-type multi-parameter measurer 100 of the present invention mainly comprises housing 11, principal parameter measurement assembly (not shown) and infrared temperature-test sensor unit 12.

Housing 11 inside are provided with dividing wall 13, dividing wall 13 is divided into main cavity 14 and separate cavities 15 by housing 11, principal parameter is measured assembly and is located in main cavity 14, and infrared temperature-test sensor unit 12 is located in separate cavities 15, to pass through the heat effects in dividing wall 13 isolating main bodies chambeies 14.

See also Fig. 3, Fig. 3 is the enclosure interior construction module schematic diagram shown in Fig. 1.Palm-type multi-parameter measurer 100 also comprises control unit 16 and display unit 17, time block 18, power supply 19 and thermometric button 20.

Control unit 16 is located in main cavity 14, and infrared temperature-test sensor unit 12 is electrically connected to control unit 16, for controlling the temperature of the 12 pairs of human bodies in infrared temperature-test sensor unit, measures; Display unit 17 is located at main cavity 14 surfaces, for showing 12 pairs of the infrared temperature-test sensor unit measured result of human body temperature; Time block 18 is for setting the interval between double measurement human body temperature, to prevent that the heat that infrared temperature-test sensor unit 12 is produced after measurement of bldy temperature for the first time from can affect the accuracy of measuring for the second time, particularly, the interval that time block 18 arranges can be 5-20S, preferably 10S; Power supply 19 is located in main cavity 14 and away from one end of infrared temperature-test sensor unit 12, and then the heat that power supply 19 produces can outwards dispel the heat in some gaps from housing 11, avoids heat to import into fast in separate cavities 15.Thermometric button 20 is located at housing 11 edges and is electrically connected to control unit 16, for the temperature measurement signal that thermometric button 20 is produced, is sent to control unit 16 so that the temperature that control unit 16 is controlled the 12 pairs of human bodies in infrared temperature-test sensor unit is measured.

Below simply introduce each parts, module and the annexation thereof of the first embodiment palm-type multi-parameter measurer 100, now in conjunction with practical operation, further set forth the work process of palm-type multi-parameter measurer 100.

Open palm-type multi-parameter measurer 100, infrared temperature-test sensor unit 12 in palm-type multi-parameter measurer 100 is aimed at and is labelled to the forehead of organism, press thermometric button 20, now thermometric button 20 produces that temperature measurement signals are sent to control unit 16 so that control unit 16 is controlled infrared temperature-test sensor unit 12 sends infrared ray the temperature of human body is measured, control unit 16 is sent to display unit 17 by measured result, when palm-type multi-parameter measurer 100 sends sound, arrange such as " ticking " or user other the tinkle of bells time measurement complete, user just can remove palm-type multi-parameter measurer 100 on forehead and take according to shown result the measure for the treatment of accordingly.

After measuring followed by above-mentioned human body temperature, remake while measuring for the second time, now, if do not reach time block 18 set measurement of bldy temperature interval time, even if repeatedly press thermometric button 20, control unit 16 will can not be controlled infrared temperature-test sensor unit 12 and send infrared ray, until reach time block 18, after set interval time, just work on infrared temperature-test sensor unit 12.

The second embodiment

See also Fig. 4, Fig. 5 and Fig. 6, Fig. 4 is the assembly structure partial schematic diagram of the infrared temperature-test sensor unit in second embodiment of the invention palm-type multi-parameter measurer; Fig. 5 is the partial structurtes schematic diagram of the separate cavities shown in Fig. 4; Fig. 6 is the explosive view of infrared temperature-test sensor unit in Fig. 4.

The present embodiment is substantially identical with the first embodiment, and difference is that separate cavities 15 comprises assembly cavity 151 and a separate space 152, and infrared temperature-test sensor unit 12 is installed on assembly cavity 151, with the heat effects in the 152 further isolating main bodies chambeies 14 of separate space between passing through.Now further the structural relation of infrared temperature-test sensor unit 12 and assembly cavity 151 and a separate space 152 is elaborated.

As shown in Figure 5, dividing wall 13 comprises the first vertical wall 131, connecting wall 132, the second vertical wall 133, diapire 134 and limited wall 135, the first vertical wall 131, connecting wall 132 and the second vertical wall 133 connect successively, diapire 134 is connected with the second vertical wall 133, wherein, the first vertical wall 131 forms assembly cavity 151 with connecting wall 132, separate space 152 between the second vertical wall 133 and diapire 134 form, limited wall 135 is connected assembly cavity 151 to be divided into the first assembly cavity 1511 and the second assembly cavity 1512 with the first vertical wall 131.

As shown in Figure 4 and Figure 5, infrared temperature-test sensor unit 12 comprises holder 121, circuit board 122 and infrared temperature-test sensor 123, holder 121 is carried on connecting wall 132, circuit board 122 is arranged in holder 121 and is electrically connected to control unit 16, for controlling the temperature of the 12 pairs of human bodies in infrared temperature-test sensor unit, measure, further, the setting of circuit board 122 has prevented that the heat in main cavity 14 from entering in holder 121; Infrared temperature-test sensor 123 is located on circuit board 122 and is inserted in holder 121.

As shown in Figure 6, holder 121 comprises circuit board fixed part 1211, hot molten column 1212, stage portion 1213 and sleeve part 1214.Circuit fixed part 1211 is inserted between connecting wall 132 and limited wall 135 (in the second assembly cavity 1512) so that a separate space 152 forms confined spaces, thereby prevents that heat from transmitting to infrared temperature-test sensor 123; Circuit board 122 is located in circuit board fixed part 1211, hot molten column 1212 is fixed on circuit board fixed part 1211 by circuit board 122, stage portion 1213 is connected with circuit board fixed part 1211, and stage portion 1213 can be matched and be made the second assembly cavity 1512 have good sealing and waterproof effect by sealant with limited wall 135, sleeve part 1214 be connected with stage portion 1213 and its one end be located in the first assembly cavity 1511, the other end is arranged in the edge of housing 11, and infrared temperature-test sensor 123 is inserted in sleeve part 1214.

Circuit board 122 is provided with through hole 1221, hot molten column 1212 extends to diapire 134 to support holder 121 through through hole 1221, particularly, on fixed part 121, can be provided with four hot molten columns 1212, corresponding circuits plate 122 is provided with four through holes 1221, wherein two of diagonal angle hot molten columns 1212 pass after two through holes 1221 at diagonal angle on circuit board 122, by instruments such as flatirons by hot molten column 1212 hot melts so that circuit board 122 is fixed on fixed part 1211, and in addition two, diagonal angle hot molten column 1212 supports to diapire 134 to support holder 121 after through through hole 1221.Circuit board 122 can be flexible flat cable, flexible printed circuit board etc.

Palm-type multi-parameter measurer in the present embodiment also comprises cage ring 124 and packing ring 125, cage ring 124 is sheathed on outside sleeve part 1214 and is arranged in the first assembly cavity 1511, particularly, stage portion 1213 may have certain gap while coordinating with limited wall 153, cage ring 124 is arranged in the first assembly cavity 1511 and makes the compact conformation between housing 11 inward flanges and limited wall 153, further makes the second assembly cavity 1512 have good sealing and waterproof effect; Packing ring 125 is located between infrared temperature-test sensor 123 and circuit board 122 further to prevent that the heat of circuit board 122 or main cavity 14 from transmitting to infrared temperature-test sensor 123, and wherein, packing ring 125 adopts the low material of heat conductivity, such as nylon etc.

What deserves to be explained is, for guaranteeing infrared temperature-test sensor 123 thermometric accuracys, between the sensor 123 that infrared measurement of temperature in the present embodiment passes and sleeve part 1214, be formed with certain gap, with sleeve part 1214 ends that prevent from contacting with the external world, be subject to outside high temperature heat conduction and transmit heats to infrared temperature-test sensor 123.

The work process of the internal structure of the present embodiment middle shell and palm-type multi-parameter measurer is identical with the first embodiment, does not repeat herein.

In sum, palm-type multi-parameter measurer of the present invention comprises housing 11, principal parameter measurement assembly and infrared temperature-test sensor unit 12, and housing 11 inside are provided with dividing wall 13, and dividing wall 13 is divided into main cavity 14 and separate cavities 15 by housing 11; Stating principal parameter measurement assembly is located in main cavity 14; Infrared temperature-test sensor unit 12 is located in separate cavities 15, to pass through the heat effects in dividing wall 13 isolating main bodies chambeies 14.It needn't use independent infrared thermometer also can measure accurate body temperature, having solved infrared temperature-test sensor exists in the same housing of the palm-type multi-parameter measurer of multi-functional, small size internal temperature rise affects the problem of measurement of bldy temperature precision, and palm-type multi-parameter measurer compact conformation of the present invention, waterproof effect is good, easy to use, simple to operate.

These are only embodiments of the invention; not thereby limit the scope of the claims of the present invention; every equivalent structure or conversion of equivalent flow process that utilizes description of the present invention and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (12)

1. a palm-type multi-parameter measurer, is characterized in that, comprising:

Housing, described enclosure interior is provided with dividing wall, and described dividing wall is divided into main cavity and separate cavities by described housing;

Principal parameter is measured assembly, and described principal parameter is measured assembly and is located in described main cavity; And

Infrared temperature-test sensor unit, described infrared temperature-test sensor unit is located in described separate cavities, to isolate to reduce the heat effects of described main cavity by described dividing wall.

2. palm-type multi-parameter measurer according to claim 1, it is characterized in that, described separate cavities comprises assembly cavity and a separate space, and described infrared temperature-test sensor cellular installation is in described assembly cavity, further to isolate the heat effects of described main cavity by separate space between described.

3. palm-type multi-parameter measurer according to claim 2, is characterized in that, described dividing wall comprises:

The first vertical wall, connecting wall and the second vertical wall, described the first vertical wall, described connecting wall and described the second vertical wall connect successively;

Diapire, described diapire is connected with described the second vertical wall;

Wherein, described the first vertical wall and described connecting wall form described assembly cavity, separate space between described the second vertical wall and described diapire formation are described.

4. palm-type multi-parameter measurer according to claim 3, is characterized in that, described dividing wall also comprises limited wall, and described limited wall is connected with described the first vertical wall.

5. palm-type multi-parameter measurer according to claim 4, is characterized in that, described infrared temperature-test sensor unit comprises:

Holder, described holder is carried on described connecting wall;

Circuit board, described circuit-board card is located in described holder;

Infrared temperature-test sensor, described infrared inductor is located on described circuit board and is inserted in described holder.

6. palm-type multi-parameter measurer according to claim 5, is characterized in that, described holder comprises:

Circuit board fixed part, described circuit fixed part is inserted between described connecting wall and described limited wall, and described circuit board is located in described circuit board fixed part;

Hot molten column, described hot molten column is fixed on described circuit board fixed part by described circuit board;

Stage portion, described stage portion is connected with described circuit fixed part and matches with described limited wall;

Sleeve part, described sleeve is connected with described stage portion, and described infrared temperature-test sensor is inserted in described sleeve.

7. palm-type multi-parameter measurer according to claim 6, is characterized in that, described circuit board is provided with through hole, and described hot molten column extends to described diapire to support described holder through described through hole.

8. palm-type multi-parameter measurer according to claim 6, is characterized in that, described palm-type multi-parameter measurer also comprises:

Cage ring, described cage ring is sheathed on outside described sleeve part;

Packing ring, described packing ring is located between described infrared temperature-test sensor and described circuit board.

9. according to the palm-type multi-parameter measurer described in any one in claim 1-8, it is characterized in that, described palm-type multi-parameter measurer also comprises:

Control unit, described control unit is located in described main cavity, and described circuit board is electrically connected to described control unit, and described control unit is measured the temperature of human body for controlling described infrared temperature-test sensor unit;

Display unit, described main cavity surface is located in shown unit, for the result that shows that described infrared temperature-test sensor unit is measured to human body temperature.

10. palm-type multi-parameter measurer according to claim 9, is characterized in that, described palm-type multi-parameter measurer also comprises time block, and described time block is for setting the interval between double measurement human body temperature.

11. palm-type multi-parameter measurers according to claim 10, is characterized in that, described palm-type multi-parameter measurer also comprises power supply, and described power supply is located at the interior one end away from described infrared temperature-test sensor unit of described main cavity.

12. palm-type multi-parameter measurers according to claim 11, is characterized in that, described housing also comprises thermometric button, and described thermometric button is located at described housing edge and is electrically connected to described control unit.