CN102370486A

CN102370486A - Measuring equipment

Info

Publication number: CN102370486A
Application number: CN2011102429183A
Authority: CN
Inventors: 王维虎; 王玮; 李昌博; 闫东东
Original assignee: BEIJING CHAOSI ELECTRONIC TECHNOLOGY Co Ltd
Current assignee: Beijing Chaosi Electronic Technology Co., Ltd.
Priority date: 2011-08-23
Filing date: 2011-08-23
Publication date: 2012-03-14
Anticipated expiration: 2031-08-23
Also published as: CN102370486B

Abstract

The invention provides measuring equipment, which comprises a first shell, a second shell and a fingerstall, wherein the fingerstall is arranged between the first shell and the second shell, and is connected with the first shell and the second shell; the first shell and the second shell are arranged side by side; and the fingerstall is used for accommodating fingers during blood oxygen measurement. In the invention, the first shell and the second shell are arranged side by side, and the fingerstall is arranged between the first shell and the second shell, so that the thickness of the measuring equipment is reduced, the size of the measuring equipment is reduced, and the measuring equipment is convenient to carry.

Description

Measurement device

Technical field

The present invention relates to field of medical, particularly a kind of measurement device.

Background technology

In the modern society, threaten the various diseases of human health and life security more and more.At present, the treatment for numerous diseases mainly is with prevention and is viewed as the master.Usually the medical worker measures each item physiological parameter of patient through various measurement devices, thereby obtains patient's various related data information.Measurement device can be cardiographic detector or blood oxygen measuring device etc.The patient detects and record condition at any time for ease, and those skilled in the relevant art have researched and developed the multiple hand-held measurement device of measuring each item physiological parameter that is specifically designed to.

Be that example describes with the finger-clipped blood oxygen measuring device below.Fig. 1 is the structural representation of finger-clipped blood oxygen measuring device in the prior art, and is as shown in Figure 1, and this finger-clipped blood oxygen measuring device comprises upper shell 1, fold fingerstall 2 and lower house 3, and fold fingerstall 2 is arranged between upper shell 1 and the lower house 3.Fold fingerstall 2 is for being provided with the cavity of an opening 4, and this cavity is used to hold finger.Fold fingerstall 2 has contractility so that upper shell 1 clamps finger with lower house 3 in finger inserts it the time, thereby realizes Oximetry.

In the measurement device of prior art; Since need be provided with between upper shell and the lower house one hold finger cavity, and this cavity is positioned on the stacked direction of upper shell and lower house, so the thickness of this measurement device is thicker; Volume is bigger, thereby causes this measurement device to be inconvenient to carry.

Summary of the invention

The present invention provides a kind of measurement device, with so that this measurement device be easy to carry.

For realizing above-mentioned purpose; The present invention provides a kind of measurement device; Comprise: first housing, second housing and be arranged at said first housing and said second housing between and connect the fingerstall of said first housing and said second housing; Said first housing and said second housing are arranged side by side, and said fingerstall is used for when carrying out Oximetry, holding finger.

Further, said fingerstall is the cavity that a side is provided with opening; Said fingerstall comprises first side, second side, loam cake, lower cover and bonnet; Said first side, said second side, said loam cake, said lower cover and said bonnet surround said cavity; Said first side and said second side are oppositely arranged, and said loam cake and said lower cover are oppositely arranged, and said bonnet and said opening are oppositely arranged; Said first side is connected with said first housing, and said second side is connected with said second housing.

Further, said measurement device also comprises: power supply, data processing unit, luminous tube and photosensitive tube;

Said power supply is used for to said data processing unit, said luminous tube and the power supply of said photosensitive tube;

Said luminous tube is used for to the finger emission optical signal that is positioned at said fingerstall;

Said photosensitive tube is used to receive said optical signal and said optical signal is sent to said data processing unit;

Said data processing unit is used for said optical signal is handled generation blood oxygen parameter.

Further, said luminous tube is arranged on the inwall of said first side, and said photosensitive tube is arranged on the inwall of said second side; Perhaps

Said luminous tube is arranged on the inwall of said second side, and said photosensitive tube is arranged on the inwall of said first side; Perhaps

Said luminous tube is arranged on the inwall of said loam cake, and said photosensitive tube is arranged on the inwall of said lower cover; Perhaps

Said luminous tube is arranged on the inwall of said lower cover, and said photosensitive tube is arranged on the inwall of said loam cake.

Further, said power supply is arranged in said first housing, and said data processing unit is arranged in said second housing.

Further, said fingerstall possesses retractility, and said fingerstall comprises fold formula fingerstall or level and smooth formula fingerstall;

Said measurement device also comprises: locker, an end of said locker are arranged on said first housing, and the other end is arranged on said second housing, and said locker is used to make said fingerstall to shrink.

Further, said measurement device also comprises: be arranged at said fingerstall inner and and the bonnet of said fingerstall between have the barrier film of setpoint distance, said barrier film is used for carrying out spacing to the finger that inserts in the said fingerstall.

Further, form compartment between said barrier film and the said bonnet, said compartment is used for placing

Communication link wiring between said first housing and said second housing.

Further, said measurement device also comprises: be arranged at the protection connecting line with preseting length in the said compartment, said protection connecting line is used to connect said first housing and said first housing.

Further; Said measurement device also comprises: the ecg signal acquiring module; Said ecg signal acquiring module is used to gather electrocardiosignal and exports said electrocardiosignal to said data processing unit, for said data processing unit said electrocardiosignal is handled the generation EGC parameter; Said ecg signal acquiring module comprises two contact electrodes, and a contact electrode is arranged at the side of said first housing, and another contact electrode is arranged at the side of said second housing.

The present invention has following beneficial effect:

Measurement device provided by the invention comprise first housing, second housing and be arranged at first housing and second housing between and connect the fingerstall of first housing and second housing; First housing and second housing are arranged side by side, and fingerstall is used for when carrying out Oximetry, holding finger.The present invention has reduced the thickness of measurement device through with first housing with second housing is arranged side by side and fingerstall is arranged between first housing and second housing, has reduced the volume of measurement device, thereby measurement device is easy to carry.

Description of drawings

Fig. 1 is the structural representation of finger-clipped blood oxygen measuring device in the prior art;

The structural representation of a kind of measurement device that Fig. 2 provides for the embodiment of the invention one;

Fig. 3 is the schematic rear view of measurement device among Fig. 2;

Fig. 4 is another angle sketch map of measurement device among Fig. 2;

Fig. 5 is the application sketch map of measurement device among Fig. 2;

Fig. 6 be among Fig. 2 A-A to cutaway view;

Fig. 7 is the contraction sketch map of fingerstall in the present embodiment;

Fig. 8 is the membranous sketch map of measurement device in the present embodiment;

The structural representation of a kind of measurement device that Fig. 9 provides for this embodiment of the invention two.

The specific embodiment

For making those skilled in the art understand technical scheme of the present invention better, measurement device provided by the invention is described in detail below in conjunction with accompanying drawing.

The structural representation of a kind of measurement device that Fig. 2 provides for the embodiment of the invention one; Fig. 3 is the schematic rear view of measurement device among Fig. 2; Fig. 4 is another angle sketch map of measurement device among Fig. 2; Fig. 5 is the application sketch map of measurement device among Fig. 2, and to shown in Figure 5, this measurement device comprises like Fig. 2: first housing 11, second housing 12 and be arranged at first housing 11 and second housing 12 between and connect the fingerstall 13 of first housing 11 and second housing 12; First housing 11 and second housing 12 are arranged side by side, and fingerstall 13 is used for when carrying out Oximetry, holding finger 14.

Preferably, the shape of first housing 11 and second housing 12 all can be the cube of flat.And first housing 11 and second housing 12 are the inner hollow structure.

Fingerstall 13 is the cavity that a side is provided with opening 131.Particularly; Fingerstall 13 can comprise first side 132, second side 133, loam cake 134, lower cover 135 and bonnet 136, and first side 132, second side 133, loam cake 134, lower cover 135 and bonnet 136 surround cavity, and first side 132 is oppositely arranged with second side 133; Loam cake 134 is oppositely arranged with lower cover 135; Bonnet 136 is oppositely arranged with opening 131, and first side 132 is connected with first housing 11, and second side 133 is connected with second housing 12.

Fig. 6 is that A-A is to cutaway view among Fig. 2, and to shown in Figure 6, further, this measurement device also comprises: power supply 15, data processing unit 16, luminous tube 17 and photosensitive tube 18 like Fig. 2.Power supply 15 is used for to data processing unit 16, luminous tube 17 and photosensitive tube 18 power supplies; Luminous tube 17 is used for to the finger that is positioned at fingerstall 13 14 emission optical signals; The optical signal that luminous tube 17 sends gets into finger 14; In finger 14, pass finger 14 after the decay of tissue and arrive photosensitive tube 18, photosensitive tube 18 is used to receive this optical signal and this optical signal is sent to data processing unit 16, and data processing unit 16 is used for this optical signal is handled generation blood oxygen parameter.Further, it is luminous that data processing unit 16 also is used for driven for emitting lights pipe 17.

Preferably, luminous tube 17 is arranged on the inwall of first side 132, and photosensitive tube 18 is arranged on the inwall of second side 133.Luminous tube 17 is oppositely arranged with photosensitive tube 18.Perhaps, luminous tube also can be arranged on the inwall of second side, and photosensitive tube also can be arranged on the inwall of first side, and this kind situation is no longer specifically drawn.

In the present embodiment, power supply 15 is arranged in first housing 11, and data processing unit 16 is arranged in second housing 12, in the present embodiment power supply 15 and data processing unit 16 only in accompanying drawing 1 form with frame of broken lines represent.

Further, measurement device also comprises: be arranged at the display screen 19 of second housing, 12 outsides, display screen 19 receives the blood oxygen parameter of data processing units 16 outputs and shows.

Fig. 7 is the contraction sketch map of fingerstall in the present embodiment; As shown in Figure 7, in the present embodiment, fingerstall 13 can possess retractility; Then measurement device also comprises: locker 20; One end of locker 20 is arranged on first housing 11, and the other end is arranged on second housing 12, and locker 20 is used to make fingerstall 13 to pack up.When measurement device is not measured, fingerstall 13 is shunk and buckles locker 20, so that fingerstall 13 is packed up, thereby make things convenient for user to carry; When measurement device need be measured, open locker 20 and fingerstall 13 is stretched, so that fingerstall 13 is launched.Fingerstall 13 can comprise fold formula fingerstall or level and smooth formula fingerstall, and what the fingerstall 13 in the present embodiment adopted is fold formula fingerstall.If when fingerstall 13 adopted level and smooth formula fingerstall, this fingerstall 13 can adopt the bigger silica gel sheet of elasticity.

Fig. 8 is the membranous sketch map of measurement device in the present embodiment; As shown in Figure 8, further, measurement device also comprises barrier film 21; Barrier film 21 be arranged at fingerstall 13 inner and and the bonnet 136 of fingerstall 13 between have setpoint distance, barrier film 21 is used for carrying out spacing to the fingers that insert in the fingerstall 13.The position of this barrier film 21 can be set according to the length that finger inserts in the fingerstall 13, and the position of barrier film 21 can deeply be located for the vertical maximum of finger tip in the fingerstall 13 usually.

Form compartment 22 between barrier film 21 and the bonnet 136, compartment 22 is used to place the communication link wiring that is provided with between first housing 11 and second housing 12.Between first housing 11 and second housing 12 the communication link wiring can be set; The communication link wiring that is provided with between first housing 11 and second housing 12 can be used for making the parts in first housing 11 to realize that with the parts in second housing 12 communication is connected; This communication link wiring can be fixed on the inwall of fingerstall 13, and this communication link wiring preferably is positioned in the compartment 22 in the present embodiment.For example: this communication link wiring can comprise: the communication link wiring between communication link wiring between power supply 15 and the data processing unit 16 and power supply 15 and the display screen 19 etc.

In addition, also be provided with the communication link wiring between first housing 11 and the photosensitive tube 18, this communication link wiring is fixed on the inwall of fingerstall 13 and is used to realize that power supply 15 is connected with the communication of photosensitive tube 18.

In the present embodiment, be the variation of fingerstall in the conjunction measuring process, above-mentioned each communication link wiring should possess retractility preferably.For example: the communication link wiring can be adopted spiral scalable communication connecting line.

Further, this measurement device can also comprise: be arranged at the protection connecting line with preseting length in the compartment 22, this protection connecting line is used to connect first housing 11 and second housing 12.This protection connecting line can adopt not rubber-like connecting line.The protection connecting line has preseting length, therefore can the distance bound between first housing 11 and second housing 12 be fixed within this preseting length.This preseting length is preferably the length that is less than or equal to the communication link wiring between first housing 11 and second housing 12.When fingerstall 13 was launched to carry out Oximetry, the protection connecting line can fix on the distance bound between first housing 11 and second housing 12 within the preseting length, thereby has guaranteed that the communication link wiring between first housing 11 and second housing 12 is not torn.

Further, this measurement device also comprises the ecg signal acquiring module, and the ecg signal acquiring module is used to gather electrocardiosignal and exports electrocardiosignal to data processing unit 16, handles the generation EGC parameter for 16 pairs of electrocardiosignaies of data processing unit.Of Fig. 6, this ecg signal acquiring module can comprise that 23, one contact electrodes 23 of two contact electrodes are arranged at the side of first housing 11, and another contact electrode 23 is arranged at the side of second housing 12.When adopting this measurement device to carry out the electrocardio measurement, the user both hands contact contact electrode 23 that is arranged at first housing, 11 sides and the contact electrode 23 that is arranged at second housing, 12 sides respectively, to realize the collection to electrocardiosignal.In the present embodiment, data processing unit can comprise: blood oxygen processing module and electrocardio processing module, blood oxygen processing module are used for optical signal is handled generation blood oxygen parameter, and the electrocardio processing module is used for optical signal is handled the generation EGC parameter.

In the prior art; Two housings of measurement device are provided with up and down; The fold fingerstall is between upper shell and lower house, and the fold fingerstall can open up and down so that finger can be inserted in it when carrying out Oximetry, and the fold fingerstall is one to be used to hold the cavity of finger; This cavity possesses certain thickness on above-below direction, therefore cause the thickness of measurement device to increase.And be arranged side by side about two housings with measurement device in the technical scheme of present embodiment; Fingerstall is between first housing and second housing; Fingerstall only opens up and down when carrying out Oximetry; But the thickness that fingerstall possesses on above-below direction and the deformation of generation can't influence the thickness of whole measuring equipment, the thickness of measurement device by about first housing that is arranged side by side and the decision of second housing, thereby compared with prior art present embodiment has reduced the thickness of measurement device.In the prior art, the thickness of measurement device is the thickness of upper shell, the thickness of lower house and the thickness sum of fold fingerstall, and the thickness of measurement device is generally more than the 20mm in the prior art.In the present embodiment; The thickness of measurement device can be the thickness of first housing or the thickness of second housing; When the thickness of and first housing identical when the thickness of the thickness of first housing and second housing and the thickness of second housing include 5mm to 15mm; The thickness of measurement device comprises 5mm to 15mm, and wherein the thickness of measurement device is preferably 5mm.Can find out that from above-mentioned thickness data compared with prior art present embodiment has reduced the thickness of measurement device.Particularly when the thickness of measurement device in the present embodiment is 5mm, the thickness of measurement device is at least four times of measurement device thickness in the present embodiment in the prior art, thereby compared with prior art present embodiment greatly reduces the thickness of measurement device.

The measurement device that present embodiment provides comprise first housing, second housing and be arranged at first housing and second housing between and connect the fingerstall of first housing and second housing; First housing and second housing are arranged side by side, and fingerstall is used for when carrying out Oximetry, holding finger.Present embodiment has reduced the thickness of measurement device through with first housing with second housing is arranged side by side and fingerstall is arranged between first housing and second housing, has reduced the volume of measurement device, thereby measurement device is easy to carry.In practical application, can reduce the thickness of first housing and second housing as required, thereby draw extra-thin measurement device, measurement device is easy to carry more.The communication link wiring possesses retractility preferably, is difficult for pulling apart, thus but the variation of fingerstall in the conjunction measuring process.Be arranged between inner barrier film of fingerstall and the bonnet and form compartment, the communication link wiring is arranged in this compartment, thereby makes the communication link wiring can not influence measuring process.

The structural representation of a kind of measurement device that Fig. 9 provides for the embodiment of the invention two; As shown in Figure 9; The difference of present embodiment and the foregoing description one is: luminous tube 24 is arranged on the inwall of loam cake 134; Photosensitive tube 25 is arranged on the inwall of lower cover 135, and luminous tube 24 is oppositely arranged with photosensitive tube 25.Perhaps, luminous tube also can be arranged on the inwall of lower cover, and photosensitive tube also can be arranged on the inwall of loam cake, and this kind situation is no longer specifically drawn.

In the present embodiment, between first housing 11 and the luminous tube 24 the communication link wiring can be set, the communication link wiring that is provided with between first housing 11 and the luminous tube 24 can be used for making the power supply in first housing 11 to realize that with luminous tube 24 communication is connected; Between first housing 11 and the photosensitive tube 25 the communication link wiring can be set, the communication link wiring that is provided with between first housing 11 and the photosensitive tube 25 can be used for making the power supply in first housing 11 to realize that with photosensitive tube 25 communication is connected; Between second housing 12 and the luminous tube 24 the communication link wiring can be set, the communication link wiring that is provided with between second housing 12 and the luminous tube 24 can be used for making the data processing unit in second housing 12 to realize that with luminous tube 24 communication is connected; Between second housing 12 and the photosensitive tube 25 the communication link wiring can be set, the communication link wiring that is provided with between second housing 12 and the photosensitive tube 25 can be used for making the data processing unit in second housing 12 to realize that with photosensitive tube 25 communication is connected.Be the variation of fingerstall in the conjunction measuring process, above-mentioned each communication link wiring should possess retractility preferably, and for example: the communication link wiring can be adopted spiral scalable communication connecting line.

It is understandable that above embodiment only is the illustrative embodiments that adopts for principle of the present invention is described, yet the present invention is not limited thereto.For the one of ordinary skilled in the art, under the situation that does not break away from spirit of the present invention and essence, can make various modification and improvement, these modification also are regarded as protection scope of the present invention with improving.

Claims

1. measurement device; It is characterized in that; Comprise: first housing, second housing and be arranged at said first housing and said second housing between and connect the fingerstall of said first housing and said second housing; Said first housing and said second housing are arranged side by side, and said fingerstall is used for when carrying out Oximetry, holding finger.

2. measurement device according to claim 1 is characterized in that, said fingerstall is the cavity that a side is provided with opening; Said fingerstall comprises first side, second side, loam cake, lower cover and bonnet; Said first side, said second side, said loam cake, said lower cover and said bonnet surround said cavity; Said first side and said second side are oppositely arranged, and said loam cake and said lower cover are oppositely arranged, and said bonnet and said opening are oppositely arranged; Said first side is connected with said first housing, and said second side is connected with said second housing.

3. measurement device according to claim 2 is characterized in that, said measurement device also comprises: power supply, data processing unit, luminous tube and photosensitive tube;

4. measurement device according to claim 3 is characterized in that,

Said luminous tube is arranged on the inwall of said first side, and said photosensitive tube is arranged on the inwall of said second side; Perhaps

5. measurement device according to claim 3 is characterized in that, said power supply is arranged in said first housing, and said data processing unit is arranged in said second housing.

6. measurement device according to claim 1 is characterized in that said fingerstall possesses retractility, and said fingerstall comprises fold formula fingerstall or level and smooth formula fingerstall;

7. measurement device according to claim 2; It is characterized in that; Said measurement device also comprises: be arranged at said fingerstall inner and and the bonnet of said fingerstall between have the barrier film of setpoint distance, said barrier film is used for carrying out spacing to the finger that inserts in the said fingerstall.

8. measurement device according to claim 7 is characterized in that, forms compartment between said barrier film and the said bonnet, and said compartment is used to place the communication link wiring between said first housing and said second housing.

9. measurement device according to claim 7 is characterized in that, said measurement device also comprises: be arranged at the protection connecting line with preseting length in the said compartment, said protection connecting line is used to connect said first housing and said first housing.

10. according to the arbitrary described measurement device of claim 1 to 9; It is characterized in that; Said measurement device also comprises: the ecg signal acquiring module; Said ecg signal acquiring module is used to gather electrocardiosignal and exports said electrocardiosignal to said data processing unit, for said data processing unit said electrocardiosignal is handled the generation EGC parameter; Said ecg signal acquiring module comprises two contact electrodes, and a contact electrode is arranged at the side of said first housing, and another contact electrode is arranged at the side of said second housing.