TWM404373U - Vital signs monitor and holder structure - Google Patents

Abstract

A vital signs monitor and a holder structure are provided. The vital signs monitor includes a first main body, a second main body, a transmission line, and a detachable holding apparatus. The first main body includes a first circuit and a first bonding structure. The second main body includes a second circuit a second bonding structure. The transmission line is electrically connected between the first circuit and the second circuit. The detachable holding apparatus detach disposed between the first main body and the second main body for combining the first bonding structure and the second bonding structure and holding an object to locate between the first circuit and a second circuit.

Description

In 1999, 7 pieces of 15曰 replacement page 5. New description: [New technology technology city] This creation is about a fixed structure, and especially related to a fixed structure suitable for physiological signal sensors. [Prior Art] Figs. 1 and 2 are conventional blood oxygen concentration meters. Please refer to Fig. 1 and Fig. 2' Oxymeter (Oximeter) 100 to measure the oxygen concentration of blood. The oximeter 100 includes a fixture similar to a Crocodile Clip. The fixture includes substrates 111, 112 and a spring Hinge 120. A light sensor (not shown) is disposed inside the substrate 111. A light source (not shown) is disposed inside the substrate 112. The substrates in, 112 include extensions 113, 114, respectively. Pressing the extensions 113, 114 controls the distance D1' between the substrates n i, 112 to secure the finger 13 之间 between the photo sensor and the light source. The disadvantages of several conventional oximeters are listed below for those skilled in the art. (a) In general, the spring pivot 12 will use a metal spring. Metallic bombs are easy to rust, easy to be elastic and fatigued. Once the metal spring is damaged, the user cannot repair it by himself. The oximeter (10) sensor and the illuminating source are easily damaged by the pollution. The user can periodically clean the light sensor and the light source. However, the spring pivot 120 has a flaw - a limit of the angle of ": lack of m", and the distance D1 is also limited. When the distance D1 is not large enough, a β will seriously hinder the user from cleaning the sensor and sending

Replacement page on July 15, 1999. (2) Gray Oxygen Concentration Meter 100 During the measurement of blood oxygen, ambient light is transmitted through the side opening 140 of the substrate 11 to affect the photo sensor. This will reduce the accuracy of the blood oxygen meter 10 〇. (4) Once one of the extensions 113, 114 is damaged, it is impossible to control, and the distance D1. The user cannot repair it by himself, and can only repair the oximeter 1〇〇. [New content] This creation provides a physiological signal sensor that allows the user to self-fix the structure. This creation provides a fixed structure that enhances ease of use. The present application proposes a physiological signal sensor comprising a first body, a second body, a transmission line and a detachable positioning device. The first body includes a circuit and a first bonding structure. The second body includes a second circuit and a second junction structure. The transmission line is electrically connected between the first circuit and the second circuit: the unloading domain is detachably mounted on the first body and the second body 2, the first-bonding structure and the second bonding structure are combined with each other and fixed to the first _ Electric Lai H: between the roads. In the presently-created embodiment, the first bonding structure and the second fiber structure are corresponding positioning structures and positioning grooves. m. , '·" Constructed as a hole: the combined structure and the second combination are covered in the outer:: unloading device used to tie or pack ivih-u4J73

In the embodiment of the present invention, the first body includes a first firmware disk = firmware to secure the ends of the detachable positioning device. The unloading and repositioning device can be used to tie the second body. In the presently-created embodiment, the detachable positioning device comprises a stone shift, a 'band, a belt or a devil's dip.

In an embodiment of the present invention, the physiological signal sensor further includes a pull-proof strap connected between the first body and the second body, wherein the pull-proof strap is shorter than the transmission line. Surface In one embodiment of the present invention, the detachable positioning device includes an embodiment in which the first body further includes a first extension and the second body further includes a second extension. The first body and the second body phase are at the fulcrum. The first extension portion and the second extension portion are located at the fulcrum. The detachable positioning device is of an elastic material and is disposed on the other side of the fulcrum.

In the presently-created embodiment, the physiological signal sensor further comprises at least a water device. The waterproof device may be disposed at a junction of the first body and a junction of the second body. From the perspective of the other, the present invention proposes a physiological signal sensor, namely: a first body second body and a detachable positioning device. The first body is The sensing circuit and the first-combined structure. The second body includes a second joint door. The unloading device is detachably assembled to the first body and the second body, so that the first joint structure and the second joint structure are combined with each other. Between the sensing circuit and the second body. From another perspective, the present author proposes a fixed structure that includes 6

Replacement page of July, 丨5, 第一5, the first housing, the second housing and the detachable positioning device. The first housing includes a first bonding structure. The first Hungarian music into a basket a brother - the social society chess body body of the valley set sensing circuit. The second housing includes a _ ~ ° detachable clamping device removably assembled to the first housing and the body: if the first bonding structure and the second bonding structure are mutually connected to each other Between the sensing circuit and the second body. In the above-mentioned 'paste paste structure: mutual combination and - side to side two:" between the - body. So - to improve the convenience of use. Hing Ben, the work: "The above" and the advantages and advantages It is more obvious and easy to understand. The following specific embodiments are described in detail below with reference to the following: [Embodiment] The blood oxygen concentration meter is difficult to disassemble, inconvenient to clean, unable to be washed, and the parts cannot be repaired after being damaged. In contrast, in the embodiment of the present invention, the detachable positioning device is used to replace the conventionally used rotating frame. Thus, the opening angle of the spring directional frame can be improved, and the physiological user should clean the physiological signal. The sensor is also convenient. When the detachable positioning device is damaged, the user can replace it by himself to eliminate the problem. The following will refer to the embodiment of the present invention, and the accompanying drawings illustrate an exemplary embodiment of the present creation, wherein The same reference numerals indicate the same or similar elements. Fig. 3 is a schematic view showing the use of a physiological signal sensor according to the first embodiment of the present invention. Fig. 4 is a physiological signal according to the first embodiment of the present invention. Figure 3 is a perspective view of the sensor. Figure 5 is a development view of the detachable positioning device according to the first embodiment of the present invention. ivhu4373 99. 7. 1 year, warehouse, Supplement No 99 July 15 曰 replacement page

:: Diagram. Figure 7 is an exploded view of a physiological sensor = sensor in accordance with a first embodiment of the present invention. Figure 8 is a perspective view (4) of the detachable positioning device in accordance with a first embodiment of the present invention. Referring to Fig. 3 to Fig. 3 in the present embodiment, the physiological signal sensor 1 is described with a penetrating blood oxygen concentration of 2', but the present invention is not limited thereto. The physiological signal sensor includes the body 2G, 3. The transmission line 71 and the detachable positioning device 4 are. The housing may include a housing (not shown), a circuit C1 (Fig. 5), and a combination of two bodies. The body 3G includes a housing (not shown), a circuit board and a bonding node 62. In the present embodiment, the bonding structure 61 is exemplified by the protrusion on the side wall 8 ,, and the bonding structure 62 is described by taking the groove portion on the side wall of the body 3 as an example, but the creation is not limited thereto. ... the transmission line 71 is electrically connected between the circuits C1 and C2,

3 materials and control signals...etc. The detachable positioning device 4() is detachably between the bodies 20 and 3, whereby the bonding structures 61, & are coupled to each other; ^ = the finger U0 is fixed between the circuits C1 and C2 'where the bonding structure & 62 It can prevent the horizontal displacement of the body 2〇, 3〇. The circuit α can be configured in the body. Circuit C2 can also be disposed within the housing. Circuit C2 can include a source of illumination, = to emit light of a different wavelength. Circuit C1 may include a photoreceptor, =, light that exits through circuit C2# and penetrates finger 13〇. The circuit α analyzes the oxygen concentration in the blood based on the sensed light. In this embodiment, the body 2 is further provided with two extensions Μ and a side wall 8 for two firmwares (Fast·) 90. Two firmwares 9〇 are respectively disposed on two sides of the body ^, respectively for fixing the two ends of the detachable positioning crack 4〇. 9〇 For example, SerewNail or Rivet, etc. 8 M404373 99. 7. 1 5^j£+ @ 0 Supplementary July 丨5曰 Replacement page 90 is not limited to the use of metal materials, but also Other materials, such as plastic materials with waterproof function. In another embodiment, the firmware may also be integrated into the housing, such as by using injection molding techniques to form a hook in the housing. Alternatively, the detachable positioning device 40 may be comprised of an elastomeric material, such as Silicone Rubber. The detachable positioning device 4 has two perforations 91. Two perforations 91 can be fastened to the two firmwares 9〇, respectively. It is worth mentioning that silicone rubber is environmentally friendly, non-polluting, non-toxic, helmet-like, soft, highly elastic, long-lasting, anti-fouling, easy to clean, etc. It is a medical grade material and is used in food and medicine. Ideal material. The detachable positioning device 40 employs silicone to facilitate medical device certification. In addition, silicone has a writable and wiping property, and the user can write a mark on Shishijiao: for medical professionals, the medical process can be reduced. In another embodiment, it can also be printed. The prompt message is on the detachable positioning device 40. In this embodiment, the body 30 further includes an extension 52. When the body 2〇, (ΖΓ = / ^ body 2〇 and 30 are in contact with the fulcrum CFulcrum) F1 (Figure 5). When the body 2〇, 3〇 phase extensions 51 and 52 are located on one side of the fulcrum F1. Removable positioning. When the mouth is set, the second side is placed on the other side of the fulcrum F1. When the detachable positioning device is 3 〇, the pulling force of the body 20, 30 combined with each other can be provided. On the other hand, the user can press the extensions 51, 52, (4) f distance _ (as shown in Fig. 4), and can control the opening by preventing the tension between the 20 and 30 by the pivot point. Once you have a 'finger', you can enter the body 2〇 and the % diagram from the opening. 9 M404373

July 1999 丨5曰 Replacement Page More specifically, the finger 13G can be placed between the circuits C1 and C2 so that the physiological signal senses H1. Carry out the system. When the person is attached to the extension portion and the rear portion 52, the body 130, such as 30, fixes the finger 130, thereby preventing the shaking of the finger 13 from affecting the detection.

It is easy to stain the physiological signal sensor 1〇 knot f ° (4) This user can determine the physiological signal sensor 10 such as Ding > In this embodiment, the detachable positioning device 4 is detachable from the body 3 (Fig. 5). In this way, the user can easily clean the inner surfaces of the bodies 20 and 30. #地,月

When the detachable positioning device 4 is unbundled from the body 3, the transmission line 71 connected between the bodies 20 and 30 is susceptible to being pulled and broken. In view of this, in the present embodiment, the pull-proof wires 72 are disposed between the main bodies 2A and 30, and the two pull-proof wires 72 are not elastic and are resistant to pulling, and the length thereof is shorter than the transmission line 7o, so that the transmission line 71 can be prevented from being pulled and broken. The detachable positioning device 40 of the present embodiment is composed of an elastic material. In general, elastic materials are consumables and have a certain life span. After the use, the elastic material will exhibit elastic fatigue. At this time, the user can disassemble the detachable recording device from the time 9G, and the positioning device 40 can be detached. In this way, the malfunction of the detachable positioning shock 牝 can be avoided, and the physiological signal sensor 1 needs to be repaired. In the present embodiment, the appearance of the physiological signal sensor 1 can be implemented by a material having a waterproof function. The body 2〇 or 3〇 is tightly joined at the joint or used with a waterproof device, such as waterproofing, anti-July, 丨5曰 replacement page, water rubber, etc. So - come to the rule = waterproof or even washable, help to extend the life is also the second to mention the 疋 although the above implementation of the financial signal has two senses and fixed structure description (four) _ a possible type, but the technical collar = It is known that Caizhicai knows that the design of the fixed structure of the physiological signal is not the same, so the application of this creation is not limited to this possible type. In other words, as long as the _ detachable fixing device is used as a physiological til sensor to fix the fixing of the measuring portion, it is in line with the spirit of the present creation. Several embodiments are exemplified below so that those having ordinary knowledge in the art can further understand the spirit of the creation and implement the creation. In the first embodiment, the physiological signal sensor is measured by taking a finger as an example, but the creation is not limited to this. In other embodiments, the physiological signal sensor can also be used to measure different Parts, such as earlobe, tongue, lips, palm, mouth, nasal cavity, etc. In Fig. 4 of the first embodiment, the detachable positioning device 40 is secured to the body 20 by the firmware 90 of the body 20, and the detachable positioning device 4 〇 ties the body 30 to provide a pulling force between the bodies 20 and 30. However, this creation is not limited to this. Those skilled in the art can change the fixing method adopted by the detachable positioning device 40 according to the needs thereof. For example, Figure 9 is a schematic illustration of a physiological signal sensor in accordance with a second embodiment of the present invention. Please incorporate Referring to Figures 4 and 9, the physiological signal sensor u is similar to the physiological signal sensor 1〇. The difference lies in the detachable positioning of the physiological signal sensor 11

Replacement page of July, 丨5, ^5 ^ Set 41 as a ring-shaped elastic material, directly ring the main body 2 = 匕 ’ ' The firmware 9 图 in Figure 4 can be omitted. A groove is provided at a corresponding position on the outer surface of the body 2〇, 30 of the other body, so that the detachable positioning device can be prevented. In the above embodiment, Although the detachable positioning device is based on Shi Xiwei, the creation is not limited to this. In other embodiments, the detachable positioning device can also be made of other elastic or non-elastic materials such as rubber, bandage or Velcro. The block diagram of Fig. 5 is only an alternative embodiment, and the present creation is not limited to those skilled in the art to change the characteristics of the physiological signal sensor according to the needs thereof. For example, Figure 10 is a schematic illustration of a physiological signal sensor in accordance with a third embodiment of the present invention. Referring to Figure 5 and Figure 1, the physiological sensors 12 and 10 are similar. The difference is that FIG. 1 取代 replaces the extensions 51 , 52 of FIG. 5 with the extensions 53 , 54 , and the fulcrum F1 of FIG. 1 is replaced by the fulcrum F2 , and FIG. 1 实施 is implemented by the positioning post 63 and the positioning hole 64 . The positioning structures 61 and 62 of FIG. 10 are replaced by a transmission line 73 and a pull-proof line 74, and a transmission line 71 and a pull-proof line 72 of 5. This can also achieve similar merits. In addition, in Fig. 10, the body 21 may include a sensing circuit C3 having a light source. The body 31 may include a sensing circuit c4 having a photoreceptor. This can also achieve similar effects. In Fig. 10, a strip-shaped detachable positioning device will be described as an example. In other embodiments, a strip-shaped detachable positioning device can also be used. For example, FIG. 11 is a physiological signal M404373 according to the fourth embodiment of the present invention.

Replacement page on July 15, 1999 ί ϊί Ϊ Schematic. In the present embodiment, the detachable clamping device 42 of the spectacles 13 can be in a ring-shaped, strip-like configuration. The detachable positioning device=the outer surface of the main body 21, 31 of the ring ring, in addition to providing the pulling force of the body, can also be used as the side wall of the body 2, thereby preventing the interference of the ambient light sensing circuit C3, C4 Operation.

Further, the detachable positioning device 42 also has a protective cover function similar to that of a mobile phone. The detachable positioning device 42 covers the outer surfaces of the bodies 21, 31, and has the ability of shockproof, P-square, etc. The detachable positioning device 42 is optionally provided with a cushioning material such as silicone, rubber or cloth.

In the first embodiment, the physiological signal sensor is exemplified by a penetrating blood oxygen concentration meter, but the present creation is not limited thereto. For example, Figure 12 is a schematic illustration of a physiological signal sensor in accordance with a fifth embodiment of the present invention. Referring to Fig. 12, in the present embodiment, the physiological signal sensor 14 is, for example, a reflective oximeter. The body 31 is provided with a sensing circuit C5, and the sensing circuit C5 includes a photoreceptor and a light source. Such a physiological signal sensor 14 can also be used to measure the oxygen concentration of the blood. In addition, the connecting wires and the pull wires can be omitted. The physiological signal sensor of the optical detection technology of the first embodiment is taken as an example for illustration. The spirit of the present invention can also be applied to other types of physiological signal sensors, such as the physiological characteristics of wireless signal measurement technology. Signal sensors such as RF detection technology. Another example is a physiological signal sensor for electrical signal detection technology. Physiological signal sensors are also not limited to measuring blood oxygen. For example, if different functions of the circuit are configured in the body, the physiological signal sensor can also be used to measure other physiological information, such as blood sugar, blood flow rate, sputum volume, blood sugar concentration, heart rate, body fat, etc. (may need 13 M404373 99. 7. Replacement page with other sensing devices) on July 15, 1999. In summary, the physiological signal sensor of the present invention employs a detachable positioning device to fix the object to be tested between the two bodies. This improves the ease of use of the health signal sensor. In addition, the embodiment of the present creation has the following advantages:

1. The two structures are respectively arranged with a joint structure to assist the two bodies to join, and also to prevent horizontal displacement of the two bodies. 2. Cover the outer surfaces of the two bodies with a strip-shaped detachable positioning device. In addition to providing a combined tensile force, it can also act as a side wall to reduce ambient light interference. In addition, it can also be used as a protective cover to provide protection. 3. Take Shi Xisheng's real shot to disassemble the grain pack, which can help the doctor to cure the lungs. 4. The implementation of detachable positioning devices with materials with identifiable characteristics can help to alert users and medical personnel. It can also reduce the possible loss of medical procedures. 5. Flexible detachable positioning device and extensions can be used to replace the traditional

6. Use the pull-tab to prevent the transfer line from being pulled. To extend its life 7. The physiological signal sensor can be waterproof, designed and improved. Taichuang's creation has been exposed as above in the examples, but it is not a limited-minded one: those who have the usual knowledge, can not make a difference in the protection, can make some more movements, so this creation [illustration The scope defined by the patent scope shall prevail. Figures 1 and 2 are conventional blood oxygen concentration meters. 14 M404373

Replacement Page, July 15, 1999 Figure 3 is a schematic illustration of the use of a physiological signal sensor in accordance with a first embodiment of the present invention. Figure 4 is a perspective structural view of a physiological signal sensor in accordance with a first embodiment of the present invention. Figure 5 is an expanded view of Figure 4.

Figure 6 is a disassembled schematic view of a detachable positioning device in accordance with a first embodiment of the present invention. Figure 7 is an exploded view of a physiological signal sensor in accordance with a first embodiment of the present invention. Figure 8 is a perspective view of a detachable positioning device in accordance with a first embodiment of the present invention. Figure 9 is a schematic illustration of a physiological signal sensor in accordance with a second embodiment of the present invention.

Figure 10 is a schematic illustration of a physiological signal sensor in accordance with a third embodiment of the present invention. Figure 11 is a schematic illustration of a physiological signal sensor in accordance with a fourth embodiment of the present invention. Figure 12 is a schematic illustration of a physiological signal sensor in accordance with a fifth embodiment of the present invention. [Description of main component symbols] 10 to 14: Physiological signal sensor 20, 21, 30, 31: body 40 to 42: detachable positioning device 51 to 54: extension 15 M404373 99. 7. Year 1曰 It 99 Replacement page 61, 62 of July 丨 5: Bonding structure 63: positioning post 64: positioning hole

71, 73: transmission line 72'74: protection wire 80: side wall 90: firmware 100: blood oxygen concentration meter 111, 112: substrate 113, 114: extension 120: magazine pivot 130: finger 140: side opening Cl, C2: Circuits C3 to C5: Sensing circuits D1, D2: Distance D3: Openings FI, F2: Pivot 16

Claims (1)

M404373 99. 7. Year 15 (Multiple Plus Supplementary July 1999 丨 5th Replacement Page 6, Patent Application Scope: A physiological signal sensor, including: The first body, including a first circuit and - first a second body' includes a second circuit and a second bonding structure; a transmission line is electrically connected between the first circuit and the second circuit; a detachable positioning device detachably assembled between the first body and the second body, so that the first-bonding structure_second joint structure is mutually σ σ and a side object is fixed to the first circuit Between this second circuit. 2. The physiological signal sensor of claim 2, wherein the first bonding structure and the second bonding structure are corresponding positioning structures and positioning grooves. • 3, as in the physiological signal sensor described in claim 1 of the patent scope, The first bonding structure and the second bonding structure are corresponding positioning blood stasis positioning holes. 4. The physiological signal sensor of claim 1, wherein the detachable positioning device is used to attach or wrap around the outer surfaces of the first body and the second body. 5. The physiological signal sensor of claim 1, wherein the solid body further comprises - a first firmware and a second firmware, respectively, for: $:= unloading both ends of the positioning device, A detachable positioning device for tying 6·the physiological signal sensor as described in claim 1 of the invention, 17 M404373 Replacement page on July 5th, 丨5th, the detachable position device includes Shi Xixi, rubber, belt, belt or devil. 7. The bio-observer according to the patent application, further comprising: a pull-proof strap connected to the first body and the middle, wherein the pull-proof strip is shorter than the transfer line. 8. The physiological signal sensor of claim 3, wherein the detachable positioning device comprises a identifiable surface. The physiological signal sensor according to claim 1, wherein the second body further comprises a first extension, and the second body further comprises an extension of the first body to the second body. The detachment and the second extension are located on one side of the fulcrum, and the detachable and reposition device is an elastic material and is disposed on the other side of the fulcrum. Lu Gengbao 2·* The physiological signal sensor described in claim 1 is an at least one waterproof device disposed at the junction of the first body or the joint of the first body. a physiological signal sensor, comprising: a first body comprising a sensing circuit and a first bonding structure; a first body comprising a second bonding structure; and a detachable positioning device detachably assembled Between the first body and the body, the first bonding structure and the second bonding structure are combined with each other and a side object is fixed between the sensing circuit and the second body. M404373 </ RTI> </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; Including a second bonding structure; a detachable positioning device detachably assembled between the first housing and the second housing, so that the first bonding structure and the second bonding structure are combined with each other and a side object is fixed to the sensation Between the measuring circuit and the second body. 19 M404373 99. 7· 1 5f Multi-years and months 曰 Supplementary July 15, 1999 Replacement Page 4, Designated representative map: (1) Designated representative figure of the case: Figure 4 (2) Simple description of the symbol of the representative figure : 10 : Physiological signal sensor 20, 30: body 40: detachable positioning device 51, 52: extension 80: side wall 90: firmware