CN215017478U - Blood oxygen probe fixer - Google Patents

Abstract

The application discloses blood oxygen probe fixer includes: the fixing base, the inside of fixing base is provided with holds the chamber, it is provided with the opening to hold the chamber, it is used for holding the blood oxygen probe to hold the chamber, be equipped with fixed arm and elastic arm on the relative both sides wall of fixing base respectively, the fixed arm sets firmly on a lateral wall, the one end and another lateral wall fixed connection of elastic arm, the other end of elastic arm is established to the free end, one side of fixed arm is located to the elastic arm, and elastic arm and fixed arm locate in the coplanar, elastic arm and fixed arm are used for cliping the joint end of blood oxygen probe from both sides. This application blood oxygen probe fixer can make the fixed more firm of blood oxygen probe, and can realize the quick assembly disassembly of blood oxygen probe.

Description

Blood oxygen probe fixer

Technical Field

The application relates to the field of medical equipment, in particular to a blood oxygen probe fixer.

Background

The blood oxygen saturation is a very important item of data for diagnosis and monitoring of patients, and the prior art realizes the measurement of the blood oxygen saturation through a photoelectric sensor. In order to avoid cross-infection between patients and also to take into consideration the problem of manufacturing cost, the conventional blood oxygen saturation measuring device is divided into a detachable probe portion and a probe holder portion. The probe part has higher cost, is not in direct contact with the body of a patient and can be repeatedly used; the probe holder is relatively inexpensive to use for securing the probe to the patient's body, and the probe can be removed therefrom after the blood oxygenation test is completed and the probe holder discarded as medical waste. The conventional probe and the probe fixer are mutually connected in a threaded connection, bonding and clamping manner of a clamping groove, but the threaded connection is troublesome and time-consuming when the probe is disassembled and assembled; although the bonding and clamping can realize quick assembly and disassembly, the fixation is unstable, and the probe is easy to fall off from the probe fixator.

SUMMERY OF THE UTILITY MODEL

The present application is directed to solving at least one of the problems in the prior art. For this, this application provides a blood oxygen probe fixer, can make the fixed more firm of blood oxygen probe, and can realize the quick assembly disassembly of blood oxygen probe.

Blood oxygen probe holder according to an embodiment of the present application includes: a fixed base, the inside of fixing base is provided with holds the chamber, it is provided with the opening to hold the chamber, it is used for holding blood oxygen probe to hold the chamber, be equipped with fixed arm and elastic arm on the relative both sides wall of fixing base respectively, the fixed arm sets firmly in one on the lateral wall, the one end and another of elastic arm lateral wall fixed connection, the other end of elastic arm is established to the free end, the elastic arm is located one side of fixed arm, just the elastic arm with the fixed arm is located in the coplanar, the elastic arm with the fixed arm is used for cliping from both sides blood oxygen probe's joint end.

The blood oxygen probe fixing device according to the embodiment of the application has at least the following beneficial effects: set up on the fixing base and hold the chamber, hold the chamber and set up the opening on a lateral wall of fixing base, can make and hold the chamber and hold the main part of fixed blood oxygen probe. Set up elastic arm and fixed arm simultaneously on the lateral wall of fixing base, because the fixed arm is fixed motionless and the elastic arm has elasticity, utilize the fixed arm and set up the elastic arm in fixed arm one side can clip the joint end on the blood oxygen probe. Therefore, the blood oxygen probe can be quickly assembled and disassembled by breaking the elastic arm, and the blood oxygen probe can be firmly fixed in the fixing seat by utilizing the elasticity of the elastic arm.

According to some embodiments of the present application, the end of the fixed arm and/or the elastic arm away from the opening of the accommodating cavity is provided with an arc-shaped portion, and the shape of the arc-shaped portion matches with the shape of the clamping end of the blood oxygen probe.

According to some embodiments of the present application, the stationary arm and/or the elastic arm is provided with a stopper for restraining the blood oxygen probe within the receiving cavity.

According to some embodiments of the application, the other end of the resilient arm is provided with a lever.

According to some embodiments of the present application, an abutting protrusion is disposed on a side wall of the fixing arm and/or the elastic arm near the accommodating cavity, and the abutting protrusion is used for enabling the blood oxygen probe and the fixing seat to form an interference fit.

According to some embodiments of the application, the detection device further comprises a winding belt, the fixing seat is arranged on the winding belt, and the winding belt is used for fixing the fixing seat on the part to be detected.

According to some embodiments of this application, the winding area is including printing opacity area and printing opacity piece, the fixing base with the printing opacity piece is located respectively the both sides in printing opacity area, the fixing base or the part of printing opacity piece is provided with the link, the link is worn to locate the printing opacity area, the fixing base with the printing opacity piece passes through link interconnect.

According to some embodiments of the application, the printing opacity area is close to one side of printing opacity piece is equipped with the holding tank, the degree of depth of holding tank with the thickness of printing opacity piece is the same.

According to some embodiments of this application, the printing opacity area is kept away from a side of fixing base is provided with flexible substrate, the printing opacity film clamp is located the printing opacity area with between the flexible substrate, flexible substrate corresponds the position that holds the chamber is equipped with dodges the hole.

According to some embodiments of the application, a side of the flexible substrate away from the light-transmitting belt is provided with adhesive and release paper in sequence.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of an embodiment of an oximeter probe holder and oximeter probe assembly;

FIG. 2 is a schematic view of a blood oxygen probe holder according to an embodiment of the present application;

FIG. 3 is an exploded view of an oximetry probe holder according to an embodiment of the present application;

FIG. 4 is a schematic view of the holder of the oximetry probe holder shown in FIG. 1;

fig. 5 is a schematic view of another angle of the fixing base of the blood oxygen probe fixing apparatus shown in fig. 1.

Reference numerals:

thefixing base 100, theaccommodating cavity 110, theelastic arm 120, the arc-shaped portion 121, thestopping portion 122, theshift lever 123, theabutting protrusion 124, thefixing arm 130, the connectingend 140, the connecting end,

Awinding tape 200, a light-transmittingtape 210, a receivinggroove 211, a light-transmittingsheet 220, aflexible base 230, an avoidinghole 231,

Blood oxygen probe 300, card end 310.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it is to be understood that the positional descriptions, such as the directions of up, down, front, rear, left, right, etc., referred to herein are based on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the referred device or element must have a specific direction, be constructed and operated in a specific direction, and thus, should not be construed as limiting the present application.

In the description of the present application, the meaning of a plurality is one or more, the meaning of a plurality is two or more, and larger, smaller, larger, etc. are understood as excluding the present number, and larger, smaller, inner, etc. are understood as including the present number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present application, unless otherwise expressly limited, terms such as set, mounted, connected and the like should be construed broadly, and those skilled in the art can reasonably determine the specific meaning of the terms in the present application by combining the detailed contents of the technical solutions.

Referring to fig. 1, 2 and 3, a blood oxygenation probe holder according to an embodiment of the present application includes:fixing base 100, the inside offixing base 100 is provided withholds chamber 110, it is provided with the opening to holdchamber 110, it is used for holdingblood oxygen probe 300 to holdchamber 110, be equipped with fixedarm 130 andelastic arm 120 on the relative both sides wall offixing base 100 respectively, fixedarm 130 sets firmly in one on the lateral wall,elastic arm 120's one end and another lateral wall fixed connection,elastic arm 120's the other end is established to the free end,elastic arm 120 locates one side offixed arm 130, justelastic arm 120 with fixedarm 130 locates in the coplanar,elastic arm 120 withfixed arm 130 is used for cliping from both sidesblood oxygen probe 300's joint end 310.

The detection of the blood oxygen saturation, that is, the detection of hemoglobin, can directly use a human body as a transparent container of hemoglobin during the detection, and generally detects human fingers for the purpose of convenience. The detection adopts twoblood oxygen probes 300, oneblood oxygen probe 300 is a transmitting probe and can transmit red light and infrared light, the other probe is a receiving probe and can receive the red light and the infrared light, and the two infrared probes are respectively placed on two sides of a finger to be detected and are close to the finger. During detection, oneblood oxygen probe 300 emits red light and infrared light to illuminate the finger, and the otherblood oxygen probe 300 receives the red light and the infrared light from the other side of the finger.

Thefixing base 100 is provided with anaccommodating cavity 110 inside, and an opening is provided on one side wall, theblood oxygen probe 300 is placed into theaccommodating cavity 110 from the opening of the side wall, and theaccommodating cavity 110 is used for placing theblood oxygen probe 300. Thefixing base 100 is provided with afixing arm 130 and anelastic arm 120, thefixing arm 130 has certain rigidity, theelastic arm 120 has elasticity, and thefixing arm 130 and theelastic arm 120 are respectively arranged on two opposite side walls of thefixing base 100. Thefixing arm 130 is integrally and fixedly arranged on one side wall, one end of theelastic arm 120 is fixedly arranged on the other side wall, the other end of theelastic arm 120 is arranged to be a free end, theelastic arm 120 is arranged on one side edge of thefixing arm 130, and a gap is formed between theelastic arm 120 and thefixing arm 130.

The blood oxygen probe fixing device according to the embodiment of the application has at least the following beneficial effects: thefixing base 100 is provided with anaccommodating cavity 110, and theaccommodating cavity 110 is provided with an opening on one side wall of thefixing base 100, so that theaccommodating cavity 110 can accommodate and fix the main body part of theblood oxygen probe 300. Meanwhile, the side wall of thefixing base 100 is provided with theelastic arm 120 and thefixing arm 130, and since thefixing arm 130 is fixed and theelastic arm 120 has elasticity, thefixing arm 130 and theelastic arm 120 arranged on one side of thefixing arm 130 can clamp the clamping end 310 on theblood oxygen probe 300. Therefore, theblood oxygen probe 300 can be quickly disassembled and assembled by separating theelastic arm 120, and theblood oxygen probe 300 can be firmly fixed in thefixing base 100 by the elasticity of theelastic arm 120.

Referring to fig. 3, according to some embodiments of the present application, the end of thefixed arm 130 and/or theelastic arm 120 away from the opening of theaccommodating chamber 110 is provided with an arc-shaped portion 121, and the shape of the arc-shaped portion 121 matches with the shape of the snap-in end 310 of theblood oxygen probe 300. In order to make theblood oxygen probe 300 be easier to mount and dismount on thefixing base 100, the clip end 310 of theblood oxygen probe 300 is generally configured to be cylindrical, and the smooth side surface of the clip end 310 can be used to realize the guiding function, so that the mounting and dismounting of theblood oxygen probe 300 are more labor-saving. Therefore, the arc-shaped portion 121 is disposed at the end of thefixing arm 130 and/or theelastic arm 120 far away from the opening of theaccommodating cavity 110, when the arc-shaped portion 121 is disposed on thefixing arm 130 or theelastic arm 120 alone, or when the arc-shaped portions 121 are disposed on both thefixing arm 130 and theelastic arm 120, the arc-shaped portion 121 can be abutted against the clamping end 310 of theblood oxygen probe 300, so as to increase the contact area between thefixing arm 130 and/or theelastic arm 120 and the clamping end 310 of theblood oxygen probe 300, and thus theblood oxygen probe 300 can be fixed more firmly.

Referring to fig. 3, according to some embodiments of the present application, thefixing arm 130 and/or theelastic arm 120 is provided with astopper 122, and thestopper 122 is used for limiting theblood oxygen probe 300 in theaccommodating cavity 110. The protrudingstopping portion 122 is disposed on the side wall of the fixedarm 130 close to theelastic arm 120 and/or the protrudingstopping portion 122 is disposed on the side wall of theelastic arm 120 close to thefixed arm 130, so that the minimum gap between thefixed arm 130 and theelastic arm 120 can be reduced, and the clamping end 310 of theblood oxygen probe 300 can be limited between theelastic arm 120 and thefixed arm 130, so that theblood oxygen probe 300 cannot easily withdraw from or fall off from theaccommodating cavity 110 of thefixing base 100.

Referring to fig. 3, according to some embodiments of the present application, the other end of theelastic arm 120 is provided with alever 123. The advantage of providing theshift lever 123 at the other end, i.e. the free end, of theelastic arm 120 is that the length of theelastic arm 120 is increased, and theelastic arm 120 can be deformed by using a small force based on the lever principle, so as to increase the gap between theelastic arm 120 and thefixed arm 130, thereby facilitating the installation and detachment of theblood oxygen probe 300.

Referring to fig. 4, according to some embodiments of the present application, thefixed arm 130 and/or theelastic arm 120 are provided with anabutting protrusion 124 on a side wall near theaccommodating cavity 110, and the abuttingprotrusion 124 is used for forming an interference fit between theblood oxygen probe 300 and thefixing base 100. The advantage of providing theabutting protrusion 124 on the side wall of thefixing arm 130 and/or theelastic arm 120 close to theaccommodating cavity 110 is that the size of the space for accommodating theblood oxygen probe 300 in theaccommodating cavity 110 is smaller than the size of theblood oxygen probe 300, so that theblood oxygen probe 300 forms an interference fit with thefixing base 100, and theblood oxygen probe 300 can be more firmly fixed in thefixing base 100 and is not easy to fall off.

According to some embodiments of the present application, the kit further comprises awinding belt 200, thefixing base 100 is disposed on thewinding belt 200, and thewinding belt 200 is used for fixing thefixing base 100 to a part to be detected. The blood oxygen probe fixer comprises afixing seat 100 and awinding belt 200, wherein thefixing seat 100 is provided with twofixing seats 100, the twofixing seats 100 are arranged on the same surface of thewinding belt 200, and the twofixing seats 100 are arranged along the length direction of thewinding belt 200. Thefixing base 100 is used for fixing theblood oxygen probe 300, and thewinding belt 200 is used for binding the twoblood oxygen probes 300 to fingers or other parts to be detected of a human body, and the twofixing bases 100 are respectively positioned on two side surfaces of the parts to be detected, even if the receiving probe fixed on thefixing base 100 can receive red light and infrared light emitted by the emitting probe. The windingbelt 200 is used to fix the fixingbases 100 to a part of a patient to be detected, and to make the two fixingbases 100 respectively located at two opposite sides of the part of the patient to be detected, so that the receiving probe in onefixing base 100 can receive the red light and the infrared light emitted by the emitting probe in theother fixing base 100.

Referring to fig. 2 and 3, according to some embodiments of the present disclosure, the windingband 200 includes alight transmissive band 210 and alight transmissive sheet 220, the fixingbase 100 and thelight transmissive sheet 220 are respectively disposed at both sides of thelight transmissive band 210, theconnection end 140 is disposed at a portion of the fixingbase 100 or thelight transmissive sheet 220, theconnection end 140 is inserted into thelight transmissive band 210, and the fixingbase 100 and thelight transmissive sheet 220 are connected to each other through theconnection end 140. Theconnection end 140 is disposed at a local portion of the fixingbase 100 or the light-transmittingsheet 220, and theconnection end 140 penetrates the light-transmittingbelt 210, and then the fixingbase 100 and the light-transmittingsheet 220 are connected to each other through theconnection end 140, so that the red light or infrared light emitted from theblood oxygen probe 300 in the fixingbase 100 can penetrate the transparent light-transmittingsheet 220, and the fixingbase 100 is fixed on the light-transmittingbelt 210 by a relatively simple structure.

In this embodiment, a plurality of inserting posts may be disposed at the edge of the bottom of the fixingbase 100, and inserting holes matched with the inserting posts are disposed on the light-transmittingsheet 220, so that the inserting posts penetrate through the light-transmittingbelt 210, and the inserting posts are inserted into the inserting holes of the light-transmittingsheet 220, thereby fixing the fixingbase 100.

Referring to fig. 2, according to some embodiments of the present disclosure, a receivinggroove 211 is formed at a side of the light-transmittingtape 210 close to the light-transmittingsheet 220, and a depth of the receivinggroove 211 is the same as a thickness of the light-transmittingsheet 220. Set up holdingtank 211 onlight transmission belt 210 near one side oflight transmission piece 220 to make the degree of depth of holdingtank 211 the same with the thickness oflight transmission piece 220, its advantage can makelight transmission piece 220 place completely in holdingtank 211, when windingarea 200 twines to the waiting to detect position of patient, can not make the health produce the discomfort.

Referring to fig. 2, according to some embodiments of the present disclosure, aflexible substrate 230 is disposed on a side of the light-transmittingstrip 210 away from the fixingbase 100, the light-transmittingsheet 220 is sandwiched between the light-transmittingstrip 210 and theflexible substrate 230, and arelief hole 231 is disposed at a position of theflexible substrate 230 corresponding to theaccommodating cavity 110. The purpose of providing theflexible base material 230 on the side of the light-transmittingbelt 210 is to make the part to be detected of the patient have better body feeling by using the soft property of theflexible base material 230. Meanwhile, since theflexible substrate 230 is opaque, the avoidinghole 231 is formed in theflexible substrate 230, so that the light can smoothly penetrate through the to-be-detected part of the patient and the receiving probe can receive the light.

According to some embodiments of the present disclosure, an adhesive and a release paper are sequentially disposed on a side of theflexible substrate 230 away from the light-transmittingtape 210. The side of theflexible substrate 230 away from the light-transmittingbelt 210 is coated with adhesive, and a release paper is attached to the surface of the adhesive. The purpose of setting up the viscose is that can be with convenient fixing the blood oxygen probe fixer in the position that awaits measuring of disease of viscose. Set up the benefit from type paper on the surface of viscose and be, can make things convenient for the save of blood oxygen probe fixer, can avoid the viscose to be infected with the dust and lead to losing the adhesion effect, only need when needs use blood oxygen probe fixer with the type paper tear can.

Referring to fig. 1 to 4, an oximetry probe holder according to an embodiment of the present application will be described in detail in one specific embodiment. It is to be understood that the following description is only exemplary, and not a specific limitation of the application.

The blood oxygen probe fixer comprises a fixingseat 100 and a windingbelt 200, wherein the fixingseat 100 is used for accommodating and fixing theblood oxygen probe 300, the fixingseat 100 is fixedly arranged on the windingbelt 200, and the windingbelt 200 is used for fixing the fixer at a position to be detected of a patient. Theblood oxygen probe 300 is provided with a clamping end 310, the clamping end 310 is cylindrical, and the clamping end 310 can be matched with the fixingbase 100, so that theblood oxygen probe 300 is installed on the blood oxygen probe fixing device.

The two fixingbases 100 are disposed at one side of the windingbelt 200 and arranged along the length direction of the windingbelt 200. The inside of fixingbase 100 is provided with holdschamber 110, and the bottom of fixingbase 100 sets up to be transparent or is provided with the opening, also is provided with the opening on the lateral wall that holdschamber 110, andblood oxygen probe 300 is placed in the inside that holdschamber 110 from the opening, holdschamber 110 and is used for placingblood oxygen probe 300. The fixingarm 130 and theelastic arm 120 are respectively disposed on two opposite side walls of the fixingbase 100, the fixingarm 130 is integrally and fixedly disposed at the top end of one side wall, theelastic arm 120 is disposed at one side of the fixingarm 130, one end of theelastic arm 120 is fixedly disposed at the top end of the other side wall, and the other end of theelastic arm 120 is a free end. A gap is provided between theresilient arm 120 and thestationary arm 130, which is smaller than the diameter of the snap-in end 310 of theblood oxygen probe 300. Whenblood oxygen probe 300 is placed into receivingchamber 110 from the opening of receivingchamber 110, snap end 310 ofblood oxygen probe 300 can be simultaneously sandwiched betweenresilient arm 120 andstationary arm 130. One end of theelastic arm 120 and the fixedarm 130 away from the opening of theaccommodating cavity 110 is provided with an arc-shapedpart 121, the shape of the arc-shapedpart 121 can be matched with the shape of the clamping end 310 of theblood oxygen probe 300, so as to increase the contact area of theelastic arm 120 and the fixedarm 130 with the clamping end 310 of theblood oxygen probe 300, and when the clamping end 310 of theblood oxygen probe 300 is limited, the clamping end 310 is more firmly fixed. Theelastic arm 120 is further provided with a stoppingportion 122 at an end close to the opening of theaccommodating cavity 110, the stoppingportion 122 is located on a side wall of theelastic arm 120 close to the fixedarm 130 and protrudes out of the side wall of theelastic arm 120, and the stoppingportion 122 is used for limiting the clamping end 310 of theblood oxygen probe 300 between theelastic arm 120 and the fixedarm 130, so that the clamping end 310 cannot be withdrawn from between theelastic arm 120 and the fixedarm 130. The other end ofelastic arm 120 is provided with drivinglever 123, and drivinglever 123 has lengthened the length ofelastic arm 120, has adopted lever principle, makes medical personnel can makeelastic arm 120 warp with littleer power to change the clearance betweenelastic arm 120 and the fixedarm 130, make joint end 310 can get into the gap betweenelastic arm 120 and the fixedarm 130, perhaps withdraw from betweenelastic arm 120 and the fixedarm 130, finally can realize convenient the installing in fixingbase 100 of dismantling ofblood oxygen probe 300. The fixingarm 130 and theelastic arm 120 are provided with the abuttingprotrusions 124 on the side walls close to theaccommodating cavity 110, so that the size of the space for accommodating theblood oxygen probe 300 in theaccommodating cavity 110 is smaller than the size of theblood oxygen probe 300, and further theblood oxygen probe 300 forms an interference fit with the fixingbase 100, so that theblood oxygen probe 300 can be more firmly fixed in the fixingbase 100 and is not easy to fall off.

The windingbelt 200 comprises alight transmission belt 210 and alight transmission sheet 220, the two sides of thelight transmission belt 210 are respectively arranged on the fixingbase 100 and thelight transmission sheet 220, a plurality of inserting columns are arranged at the edge of the bottom of the fixingbase 100, inserting holes matched with the inserting columns are formed in thelight transmission sheet 220, the inserting columns penetrate through thelight transmission belt 210, the inserting columns are inserted into the inserting holes of thelight transmission sheet 220, and the fixingbase 100 can be fixed. One side thatlight transmission belt 210 is close tolight transmission piece 220 is equipped with holdingtank 211, and the degree of depth of holdingtank 211 is the same with the thickness oflight transmission piece 220, can makelight transmission piece 220 place completely in holdingtank 211, when windingarea 200 twines the position of waiting to detect of disease, can not chuck the health and produce the discomfort. One side of thelight transmission belt 210 away from the fixingbase 100 is provided with aflexible substrate 230, thelight transmission sheet 220 is clamped between thelight transmission belt 210 and theflexible substrate 230, and a avoidinghole 231 is formed in a position of theflexible substrate 230 corresponding to theaccommodating cavity 110. The purpose of providing theflexible base material 230 on the side of the light-transmittingbelt 210 is to make the part to be detected of the patient have better body feeling by using the soft property of theflexible base material 230. Meanwhile, since theflexible substrate 230 is opaque, the avoidinghole 231 is formed in theflexible substrate 230, so that the light can smoothly penetrate through the to-be-detected part of the patient and the receiving probe can receive the light. One side of theflexible substrate 230 away from the light-transmittingbelt 210 is provided with adhesive and release paper. The side of theflexible substrate 230 away from the light-transmittingbelt 210 is coated with adhesive, and a release paper is attached to the surface of the adhesive.

By so arranging, the blood oxygen probe holder according to the present application can achieve at least some of the following effects: the fixingbase 100 is provided with anaccommodating cavity 110, and theaccommodating cavity 110 is provided with an opening on one side wall of the fixingbase 100, so that theaccommodating cavity 110 can accommodate and fix the main body part of theblood oxygen probe 300. Meanwhile, the side wall of the fixingbase 100 is provided with theelastic arm 120 and the fixingarm 130, and since the fixingarm 130 is fixed and theelastic arm 120 has elasticity, the fixingarm 130 and theelastic arm 120 arranged on one side of the fixingarm 130 can clamp the clamping end 310 on theblood oxygen probe 300. Therefore, theblood oxygen probe 300 can be quickly disassembled and assembled by separating theelastic arm 120, and theblood oxygen probe 300 can be firmly fixed in the fixingbase 100 by the elasticity of theelastic arm 120.

The embodiments of the present application have been described in detail with reference to the drawings, but the present application is not limited to the embodiments, and various changes can be made without departing from the spirit of the present application within the knowledge of those skilled in the art.

Claims (10)

1. A blood oxygen probe holder, comprising:

a fixed base, the inside of fixing base is provided with holds the chamber, it is provided with the opening to hold the chamber, it is used for holding blood oxygen probe to hold the chamber, be equipped with fixed arm and elastic arm on the relative both sides wall of fixing base respectively, the fixed arm sets firmly in one on the lateral wall, the one end and another of elastic arm lateral wall fixed connection, the other end of elastic arm is established to the free end, the elastic arm is located one side of fixed arm, just the elastic arm with the fixed arm is located in the coplanar, the elastic arm with the fixed arm is used for cliping from both sides blood oxygen probe's joint end.

2. The blood oxygen probe holder as claimed in claim 1, wherein the end of the fixing arm and/or the elastic arm away from the opening of the accommodating cavity is provided with an arc-shaped portion, and the shape of the arc-shaped portion matches with the shape of the clamping end of the blood oxygen probe.

3. The oximetry probe holder according to claim 1, wherein the fixed arm and/or the resilient arm is provided with a stop for limiting the oximetry probe within the receiving cavity.

4. The oximetry probe holder according to claim 1, wherein a lever is provided at the other end of the resilient arm.

5. The blood oxygen probe holder according to claim 1, wherein an abutting protrusion is provided on a side wall of the fixing arm and/or the elastic arm near the accommodating cavity, and the abutting protrusion is used for forming an interference fit between the blood oxygen probe and the fixing seat.

6. The blood oxygen probe fixer as claimed in claim 1, further comprising a winding belt, wherein the fixing seat is disposed on the winding belt, and the winding belt is used for fixing the fixing seat on the part to be detected.

7. The blood oxygen probe fixer according to claim 6, wherein the winding belt comprises a light-transmitting belt and a light-transmitting sheet, the fixing base and the light-transmitting sheet are respectively arranged at two sides of the light-transmitting belt, a connecting end is arranged at a local part of the fixing base or the light-transmitting sheet, the connecting end is arranged through the light-transmitting belt, and the fixing base and the light-transmitting sheet are mutually connected through the connecting end.

8. The oximeter probe holder according to claim 7, wherein a receiving groove is formed on a side of the light-transmitting strip close to the light-transmitting sheet, and the depth of the receiving groove is the same as the thickness of the light-transmitting sheet.

9. The blood oxygen probe fixer according to claim 7, wherein a flexible substrate is disposed on a side surface of the light transmission belt away from the fixing seat, the light transmission sheet is clamped between the light transmission belt and the flexible substrate, and an avoiding hole is disposed in a position of the flexible substrate corresponding to the accommodating cavity.

10. The blood oxygen probe fixer according to claim 9, wherein a side of the flexible substrate away from the light-transmitting belt is provided with an adhesive and a release paper in sequence.

Images