CN214478163U - Main machine connector of electrocardio workstation - Google Patents

Abstract

The utility model discloses a connector of a host machine of an electrocardio workstation, which comprises a base and a connector magnet, wherein the base is provided with an installation position for placing the host machine and an installation surface for fixing on an electrocardio coat; the connector magnet is arranged in the base and corresponds to the magnetic body in the main machine of the electrocardio workstation to adsorb and fix the main machine of the electrocardio workstation. The utility model discloses a set up the connector and come to the electrocardio workstation host computer is fixed on the electrocardio clothing, will earlier the connector with the electrocardio clothing is fixed to link to each other, the electrocardio workstation with the cooperation is fixed mutually in the magnetism that the connector passes through connector magnet and host computer magnet is inhaled, thereby makes the electrocardio workstation dismantles, fixed convenient, has solved the electrocardio workstation among the prior art and has inhaled the hasp through magnetism and adsorb on the clothes, has dismantled the number of times and has had more can lead to the electrocardio workstation to connect inefficacy or the not smooth technical problem of communication, has realized fixed firmly, is difficult for connecting inefficacy or the not smooth beneficial effect of communication.

Description

Main machine connector of electrocardio workstation

Technical Field

The utility model belongs to the medical equipment field especially relates to an electrocardio workstation host computer connector.

Background

Cardiovascular and cerebrovascular diseases are a serious threat to human beings, and the incidence rate is high particularly in the middle-aged and the elderly. In the heart disease treatment process, an effective diagnosis basis is difficult to capture by one-time electrocardiogram, so that the dynamic detection of the electrocardiogram is required to assist the diagnosis and treatment of doctors in most cases.

The electrocardio workstation is a small health data monitoring device which can be worn on the body, and an electrocardio measuring circuit and a rechargeable battery for supplying power are arranged in the electrocardio workstation. The electrocardio workstation is fixed on a purpose-made garment, the electrocardio workstation is worn on the body by wearing the garment, and the electrocardio measuring circuit can measure the electrocardio data of a user in real time, so that the electrocardio dynamic detection is carried out to assist the diagnosis and treatment of doctors.

The electrocardio workstation is directly adsorbed on the clothes through the magnetic adsorption hasp, when the energy of a rechargeable battery in the electrocardio workstation is insufficient, the electrocardio workstation needs to be detached from the clothes to be independently charged, but the detachment times are more, so that the electrocardio workstation is failed to be connected or unsmooth in communication.

However, in the process of implementing the technical solution in the embodiment of the present application, the inventors of the present application find that the above-mentioned technology has at least the following technical problems: the electrocardio workstation among the prior art adsorbs on the clothes through magnetism hasp, but dismantles the number of times and has had enough to lead to electrocardio workstation to connect inefficacy or communication not smooth.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an electrocardio workstation host computer connector, has solved the electrocardio workstation among the prior art and has adsorbed on the clothes through magnetism hasp, dismantles the number of times and has had more and can lead to electrocardio workstation to connect inefficacy or communicate unsmooth technical problem.

In order to solve the above problem, an embodiment of the present application provides an electrocardiograph workstation host connector, which is used to install the electrocardiograph workstation host on an electrocardiograph garment, and a magnetic body is arranged in the electrocardiograph workstation host, the connector includes:

the base is provided with an installation position for placing the host and an installation surface for fixing the electrocardio-coat;

and the connector magnet is arranged in the base and corresponds to the magnetic body in the main machine of the electrocardio workstation so as to adsorb and fix the main machine of the electrocardio workstation.

Further, the connector further comprises:

and the connector circuit board is used for being communicated with the conductive fabric on the electrocardio-coat, is arranged in the base and is connected with the mounting surface.

Further, the connector further comprises:

the connector data transmission electrode is arranged on the base, one end of the connector data transmission electrode is communicated with the connector circuit board, and the other end of the connector data transmission electrode is exposed out of the installation position and is connected with the host data transmission electrode on the electrocardio workstation host.

Further, the connector at least comprises two groups of connector data transmission electrodes, and each group of connector data transmission electrodes comprises two connector data transmission electrodes.

Furthermore, the installation position can accommodate the installation groove of the host machine, and the groove bottom of the installation groove is a plane.

Further, the notch of the mounting groove is larger than the groove bottom of the mounting groove.

Furthermore, a positioning block is arranged in the installation position, and a through hole for the connector data transmission electrode to penetrate through is formed in the positioning block.

Furthermore, the connector comprises two connector magnets, the two connector magnets are symmetrically arranged on two sides of the positioning block, and the connector magnets correspond to the magnetic bodies in the main machine of the electrocardio workstation one by one.

Furthermore, the connector magnet is in the shape of an oblate cylinder.

Furthermore, a mounting hole for inserting the bottom end of the connector data transmission electrode is formed in the middle of the connector circuit board, and the bottom end of the connector data transmission electrode is inserted into the mounting hole and is communicated with the connector circuit board; the two ends of the connector circuit board are round ends used for placing the connector magnets.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

(1) this application embodiment comes through setting up the connector will the electrocardio workstation host computer is fixed on the electrocardio clothing, will earlier the connector with the electrocardio clothing is fixed continuous, will again the electrocardio workstation is put into on the installation position in the base, the base has the effect of preliminary location, the electrocardio workstation with the connector further magnetism through connector magnet and host computer magnet is inhaled the cooperation and is fixed mutually, thereby makes the electrocardio workstation is in hookup location is accurate on the connector, and fixed firm, has solved the electrocardio workstation among the prior art and has inhaled the hasp through magnetism and adsorb on the clothes, dismantles the number of times and has had more and can lead to electrocardio workstation connection failure or the not smooth technical problem of communication, has realized fixed firm, is difficult for connecting inefficacy or the not smooth beneficial effect of communication.

(2) The connector data transmission electrode is connected with the host data transmission electrode, can transmit human health data signals to the electrocardio workstation host, and is faster and better in communication quality compared with wireless transmission.

(3) The connector of the embodiment of the application comprises two groups of connector data transmission electrodes, wherein each group of connector data transmission electrodes comprises a pair of connector data transmission electrodes. The two sets of connector data transmission electrodes can form two paths of data transmission paths to transmit more kinds of body health data, such as heart rate, heartbeat, body temperature or blood pressure and the like, so that the human health can be monitored more comprehensively.

(4) The notch of mounting groove is greater than the tank bottom of mounting groove, promptly the notch of mounting groove is in projection on the plane of tank bottom place surpasss the outward flange of tank bottom to be convenient for put into or take out the electrocardio workstation host computer.

(5) This application embodiment be equipped with on the tank bottom of mounting groove with positioning groove matched with locating piece on the electrocardio workstation host computer works as the installation of electrocardio workstation host computer is advanced during the mounting groove, the locating piece with the electrocardio workstation host computer on the positioning groove buckle cooperation, play location and fixed effect, thereby the guide the installation of electrocardio workstation host computer, and further will electrocardio workstation host computer detachably fixes on the connector.

(6) The locating piece is provided with a through hole for the top end of the connector data transmission electrode to penetrate through, the outer end of the connector data transmission electrode is exposed out of the through hole, the connector data transmission electrode can be in full contact with the host data transmission electrode, and data transmission is stable.

(7) The connector include two connector magnets, two the connector magnet symmetry sets up the both sides of locating piece, two the connector magnet symmetry sets up, can play better positioning action.

(8) The connector circuit board in the middle of seted up the confession the bottom male mounting hole of connector data transmission electrode, both ends are just in time being used for laying the circular end of connector magnet makes connector compact structure, whole small in size.

Drawings

FIG. 1 is an exploded view of a host connector of an ECG workstation according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a base of a host connector of an ECG workstation according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a connector circuit board of a host connector of an electrocardiograph workstation according to an embodiment of the present application.

Fig. 4 is a schematic structural diagram of a main machine of an electrocardiograph workstation.

Detailed Description

The embodiment of the application provides an electrocardio workstation host computer connector, has solved the electrocardio workstation among the prior art and has adsorbed on the clothes through magnetism hasp, dismantles the number of times and has had more and can lead to electrocardio workstation to connect inefficacy or communicate unsmooth technical problem.

In order to solve the technical problems, the general idea of the embodiment of the application is as follows: the main machine of the electrocardio workstation is fixed on an electrocardio coat by arranging the connector, the connector is fixedly connected with the electrocardio coat, the electrocardio workstation is placed on the installation position in the base, the base has the function of primary positioning, and the electrocardio workstation is fixed with the connector by further magnetic attraction matching of a connector magnet and a main machine magnet, so that the electrocardio workstation is accurate in connection position on the connector and is fixed and firm, the technical problem that the electrocardio workstation is adsorbed on the clothes by a magnetic attraction hasp in the prior art and fails in connection or unsmooth in communication due to multiple times of detachment is solved, and the beneficial effects of firmness in fixation and difficulty in failure in connection or unsmooth in communication are realized.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

Fig. 1 is an exploded view of a host connector of an ecg workstation according to an embodiment of the present invention, and as shown in fig. 1, the connector 300 includes a base 310 and a connector magnet 320.

It should be noted that the connector is used for mounting the electrocardiograph workstation host 100 on an electrocardiograph garment, fig. 4 is an exploded view of the structure of the electrocardiograph workstation host 100, as shown in fig. 4, the electrocardiograph workstation host 100 includes an upper cover 170 and a lower cover 110 which are fastened up and down to form a containing cavity, a diffusion film 180 and a host outer frame 190, a positioning groove which is formed by sinking inwards is formed on the lower bottom surface of the lower cover 110, a host circuit board 120, a host magnet 150, a host data transmission electrode 160, a rechargeable battery 130 and a rechargeable electrode 140 are arranged in the containing cavity, and the inner ends of the rechargeable battery 130 and the host data transmission electrode 160 are connected with the host circuit board 120, and the outer ends are exposed out of the positioning groove.

The base 310 is provided with an installation position 311 for placing the electrocardio workstation host 100 and an installation surface for fixing on the electrocardio coat; the connector magnet 320 is disposed in the base 310 and corresponds to the main body magnet 150 in the ecg workstation main body 100. Specifically, the connector magnet 320 and the host magnet 150 have opposite magnetism on the two surfaces matched after installation, so as to adsorb and fix the electrocardiograph workstation host 100. Specifically, the mounting surface of the base 310 is fixed on the electrocardiograph garment, and the electrocardiograph workstation host 100 is fixed on the mounting position 311 of the base 310 through the magnetic attraction matching between the connector magnet 320 and the host magnet 150.

In summary, in the embodiment of the present application, the connector 300 is disposed to fix the electrocardiograph workstation host 100 on the electrocardiograph garment, the connector 300 is first fixedly connected to the electrocardiograph garment (for example, by being adhered by glue), and then the electrocardiograph workstation 100 is placed on the installation position in the base 310, the base 310 has a function of preliminary positioning, the electrocardiograph workstation 100 and the connector 300 are further fixed by the magnetic attraction matching of the connector magnet 320 and the host magnet 150, so that the connection position of the electrocardiograph workstation 100 on the connector 300 is accurate, the fixing is firm, the technical problem that the electrocardio workstation in the prior art is adsorbed on clothes through the magnetic adsorption hasp, the connection failure or the unsmooth communication of the electrocardio workstation can be caused due to the fact that the number of times of detachment is large is solved, and the beneficial effects that the fixing is firm, and the connection failure or the unsmooth communication is not easy to occur are achieved.

In an embodiment of the present application, the connector 300 further includes a connector circuit board 330, the connector circuit board 330 is used for communicating with the conductive fabric on the electrocardiac suit, and the connector circuit board 330 is connected to the mounting surface of the base 310. The electrocardio-suit is characterized in that a conductive fabric is arranged on the electrocardio-suit, salient points for contacting with the skin of a human body are distributed on the conductive fabric, the mounting surface of the base 310 is fixed and tightly attached to the conductive fabric, and the connector circuit board 330 is in contact with the salient points on the conductive fabric and receives a human body health data signal detected by the conductive fabric. The connector Circuit board 330 is an FPC (Flexible Printed Circuit).

In an embodiment of the present application, the connector 300 further includes a connector data transmission electrode 340, the connector data transmission electrode 340 is disposed on the base 310, one end of the connector data transmission electrode 340 is communicated with the connector circuit board 330 to communicate with the conductive fabric on the electrocardiac suit, and the other end of the connector data transmission electrode 340 is exposed out of the mounting location 311 to communicate with the host data transmission electrode 160 on the electrocardiac workstation host 100.

Specifically, the connector data transmission electrode 340 is connected to the host data transmission electrode 160, and can transmit the human health data signal to the electrocardiograph workstation host 100, and compared with wireless transmission, the speed is faster and the communication quality is better.

In one embodiment of the present application, the connector 300 includes two sets of connector data transmission electrodes 340, each set of the connector data transmission electrodes including a pair of connector data transmission electrodes. The two sets of connector data transmission electrodes 340 may form two data transmission paths to transmit more kinds of health data, such as heart rate, heartbeat, body temperature or blood pressure, so as to monitor the health of the human body more comprehensively.

In an embodiment of the present application, the mounting position 311 is a mounting groove capable of accommodating the electrocardiograph workstation host 100, an inner groove bottom of the mounting groove is a plane, a notch of the mounting groove is larger than a groove bottom of the mounting groove, that is, a projection of the notch of the mounting groove on the plane of the groove bottom exceeds an outer edge of the groove bottom, so as to facilitate placing in or taking out the electrocardiograph workstation host 100; the mounting surface is an outer bottom surface of the mounting groove.

In an embodiment of the present application, as shown in fig. 1 and 2, a positioning block 312 is disposed on a bottom of the mounting groove, and is engaged with a positioning groove of the ecg workstation host 100, when the ecg workstation host 100 is mounted in the mounting groove, the positioning block 312 is engaged with the positioning groove of the ecg workstation host 100 in a snap-fit manner, so as to perform positioning and fixing functions, thereby guiding the ecg workstation host 100 to be mounted, and further detachably fixing the ecg workstation host 100 on the connector 300.

The positioning block 312 is provided with a through hole 313 through which the top end of the connector data transmission electrode 313 penetrates, and the outer end of the connector data transmission electrode 313 is exposed out of the through hole 313, so that the connector data transmission electrode 313 and the host data transmission electrode can be in full contact, and data transmission is stable.

In an embodiment of the present application, the connector 300 includes two connector magnets 320, two of the connector magnets 320 are symmetrically disposed on two sides of the positioning block 312, and two of the connector magnets 320 are symmetrically disposed, so as to achieve a better positioning effect.

In one embodiment of the present application, as shown in fig. 1, the connector magnet 320 is in the shape of an oblate cylinder.

In an embodiment of the present application, as shown in fig. 1 and 3, a mounting hole 331 for inserting a bottom end of the connector data transmission electrode 313 is formed in the middle of the connector circuit board 330, and the bottom end of the connector data transmission electrode 313 is inserted into the mounting hole 331 and is communicated with the connector circuit board 330; the connector circuit board 330 has two ends with circular ends for receiving the connector magnet 320, so that the connector 300 has a compact structure and a small overall size.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages:

(1) in the embodiment of the present application, the connector 300 is arranged to fix the main body 100 of the electrocardiograph workstation on the electrocardiograph garment, the connector 300 is first fixedly connected to the electrocardiograph garment (for example, by being bonded by glue), and then the electrocardiograph workstation 100 is placed on the installation position in the base 310, the base 310 has a function of preliminary positioning, the electrocardiograph workstation 100 and the connector 300 are further fixed by the magnetic attraction matching of the connector magnet 320 and the host magnet 150, so that the connection position of the electrocardiograph workstation 100 on the connector 300 is accurate, the fixing is firm, the technical problem that the electrocardio workstation in the prior art is adsorbed on clothes through the magnetic adsorption hasp, the connection failure or the unsmooth communication of the electrocardio workstation can be caused due to the fact that the number of times of detachment is large is solved, and the beneficial effects that the fixing is firm, and the connection failure or the unsmooth communication is not easy to occur are achieved.

(2) The connector data transmission electrode 340 is connected with the host data transmission electrode 160, so that the data signals of human health can be transmitted to the electrocardio workstation host 100.

(3) The connector 300 according to the embodiment of the present application includes two sets of connector data transmission electrodes 340, each set of connector data transmission electrodes includes a pair of connector data transmission electrodes. The two sets of connector data transmission electrodes 340 may form two data transmission paths to transmit more kinds of health data, such as heart rate, heartbeat, body temperature or blood pressure, so as to monitor the health of the human body more comprehensively.

(4) The notch of mounting groove is greater than the tank bottom of mounting groove, promptly the notch of mounting groove is in the projection on the plane of tank bottom place surpasss the outward flange of tank bottom to be convenient for put into or take out electrocardio workstation host computer 100.

(5) This application embodiment be equipped with on the tank bottom of mounting groove with positioning groove matched with locating piece 312 on the electrocardio workstation host computer 100, work as electrocardio workstation host computer 100 installs into during the mounting groove, locating piece 312 with electrocardio workstation host computer 100 on the positioning groove buckle cooperation, play location and fixed effect, thereby the guide electrocardio workstation host computer 100 installation, and further will electrocardio workstation host computer 100 detachably fixes on the connector 300.

(6) In the embodiment of the present application, the positioning block 312 is provided with a through hole 313 through which the top end of the connector data transmission electrode 313 penetrates, and the outer end of the connector data transmission electrode 313 is exposed out of the through hole 313, so that the connector data transmission electrode 313 and the host data transmission electrode can be in full contact, and data transmission is stable.

(7) The connector 300 of the embodiment of the present application includes two connector magnets 320, two the connector magnets 320 are symmetrically disposed on two sides of the positioning block 312, two the connector magnets 320 are symmetrically disposed, so as to achieve a better positioning effect.

(8) In the embodiment of the present application, the connector circuit board 330 has a mounting hole 331 formed in the middle thereof for inserting the bottom end of the connector data transmission electrode 313, and two ends of the mounting hole are round ends just used for placing the connector magnet 320, so that the connector 300 has a compact structure and a small and exquisite overall size.

It will be understood that, although the terms first, second, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another. For example, a first element may be termed a second element, and, similarly, a second element may be termed a first element, without departing from the scope of example embodiments.

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like referred to or may be referred to in this specification are defined relative to the configuration shown in the drawings, and are relative terms, and thus may be changed correspondingly according to the position and the use state of the device. Therefore, these and other directional terms should not be construed as limiting terms.

While the foregoing is directed to the preferred embodiment of the present application, and not to the limiting thereof in any way and any way, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Those skilled in the art can make various changes, modifications and equivalent arrangements to those skilled in the art without departing from the spirit and scope of the present application; moreover, any equivalent alterations, modifications and variations of the above-described embodiments according to the spirit and techniques of this application are intended to be within the scope of the claims of this application.

Claims (10)

1. The utility model provides an electrocardio workstation host computer connector for with the electrocardio workstation host computer is installed on the electrocardio clothing, just be equipped with the magnetic substance in the electrocardio workstation host computer, its characterized in that, the connector include:

the base is provided with an installation position for placing the host and an installation surface for fixing the electrocardio-coat;

and the connector magnet is arranged in the base and corresponds to the magnetic body in the main machine of the electrocardio workstation so as to adsorb and fix the main machine of the electrocardio workstation.

2. The ecg workstation host connector of claim 1, further comprising:

and the connector circuit board is used for being communicated with the conductive fabric on the electrocardio-coat, is arranged in the base and is connected with the mounting surface.

3. The ecg workstation host connector of claim 2, further comprising:

the connector data transmission electrode is arranged on the base, one end of the connector data transmission electrode is communicated with the connector circuit board, and the other end of the connector data transmission electrode is exposed out of the installation position and is connected with the host data transmission electrode on the electrocardio workstation host.

4. The ecg workstation host connector of claim 3, wherein the connector comprises at least two sets of connector data transmission electrodes, each set of connector data transmission electrodes comprising two connector data transmission electrodes.

5. The connector of claim 1, wherein the mounting location is a mounting slot for receiving the host, and the bottom of the mounting slot is a flat surface.

6. The connector of claim 5, wherein the slot opening of the mounting groove is larger than the slot bottom of the mounting groove.

7. The connector of claim 3, wherein a positioning block is disposed in the mounting position, and a through hole for passing through the connector data transmission electrode is disposed on the positioning block.

8. The connector of claim 7, wherein the connector comprises two connector magnets, the two connector magnets are symmetrically arranged on two sides of the positioning block, and the connector magnets correspond to the magnetic bodies in the ECG workstation host one by one.

9. The ecg workstation host connector of claim 8, wherein the connector magnet is in the shape of an oblate cylinder.

10. The connector of an electrocardiograph workstation host as claimed in claim 9, wherein a mounting hole for inserting the bottom end of the connector data transmission electrode is formed in the middle of the connector circuit board, and the bottom end of the connector data transmission electrode is inserted into the mounting hole and communicated with the connector circuit board; the two ends of the connector circuit board are round ends used for placing the connector magnets.

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