CN214478164U

CN214478164U - Charging seat for main machine of electrocardiogram workstation

Info

Publication number: CN214478164U
Application number: CN202120382968.0U
Authority: CN
Inventors: 汤峥嵘; 郑文理
Original assignee: Zhixian Zhikang Shanghai Intelligent Technology Co ltd
Current assignee: Zhixian Zhikang Shanghai Intelligent Technology Co ltd
Priority date: 2021-02-20
Filing date: 2021-02-20
Publication date: 2021-10-22
Anticipated expiration: 2031-02-20

Abstract

The utility model discloses a charging seat for an ECG workstation host, which comprises a base, a positioning boss, a charging circuit board, a charging post and a plug, wherein the base comprises a cavity and a charging groove for accommodating the ECG workstation host; the positioning boss is matched with the positioning groove and arranged on the groove bottom of the charging groove; the charging circuit board is arranged in the cavity; the charging post is arranged in the cavity, the inner end of the charging post is connected with the charging circuit board, and the outer end of the charging post is exposed out of the upper surface of the positioning boss; the plug is connected with the charging circuit board so as to be communicated with an external power supply. The utility model provides an among the prior art because the mesa of charging seat and the contact of electrocardio workstation are inseparable for can there be contact failure between the charging post of charging seat and the charging electrode of electrocardio workstation, thereby influence the technical problem of charging effect.

Description

Charging seat for main machine of electrocardiogram workstation

Technical Field

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

Background

The electrocardio workstation is a wearable small health data monitoring device, a rechargeable battery is arranged in the electrocardio workstation, and an external charger can be used for charging and storing energy for the rechargeable battery.

The charging seat is generally adopted by the conventional charger, the charging seat comprises a table board for placing the electrocardio workstation, a charging post is arranged on the table board, and after the electrocardio workstation is placed on the table board, a charging electrode of the electrocardio workstation can be in contact conduction with the charging post, so that the charging current is led into an internal circuit of the electrocardio workstation through the charging post and the charging electrode, and a rechargeable battery of the electrocardio workstation is charged.

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:

in the prior art, because the table-board of the charging seat is not in close contact with the electrocardio workstation, poor contact can exist between the charging post of the charging seat and the charging electrode of the electrocardio workstation, and the charging effect is influenced.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a charging seat for an electrocardiogram workstation host, and solves the technical problem that in the prior art, because the contact between the table board of the charging seat and the electrocardiogram workstation is not tight, the charging post of the charging seat and the charging electrode of the electrocardiogram workstation have poor contact, and the charging effect is influenced.

In order to solve the above problem, an embodiment of the present application provides a charging seat for an electrocardiograph workstation host, be equipped with positioning groove on the electrocardiograph workstation, the one end of the charging electrode of electrocardiograph workstation expose in positioning groove, the charging seat includes:

the base comprises a cavity and a charging groove for accommodating the electrocardio workstation host;

the positioning boss is matched with the positioning groove and arranged on the groove bottom of the charging groove;

the charging circuit board is arranged in the cavity;

the charging post is arranged in the cavity, the inner end of the charging post is connected with the charging circuit board, and the outer end of the charging post is exposed out of the upper surface of the positioning boss;

and the plug is connected with the charging circuit board so as to be communicated with an external power supply.

Furthermore, the notch of the charging groove is larger than the groove bottom of the charging groove, and the groove wall of the charging groove is a smooth surface which inclines outwards from the groove bottom to the notch direction, so that the electrocardio workstation host slides in or slides out of the charging groove.

Further, the charging cradle further comprises:

and one end of the data transmission electrode is positioned on the upper surface of the positioning boss, and the other end of the data transmission electrode is connected with the charging circuit board.

Furthermore, the positioning boss is provided with through holes for the charging posts and the data transmission electrodes to penetrate through one another.

Furthermore, the plug pass through the wire with charging circuit board is connected, the cross sectional shape of wire be the rectangle, just four angles of rectangle are the fillet, 4 electric wires in the wire are located respectively on the four angles of wire.

Further, the charging cradle further comprises:

the fastening frame, the fastening frame sets up on the lateral surface of base, just the fastening frame with base buckle cooperation.

Further, the charging cradle further comprises:

the charging seat frame, the charging seat frame sets up on the lateral surface of fastening frame, just the charging seat frame with fastening frame buckle cooperation.

Furthermore, an inner clamping head extending towards the middle direction of the fastening frame is arranged on the inner side surface of the fastening frame, and an outer clamping head extending towards the outside of the fastening frame is arranged on the outer side surface of the fastening frame; the outer side surface of the base is provided with an outer bayonet matched with the inner chuck buckle, and the inner side surface of the charging seat outer frame is provided with an inner bayonet matched with the outer chuck buckle.

Further, the charging cradle further comprises:

the charging seat magnet is arranged in the base and matched with the magnetic body in the main machine of the electrocardio workstation.

Further, the cavity on the base is located below the charging groove, and a silica gel pad is arranged on the bottom surface of the base.

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 through set up with positioning groove matched with location boss on the electrocardio workstation host computer, and will the post that charges sets up on the location boss, work as when the electrocardio workstation host computer charges, the electrocardio workstation host computer compresses tightly on the location boss, can make post zonulae occludens charges on charging electrode in the positioning groove and the location boss has effectively solved among the prior art because the mesa of charging seat and the host computer contact of electrocardio workstation are inseparable for there can be contact failure between the charging electrode of the post of charging seat and the host computer of electrocardio workstation, thereby influence the technological effect of the effect of charging, realized the reliable beneficial effect of charging effect.

(2) The notch of the charging groove is larger than the groove bottom of the charging groove, so that the electrocardio workstation host can be conveniently placed in the charging process and taken out after the charging is finished.

(3) This application embodiment the charging seat data transmission electrode can with the host computer data transmission electrode contact that sets up on the electrocardio workstation host computer and switch on to carry out data transmission, compare in wireless transmission, speed is faster, and communication quality is better.

(4) This application embodiment be equipped with the confession on the location boss the post that charges with the through-hole that charging seat data transmission electrode runs through one by one, the through-hole have fixedly the post that charges with the effect of charging seat data transmission electrode.

(5) The cross sectional shape of wire described in the embodiment of this application is the rectangle, just four angles of rectangle are the fillet, root electric wire in the wire is located respectively on the four corners of wire.

(6) The fastening frame of this application embodiment have the reinforcement the effect of base, the charging seat frame beautify and consolidate with the reinforcement the effect of fastening frame.

(7) The embodiment of the application is provided with the charging seat magnet, the charging seat magnet attracts the host magnet through magnetic force in the charging groove, so that the electrocardio workstation host is prevented from shifting, and the positioning effect is achieved.

(8) The magnetism of the two matched surfaces of the charging seat magnet and the host magnet is opposite during charging, and the host magnet and the charging seat magnet attract each other due to the opposite magnetism only when the host is correctly placed in the charging seat during charging; when the host computer is put reversely, host computer magnet and charging seat magnet are mutual repulsion because of the magnetism is the same to remind the user that unable normal charging this moment avoids invalid charging, has "prevent slow-witted" function promptly.

(9) The bottom surface of base is equipped with the silica gel pad, the silica gel pad have better sense of holding, and prevent the charging seat slippage.

Drawings

Fig. 1 is an exploded view of a charging stand for a host of an electrocardiograph workstation according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a base of a charging seat for a host of an electrocardiograph workstation according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a fastening frame of a charging seat for a host of an electrocardiograph workstation according to an embodiment of the present application;

fig. 4 is an exploded view of the structure of the electrocardiograph workstation host.

Detailed Description

In order to solve the technical problems, the general idea of the embodiment of the application is as follows: this application embodiment through set up with positioning groove matched with location boss on the electrocardio workstation host computer, and will the post that charges sets up on the location boss, work as when the electrocardio workstation host computer charges, the electrocardio workstation host computer compresses tightly on the location boss, can make post zonulae occludens charges on charging electrode in the positioning groove and the location boss has effectively solved among the prior art because the mesa of charging seat and the host computer contact of electrocardio workstation are inseparable for there can be contact failure between the charging electrode of the post of charging seat and the host computer of electrocardio workstation, thereby influence the technological effect of the effect of charging, realized the reliable beneficial effect of charging effect.

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 charging stand for a mainframe of an electrocardiograph workstation according to an embodiment of the present application, and as shown in fig. 1, the charging stand 200 includes a base 210, a positioning boss 211, a charging circuit board 220, a charging post 230, and a plug 240.

Fig. 4 is an exploded view of the main body of the electrocardiograph workstation, and as shown in fig. 4, the main body 100 of the electrocardiograph workstation includes an upper cover 170 and a lower cover 110 which are fastened together to form a housing chamber, a diffusion film 180, and a main body outer frame 190. The lower bottom surface of the lower cover 110 has a positioning groove formed by inward recess, the accommodating cavity is provided with a host circuit board 120, a host magnet 150, a host data transmission electrode 160, a rechargeable battery 130 and a rechargeable electrode 140, the inner end of the rechargeable battery 130 is connected with the host circuit board 120, and the outer end is exposed out of the positioning groove and corresponds to the charging post 230 of the charging stand 200.

Fig. 2 is a schematic structural diagram of a base of a charging seat for a mainframe of an electrocardiograph workstation according to an embodiment of the present application, as shown in fig. 1 and 2, the base 210 includes a cavity and a charging slot 212 for accommodating the mainframe 100 of the electrocardiograph workstation, and a slot bottom of the charging slot 212 is a plane. The shape of the charging slot 212 is matched with the shape of the electrocardiograph workstation host 100 to limit the position of the electrocardiograph workstation host 100 in the charging slot, so as to play a role in preliminary positioning.

The positioning boss 211 is matched with a positioning groove on the bottom surface of the main body 100, and the positioning boss 211 is arranged on the bottom of the charging slot 212. The charging circuit board 220 is arranged in the cavity; the charging post 230 is disposed in the cavity, the inner end of the charging post 230 is connected to the charging circuit board 220, and the outer end of the charging post 230 is exposed on the upper surface of the positioning boss 211 and corresponds to the charging electrodes one to one. The charging Circuit board 220 is an FPC (Flexible Printed Circuit).

When the electrocardiograph workstation host 100 is charged, the electrocardiograph workstation host 100 is placed into the charging slot 212 of the charging stand 200, the pair of charging electrodes 140 on the electrocardiograph workstation host 100 are respectively contacted and conducted with the pair of charging posts 230 on the charging stand 200, and then the charging current led in by the plug 240 of the charging stand 200 is led into the host circuit board 120 inside the host 100 through the charging posts 230 and the charging electrodes 140, so as to charge the rechargeable battery 130.

Specifically, the positioning boss 211 is in snap fit with a positioning groove on the bottom surface of the electrocardiograph workstation host 100, and can play a positioning role during charging; in addition, the positioning boss 211 protrudes upward from the bottom of the charging slot 212, so that the charging post 230 on the positioning boss is protruded from the bottom of the charging slot 212, when the positioning groove is inserted on the positioning boss 211, the positioning boss 211 erects the electrocardiograph workstation main unit 100, the electrocardiograph workstation main unit 100 is pressed on the positioning boss 211, and the charging electrode 140 in the positioning groove can be tightly connected with the charging post 230 on the positioning boss 211.

The plug 240 is connected to the charging circuit board 220 for communicating with an external power source, and in this embodiment, the plug is a USB (Universal Serial Bus) interface, and after the USB interface is connected to the external power source, current is transmitted to the charging battery 130 in the electrocardiograph workstation host 100 through the USB interface, the charging circuit board 220, the charging post 230, and the charging electrode 140 on the electrocardiograph workstation host 100, so as to charge the electrocardiograph workstation host 100.

To sum up, this application embodiment through set up with positioning groove matched with location boss 211 on the electrocardio workstation host computer 100, and will charging post 230 sets up on the location boss 211, work as when electrocardio workstation host computer 100 charges, electrocardio workstation host computer 100 compresses tightly on the location boss 211, can make charging electrode 140 in the positioning groove and the charging post 230 zonulae occludens on the location boss 211 have effectively solved because the mesa of charging seat and the host computer contact of electrocardio workstation are inseparable among the prior art for can there be contact failure between the charging electrode of the charging post of charging seat and the host computer of electrocardio workstation, thereby influence the technological effect of charging effect, realized the reliable beneficial effect of charging effect.

In an embodiment of the present application, the notch of the charging slot 212 is larger than the slot bottom of the charging slot 212, that is, the projection of the notch of the charging slot 212 on the plane of the slot bottom exceeds the outer edge of the slot bottom, so as to facilitate the placement of the electrocardiograph workstation host 100 during charging and the removal of the electrocardiograph workstation host 100 after charging.

In an embodiment of the present application, the charging dock 200 further includes a charging dock data transmission electrode 250, one end of the charging dock data transmission electrode 250 is located on the upper surface of the positioning boss 211, and the other end is connected to the charging circuit board 220. The charging-stand data transmission electrode 250 can be in contact with and conducted with the host data transmission electrode 160 provided on the electrocardiograph workstation host 100, so that communication is performed, and compared with wireless transmission, the speed is higher and the communication quality is better.

In an embodiment of the present application, through holes are formed on the positioning bosses 211, through which the charging posts 230 and the charging-stand data transmission electrodes 250 pass one by one. The through-hole has a function of fixing the charging post 230 and the charging-stand data transmission electrode 250.

In an embodiment of the present application, the plug 240 is connected to the charging circuit board 220 through a conductive wire 241, the cross-sectional shape of the conductive wire 241 is rectangular, four corners of the rectangular are rounded corners, and 4 wires in the conductive wire 241 are respectively located at four corners of the conductive wire 241.

Specifically, in the prior art, the plug wire is a round wire, the cross section shape is circular, 4 wires are gathered in the plug wire, and the plug wire is not easy to recover after being bent, but the rectangular wire 241 is used in the embodiment of the application, the electric wires are arranged at four corners of the wire, and the original shape is easy to recover after being bent.

In an embodiment of the present application, the charging stand 200 further includes a fastening frame 260 and a charging stand outer frame 270, the fastening frame 260 is disposed on an outer side surface of the base 210, and the fastening frame 260 is in snap fit with the base 210; the charging base outer frame 270 is disposed on the outer side surface of the fastening frame 260, and the charging base outer frame 270 is in snap fit with the fastening frame 260.

Specifically, as shown in fig. 1 and 3, an inner chuck 261 extending toward the middle of the fastening frame 260 is disposed on the inner side surface of the fastening frame 260, and an outer chuck 262 extending toward the fastening frame is disposed on the outer side surface of the fastening frame 260; an outer bayonet 213 matched with the inner clamping head 261 in a buckling manner is arranged on the outer side surface of the base 210, and an inner bayonet matched with the outer clamping head 262 in a buckling manner is arranged on the inner side surface of the charging base outer frame 270. The fastening frame 260 and the base 210 are fixed by the snap-fit of the inner clamping head 261 and the outer bayonet 213, and the fastening frame 260 and the charging base outer frame 270 are fixed by the snap-fit of the outer clamping head 262 and the inner bayonet. The fastening frame 260 has a function of reinforcing the base 210, and the charging-stand outer frame 270 has a function of beautifying and reinforcing the fastening frame 260.

In an embodiment of the present application, the charging base 200 further includes a charging base magnet 280, the charging base magnet 280 is disposed in the base 210, and the charging base magnet 280 is matched with the host magnet 150 in the ecg workstation host 100. During charging, the charging seat magnet 280 attracts the host magnet 150 in the charging slot 212 by magnetic force, thereby preventing the displacement of the electrocardiograph workstation host 100 and playing a role in positioning.

Specifically, the charging seat 200 includes two charging seat magnets 280 corresponding to the host magnet 150 in the ecg workstation host 100, and the two charging seat magnets 280 are symmetrically disposed about the positioning boss 211, so as to have a better positioning effect.

In an embodiment of the present application, the cavity on the base 210 is located below the charging slot 212, and a silicone pad 290 is disposed on the bottom surface of the base 210, and the silicone pad 290 has a good holding feeling and prevents the charging stand 200 from slipping.

(1) this application embodiment through set up with positioning groove matched with location boss 211 on the electrocardio workstation host computer 100, and will the post 230 that charges sets up on the boss 211 of location, work as when electrocardio workstation host computer 100 charges, electrocardio workstation host computer 100 compresses tightly on the boss 211 of location, can make charging electrode 140 in the positioning groove and the post 230 zonulae occludens that charges on the boss 211 of location have effectively solved among the prior art because the mesa of charging seat and the host computer contact of electrocardio workstation are inseparable for can there be contact failure between the charging electrode of the post of charging seat and the host computer of electrocardio workstation, thereby influence the technological effect of charging effect, realized the reliable beneficial effect of charging effect.

(2) In the embodiment of the present application, the notch of the charging slot 212 is larger than the slot bottom of the charging slot 212, so that the electrocardiograph workstation host 100 can be conveniently placed in the charging process, and the electrocardiograph workstation host 100 can be conveniently taken out after the charging process is finished.

(3) In the embodiment of the present application, the charging seat data transmission electrode 250 can be in contact with and conducted with the host data transmission electrode 160 disposed on the electrocardiograph workstation host 100, so as to perform data transmission.

(4) The embodiment of the application is equipped with the confession on the location boss 211 the through-hole that the post 230 with charging seat data transmission electrode 250 runs through one by one, the through-hole have fixedly the post 230 with charging seat data transmission electrode 250's effect.

(5) The cross section of the conducting wire 241 in the embodiment of the present application is rectangular, four corners of the rectangle are rounded corners, and 4 electric wires in the conducting wire 241 are respectively located at the four corners of the conducting wire 241.

(6) The fastening frame 260 of the embodiment of the present application has an effect of reinforcing the base 210, and the charging-stand outer frame 270 has an effect of beautifying and reinforcing the fastening frame 260.

(7) In the embodiment of the present application, a charging seat magnet 280 is provided, and the charging seat magnet 280 attracts the host magnet 150 in the charging groove 212 by magnetic force, so as to prevent the displacement of the electrocardiograph workstation host 100, thereby playing a role in positioning.

(8) In the embodiment of the present application, the two surfaces of the charging seat magnet 280 and the host magnet 150 that are matched with each other during charging have opposite magnetism, and only when the host 100 is correctly placed in the charging seat 200 during charging, the host magnet 150 and the charging seat magnet 280 attract each other due to the opposite magnetism; when the host 100 is turned upside down, the host magnet 150 and the charging seat magnet 280 repel each other due to the same magnetism, thereby reminding the user that normal charging cannot be performed at this time, avoiding ineffective charging, and having a fool-proof function.

(9) The bottom surface of the base 210 is provided with a silica gel pad 290, the silica gel pad 290 has better holding feeling and prevents the charging seat 200 from slipping.

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

1. The utility model provides an electrocardio workstation charging seat for host computer, be equipped with positioning groove on the electrocardio workstation, the one end of the charging electrode of electrocardio workstation expose in positioning groove, its characterized in that, the charging seat includes:

the charging circuit board is arranged in the cavity;

2. The charging stand for a host machine of an electrocardiographic workstation according to claim 1, wherein the notch of said charging slot is larger than the bottom of said charging slot, and the wall of said charging slot is a smooth surface inclined outward from the bottom of said charging slot toward the notch.

3. The charging dock for a host machine of an electrocardiographic workstation according to claim 1, wherein the charging dock further comprises:

4. The charging stand for a mainframe of an electrocardiographic workstation according to claim 3, wherein said positioning bosses are provided with through holes for said charging posts and said data transmission electrodes to pass through one by one.

5. The charging stand for the mainframe of the electrocardiograph workstation according to claim 1, wherein the plug is connected to the charging circuit board through a wire, the cross section of the wire is rectangular, four corners of the rectangle are rounded corners, and 4 wires in the wire are respectively located at the four corners of the wire.

6. The charging stand for a mainframe of an electrocardiographic workstation according to claim 1, wherein said charging stand further comprises:

7. The charging stand for a mainframe of an electrocardiographic workstation as claimed in claim 6, wherein said charging stand further comprises:

8. The charging stand for a host machine of an electrocardiograph workstation according to claim 7, wherein an inner chuck extending toward the middle of the fastening frame is provided on the inner side surface of the fastening frame, and an outer chuck extending toward the outside of the fastening frame is provided on the outer side surface of the fastening frame; the outer side surface of the base is provided with an outer bayonet matched with the inner chuck buckle, and the inner side surface of the charging seat outer frame is provided with an inner bayonet matched with the outer chuck buckle.

9. The charging stand for a mainframe of an electrocardiographic workstation according to claim 1, wherein said charging stand further comprises:

10. The charging stand for the electrocardiograph workstation host according to claim 1, wherein the cavity on the base is located below the charging slot, and a silicone pad is disposed on a bottom surface of the base.