CN221229313U - Monitoring instrument - Google Patents

Abstract

The utility model belongs to the technical field of medical equipment, and particularly relates to a monitor, which comprises a monitor component and a defibrillation component, wherein the monitor component comprises a monitor shell, a monitor PCB (printed Circuit Board), a display screen and a first data connection structure, the defibrillation component comprises a defibrillation shell, a defibrillation PCB and a second data connection structure, the monitor PCB is arranged in the monitor shell, the monitor PCB is electrically connected with the display screen, the first data connection structure is electrically connected with the monitor PCB, the defibrillation PCB is arranged in the defibrillation shell, the second data connection structure is electrically connected with the defibrillation PCB, the first connection structure is arranged on the monitor shell, the second connection structure is arranged on the defibrillation shell, the first connection structure is detachably connected with the second connection structure, and the first data connection structure and the second data connection structure are detachably connected and are in communication connection. The defibrillator assembly can be selectively assembled according to actual needs, so that the modularization and the light weight of the monitor are realized, the whole volume and the whole weight of the monitor are reduced, and the monitor is convenient to carry and carry.

Description

Monitoring instrument

Technical Field

The utility model belongs to the technical field of medical equipment, and particularly relates to a monitor.

Background

A monitor is a device or system that measures and controls a physiological parameter of a patient and can be compared to known settings to generate an alarm if an out of standard condition occurs.

The existing monitor comprises a shell, a control system, a monitoring group price and a defibrillation component, wherein an installation cavity is formed in the shell, the monitoring component and the defibrillation component are arranged in the installation cavity, the control system comprises a display screen and a PCB (printed circuit board), the monitoring component and the defibrillation component are connected with the PCB, the PCB is connected with the display screen, and data information of the monitoring component and the defibrillation component is displayed on the display screen.

The defibrillation component and the monitoring component of the monitor are integrally arranged in the shell, so that the monitor has the defects of redundant functions, large volume, large weight and inconvenience in carrying.

Disclosure of utility model

The technical problems to be solved by the utility model are as follows: aiming at the problems of large volume and inconvenient carrying of the existing monitor, the utility model provides a monitor.

In order to solve the technical problems, the embodiment of the utility model provides a monitor, which comprises a monitor component and a defibrillation component, wherein the monitor component comprises a monitor shell, a monitor PCB (printed circuit board), a display screen and a first data connection structure, the defibrillation component comprises a defibrillation shell, a defibrillation PCB and a second data connection structure, the monitor PCB is arranged in the monitor shell and is electrically connected with the display screen, the first data connection structure is electrically connected with the monitor PCB, the defibrillation PCB is arranged in the defibrillation shell, and the second data connection structure is electrically connected with the defibrillation PCB;

The monitoring shell is provided with a first connecting structure, the defibrillation shell is provided with a second connecting structure, the first connecting structure is detachably connected with the second connecting structure, and the first data connecting structure is detachably connected with the second data connecting structure and is in communication connection.

Optionally, the monitoring shell is rectangular, the first connection structure includes a chute, the chute extends along the length direction of the monitoring shell, the defibrillation shell is rectangular, the second connection structure includes a sliding rail, the sliding rail extends along the length direction of the defibrillation shell, and the sliding rail is assembled with the chute in a sliding manner.

Optionally, the sliding rail is an L-shaped plate and comprises a connecting plate part and a clamping plate part, the connecting plate part is connected with the defibrillation shell, and the clamping plate part is vertically connected with the connecting plate part;

The sliding groove comprises a sliding part and a clamping part, and the clamping plate part is matched with the clamping part in a clamping way.

Optionally, the cross section shape of spout is T shape, first connection structure still includes the draw-in groove, the draw-in groove sets up the spout is facing away from on the groove edge of joint board portion, second connection structure still includes the buckle, the buckle assembly is in on the defibrillation casing, the buckle is located the side of slide rail, the buckle can be in slide rail slip in the spout back card dress is in the draw-in groove.

Optionally, the top of the buckle has an arc surface, and the notch of the chute pushes the arc surface to move the buckle toward the inside of the defibrillation shell.

Optionally, the second connection structure further includes an elastic element, the elastic element is connected between the buckle and the defibrillation shell, and the elastic element drives the buckle to be clamped into the clamping groove.

Optionally, the second connection structure further includes a driving mechanism, and the driving mechanism drives the buckle to withdraw from the clamping groove.

Optionally, the buckle is equipped with the drive hole, be equipped with the mounting hole on the defibrillation casing, actuating mechanism includes the button, the button includes presses portion and drive portion, it is the rectangle to press the portion, it installs to press the portion in the mounting hole, drive portion with it links to each other to press the portion, the drive portion dorsad one side of buckle is equipped with inclined plane portion and plane portion, inclined plane portion with button portion links to each other, plane portion with inclined plane portion links to each other, inclined plane portion by plane portion to button portion slope, inclined plane portion with the orientation of drive hole the pore wall cooperation of inclined plane portion.

Optionally, two sliding grooves are formed, two sliding rails are formed, the first data connection structure is an electric contact, the electric contact is arranged between the two sliding grooves, the second data connection structure is a spring needle, the spring needle is arranged between the two sliding rails, and the spring needle is in pressure connection with the electric contact.

Optionally, the electrical contacts are provided in plurality, and the number of the spring pins is consistent with the number of the electrical contacts.

According to the monitor disclosed by the embodiment of the utility model, the monitoring component and the defibrillation component are arranged separately, the detachable connection of the monitoring component and the defibrillation component is realized through the first connecting structure and the second connecting interface, the communication connection of the monitoring component and the defibrillation component is realized through the first data connecting structure and the second data connecting structure, and further the defibrillation component can be selectively assembled according to actual needs, so that the modularization and the light weight of the monitor are realized, the whole volume and the whole weight of the monitor are reduced, and the monitor is convenient to carry and carry.

Drawings

Fig. 1 is a schematic structural diagram of a monitor according to an embodiment of the present utility model;

Fig. 2 is a schematic diagram of the defibrillation assembly of fig. 1;

fig. 3 is a schematic diagram of a partial structure of a defibrillation assembly;

fig. 4 is a schematic (partial) assembly of a defibrillation assembly and a monitoring assembly;

Fig. 5 is a schematic diagram of a portion of a defibrillation assembly;

fig. 6 is a schematic diagram of a part of the structure of the monitoring assembly.

Reference numerals in the specification are as follows: 1. a monitoring component; 2. a defibrillation assembly; 3. a first connection structure; 4. a second connection structure; 5. a defibrillation housing; 6. a slide rail; 7. a connection plate portion; 8. a clamping plate part; 9. a buckle; 10. a second data connection structure; 11. a spring needle; 12. a button; 13. a pressing part; 14. a driving section; 15. a planar portion; 16. a bevel portion; 17. a mounting hole; 18. a drive hole; 19. an elastic member; 20. a monitoring housing; 21. a first data connection structure; 22. an electrical contact; 23. a chute; 24. a sliding part; 25. a clamping part; 26. a clamping groove; 27. defibrillation PCB board; 28. monitoring a PCB; 29. and a display screen.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects solved by the utility model more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1 to 6, an embodiment of the present utility model provides a monitor, including a monitor component 1 and a defibrillation component 2, where the monitor component 1 includes a monitor housing 20, a monitor PCB 28, a display screen 29, and a first data connection structure 21, the defibrillation component 2 includes a defibrillation housing 5, a defibrillation PCB 27, and a second data connection structure 10, the monitor PCB 28 is installed in the monitor housing 20, the monitor PCB 28 is electrically connected with the display screen 29, the first data connection structure 21 is electrically connected with the monitor PCB 28, the defibrillation PCB 27 is installed in the defibrillation housing 5, and the second data connection structure 10 is electrically connected with the defibrillation PCB 27.

The monitoring shell 20 is provided with a first connecting structure 3, the defibrillation shell 5 is provided with a second connecting structure 4, the first connecting structure 3 is detachably connected with the second connecting structure 4, and the first data connecting structure 21 and the second data connecting structure 10 are detachably connected and in communication connection.

In one embodiment, the monitor housing 20 is rectangular, the first connecting structure 3 includes a sliding groove 23, the sliding groove 23 extends along the length direction of the monitor housing 20, the defibrillation housing 5 is rectangular, and the second connecting structure 4 includes a sliding rail, the sliding rail extends along the length direction of the defibrillation housing 5, and the sliding rail is slidably assembled with the sliding groove 23. The slide rail is in guiding fit with the slide groove 23, so that the defibrillation shell 5 can be guided to be installed on the monitoring shell 20.

In an embodiment, the sliding rail is an L-shaped plate, and comprises a connecting plate portion 7 and a clamping plate portion 8, the connecting plate portion 7 is connected with the defibrillation shell 5, the clamping plate portion 8 is vertically connected with the connecting plate portion 7, the sliding groove 23 comprises a sliding portion 24 and a clamping portion 25, and the clamping plate portion 8 is in clamping fit with the clamping portion 25.

In an embodiment, the cross-sectional shape of the sliding groove 23 is T-shaped, the first connecting structure 3 further includes a clamping groove 26, the clamping groove 26 is disposed on a groove edge of the sliding groove 23 opposite to the clamping plate portion 8, the second connecting structure 4 further includes a buckle 9, the buckle 9 is assembled on the defibrillation housing 5, the buckle 9 is located beside the sliding rail 6, and the buckle 9 can be clamped into the clamping groove 26 after the sliding rail 6 slides into the sliding groove 23. The matching of the buckle 9 and the clamping groove 26 is simple, and the manufacturing and the installation are convenient.

In one embodiment, the top of the clasp 9 has a curved surface that is pushed by the notch of the chute 23 to move the clasp 9 toward the inside of the defibrillation housing 5. By means of the cambered surface, the monitoring shell 20 can push the buckle 9 to move, so that the buckle 9 is retracted into the defibrillation shell 5, the monitoring shell 20 is avoided, and the sliding rail 6 is slidably assembled in the sliding groove 23.

In an embodiment, the second connection structure 4 further includes an elastic member 19, as shown in fig. 3, where the elastic member 19 is connected between the buckle 9 and the defibrillation housing 5, and the elastic member 19 drives the buckle 9 to be snapped into the clip groove 26. Specifically, by means of the physical characteristic that the elastic piece 19 can automatically recover deformation, the elastic piece 19 pushes the buckle 9 to move in the process of recovering self deformation, so that the buckle 9 extends out of the defibrillation shell 5 and is inserted into the clamping groove 26.

In an embodiment, the second connection structure 4 further includes a driving mechanism, and the driving mechanism drives the buckle 9 to withdraw from the clamping groove 26.

In one embodiment, the buckle 9 is provided with a driving hole 18, the defibrillation shell 5 is provided with a mounting hole 17, the driving mechanism comprises a button 12, the button 12 comprises a pressing part 13 and a driving part 14, the pressing part 13 is rectangular, the pressing part 13 is installed in the mounting hole 17, the driving part 14 is connected with the pressing part 13, one side of the driving part 14 facing away from the buckle 9 is provided with a bevel part 16 and a plane part 15, the bevel part 16 is connected with the button 12, the plane part 15 is connected with the bevel part 16, the bevel part 16 is inclined from the plane part 15 to the button 12, and the bevel part 16 is matched with the wall of the driving hole 18 facing towards the bevel part 16. Specifically, when the pressing portion 13 is manually pressed, the pressing portion 13 drives the driving portion 14 to move toward the inside of the defibrillation housing 5, and the inclined surface portion 16 of the moving portion presses down the buckle 9 while the driving portion 14 moves, so that the buckle 9 presses the rib of the defibrillation housing 5, and the buckle 9 is withdrawn from the clamping groove 26.

In one embodiment, two sliding grooves 23 are provided, two sliding rails are provided, the first data connection structure 21 is an electrical contact 22, the electrical contact 22 is disposed between the two sliding grooves 23, the second data connection structure 10 is a spring needle 11, the spring needle 11 is disposed between the two sliding rails, and the spring needle 11 is in pressure connection with the electrical contact 22. The electrical connection between the electrical contact 22 and the spring needle 11 is realized by virtue of contact between the electrical contact and the spring needle, and other butting structures are not needed to be arranged on the defibrillation shell 5 and the monitoring shell 20, so that the structure is simple and the connection is convenient.

In an embodiment, the electrical contacts 22 are provided in a plurality, and the number of pins 11 corresponds to the number of electrical contacts 22. The plurality of electrical contacts 22 and the spring pins 11 are arranged, so that the phenomenon that the whole data connection fails due to the damage of a certain spring pin 11 or the electrical contact 22 can be avoided, and the reliability of the data connection between the monitoring component 1 and the defibrillation component 2 is improved.

The monitor of the embodiment of the utility model has the following working principle:

When the defibrillation assembly 2 is needed, the button 12 is pressed, so that the buckle 9 is retracted into the defibrillation shell 5, then the sliding rail of the defibrillation shell 5 is slidably assembled in the sliding groove 23 of the monitoring shell 20, then the button 12 is released, the buckle 9 is inserted into the clamping groove 26 under the driving of the elastic piece 19, the connection between the monitoring shell 20 and the defibrillation shell 5 is realized, and in addition, after the sliding rail of the defibrillation shell 5 is slidably assembled in the sliding groove 23 of the monitoring shell 20, the elastic needle 11 on the defibrillation shell 5 is communicated with the electric contact 22 on the monitoring shell 20. When the defibrillation assembly 2 needs to be removed, the button 12 is pressed, the pressing part 13 drives the driving part 14 to move towards the inside of the defibrillation shell 5, and the inclined surface part 16 of the moving part presses down the buckle 9 when the driving part 14 moves, so that the buckle 9 presses the rib of the defibrillation shell 5, the buckle 9 is withdrawn from the clamping groove 26, and then the sliding rail is withdrawn from the sliding groove 23.

According to the monitor provided by the embodiment of the utility model, the monitor component 1 and the defibrillation component 2 are arranged separately, the detachable connection of the monitor component 1 and the defibrillation component 2 is realized through the first connecting structure 3 and the second connecting interface, the communication connection of the monitor component 1 and the defibrillation component 2 is realized through the first data connecting structure 21 and the second data connecting structure 10, and then the defibrillation component 2 can be selectively assembled according to actual needs, the modularization and the light weight of the monitor are realized, the whole volume and the whole weight of the monitor are reduced, and the monitor is convenient to carry and carry.

In other embodiments, the driving mechanism may also be an electric push rod, and the electric push rod drives the buckle 9 to move.

In other embodiments, the first data connection structure 21 may be a jack and the second data connection structure 10 may be a plug.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The monitor is characterized by comprising a monitor component (1) and a defibrillation component (2), wherein the monitor component (1) comprises a monitor shell (20), a monitor PCB (28), a display screen (29) and a first data connection structure (21), the defibrillation component (2) comprises a defibrillation shell (5), a defibrillation PCB (27) and a second data connection structure (10), the monitor PCB (28) is installed in the monitor shell (20), the monitor PCB (28) is electrically connected with the display screen (29), the first data connection structure (21) is electrically connected with the PCB (28), the defibrillation PCB (27) is installed in the defibrillation shell (5), and the second data connection structure (10) is electrically connected with the defibrillation PCB (27).

Be equipped with first connection structure (3) on guardianship casing (20), be equipped with second connection structure (4) on defibrillation casing (5), first connection structure (3) with second connection structure (4) detachably connect, first data connection structure (21) with second data connection structure (10) detachably connect and communication connection.

2. The monitor according to claim 1, wherein the monitor housing (20) is rectangular, the first connection structure (3) comprises a chute (23), the chute (23) extends along the length direction of the monitor housing (20), the defibrillation housing (5) is rectangular, the second connection structure (4) comprises a sliding rail, the sliding rail extends along the length direction of the defibrillation housing (5), and the sliding rail is slidably assembled with the chute (23).

3. The monitor according to claim 2, wherein the slide rail is an L-shaped plate comprising a connecting plate portion (7) and a clamping plate portion (8), the connecting plate portion (7) being connected to the defibrillation housing (5), the clamping plate portion (8) being vertically connected to the connecting plate portion (7);

The sliding groove (23) comprises a sliding part (24) and a clamping part (25), and the clamping plate part (8) is matched with the clamping part (25) in a clamping way.

4. A monitor according to claim 3, wherein the cross-sectional shape of the chute (23) is T-shaped, the first connection structure (3) further comprises a clamping groove (26), the clamping groove (26) is arranged on a groove edge of the chute (23) facing away from the clamping plate portion (8), the second connection structure (4) further comprises a buckle (9), the buckle (9) is assembled on the defibrillation housing (5), the buckle (9) is located beside the sliding rail (6), and the buckle (9) can be clamped into the clamping groove (26) after the sliding rail (6) slides into the chute (23).

5. The monitor according to claim 4, characterized in that the top of the clasp (9) has a cambered surface, the notch of the chute (23) pushing the cambered surface to move the clasp (9) towards the inside of the defibrillation housing (5).

6. The monitor according to claim 5, wherein the second connection structure (4) further comprises an elastic member (19), the elastic member (19) being connected between the clasp (9) and the defibrillation housing (5), the elastic member (19) driving the clasp (9) to snap into the slot (26).

7. The monitor according to claim 6, wherein the second connection structure (4) further comprises a driving mechanism driving the clasp (9) to withdraw from the clamping slot (26).

8. The monitor according to claim 7, wherein the buckle (9) is provided with a driving hole (18), the defibrillation shell (5) is provided with a mounting hole (17), the driving mechanism comprises a button (12), the button (12) comprises a pressing part (13) and a driving part (14), the pressing part (13) is rectangular, the pressing part (13) is installed in the mounting hole (17), the driving part (14) is connected with the pressing part (13), one side of the driving part (14) facing away from the buckle (9) is provided with a bevel part (16) and a plane part (15), the bevel part (16) is connected with the button (12), the plane part (15) is connected with the bevel part (16), the bevel part (16) is inclined from the plane part (15) to the button (12), and the bevel part (16) is matched with the hole wall of the driving hole (18) facing to the bevel part (16).

9. The monitor as claimed in claim 8, wherein two slide grooves (23) are provided, two slide rails are provided, the first data connection structure (21) is an electrical contact (22), the electrical contact (22) is disposed between the two slide grooves (23), the second data connection structure (10) is a spring needle (11), the spring needle (11) is disposed between the two slide rails, and the spring needle (11) is in pressure connection with the electrical contact (22).

10. The monitor as claimed in claim 9, wherein a plurality of electrical contacts (22) are provided, the number of pins (11) being identical to the number of electrical contacts (22).