CN212391597U

CN212391597U - Medical electronic equipment outage detection device

Info

Publication number: CN212391597U
Application number: CN202020749847.0U
Authority: CN
Inventors: 赵彦彦
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-09
Filing date: 2020-05-09
Publication date: 2021-01-22
Anticipated expiration: 2030-05-09

Abstract

The utility model discloses a medical electronic equipment outage detection device, including outage protective housing and the sealed lid of activity hinge on the outage protective housing, be equipped with power protection mechanism in the outage protective housing, outage protective housing rear end is equipped with heat dissipation mechanism. The beneficial effects of the utility model are that, can in time switch to stand-by power supply after the outage of external power supply system through the power-off protection mechanism that is located the outage protective housing, guarantee the normal operating of equipment, and power supply system resumes the back, can automatic switch to original state, heat dissipation mechanism can detect transformer element's temperature and control cooling fan's switch, reduces the consumption of electric quantity.

Description

Medical electronic equipment outage detection device

Technical Field

The utility model relates to an electronic engineering field specifically is a medical treatment electronic equipment outage detection device.

Background

The power-off protection function refers to that when a power supply system has an electric leakage or short-circuit fault, methods such as fault signal rapid sampling and identification, power-off instruction pulse formation, rapid power-off actuating mechanism and the like are adopted. The power supply of a power supply network is quickly cut off or the energy supply of a fault point is cut off through a power-off executing mechanism.

Among the prior art, for example, patent number is CN201921110626.2, and the patent name is a medical electronic equipment's outage detects and protection device, including the protection box, the last fixed surface of protection box is connected with the hinge, the upper surface of protection box passes through hinge fixedly connected with lid, the positive fixedly connected with picture peg of lid, the front of protection box is seted up flutedly, the lower fixed surface of protection box is connected with the pilot lamp. This medical electronic equipment's outage detects and protection device, be connected with medical electronic equipment through first power cord, the second power cord is connected with the accumulator case, when the equipment outage, the electro-magnet does not have magnetic force, load switch launches through the spring and is connected with the connector electricity, make the accumulator case, the connector, load switch and transformer form the return circuit, the electronic equipment fast recovery normal work of being convenient for, the connector circular telegram drives the pilot lamp and shines, reach the effect of check out test set outage, thereby reach the effect of being convenient for detect whether medical electronic equipment outage and protection.

The electronic detection equipment that present medical electronic equipment used can in time switch to stand-by power supply after detecting the outage on, guarantees the normal operating of equipment, however power supply system resumes the back, can not automatic switch to original state, and the radiating effect is poor, and the long-time operation of cooling fan needs a large amount of electric quantities of consumption, can not satisfy the demand in market.

SUMMERY OF THE UTILITY MODEL

To above defect, the utility model provides a medical electronic equipment outage detection device to solve medical electronic equipment outage and detect the problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a medical electronic equipment power failure detection device comprises a power failure protective shell and a sealing cover movably hinged to the power failure protective shell, wherein a power failure protection mechanism is arranged in the power failure protective shell, and a heat dissipation mechanism is arranged at the rear end of the power failure protective shell;

the power-off protection mechanism comprises a group of first power supply wires, a transformer, an output wire, a mounting plate, an electromagnet, a group of mounting sleeves, a sliding rod, an adsorption block, a group of first switch seats, a group of second switch seats, an energy storage battery, a group of second power supply wires and a connector, wherein the group of first power supply wires are inserted into one side in the power-off protection shell, the transformer is connected with the front end of the group of first power supply wires, the output wire is connected with the output end of the transformer, the mounting plate is mounted on the group of first power supply wires, the electromagnet is mounted at the rear end of the mounting plate, the group of mounting sleeves are mounted on two sides of the front end of the electromagnet, the sliding rod is inserted into the mounting sleeves in a sliding mode, the front end of the sliding rod extends out of the mounting sleeves, the adsorption block is mounted at the rear end of the sliding rod and is located in the, the group of second switch bases are arranged on one side of the first switch base, the energy storage battery is arranged at one end in the power-off protection shell, the group of second power supply wires are connected with the output end of the energy storage battery, and the connector is arranged at the front end of the group of second power supply wires;

the heat dissipation mechanism comprises an air inlet, an impurity filter screen, a heat dissipation fan, a temperature sensor, a set of relative heat dissipation plates and a plurality of bar-shaped heat dissipation holes, wherein the air inlet is formed in the rear end of the power-off protection shell, the impurity filter screen is installed at the air inlet, the heat dissipation fan is installed at the rear end of the power-off protection shell, the air outlet end of the heat dissipation fan corresponds to the position of the transformer, the temperature sensor is installed on one side of the transformer, the set of relative heat dissipation plates are installed on two sides of the power-off protection.

Further, the first power supply wire is connected with an external power supply system.

Furthermore, a set of relative springs is installed to electromagnet front end both sides, and the spring is located the installation sleeve, and the front end with adsorb the piece position and correspond.

Furthermore, the front end of the sliding rod is respectively provided with an insulating part and a conductive part.

Furthermore, the first switch seat and the second switch seat are respectively and electrically connected with a green indicator light and a red indicator light.

Furthermore, the electric quantity display that can the battery is installed to outage protective housing front end, and electric quantity display one side is opened there is the mouth that charges.

The utility model provides a medical electronic equipment outage detection device possesses following beneficial effect, can in time switch to stand-by power supply after the outage of external power supply system through the power protection mechanism that is located the outage protective housing on, guarantee the normal operating of equipment, and power supply system resumes the back, can automatic switch to original state, and heat dissipation mechanism can detect transformer element's temperature and control radiator fan's switch, reduces the consumption of electric quantity.

Drawings

Fig. 1 is a schematic view of a power failure detection device for medical electronic equipment.

Fig. 2 is a partially enlarged view of a portion a in fig. 1 according to the present invention.

Fig. 3 is the schematic diagram of the power-off protection mechanism switching to the standby power supply.

Fig. 4 is a side view of the power-off protection case of the present invention.

In the figure: 1. a power-off protective shell; 2. a sealing cover; 3. a first power supply wire; 4. a transformer; 5. an output wire; 6. mounting a plate; 7. an electromagnet; 8. installing a sleeve; 9. a slide bar; 10. an adsorption block; 11. a first switch base; 12. a second switch base; 13. an energy storage battery; 14. a second power supply wire; 15. a connector; 16. an air inlet; 17. an impurity filter screen; 18. a heat radiation fan; 19. a temperature sensor; 20. a heat dissipation plate; 21. strip-shaped heat dissipation holes; 22. a spring; 23. an insulating section; 24. a conductive portion; 25. a green indicator light; 26. a red indicator light; 27. an electric quantity display; 28. a charging port.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings, as shown in fig. 1-4: a medical electronic equipment power failure detection device comprises a power failure protective shell 1 and a sealing cover 2 movably hinged to the power failure protective shell 1, wherein a power failure protection mechanism is arranged in the power failure protective shell 1, and a heat dissipation mechanism is arranged at the rear end of the power failure protective shell 1; the power-off protection mechanism comprises a group of first power supply wires 3, a transformer 4, an output wire 5, a mounting plate 6, an electromagnet 7, a group of mounting sleeves 8, a sliding rod 9, an adsorption block 10, a group of first switch seats 11, a group of second switch seats 12, an energy storage battery 13, a group of second power supply wires 14 and a connector 15, wherein the group of first power supply wires 3 are inserted into one side of the power-off protection shell 1, the transformer 4 is connected with the front ends of the group of first power supply wires 3, the output wire 5 is connected with the output end of the transformer 4, the mounting plate 6 is mounted on the group of first power supply wires 3, the electromagnet 7 is mounted at the rear end of the mounting plate 6, the group of mounting sleeves 8 are mounted at two sides of the front end of the electromagnet 7, the sliding rod 9 is inserted into the mounting sleeve 8 in a sliding manner, the front end of the sliding rod extends out, the energy storage battery 13 is arranged at one end in the power-off protection shell 1, a group of second power supply wires 14 are connected with the output end of the energy storage battery 13, and the connector 15 is arranged at the front end of the group of second power supply wires 14; the heat dissipation mechanism comprises an air inlet 16, an impurity filter screen 17, a heat dissipation fan 18, a temperature sensor 19, a group of opposite heat dissipation plates 20 and a plurality of strip-shaped heat dissipation holes 21, wherein the air inlet 16 is formed in the rear end of the power failure protection shell 1, the impurity filter screen 17 is installed at the air inlet 16, the heat dissipation fan 18 is installed at the rear end in the power failure protection shell 1, the position of the transformer 4 at the air outlet end corresponds to that of the heat dissipation plate, the temperature sensor 19 is installed on one side of the transformer 4, the group of opposite heat dissipation plates 20 are installed on two sides of the power failure protection shell 1, and the; the first power supply wire 3 is connected with an external power supply system; a group of opposite springs 22 are arranged on two sides of the front end of the electromagnet 7, the springs 22 are positioned in the mounting sleeve 8, and the front end of the springs corresponds to the position of the adsorption block 10; the front end of the sliding rod 9 is respectively provided with an insulating part 23 and a conductive part 24; the first switch base 11 and the second switch base 12 are respectively electrically connected with a green indicator light 25 and a red indicator light 26; the front end of the power-off protection shell 1 is provided with an electric quantity display 27 capable of storing the battery 13, and one side of the electric quantity display 27 is provided with a charging port 28.

The working principle of the embodiment is as follows: the first power supply wire 3 is connected with an external power supply system, and the temperature sensor 19 and the cooling fan 18 are connected with the front end of the first power supply wire 3 through leads;

power-off protection: under normal working conditions, current passes through a mounting plate 6 on a first power supply wire 3, an electromagnet 7 at the rear end of the mounting plate 6 generates magnetic force, an adsorption block 10 at the rear end of a sliding rod 9 is adsorbed, a group of opposite springs 22 are mounted on two sides of the front end of the electromagnet 7, the springs 22 are positioned in a mounting sleeve 8, the front end of each adsorption block corresponds to the position of the adsorption block 10, the adsorption block 10 compresses the springs 22, an insulation part 23 and a conductive part 24 are respectively arranged at the front end of the sliding rod 9, the conductive part 24 is positioned on a first switch seat 11 at the moment, as shown in figure 1, the current is finally output through an output wire 5 through the first switch seat 11 and a transformer 4, a green indicator lamp 25 is lightened, after an external power supply system is powered off, the electromagnet 7 loses the magnetic force, the springs 22 are reset, the sliding rod 9 is pushed to move forwards through the adsorption block 10, and the conductive part 24, the energy storage battery 13, a group of second power supply wires 14, the connector 15, the second switch base 12, the transformer 4 and the output wire 5 form a loop to ensure the normal operation of the equipment, at the moment, the red indicator lamp 26 is turned on to remind a user, after the power supply system is recovered, the electromagnet 7 generates magnetic force to adsorb the adsorption block 10 at the rear end of the sliding rod 9, at the moment, the conductive part 24 is reset onto the first switch base 11 to be automatically switched to the original state, the standby power supply can be timely switched to after the external power supply system is powered off through the power-off protection mechanism in the power-off protection shell 1 to ensure the normal operation of the equipment, and after the power supply system is recovered, the standby power supply system can be automatically switched to the original state;

during heat dissipation: the temperature sensor 19 is installed on one side of the transformer 4 and is electrically connected with the heat dissipation fan 18, when the temperature sensor 19 detects that the temperature of the transformer 4 is too high, the heat dissipation fan 18 starts to work, external air is pumped into the power-off protection shell 1 through the air inlet 16, the impurity filter screen 17 is installed in the air inlet 16, the impurity filter screen 17 can filter impurities in the air, cooling down transformer 4, a set of relative heating panel 20 is installed in outage protective housing 1 both sides, a plurality of bar louvre 21 is evenly opened on heating panel 20, bar louvre 21 is used for discharging the heat in outage protective housing 1, electric quantity display 27 that can battery 13 is installed to outage protective housing 1 front end, electric quantity display 27 one side is opened has charging mouth 28, conveniently charge, heat dissipation mechanism can detect the temperature of transformer 4 component and control radiator fan 18's switch, reduce the consumption of electric quantity.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims

1. A medical electronic equipment power failure detection device comprises a power failure protective shell (1) and a sealing cover (2) movably hinged to the power failure protective shell (1), and is characterized in that a power failure protection mechanism is arranged in the power failure protective shell (1), and a heat dissipation mechanism is arranged at the rear end of the power failure protective shell (1);

the power failure protection mechanism comprises a group of first power supply wires (3), a transformer (4), output wires (5), a mounting plate (6), an electromagnet (7), a group of mounting sleeves (8), a sliding rod (9), an adsorption block (10), a group of first switch seats (11), a group of second switch seats (12), an energy storage battery (13), a group of second power supply wires (14) and a connector (15), wherein the group of first power supply wires (3) are inserted into one side in the power failure protective shell (1), the transformer (4) is connected with the front end of the group of first power supply wires (3), the output wires (5) are connected with the output end of the transformer (4), the mounting plate (6) is mounted on the group of first power supply wires (3), the electromagnet (7) is mounted at the upper rear end of the mounting plate (6), the group of mounting sleeves (8) is mounted on two sides of the front end of the electromagnet (7), the energy-saving power supply device is characterized in that the sliding rod (9) is inserted into the mounting sleeve (8) in a sliding mode, the front end of the sliding rod extends out of the mounting sleeve (8), the adsorption block (10) is installed at the rear end of the sliding rod (9) and located in the mounting sleeve (8), a group of first switch bases (11) are installed on the mounting plate (6) and correspond to the sliding rod (9), a group of second switch bases (12) are installed on one side of the first switch bases (11), the energy storage battery (13) is installed at one end in the power-off protection shell (1), a group of second power supply wires (14) are connected with the output end of the energy storage battery (13), and the connector (15) is installed at the front end of the group of second power supply wires (14);

heat dissipation mechanism includes air intake (16), impurity filter screen (17), radiator fan (18), temperature sensor (19), a set of relative heating panel (20) and a plurality of bar louvre (21), air intake (16) are opened at outage protective housing (1) rear end, impurity filter screen (17) are installed in air intake (16) department, radiator fan (18) are installed at outage protective housing (1) inner rear end, and the air-out end transformer (4) position is corresponding, temperature sensor (19) are installed in transformer (4) one side, and a set of relative heating panel (20) are installed in outage protective housing (1) both sides, and a plurality of bar louvre (21) are evenly opened on heating panel (20).

2. The medical electronic device power failure detection device according to claim 1, wherein the first power supply wire (3) is connected to an external power supply system.

3. The medical electronic equipment power failure detection device according to claim 1, wherein a set of opposite springs (22) are installed on two sides of the front end of the electromagnet (7), the springs (22) are located in the installation sleeve (8), and the front end of the spring corresponds to the position of the adsorption block (10).

4. The medical electronic device power failure detection device according to claim 1, wherein the front end of the sliding rod (9) is provided with an insulating part (23) and a conducting part (24), respectively.

5. The power failure detection device for medical electronic equipment according to claim 1, wherein the first switch base (11) and the second switch base (12) are electrically connected with a green indicator light (25) and a red indicator light (26), respectively.

6. The medical electronic equipment power failure detection device according to claim 1, wherein a power display (27) capable of storing a battery (13) is installed at the front end of the power failure protection shell (1), and a charging port (28) is formed at one side of the power display (27).