CN217007986U - Safety control system and medical power supply tower crane thereof - Google Patents

Abstract

The utility model discloses a safety control system and a medical power supply tower crane thereof, wherein the safety control system comprises: a power module and a plurality of outlet modules; the socket module comprises a socket and a control submodule, and the power supply module is respectively connected with the control submodule in the plurality of socket modules; the control sub-module in the socket module is also correspondingly connected with the socket in the socket module; the control submodule is used for controlling the on-off of the socket. The control submodule controls the power supply of the corresponding socket independently, so that the power supply of the socket is cut off when the socket is abnormal, the condition that the power failure of the whole tower crane is caused by the problem of a certain socket is effectively avoided, and the safety and the reliability are improved.

Description

Safety control system and medical power supply tower crane thereof

Technical Field

The utility model relates to the technical field of medical instruments, in particular to a safety control system and a medical power supply tower crane thereof.

Background

In modern medical instruments, a medical power supply tower supplies power to the medical instruments needing power supply in an operating room; when a certain socket of the conventional medical power supply tower crane is abnormal, the whole tower crane is powered off, so that the whole operation room is powered off, and the safety and the reliability are not high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a safety control system and a medical power supply tower crane thereof, which are used for solving one or more technical problems in the prior art and at least providing a beneficial selection or creation condition.

The solution of the present invention to solve the technical problem is to provide a safety control system, including: a power module and a plurality of outlet modules;

the socket module comprises a socket and a control submodule, and the power supply module is respectively connected with the control submodule in the plurality of socket modules; the control sub-module in the socket module is also correspondingly connected with the socket in the socket module; the control submodule is used for controlling the on-off of the socket.

Further, the jack module further includes: one end of each current measurement sub-module is connected with the corresponding control sub-module, and the other end of each current measurement sub-module is connected with the corresponding socket; the current measuring submodule measures the current passing through the socket and sends the measured current value to the corresponding control submodule, and the control submodule determines whether the socket is abnormal or not according to the measured current value.

Further, the safety control system further includes: one end of the voltage measuring submodule is connected with the power supply module, and the other end of the voltage measuring submodule is respectively connected with the plurality of control submodules; the voltage measuring submodule measures voltages at two ends of a plurality of sockets and sends measured voltage values to each control submodule, and the control submodule determines whether the sockets are abnormal or not according to the measured voltage values.

Further, the safety control system further includes: the main control module is respectively connected with the plurality of control sub-modules; and the control submodules send judgment signals of whether the corresponding sockets are abnormal to the main control module.

Further, the jack module further includes: and the prompting submodule is connected with the control submodule.

Furthermore, the safety control system of the safety control system further comprises a communication module, and the communication module is in communication connection with the main control module and the intelligent terminal respectively.

Furthermore, the safety control system of the safety control system also comprises a display module, and the display module is connected with the main control module.

The utility model also provides a medical power supply tower crane, which comprises: tower crane body and foretell safety control system, the tower crane body includes: the tower comprises a tower head, a cantilever, a vertical column and a tower body; the tower head comprises: the disc is connected with one end of the cantilever through the rotating shaft; the other end of the cantilever is connected with one end of the upright post; the other end of stand with the tower body is connected, safety control system set up in the tower body.

Further, the socket, the suggestion submodule piece main control module and display module set up in the surface of tower body, power module the control submodule piece communication module the current measurement submodule piece and the voltage measurement submodule piece set up jointly in the inside of tower body.

The utility model has the beneficial effects that: the socket is connected with the control submodule, and the control submodule is used for controlling the power supply of the socket and realizing independent control of power supply; when the socket works normally, the power module supplies power to the corresponding socket through the control submodule; when the control submodule detects the abnormality of the corresponding socket, the control submodule connected with the power supply module disconnects the connection between the power supply module and the corresponding socket and cuts off the power supply of the socket; the control submodule controls the power supply of the corresponding socket independently, so that when the socket is abnormal, the power supply of the socket is cut off, other sockets work normally, the condition that the power of the whole tower crane is cut off due to the problem of a certain socket is effectively avoided, and the safety and the reliability are improved.

Drawings

FIG. 1 is a block diagram of one embodiment of a safety control system of the present invention;

FIG. 2 is a block diagram of another embodiment of a safety control system of the present invention;

FIG. 3 is a block diagram of another embodiment of a safety control system of the present invention;

FIG. 4 is a block diagram of another embodiment of a safety control system of the present invention;

fig. 5 is a schematic structural diagram of another embodiment of the medical power supply tower of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the application and are not to be construed as limiting the utility model.

It should be noted that although the functional modules are divided in the schematic diagram, in some cases, the functional modules may be divided differently from the modules in the system.

In the description of the present invention, unless otherwise explicitly defined, terms such as arrangement, installation, connection and the like should be broadly construed, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the detailed contents of the technical solutions. If the description of "first", "second", etc. is used for the purpose of distinguishing technical features, it is not intended to indicate or imply relative importance or to implicitly indicate the number of indicated technical features or to implicitly indicate the precedence of the indicated technical features.

Referring to fig. 1, in some embodiments of the utility model, a safety control system 10 includes:

the safety control system 10 includes: a power module 12 and a number of outlet modules 13;

the socket module 13 comprises a socket 133 and a control submodule 131; the power module 12 is respectively connected with the control sub-modules 131 in the plurality of socket modules 13; the control submodule 131 in the socket module 13 is also correspondingly connected with the socket 133 in the socket module 13;

the sockets 133 are connected with the control sub-modules 131 in a one-to-one correspondence manner; the control submodule 131 is used for controlling the on-off of the socket 133; the socket 133 is used for connecting an external electrical appliance to supply power to the connected external electrical appliance; it should be noted that the socket 133 is connected to the control submodule 131, and the control submodule 131 is used for controlling the power supply of the socket 133 to realize the independent control of the power supply;

when the socket 133 works normally, the power module 12 supplies power to the socket 133 through the control submodule 131;

when the control submodule 131 detects that the corresponding socket 133 is abnormal, the control submodule 131 connected with the power module 12 disconnects the power module 12 from the socket 133, and cuts off the power supply of the socket; avoid because a socket transships or short circuit, lead to other sockets outage to medical power supply tower crane can't use, can lead to whole inter-operative outage even.

The control submodule 131 independently controls the power supply of the corresponding socket 133, so that when the corresponding socket is abnormal, the power supply of the socket is cut off, other sockets work normally, the condition that the whole tower crane is powered off due to the problem of a certain socket is effectively avoided, and the safety and the reliability are improved; for example: in a medical power supply tower crane, the safety control system 10 comprises a first socket module, a second socket module and a third socket module, wherein when an abnormal socket 133 in the first socket module occurs, the corresponding control submodule 131 cuts off the power supply of the socket 133 so as to stop the work of the first socket module; the second socket module and the third socket module work normally;

note that the socket abnormality includes any one of: overload of the socket and short circuit of the socket.

Referring to fig. 2, in one embodiment, the receptacle module 13 further includes: one end of the current measuring submodule 132 is connected with the corresponding control submodule 131, the other end of the current measuring submodule 132 is connected with the corresponding socket 133, and the control submodule 131 is connected with the socket 133 through the current measuring submodule 132; the current measuring sub-module 132 measures the current passing through the sockets 133, and sends the measured current value to the corresponding control sub-module 131, and the control sub-module 131 determines whether the sockets 133 are abnormal according to the measured current value;

it should be noted that the control submodule 131, the current measurement submodule 132 and the socket 133 correspond to each other one to one; whether the current passing through the socket 133 exceeds a set current threshold is detected to determine whether an abnormality occurs in the socket 133.

Referring to fig. 1, in one embodiment, the safety control system 10 further includes: one end of the voltage measurement module 16 is connected with the power supply module 12, and the other end of the voltage measurement module 16 is respectively connected with the plurality of control sub-modules 131; the power module 12 is respectively connected with the plurality of control submodules 131 through the voltage measuring module 16; the voltage measuring module 16 measures the total voltage supplied to the plurality of outlet modules 13, and sends the measured voltage value to each control submodule 131, and the control submodule 131 determines whether the outlet 133 is abnormal according to the measured voltage value;

it should be noted that the voltage measurement module 16 detects whether the voltage output by the power module 12 exceeds a set voltage threshold to determine whether the circuit is abnormal; the voltage measurement module 16 measures the total power supply voltage, and sends the measured voltage value to each control submodule 131, and each control submodule 131 performs determination to perform determination of the total power supply voltage for a plurality of times, thereby ensuring reliability.

Referring to fig. 1, in one embodiment, the safety control system 10 further includes: the main control module 11, the main control module 11 is connected with a plurality of control submodules 131; the plurality of control sub-modules 131 send a determination signal indicating whether the corresponding socket 133 is abnormal to the main control module 11, and the main control module 11 integrates the determination signals sent by the plurality of control sub-modules 131.

Referring to fig. 3, in one embodiment, the receptacle module 13 further includes: the prompt submodule 134, the prompt submodule 134 is connected with the control submodule 131; if the control sub-module 131 determines that the socket 133 is abnormal, the control sub-module 131 sends a signal to the prompt sub-module 134 to prompt the socket 133 to be abnormal.

It should be noted that the sockets 133, the control sub-module 131, and the prompt sub-module 134 included in the socket module 13 correspond to one another; when the control sub-module 131 determines that the corresponding socket 133 is abnormal, the control sub-module 131 sends a signal to the prompt sub-module 134, and the prompt sub-module 134 works to prompt a medical worker or an engineer that the socket 133 is abnormal and cannot be used temporarily; in one embodiment, the prompt submodule 134 includes at least one of: buzzer, warning light.

Referring to fig. 4, in an embodiment, the control sub-module 131 is connected to the prompting sub-module 134 and the socket 133 respectively;

the socket 133, the control submodule 131, the current measuring submodule 132 and the prompting submodule 134 correspond to one another; the current measuring sub-module 132 measures the current passing through the socket 133, and transmits the measured current value to the corresponding control sub-module 131, and the control sub-module 131 determines whether the corresponding socket 133 is abnormal; when the control submodule 131 determines that the corresponding socket 133 is abnormal, the control submodule 131 sends a signal to the corresponding prompt submodule 134, and the prompt submodule 134 operates.

Referring to fig. 1, in an embodiment, the security control system 10 further includes a communication module 15, where the communication module 15 is respectively in communication connection with the main control module 11 and the intelligent terminal, and the communication module 15 is configured to establish communication connection between the main control module 11 and the intelligent terminal; the main control module 11 acquires the conditions of the corresponding sockets 133 through the control sub-modules 131; when the socket 133 is abnormal, the control sub-module 131 determines that the corresponding socket 133 is abnormal and sends a corresponding signal to the main control module 11, and the main control module 11 integrates the abnormal signal accordingly and sends the abnormal signal to the intelligent terminal of the engineer related to the tower crane through the communication module 15, so as to inform the engineer of the abnormal condition, and thus the timely maintenance is performed.

Referring to fig. 1, in an embodiment, the safety control system 10 further includes a display module 14 connected to the main control module 11; the master control module 11 acquires the conditions of the corresponding sockets 133 through the control sub-modules 131; when the socket 133 is abnormal, the control sub-module 131 determines that the corresponding socket 133 is abnormal and sends a corresponding signal to the main control module 11, the main control module 11 integrates the abnormal socket 133 according to the abnormal signal and displays the information of the abnormal socket 133 through the display module 14, and informs medical staff or engineers of the position of the abnormal socket 133, and if the medical staff knows that the socket 133 is abnormal, the medical staff suspends the use of the socket 133, so that the safety is improved; if the engineer knows that the socket 133 is abnormal, the inspection step is omitted, thereby improving the maintenance efficiency.

Referring to fig. 1 and 5, an embodiment of the present application further provides a medical power supply tower including: a tower crane body and safety control system 10; the tower crane body includes: the tower head, the cantilever 22, the upright 23 and the tower body 24; the tower head includes: a disc 211 and a rotating shaft 212, wherein the disc 211 is connected with one end of the cantilever 22 through the rotating shaft 212; the other end of the cantilever 22 is connected with one end of the upright 23; the other end of the upright column 23 is connected with a tower body 24;

it should be noted that, the safety control system 10 is installed on the tower body 24, the socket 133, the prompting sub-module 134, the main control module 11 and the display module 14 are installed on the surface of the tower body 24, and the power module 12, the control sub-module 131, the communication module 15, the current measuring sub-module 132 and the voltage measuring sub-module 16 are installed inside the tower body 24; the socket 133 and the prompting submodule 134 are arranged on the same surface of the tower body 24, the socket 133 and the prompting submodule 134 are respectively arranged in the horizontal direction, that is, the prompting submodule 134 prompts the abnormity of the socket 133 arranged horizontally with the prompting submodule 134; the display module 14 is arranged on the other side of the tower body 24, and the display module 14 is used for displaying abnormal information of the socket 133; the main control module 11 is arranged on the other side of the tower body 24, and is convenient for an engineer to maintain.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the utility model and its scope is defined by the claims appended hereto.

Claims (9)

1. A safety control system, comprising: a power module and a plurality of outlet modules;

the socket module comprises a socket and a control submodule, and the power supply module is respectively connected with the control submodule in the plurality of socket modules; the control sub-module in the socket module is also correspondingly connected with the socket in the socket module; the control submodule is used for controlling the on-off of the socket.

2. The safety control system of claim 1, wherein the receptacle module further comprises: one end of each current measurement sub-module is connected with the corresponding control sub-module, and the other end of each current measurement sub-module is connected with the corresponding socket; the current measuring submodule measures the current passing through the socket and sends the measured current value to the corresponding control submodule, and the control submodule determines whether the socket is abnormal or not according to the measured current value.

3. The safety control system according to claim 1, further comprising: one end of the voltage measuring submodule is connected with the power supply module, and the other end of the voltage measuring submodule is respectively connected with the plurality of control submodules; the voltage measuring submodule measures voltages at two ends of a plurality of sockets and sends the measured voltage values to each control submodule, and the control submodule determines whether the sockets are abnormal or not according to the measured voltage values.

4. A safety control system according to claim 1, characterized in that the safety control system further comprises: the main control module is respectively connected with the plurality of control sub-modules; and the control submodules send judgment signals of whether the corresponding sockets are abnormal to the main control module.

5. The safety control system of claim 1, wherein the receptacle module further comprises: and the prompting submodule is connected with the control submodule.

6. The safety control system according to claim 4, further comprising a communication module, wherein the communication module is in communication connection with the main control module and the intelligent terminal respectively.

7. The safety control system according to claim 4, further comprising a display module, wherein the display module is connected to the main control module.

8. A medical power supply tower crane, characterized in that it comprises: a tower crane body and the safety control system of any of claims 1-7, the tower crane body comprising: the tower comprises a tower head, a cantilever, a vertical column and a tower body; the tower head comprises: the disc is connected with one end of the cantilever through the rotating shaft; the other end of the cantilever is connected with one end of the upright post; the other end of stand with the tower body is connected, safety control system set up in the tower body.

9. The medical power supply tower crane according to claim 8, wherein the socket, the prompting sub-module, the main control module and the display module are arranged on the surface of the tower body, and the power supply module, the control sub-module, the communication module, the current measurement sub-module and the voltage measurement sub-module are arranged inside the tower body together.

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