JP6594827B2 - Medical device power cable - Google Patents

Description

  The present invention relates to a power cable for medical equipment.

  2. Description of the Related Art A medical device power cable for supplying power to a medical device is known. The power cable for a medical device supplies power to the medical device by inserting a power plug provided at one end into an outlet and connecting a power connector provided at the other end to the medical device.

  Japanese Patent Laid-Open No. 2002-216883 (Patent Document 1) states that “a plug for inserting a power outlet provided with a ferrule as a first optical coupling means, and a ferrule receiver as a second optical coupling means. A connecting cable, a power cable that electrically and optically couples the plug and the connecting connector, and a photoelectric composite cable provided with an optical fiber.

JP 2002-216883 A

  For example, when surgery is performed, it is desired to reduce the number of cables that crawl the floor of the operating room as much as possible from the viewpoint of safety.

In the conventional technology, when a plurality of medical devices are used for one patient, it is necessary to use power cables as many as the number of medical devices. For this reason, there has been a problem that the number of cables that crawl on the floor of the operating room increases, especially in the field where surgery is performed where many medical devices are used.
The objective of this invention is providing the technique which improves the safety | security of a medical field.

  Of the inventions disclosed in the present application, the outline of typical ones will be briefly described as follows.

  A medical device power cable according to an embodiment of the present invention is a medical device power cable including a cable portion and a power plug provided at one end of the cable portion, and the other end side of the cable portion. It has the branch part provided. Moreover, the said cable part branches into the 1st cable part and the 2nd cable part in the said branch part. A first power connector is provided at the end of the first cable portion, and a second power connector is provided at the end of the second cable portion.

Among the inventions disclosed in the present application, effects obtained by typical ones will be briefly described as follows.
According to a typical embodiment of the present invention, the safety of medical sites can be improved.

It is a figure which shows the external appearance of the power cable for medical devices in one embodiment of this invention. It is a figure which shows the external appearance of the branch part of the power cable for medical devices in one embodiment of this invention. It is a wiring diagram which shows the inside of the branch part of the power cable for medical devices in one embodiment of this invention. (A) is a figure which shows the example of each line extended toward the inside of a branch part from a cable part. (B) is a figure which shows the example of each line extended toward a 1st cable part / 2nd cable part after branching. It is a figure which shows the state in which the power cable for medical devices in one embodiment of this invention is used. It is a figure which expands and shows the state in which the power cable for medical devices in one embodiment of this invention is used.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. Note that components having the same function are denoted by the same reference symbols throughout the drawings for describing the embodiment, and the repetitive description thereof will be omitted.

  FIG. 1 shows an appearance of a power cable 10 for medical equipment to which the present technology is applied (the branch portion 130 is schematically shown). As illustrated in FIG. 1, the medical device power cable 10 includes a cable part 120, a power plug 110 provided at one end of the cable part 120, and a branch part 130 provided at the other end of the cable part 120. . In addition, the cable unit 120 branches into a first cable unit 210 and a second cable unit 310 at the branch unit 130.

The power plug 110 is inserted into an outlet (plug insertion port provided on the wall). The power plug 110 to the branch part 130 is a single cable, and the branch part 130 branches into two or more cables (first cable part 210 and second cable part 310).

  A first power connector 220 is provided at the end of the first cable portion 210 that is one of the cables branched at the branch portion 130. A second power connector 320 is provided at the end of the second cable portion 310 that is the other cable branched at the branch portion. The lengths of the first cable part 210 and the second cable part 310 are the same, which allows the first power connector 220 and the second power connector 320 to be inserted into the medical device in the field. You won't get lost.

  Note that the length of the first cable part 210 may be longer or shorter than the second cable part 310 by a predetermined value (for example, 5 to 30 cm). As a result, the second of the second cable 310 having a shorter length (shorter than the first cable) to the medical device having the lower height than the plurality of medical devices having different heights to be installed. By inserting the power connector 320, the first power connector 220 of the first cable 210 having a long length (longer than the second cable) can be inserted in a well-balanced medical device with a good balance. Further, even if one of the plurality of medical devices must be installed at the height of the patient's heart, the second power connector 320 is inserted into the lower medical device. In addition, the first power connector 220 can be inserted into a medical device having a higher height.

In addition, a thermosetting resin (a resin that causes a cross-linking reaction when the initial polymer is heated and forms a three-dimensional network structure) is placed at the root of the blade of the power plug 110 of the power cable 10 for the medical device. In addition, anti-tracking work has been done. As a result, dust and moisture adhere to the periphery of the power plug 110 inserted into the outlet, so that a current flows between the blades of the plug, and spark discharge is repeated, so that a carbonized conductive path (track) is formed on the surface of the insulating resin. ) Is formed and fired (so-called tracking phenomenon) can be prevented from occurring, and the possibility of fire occurring at a medical site (patient room or operating room) can be reduced.
The length of the power cable 10 for medical equipment is 290 cm to 310 cm, and the length of the first cable portion 210 and the second cable portion 310 is 55 cm to 65 cm.

  In addition, the length of the short-type medical device power cable (not shown) is 60 cm to 70 cm, and the lengths of the first cable portion 210 and the second cable portion 310 are 25 cm to 35 cm. This makes it easy to avoid the cable portion 120 from coming into contact with the floor when the medical device power cable 10 is used. Therefore, the power cable for medical equipment can be used hygienically. Moreover, by shortening the length from the power plug 110 to the branch part 130, it becomes easy to branch the cable part 120 in the sky, and the number of cables that crawl on the floor can be reduced. In particular, it is possible to prevent a plurality of cables from becoming spaghetti-like in an operating room in which a large number of devices are used and it is required to reduce the number of cables straddling the floor from the viewpoint of safety.

  FIG. 2 is a diagram showing an appearance of the branch portion 130 of the power cable 10 for medical equipment according to the embodiment of the present invention. The branch part 130 is integrally molded by a mold (not shown). As a result, the strength of the branching portion 130 is dramatically improved, and the safety and the design when the power cable for medical equipment is used in the medical field can be remarkably improved.

  As shown in FIG. 2, a mounting portion 131 is provided on the side portion of the branch portion 130. The attachment portion 131 is formed with a rectangular hole. In addition, the attachment portion 131 is provided on the opposite side of the cable 120. A hook-and-loop fastener (for example, Velcro (registered trademark)) is attached through a hole formed in the attachment portion 131.

  More specifically, a hook-and-loop fastener is inserted through the hole of the attachment portion 131, and the side of the hook-and-loop raised in the hook shape and the side of the loop-packed close-up are attached. As a result, the surface fastener is attached to the attachment portion 131.

The attached hook-and-loop fastener is hooked on the gartle stand 400 or the like. As a result, when the medical device power cable 10 is used (when the power plug is inserted into the outlet and the first power connector 210 and the second power connector 220 are connected to the medical device), the cable portion 120 contacts the floor. Can be avoided. Therefore, the power cable for medical equipment can be used hygienically. Furthermore, the medical device power cable 10 can be easily routed.

  FIG. 3 is a wiring diagram showing the inside of the branch portion of the power cable for medical equipment shown in FIG. The medical power outlet of the hospital is obliged to use a 3P outlet into which a medical 3P power plug whose ground is always grounded can be inserted. Therefore, as shown in FIG. 3, the medical device power cable includes a black line, a green line, and a white line. Further, inside the branching unit 130, one of the lines (black line, green line, white line) branches to the first cable unit 210 and the other branches to the second cable unit 310.

  More specifically, the black line extending from the cable portion 120 toward the ring sleeve 132 branches into two black lines at the ring sleeve 132. Then, one black line branches toward the first cable part 210 and the other black line branches toward the second cable part 310. Similarly, the green line extending from the cable portion 120 toward the ring sleeve 132 also branches into two green lines at the ring sleeve 132. One green line branches toward the first cable part 210 and the other green line branches toward the second cable part 310. Further, the white line extending from the cable portion 120 toward the ring sleeve 132 also branches into two white lines at the ring sleeve 132. Then, one white line branches toward the first cable part 210 and the other white line branches toward the second cable part 310.

  FIG. 4A is a diagram showing an example of each line extending from the cable portion 120 of the medical device power supply cable toward the inside of the branch portion according to the embodiment of the present invention. FIG. 4B is a diagram showing an example of each line extending from the first cable part 210 / second cable part 310 toward the inside of the branch part in the embodiment of the present invention.

  4A and 4B, the black line, the green line, and the white line inside the cable part 120, the first cable part 210, and the second cable part 310 are made of resin. It is coated. Thereby, the black line, the green line, and the white line are insulated from each other.

  On the other hand, the tip portion of the black line extending from the cable portion 120 toward the first cable portion 210 / second cable portion 310 (the tip portion 2 mm to 5 mm of the cable portion 120, that is, the first cable portion 210 / second cable portion 310). 2 mm to 5 mm on the side, a tip portion of the green wire (tip portion 2 mm to 5 mm of the cable portion 120, that is, 2 mm to 5 mm on the first cable portion 210 / second cable portion 310 side), and a tip portion of the white line (cable The tip portion 2 mm to 5 mm of the portion 120, that is, 2 mm to 5 mm on the first cable portion 210 / second cable portion 310 side) is not coated with resin.

  Also, a black wire tip portion (tip portion 2 mm to 5 mm on the cable portion 120 side) extending from the first cable portion 210 / second cable portion 310 toward the cable portion 120 and a green wire tip portion (on the cable portion 120 side). The tip portion of 2 mm to 5 mm) and the tip portion of the white line (tip portion 2 mm to 5 mm on the cable portion 120 side) are not coated with resin.

  And the front-end | tip part of the black line extended toward the 1st cable part 210 / 2nd cable part from the cable part 120 and the front-end | tip part of the black line extended toward the cable part 120 from the 1st cable part 210 and a 2nd cable The tip of the black line extending from the portion 310 toward the cable portion 120 is connected to the ring sleeve inside the branch portion.

  A black line tip portion extending from the cable portion 120 toward the first cable portion 210 / second cable portion 310; a black wire tip portion extending from the first cable portion 210 toward the cable portion 120; The tip of the black line extending from the cable part 310 toward the cable part 120 is fixed by a ring sleeve in a connected state. And in the state fixed to the ring sleeve, the insulating tape (not shown) is wound around the connection part of three black lines.

  Similarly, the tip portion of the green line extending from the cable portion 120 toward the first cable portion 210 / second cable portion is the same as the tip portion of the green line extending from the first cable portion 210 toward the cable portion 120, and the second portion. The tip part of the green line extending from the cable part 310 toward the cable part 120 is connected to the ring sleeve inside the branch part.

  And the front-end | tip part of the green line extended toward the 1st cable part 210 / 2nd cable part from the cable part 120, the front-end | tip part of the green line extended toward the cable part 120 from the 1st cable part 210, and a 2nd cable The tip portion of the green line extending from the portion 310 toward the cable portion 120 is fixed by a ring sleeve in a connected state. And in the state fixed to the ring sleeve, the insulating tape (not shown) is wound around the connection part of three green wires.

  In addition, the tip portion of the white line extending from the cable portion 120 toward the first cable portion 210 / second cable portion is the tip portion of the white line extending from the first cable portion 210 toward the cable portion 120, and the second cable portion 310. The tip of the white line extending from the cable portion 120 toward the cable portion 120 is connected to the ring sleeve inside the branch portion.

And, the tip portion of the white line extending from the cable portion 120 toward the first cable portion 210 / second cable portion 310, the tip portion of the white line extending from the first cable portion 210 toward the cable portion 120, and the second cable portion The tip of the white line extending from 310 to the cable portion 120 is fixed by a ring sleeve in a connected state. And the insulation tape (not shown) is wound around the connection part of three white lines in the state fixed to the ring sleeve.
Here, if the insulating tape is loosened depending on the method of use, etc., there is a possibility that each wire (black wire, green wire, white wire) will come in contact at the joint where the insulating tape is loosened, and electricity will be connected (short). .

  Therefore, in one embodiment of the present invention, the joining position (branch position) of each line (black line, green line, white line) extending from the cable portion 120 is shifted. That is, the cable portion 120, the first cable portion 210, and the second cable portion 310 include a first line (for example, a white line), a second line (for example, a green line), and a third line. (For example, a black line), the length until the first line branches, the length until the second line branches, and the length until the third line branches, Different from each other. This prevents the occurrence of communication (short circuit) due to contact between the wires.

  Specifically, the length until the second line (for example, the green line) branches from the cable part 120 is made longer than the length until the first line (for example, the white line) branches from the cable part 120. ing. Moreover, the length until the third line (for example, a black line) branches from the cable part 120 is made longer than the length of the second line.

  Further, the length from the cable portion 120 to the second cable portion 310 after the first line (for example, white line) branches from the cable portion 120 is longer than the length from the cable portion 120 to the second cable portion (for example, the green line). ) Is branched and the length from the first cable part 210 to the second cable part 310 is shortened. Further, the length from the cable portion 120 to the first cable portion 210 / second cable portion 310 after the third line (for example, black line) branches off is set to the length of the second line (from the cable portion 120 to the first line). 2 (for example, the length from the first cable part 210 to the second cable part 310 after the branching of the green line).

  Specifically, the length until the first line (for example, white line) branches from the cable part 120 (the length of the white line immediately before branching from the cable part 120) is 15 mm to 25 mm. The length until the second line (for example, the green line) branches from 120 (the length of the green line immediately before branching from the cable part 120) is 30 mm to 40 mm. The length until the line (for example, black line) branches (the length of the black line immediately before branching from the cable part 120) is 45 mm to 55 mm.

  The length from the first line (for example, white line) to the first cable part 210 / second cable part 310 is 45 mm to 55 mm, and the second line (for example, green line) is The length from the branch to the first cable portion 210 / second cable portion 310 is 30 mm to 40 mm, and the first cable portion 210 / second after the third line (for example, black line) branches. The length to the cable part 310 is 15 mm to 25 mm.

  FIG. 5 shows a state in which the power cable for medical equipment according to this project is used in a hospital room. FIG. 6 shows an enlarged view of the medical device power cable being used in a hospital room. 5 and 6 are schematically shown for convenience of explanation.

  Until now, in the medical field (patient room and operation room), a plurality of pump devices were used as a set for one patient. The pump device includes an infusion pump (medical device for accurately adjusting the amount of infusion injected into the patient's body) and a syringe pump (medical device for injecting a minute amount and high-density liquid medicine into the patient than the infusion pump). Equipment). In order to supply power to the infusion pump and the syringe pump, two power cables have been used for one patient.

  Specifically, the infusion pump is supplied with power via a power cable, and a power connector provided at one end of the power cable is connected to the infusion pump to supply power to the infusion pump. A power plug provided at the other end is connected to an outlet. Similarly, power is supplied to the syringe pump via a power cable, and a power plug for supplying power to the infusion pump and a power plug for supplying power to the syringe pump are separately connected to the outlet. .

  As shown in FIGS. 5 and 6, the infusion pump 500 and the syringe pump 600 are fixed to a gartle table (drip bar) 400. Moreover, there is one power plug 110 of the power cable for medical equipment, and only one power plug 110 is inserted into the outlet. The first cable part 210 of the power cable for medical equipment is inserted into the infusion pump 500, for example. Further, the second cable part 310 of the power cable for medical equipment is inserted into the syringe pump 600. As a result, power is supplied to the infusion pump 500 via the first cable portion 210, and power is supplied to the syringe pump 600 via the second cable portion 310.

  If the patient moves from the bed due to reasons such as going to the toilet, one power plug 110 inserted into the outlet is pulled out. After the power plug 110 is pulled out from the outlet, power is not supplied to the infusion pump 500 and the syringe pump 600 via the medical device power cable. However, the infusion pump 500 and the syringe pump 600 have a built-in battery. Therefore, the infusion pump 500 and the syringe pump 600 are driven by the electric power supplied from the battery after the power plug 110 is pulled out from the outlet.

  Since there is only one power plug 110 of the power cable for the medical device, the patient can move from the bed together with the gartle table 400 only by pulling out one power plug 110 from the outlet. Thereby, the workability in the medical field can be improved by halving the number of times of pulling out the power plug 110 from the outlet (plug insertion port provided on the wall) from the conventional two times to one time.

Conventionally, in the medical field, nurses and patients frequently pull out the power connectors (the first power connector 220 and the second power connector 320) from the medical device based on their own judgment. As a result, the connection part (the part provided in the medical device to which the power connector is connected) was damaged, and the connection part had to be replaced once every two to three years. By using the power cable 10 for a medical device according to the present invention, the power plugs 110 having a smaller number than the power connectors (the first power connector 220 and the second power connector 320) are pulled out with priority, so that the connecting portion is It can be prevented from being damaged.
<Effects of the present embodiment>

  In the conventional technique, when a plurality of medical devices are used for one patient, at least two power plugs 110 need to be connected to an outlet near the patient's hospital room. In order for the patient to move from the bed, the work of pulling out the plug of the power cable connected to one medical device from the outlet and the work of pulling the plug of the power cable connected to the other medical device from the outlet are performed. It has occurred.

  Further, when performing surgery, it is desired to reduce the number of cables that crawl the operating room floor as much as possible from the viewpoint of safety. Therefore, in the operating room, for example, a table tap as shown below is connected to an outlet installed on the wall. In the table tap, the outlet of the outlet is opened upward. Also, the operating room floor is often wetted by liquids such as patient blood. Therefore, when a table tap is used in an operating room, there is a risk that a liquid such as blood may enter the table tap from the outlet of the outlet and a fire may occur.

According to the power cable for medical equipment in the present embodiment described above, the cable portion 120 is branched into the first cable portion 210 and the second cable portion 310 at the branch portion 130, so that the table tap is used. Without removing the power plug 110 from the outlet, the patient can move from the bed. Furthermore, the number of cables that can reach the operating room floor can be reduced as much as possible. Therefore, it becomes possible to perform an operation without using a table tap, and it is possible to reduce the possibility of a fire occurring particularly in an operating room.

  In addition, since thermosetting resin is put at the base of the power plug 110, dust and moisture adhere to the periphery of the power plug 110 inserted into the outlet, so that a current flows between the plug blades, By repeating the spark discharge, it is possible to prevent a phenomenon that a carbonized conductive path (track) is formed on the surface of the insulating resin and ignite (so-called tracking phenomenon), and the possibility of a fire can be reduced.

  Further, the length until the first line branches, the length until the second line branches, and the length until the third line branches are different from each other, so that each line (first line The occurrence of communication (short) due to contact of the third line) can be prevented.

  As mentioned above, the invention made by the present inventor has been specifically described based on the embodiment. However, the present invention is not limited to the embodiment, and various modifications can be made without departing from the scope of the invention. Needless to say.

  For example, the number of cable portions branched at the branch portion 130 is not limited to two cable portions (the first cable portion 210 and the second cable portion 310), and may be three or more. In that case, it is desirable that the length of the third and subsequent cable portions be 10 to 20 cm longer than the length of the second and subsequent cable portions. Accordingly, when each power connector is inserted into each medical device provided on the plurality of gartle stands 400, it is difficult to occur that the length of the cable portion becomes insufficient.

  Further, the above-described embodiment has been described in detail for easy understanding of the present invention, and is not necessarily limited to one having all the configurations described. Further, a part of the configuration of one embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of one embodiment. . Moreover, you may add, delete, and replace another structure about a part of structure of each embodiment.

10 ... Power cable for medical equipment,
110 ... Power plug, 120 ... Cable part, 130 ... Branch part,
210 ... 1st cable part, 220 ... 1st power supply connector,
310: second cable portion, 320: second power connector.

Claims (3)

A power cable for medical equipment having a cable part and a power plug provided at one end of the cable part,
A branch portion provided on the other end side of the cable portion;
The cable portion branches into a first cable portion and a second cable portion at the branch portion,
Wherein an end portion of the first cable section is provided with a first power connector, second supply connector provided we are on the end of the second cable section,
A mounting portion is provided on a side portion of the branch portion,
The branch part is integrally molded by a mold,
The mounting portion is formed with a rectangular hole,
The attachment portion is attached to the hooked side of the hook-and-loop side of the hook-and-loop fastener and the side of the hook-and-loop raised in a looped manner through the hole formed in the attachment portion. The hook-and-loop fastener is attached by being
Power cable for medical equipment. The medical device power cable according to claim 1,
A power cable for medical equipment, in which a thermosetting resin is placed at the base of the power plug. The medical device power cable according to claim 1,
The cable part, the first cable part, and the second cable part contain a first line, a second line, and a third line,
A length until the first line branches from the cable part, a length until the second line branches from the cable part, and a length until the third line branches from the cable part. Are different from each other,
Power cable for medical equipment.

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