JP2005026555A - Cord binding tool and cord binding structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To easily fit a cord to a holding cylindrical part through a slit, and prevent the held cord from coming off through the slit. <P>SOLUTION: A cord binding tool 20 (30, 40, 50, 60, 70) includes a plurality of holding cylindrical parts 21, 22(41 to 43, 51 to 54). The slit 23 (24) is formed in the side surface of the holding cylindrical part over the whole length thereof, through which the cord 1 (2) is pulled in and out in the transverse direction. The opening width of the slit 23 can be gradually reduced from one end 20a of the holding cylindrical part 21 to the other end 20b of the same; can be made small but be same from the other end 20b to an intermediate position 35, and can be gradually increased from the intermediate position 35 to the one end 20a; can have an expanded opening part 61 at an axial intermediate part; and can be gradually reduced, taking the axial intermediate part as the expanded intermediate part 71 having the largest opening width, from the expanded intermediate part 71 to the one end 20a and the other end 20b. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cord bundling tool and a cord bundling structure for bundling a plurality of cords.
[0002]
[Prior art]
It is a common practice to bundle a plurality of cords using a cord bundling tool. Among these cord bundling tools, there is a cord bundling device that uses a plurality of holding cylinder portions integrated with each other to bundle cords. That is, there is a slit formed on the side surface of each holding cylinder part extending over the entire length, and the cord is fitted and held in the holding cylinder part from the side through the slit. Then, the cord is removed by pulling out the cord from the side through the slit. Conventionally, the slit formed in the holding cylinder described above has a constant opening width over its entire length (see Patent Documents 1 to 4).
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-23865
[0004]
[Patent Document 2]
JP 2001-255435 A
[0005]
[Patent Document 3]
JP-A-53-54820
[0006]
[Patent Document 4]
Japanese Utility Model Laid-Open No. 5-14767
[0007]
[Problems to be solved by the invention]
However, in the conventional cord bundling device in which the opening width of the slit is constant over the entire length, if the opening width of the slit is increased so that the cord can be easily fitted into the holding tube portion, The cord fitted and held in the tube portion is likely to be inadvertently disconnected due to a small external force. On the other hand, when the opening width of the slit is reduced in order to prevent the cord from coming off from the holding cylinder, a large force is required when fitting the cord into the holding cylinder.
[0008]
The present invention has been made in view of the above circumstances, and its purpose is to fit the cord into the holding cylinder by appropriately setting the opening width of the slit formed in the holding cylinder. That is, it is an object of the present invention to provide a cord bundling tool and a cord bundling structure that can satisfy both ease of attachment and prevention of inadvertent detachment of the cord from the holding cylinder.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the cord bundling device of the present invention is configured as follows as a first solution. That is, as described in claim 1 in the claims,
A cord bundling tool for bundling multiple cords,
Integrated with each other, each having a plurality of holding cylinders for holding one cord,
A detachable slit is formed on the side surface of each holding cylinder portion so as to extend over the entire length of the holding cylinder portion and the cord is inserted and removed from the side.
The opening width of the slit is set so that one end side is larger than the other end side in the axial direction of the holding cylinder portion.
It is like that.
[0010]
According to the above solution, when the cord is fitted to the holding cylinder, the cord is first fitted or almost fitted on the one end side of the holding cylinder, starting from the larger opening width of the slit. To complete. Thereafter, the cord is completely fitted into the holding cylinder portion by pushing the cord into the holding cylinder portion from one end side to the other end side of the holding cylinder portion. In this case, since the cord on the side having the larger opening width of the slit is already fitted or almost fitted in the holding cylinder portion, the cord is passed through the portion having the smaller opening width of the slit and held. It becomes easy to locate in the cylinder part.
On the other hand, since the opening width on the other end side of the slit is set small, it is possible to prevent the cord held in the holding cylinder part from being inadvertently detached from the holding cylinder part through the slit. become.
Depending on how the cord is used, when the external force in the direction in which the cord is detached from the holding cylinder portion is likely to act on one side in the longitudinal direction of the cord with the cord bundling tool interposed therebetween, the above one where the external force acts The cord bundling tool may be used with the orientation such that the side with the smaller opening width of the slit is positioned on the side.
[0011]
Preferred embodiments based on the above solution are as described in claims 2 to 6 in the claims. That is,
The opening width of the slit is set so as to gradually decrease from the one end side to the other end side of the holding cylinder portion (corresponding to claim 2). In this case, it is easier to sequentially push the cord into the side with the smaller opening width in a state where the cord is fitted to the side with the larger opening width of the slit.
[0012]
The opening width of the slit is set so as to decrease in a tapered shape from the one end side to the other end side (corresponding to claim 3). In this case, a specific structure for gradually changing the opening width of the slit is provided.
[0013]
The opening width of the slit has the same size from the other end side to a predetermined intermediate position, and is set to gradually increase from the intermediate position toward the one end side. (Corresponding to claim 4). In this case, it is possible to secure a portion having the smallest opening width of the slit by a certain length, and more reliably prevent the cord from coming off from the holding cylinder portion.
[0014]
A pair of enlarged portions are formed in the middle portion of the slit so as to face each other, and the maximum opening width at the middle portion including the pair of enlarged portions is the largest of the opening widths of the slit. It can be set to be set as follows (corresponding to claim 5). In this case, the pair of enlarged portions of the slits are preferably used so as to penetrate the branch cord portion of the cord held in the holding cylinder portion.
[0015]
The opening shape including the pair of enlarged portions at the intermediate portion may be set to be a shape corresponding to the cross-sectional shape of the cord held by the holding cylinder portion (claim). Item 6). In this case, the dimensions are suitable for drawing out the branch cord branched from the cord held in the holding cylinder portion to the side of the cord bundling tool through the pair of enlarged portions.
[0016]
In order to achieve the above object, the cord bundling device of the present invention is configured as follows as a second solution. That is, as described in claim 7 in the claims,
A cord bundling tool for bundling multiple cords,
Integrated with each other, each having a plurality of holding cylinders for holding one cord,
A detachable slit is formed on the side surface of each holding cylinder portion so as to extend over the entire length of the holding cylinder portion and the cord is inserted and removed from the side.
The opening width of the slit is set to be the largest in the intermediate portion in the axial direction of the holding cylinder portion, and gradually decreases from the intermediate portion toward one end side and the other end side of the holding cylinder portion. Is set to be
It is like that. According to the above solution, the cord is fitted through the slit first from the intermediate portion in the axial direction of the cord tie, and then the fitting is advanced toward one end and the other end of the cord tie. It will be. In this case, since the opening width of each end portion of the slit is small, the cord is difficult to come off through the slit on each end side.
[0017]
In order to achieve the above object, the following solution is adopted in the cord bundling structure in the present invention. That is, as described in claim 8 in the claims,
In the longitudinal direction, the plurality of cords are integrated with each other at least at an intermediate portion thereof to be a collective cord portion, and the plurality of cords on at least one end side of the collective cord portion are mutually connected. It is a separate code part that is separated individually,
A plurality of cords in the separation cord part are bundled by a cord bunching tool,
The cord bundling tool is:
Integrated with each other, each having a plurality of holding cylinders for holding one cord,
A detachable slit is formed on a side surface of each holding cylinder portion so as to extend over the entire length of the holding cylinder portion and the cord is inserted and removed from the side thereof, and the cord is held through the slit. Inserted and held in the cylinder part,
The opening width of the slit is set so that one end side is larger on the other end side in the axial direction of the holding cylinder portion,
The cord bundling tool has an orientation in which the one end side with the large opening width of the slit faces the aggregated cord portion and the other end side with the small opening width of the slit faces the distal end side of the separation cord portion. Bundling separation code,
It is like that.
[0018]
The cord bundling structure is a specific preferable application example of the cord bundling device according to claim 1. In particular, since the slit having a smaller opening width is directed toward the distal end side of the separation cord portion where an external force that tends to remove the cord from the holding cylinder portion is likely to act, a plurality of cords in the separation cord portion are ineffective. This is preferable for reliably preventing a situation in which it is easily removed from the holding cylinder. In addition, it is preferable to keep the set code portion from being constantly maintained as a set code portion by preventing an external force that causes the set code portion to be separated into a plurality of codes in the same manner as the separated code portion. .
[0019]
A preferred mode based on the above solution is as described in claim 9 and subsequent claims. That is,
The opening width of the slit is set so as to gradually decrease from the one end side to the other end side of the holding cylinder portion (corresponding to claim 9). In this case, the cord bundling tool corresponds to claim 2.
[0020]
The opening width of the slit is set so as to decrease in a tapered shape from the one end side toward the other end side (corresponding to claim 10). In this case, the cord bundling tool corresponds to claim 3.
[0021]
The opening width of the slit is set to be the same size from the other end side to a predetermined intermediate portion, and is set to gradually increase from the intermediate portion toward the one end side. (Corresponding to claim 11). In this case, the cord bundling tool corresponds to claim 4.
[0022]
The plurality of cords connect a treatment device body and a suction type electrode in a low frequency treatment device, and include a negative pressure passage for negative pressure suction and an electric wiring for transmitting an electric signal for treatment. And has flexibility as a whole, and the side to be connected to the suction-type electrode is the separation cord portion over a predetermined length,
The cord bundling tool bundles the separation cord portion on the suction type electrode side,
The cord bundling tool is oriented so that the other end side where the opening width of the slit is the smallest is toward the suction electrode side,
This is done (corresponding to claim 12). In low-frequency treatment devices, multiple cords are frequently connected to and disconnected from the suction electrode, and the suction electrode side depends on the movement of the surrounding caregiver and the movement of the patient wearing the suction electrode. It is desirable to bundle the vicinity. On the other hand, it becomes an environment where an external force is easily applied so that the separation cord near the suction electrode is detached from the holding cylinder. In such a situation, according to the twelfth aspect, the separation cord can be reliably bundled in the vicinity of the suction type electrode, and the bundled state can be reliably maintained.
[0023]
【The invention's effect】
According to the present invention, it is possible to easily perform the work of fitting the cord to the holding cylinder portion and bundling, and to reliably prevent the bundled cord from being easily detached from the holding cylinder portion. it can.
[0024]
DETAILED DESCRIPTION OF THE INVENTION
[0025]
In FIG. 1, TC is a low-frequency treatment device body, and D1 and D2 are suction-type electrodes. Each suction type electrode D1, D2 is mounted on the surface of the patient body. The suction-type electrode D and the low-frequency treatment device body TC are connected by connection cords 1 and 2. Each of the connection cords 1 and 2 is hollow and has a negative pressure passage for sucking negative pressure in the suction electrode, and applies a therapeutic electrical signal to the electrode in the suction electrode. Wiring for transmitting electrical signals is built in. Each of the connection cords 1 and 2 is covered with an insulating rubber or the like.
[0026]
One of the pair of output terminals 3 and 4 of the low frequency treatment device body TC is connected to one suction type electrode D1 through, for example, the connection cord 1. Further, the other of the output terminals 3 and 4 is connected to the other suction type electrode D2 through the connection cord 2, for example. In a state in which the suction type electrodes D1 and D2 are connected to the low frequency treatment device body TC via the connection cords 1 and 2, the treatment is performed by receiving a treatment electrical signal from the low frequency treatment device body TC. At this time, by receiving negative pressure suction from the low frequency treatment device body TC, the suction type electrodes D1 and D2 are firmly attached to the surface of the patient body, and the magnitude of the suction negative pressure is changed, thereby providing a massage effect. Will be obtained.
[0027]
The connecting cords 1 and 2 are formed as a collective cord portion 10 whose intermediate portions are integrated with each other. Further, the end portions of the connection cords 1 and 2, that is, both sides of the intermediate portion 10 are part cords 11 and 12 that are separated from each other. The collective cord portion 10 is integrated by, for example, integrally forming the covering members of the connection cords 1 and 2, heat-sealing, or adhering. In the embodiment, the total length of each of the connection cords 1 and 2 is about 2 m, and the length of each of the cords 11 and 12 is set to about 50 cm (the remaining is the length of the collective cord portion 10). Such connection cords 1 and 2 have flexibility as a whole, and the outer peripheral surface shape of the cross section is substantially circular.
[0028]
Of the separation cord portions 11 and 12, one separation cord portion 11 on the connection side to the suction type electrodes D1 and D2 is a movement of a caregiver, a movement of a patient wearing the suction type electrodes D1 and D2, and the like. Therefore, it is easy to receive external forces that are largely separated from each other. When such an external force is received, a force that tears the collective cord portion 10 acts in the vicinity of the boundary of the collective cord portion 10 with the one separated cord portion 11, which is not preferable. Further, if one separation cord portion 11 is separated from each other, the surroundings of the patient become complicated with the connection cord, and the connection cord itself becomes an obstacle (usually, a large number of four or six suction electrodes are provided). There are many cases, and the number of connection cords increases to 4 or 6). For this reason, the cord bundling tool 20 according to the present invention is applied to an appropriate position in the separation code portion 11, for example, one or both of the position close to the collective code portion 10 and the position close to the suction type electrodes D1 and D2. It is bundled using.
[0029]
Details of the cord bundling tool 20 will be described with reference to FIGS. First, the cord bundling tool 20 has two holding cylinder portions 21 and 22 that are integrated with each other in accordance with the number of the two connection cords 1 and 2 to be bundled. Slits 23 and 24 are formed on the side surfaces of the holding cylinder portions 21 and 22 over the entire length thereof. That is, the holding cylinder portions 21 and 22 are formed to have a substantially C-shaped cross section. The cord bundling tool 20 as a whole is formed, for example, by injection molding synthetic resin. The opening widths of the slits 23 and 24 can be slightly enlarged by applying an external force. When the external force is removed, the opening width is restored to the original opening width. The inner diameters of the holding cylinder portions 21 and 22 are the same over the entire length, and are set to be approximately the same as the outer diameters of the connection cords 1 and 2.
[0030]
Since the slits 23 and 24 are formed in the same manner, the description will be given focusing on the slit 23. First, the opening width of the slit 23 is shown as a dimension L1 on the one end 20a side of the cord bundling tool 20 (holding cylinder portion 21), and is shown as a dimension L2 on the other end 21b side of the cord bundling tool 20. The opening width L1 is set to be larger than L2, and in the embodiment, the opening width is set to be gradually tapered so as to become the opening width L1 to L2. More specifically, when a parallel line α parallel to the axis of the holding cylinder portion 2 is assumed at the position of the slit 23 (see the two-dot chain line in FIG. 5), the line is symmetrical with respect to the parallel line α. The shape of the slit 23 is set. The slit 24 in the holding cylinder portion 22 is also formed in the same manner as the slit 23 (the opening width on the one end 21a side of the cord bundling tool 20 is the largest as L1, and the opening width on the other end 20b side is the smallest as L2. The opening width is gradually reduced in a tapered manner from the larger opening width side to the smaller side).
[0031]
The connecting cords 1 and 2 are attached (fitted) and removed from the side of the holding tube portions 21 and 22 of the cord bundling tool 20 using the slits 23 and 24 (fitting). Off). Since the connection cords 1 and 2 are attached to and detached from the holding cylinder portions 21 and 22 in the same manner, the attachment and removal will be described with a focus on one connection cord 1 and the holding cylinder portion 21. First, the connection cord 1 is fitted through the slit 23 only on the side of the holding cylinder portion 21 where the opening width of the slit 23 is large (on the one end 21a side, the opening width L1 side). FIG. 7 shows a state immediately before the connection cord 1 is completely fitted to the large opening width L1. As for the position of the connecting cord 1 that is initially fitted in the slit 23, the set cord portion 10 side is selected.
[0032]
From a state in which a part of the connecting cord 1 is almost fitted in the slit 23 at a position where the opening width is large, the connecting cord 1 is moved from the large opening width L1 side to the small opening width L2 side in the axial direction of the cord bundling tool 20. We push toward one after another. That is, as shown by the arrows in FIG. 5, the connection cord 1 is pressed from the opening width L1 side toward the L2 side. In this case, as compared with the case where the connecting cord 1 is pressed only from the radial direction of the holding cylinder portion 21, in the case of the present invention, the radial direction outer side and the axial direction of the cord bundling tool 20 (from the large opening width L1 side). ), An external force that effectively enlarges the slit 23 is effectively applied, and the slit 23 is easily opened from the opening width L1 side to the small opening width L2 side. Thereby, attachment (fitting) to the holding cylinder portion 21 through the slit 23 of the connection cord 1 is very easily performed. The attachment of the connecting cord 2 using the slit 24 to the holding cylinder portion 22 is performed in the same manner.
[0033]
In a state where the connection cord 1 (2) to the holding cylinder portion 21 (22) is completely fitted, the small opening width L2 is on the suction electrode D1 (D2) side. For this reason, the connection cord 1 (2) is removed from the holding cylinder portion 21 (22) even if the separation cord portion 11 receives an external force such that the two connection cords 1 and 2 separated from each other are separated from each other. The occurrence of such a situation is prevented or reduced. In order to remove the connection cord 1 (2) from the holding cylinder portion 21 (22), the connection cord 1 (2) is pulled out from the slit 23 (24) through the slit 23 (24) from the large opening width L2 side. You can apply extra force (easy to remove).
[0034]
FIG. 8 shows a second embodiment of the cord bundling tool. The same components as those in the previous embodiment are denoted by the same reference numerals, and redundant description thereof will be omitted (this will be described in the following further embodiment). The same applies to the form). In the cord bundling tool 30 of FIG. 8, only the slit shape of the cord bundling tool 20 of FIGS. 2 to 7 is changed. That is, the opening width of the slit 23 (the same applies to the multiple slits 24) is set as the smallest opening width L2 until it reaches the predetermined intermediate position 35 from the other end 30b side of the cord bundling tool 30. Then, the opening width is set to be gradually reduced from the one end 30a of the cord bundling tool 30 having the largest opening width L2 to the intermediate position 35 in a tapered shape. In the present embodiment, since the smallest opening width L2 is secured over a predetermined length of the cord bundling tool 30 (holding cylinders 21 and 22), the connection cords 1 and 2 are prevented from being accidentally detached. Is preferable. Note that the length of the smallest opening width L2 is 1/3 or less, particularly preferably 1/5 in terms of the ratio of the length of the cord bundling tool 20 to the total length in consideration of ease of attachment of the connection cords 1 and 2. It is preferable to set it as follows, and the absolute length of the smallest opening width L2 may be about 3 to 5 mm.
[0035]
9 and 10 show the third embodiment and the fourth embodiment of the present invention, respectively. The cord bundling tool 40 of FIG. 9 corresponds to the case where there are three cords to be bundled, and the holding cylinders 41 to 43 (corresponding to the holding cylinders 21 and 22) are integrated in parallel with each other on the same plane. It has become. The slits 44 to 46 (corresponding to the slits 23 and 24) are directed in the same direction. The shapes of the slits 44 to 46 are set similarly to the case of FIG. 5 or FIG.
[0036]
The cord bundling tool 50 shown in FIG. 10 corresponds to the case of bundling four cords, the holding cylinder portions are denoted by reference numerals 51 to 54 (corresponding to the holding cylinder portions 21 and 22), and the slits are provided. This is indicated by reference numerals 55 to 58 (corresponding to the slits 23 and 24). In FIG. 10, the holding cylinder portions 41 to 44 are arranged at substantially equal intervals on the virtual circumference, and the slits are positioned so as to face the radially outward side of the virtual circumference. The shapes of the slits 55 to 58 are set similarly to the case of FIG. 5 or FIG.
[0037]
11 and 12 show a fifth embodiment of the present invention. In the present embodiment, the enlarged opening 61 is formed in the slit 23 of the cord bundling tool 60 (the same applies to 24) at the intermediate portion in the axial direction. That is, a pair of opposing enlarged portions 61a and 61b are formed in an arc shape, and an opening shape including the pair of enlarged portions 61a and 61b as a whole corresponds to the cross-sectional shape of the cord 1 (2). It is set to become. The maximum opening width of the enlarged opening 61 is set to be slightly larger than the opening width L1 of the one end 20a of the cord bundling tool 60.
[0038]
The cord bundling tool 60 shown in FIG. 11 is suitable for use when, for example, a cord having a branch portion as shown in FIG. 12 is bundled by the branch portion. That is, the cord 1 (2 is the same) has a branch cord portion 1a (2a) extending substantially at a right angle in the middle, and the cord 1 is fitted into the cord bundler 60 (the holding cylinder portion) through the slit 23. When combined, the branch cord 1a is drawn from the side of the cord bunching tool 60 through the enlarged opening 61 (preventing interference between the cord bunching tool 60 and the branch cord 1a).
[0039]
The enlarged opening 61 can also be used when bundling a cord that does not have the branch cord 1a. That is, when the cord 1 is fitted to the holding cylinder portion 21 from the one end 20a side, the cord 1 is completely fitted to the holding cylinder portion 21 in the portion from the one end 20a to the enlarged opening 61. become. Thereafter, the cord 1 may be fitted from the enlarged opening 61 toward the other end 20b. As described above, the cord 1 can be fitted in two stages using the enlarged opening 61, and particularly when the cord bundling tool 60 is long in the axial direction, the cord can be easily fitted. Become.
[0040]
FIG. 13 shows a sixth embodiment of the present invention. In the present embodiment, the slit 23 (24 is the same) formed in the holding cylinder portion 21 (22 is the same) of the cord bundling tool 70 is the enlarged intermediate portion 71 having the largest intermediate portion in the axial direction of the holding cylinder portion 21. The opening width is set to gradually decrease from the enlarged intermediate portion 71 toward one end side and the other end side of the holding cylinder portion 21. More specifically, the enlarged intermediate portion 71 has a substantially elliptical shape with the axial direction of the holding cylinder portion 21 as the major axis, and the cord 1 (2) can be easily fitted to the enlarged intermediate portion 71. It has been made possible. In other words, the enlarged intermediate portion 71 has a pair of substantially arc-shaped enlarged portions 71a and 71b opposed to each other, and these enlarged portions 71a and 71b correspond to 61a and 61b in FIG. The unit 71 corresponds to 61 in FIG. However, the enlarged intermediate portion 71 is initially set to have a sufficient size in the axial direction of the cord bundling tool 70 so that the cord 1 can be completely or almost completely fitted.
[0041]
In the cord bundling tool 70 in the present embodiment, first, the cord 1 is fitted (or substantially fitted) to the enlarged intermediate portion 71 and then toward the one end side and the other end side of the holding cylinder portion 21. The cords 1 may be sequentially fitted. After the fitting is completed, the opening width of each end of the slit 23 (24) is set to be small, so that the cord 1 can be prevented from slipping out through the slit 23 (24) at each end. This is preferable. That is, the present embodiment is suitable for a case where a long portion to be bundled by the cord bundling tool 70 is secured, or when a function for holding a cord is strongly required at each end of the cord bundling device.
[0042]
Although the embodiment has been described above, the present invention is not limited to this, and includes the following cases, for example. The connection cords 1 and 2 in the separation cord portion 12 of FIG. 1 may be bundled by the cord bundling tool 20. The cord includes various cords (so-called cords), for example, one that is exclusively used for electric signal transmission (for example, two for audio transmission of stereo sound in audio equipment) Appropriate devices such as wiring, three wires including video signal transmission, and the like, which are exclusively used for transmission of pressure, gas, and fluid such as liquid are applicable. In particular, it is preferable to be applied to a flexible cord, and among them, it is preferably applied to a case where the covering member positioned at least on the outermost periphery is an elastic member. The number of holding cylinders can be appropriately selected according to the number of cords to be bundled. The cord bundling tool 20, 30, 40, 50, 60, 70 can be made of an appropriate material such as metal or synthetic resin, but it is preferable to integrally form a hard synthetic resin by injection molding. In addition to the cost, the holding cylinder portions 21, 22, 44 to 46, and 51 to 54 can be given an appropriate elastic deformation that enlarges the opening width of the slit, which is preferable. The object of the present invention is not limited to what is explicitly stated, but also implicitly includes providing what is substantially preferred or expressed as an advantage.
[Brief description of the drawings]
FIG. 1 is a simplified perspective view showing an application example of a cord bundling device according to the present invention.
FIG. 2 is an enlarged perspective view showing a cord bundling tool and a connection cord according to the present invention.
FIG. 3 is a view of the cord bundling tool of FIG. 2 as viewed from the side where the opening width of the slit is large.
4 is a view of the cord bundling tool of FIG. 2 as viewed from the side where the opening width of the slit is small.
5 is a side view of the cord bundling tool of FIG. 2 as viewed from the slit side.
6 is a plan view of the cord bundling tool of FIG. 2. FIG.
7 is a view corresponding to FIG. 3, showing a state immediately before the connection cord is completely fitted to the cord bundling tool of FIG. 2;
8 shows a second embodiment of the present invention and is a side view corresponding to FIG. 5. FIG.
FIG. 9 is a diagram corresponding to FIG. 4, showing a third embodiment of the present invention.
FIG. 10 is a diagram corresponding to FIG. 4, showing a fourth embodiment of the present invention.
11 shows a fifth embodiment of the present invention and corresponds to FIG.
12 is a perspective view showing an example of a suitable cord using the cord bundling tool shown in FIG. 11. FIG.
FIG. 13 shows a sixth embodiment of the present invention and corresponds to FIG.
[Explanation of symbols]
TC: Low frequency treatment device
D1, D2: Suction electrode
1, 2: Connection cord
10: Set code part
11, 12: Separation code part
20: Cord bundling tool
20a: one end
20b: the other end
21, 22: Holding cylinder part
23, 24: Slit
L1: Opening width (large)
L2: Opening width (small)
30: Cord bundling tool (Fig. 8)
35: Intermediate position
40: Cord bundling tool (Fig. 9)
41-43: Holding cylinder part
44-46: Slit
50: Cord bundling tool (Fig. 10)
51-54: Holding cylinder
55-58: Slit
60: Cord bundling tool (Fig. 11)
61: Enlarged opening
61a, 61b: Enlarged part
1a, 2a: Branch code
70: Cord bundling tool (Fig. 13)
71: Enlarged middle part

Claims (12)

A cord bundling tool for bundling multiple cords,
Integrated with each other, each having a plurality of holding cylinders for holding one cord,
A detachable slit is formed on the side surface of each holding cylinder portion so as to extend over the entire length of the holding cylinder portion and the cord is inserted and removed from the side.
The opening width of the slit is set so that one end side is larger than the other end side in the axial direction of the holding cylinder portion.
Cord bundling tool characterized by that. In claim 1,
The cord bundling device, wherein an opening width of the slit is set so as to gradually decrease from the one end side to the other end side of the holding cylinder portion. In claim 2,
The cord bundling device, wherein an opening width of the slit is set so as to become tapered from the one end side toward the other end side. In claim 1,
The opening width of the slit is the same size from the other end side to a predetermined intermediate position, and is set to gradually increase from the intermediate position toward the one end side. Cord bundling tool. In any one of Claims 1 thru | or 3,
A pair of enlarged portions are formed in the middle portion of the slit so as to face each other, and the maximum opening width at the middle portion including the pair of enlarged portions is the largest of the opening widths of the slit. A cord bundling tool characterized by being set to In claim 5,
A cord bundling tool characterized in that an opening shape including the pair of enlarged portions at the intermediate portion is set to a shape corresponding to a cross-sectional shape of the cord held by the holding cylinder portion. . A cord bundling tool for bundling multiple cords,
Integrated with each other, each having a plurality of holding cylinders for holding one cord,
A detachable slit is formed on the side surface of each holding cylinder portion so as to extend over the entire length of the holding cylinder portion and the cord is inserted and removed from the side.
The opening width of the slit is set to be the largest in the intermediate portion in the axial direction of the holding cylinder portion, and gradually decreases from the intermediate portion toward one end side and the other end side of the holding cylinder portion. Is set to be
Cord bundling tool characterized by that. In the longitudinal direction, the plurality of cords are integrated with each other at least at an intermediate portion thereof to be a collective cord portion, and the plurality of cords on at least one end side of the collective cord portion are mutually connected. It is a separate code part that is separated individually,
A plurality of cords in the separation cord part are bundled by a cord bunching tool,
The cord bundling tool is:
Integrated with each other, each having a plurality of holding cylinders for holding one cord,
A detachable slit is formed on a side surface of each holding cylinder portion so as to extend over the entire length of the holding cylinder portion and the cord is inserted and removed from the side thereof, and the cord is held through the slit. Inserted and held in the cylinder part,
The opening width of the slit is set so that one end side is larger than the other end side in the axial direction of the holding cylinder portion,
The cord bundling tool has an orientation in which the one end side with the large opening width of the slit faces the aggregated cord portion and the other end side with the small opening width of the slit faces the distal end side of the separation cord portion. Bundling the separation code part,
Cord bundling structure characterized by that. In claim 8,
The cord bundling structure, wherein an opening width of the slit is set so as to gradually decrease from the one end side to the other end side of the holding cylinder portion. In claim 9,
A cord bundling structure, wherein an opening width of the slit is set so as to decrease in a tapered shape from the one end side toward the other end side. In claim 8,
The opening width of the slit has the same size from the other end side to a predetermined intermediate portion, and is set to gradually increase from the intermediate portion toward the one end side. Cord bundling structure. In any one of Claims 8 thru | or 11,
The plurality of cords connect a treatment device body and a suction type electrode in a low frequency treatment device, and include a negative pressure passage for negative pressure suction and an electric wiring for transmitting an electric signal for treatment. A cord bundling structure characterized by having flexibility as a whole.

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