JP4531999B2 - Safety belt mounting device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a safety belt attaching device for detachably attaching a safety belt to prevent a worker from falling.
[0002]
[Prior art]
For example, in maintenance, inspection work, etc. of a large transformer, an operator rides on the top surface of the top cover of the transformer. Large transformers generally have a height of 2m or more. Therefore, work on the top cover of this transformer corresponds to so-called high-altitude work. To ensure the safety of workers, laws and regulations are required. It is obliged to take various safety measures, and as one of the safety measures, a safety belt attaching device for detachably attaching a safety belt for preventing a worker from falling is provided. Yes.
[0003]
As an example of a conventional safety belt attaching device, an attachment member is fixed to a top cover of a transformer, and a support pole is detachably attached to the attachment member. In this mounting device, the support pole is detachably attached to the mounting member fixed to the top cover when working at a high place, and the hook of the safety belt attached to the operator's waist is detachably attached to the tip annular portion of the support pole. Installed. Then, after the work is finished, the support pole is removed from the attachment member after the hook of the safety belt is removed, and the attachment member remains on the top cover.
[0004]
As another example of the safety belt mounting device, a fixing base is fixed to the edge of the top cover of the transformer, a hollow cylindrical supporting cylinder is fixed to the fixing base, and a supporting pole is vertically mounted on the supporting cylinder. A slidable attachment is known (Japanese Patent Laid-Open No. 2000-91128). In this mounting device, when working at a high place, the support pole is slid upward, the tip of the support pole is projected so as to extend upward from the support cylinder, and the safety is attached to the operator's waist on the tip annular portion of the support pole. A belt hook is detachably attached. Then, after the work is finished, the support pole is slid downward after the hook of the safety belt is removed, and most of the support pole is stored below the support cylinder.
[0005]
[Problems to be solved by the invention]
However, the safety band attaching device described above has the following problems to be solved. In the form of removing the support pole, it is necessary to attach the support pole at the start of maintenance and inspection of the transformer and to remove the support pole at the end of the work, and the installation and removal work of the support pole is complicated. . In addition, the weight of the support pole is about 8 kg, and it is not easy to handle, and there is a risk that it will be damaged by being applied to an insulator or the like during installation and removal. Also, in the configuration in which the support pole is slid, most of the support pole is located below the support cylinder when stored, so it can be attached to the periphery of the top cover, but it is substantially attached to the inner part of the top cover. It cannot be installed on top, and its installation location is greatly limited.
[0006]
An object of the present invention is to provide a safety belt attaching device that is hardly subjected to restrictions on installation locations and that can ensure electrical insulation from a high voltage portion such as a transformer.
[0007]
The present invention Hollow cylindrical The mounting device main body and the mounting device main body are mounted in a telescopic manner , Consisting of a hollow cylindrical pole body With a pole mechanism,
The mounting device main body is provided with a guide groove, and the guide groove extends in the axial direction upward of the mounting device main body, a connection groove extending in the circumferential direction from the upper end portion of the guide groove, and the connection groove A locking groove extending downward from the one end in the axial direction,
The pawl mechanism is provided with a locking pin that is moved along the guide groove,
When the pole mechanism is lifted upward and rotated in a predetermined direction, the locking pin of the pole mechanism moves along the guide groove portion of the guide groove, and then moves along the connection groove portion. When the pole mechanism is lowered, the locking pin is brought into contact with the locking groove of the guide groove by its own weight. Will be locked Thus, the pawl mechanism is a safety belt mounting device that is held in an extended state with respect to the mounting device body.
[0008]
According to the present invention, the mounting device body is provided with a guide groove, the guide groove has a guide groove portion, a connection groove portion, and a locking groove portion, and the pawl mechanism has a locking mechanism that moves along the guide groove. Since the pin is provided, when the tip of the pole mechanism is lifted, the engagement pin moves along the guide groove of the guide groove, and then when the pole mechanism is rotated in a predetermined direction, the engagement pin is moved to the guide groove. After moving from the guide groove along the connecting groove and then lowering the pole mechanism downward, the engagement pin is moved to the locking groove of the guide groove by the weight of the pole mechanism. Will be locked The pole mechanism is held in an extended state from the attachment device body, and the pole mechanism can be held in the extended state by such a simple operation. In this extended state, the pole mechanism extends upward from the attachment device body and can be maintained at a predetermined height. In this extended state, contrary to the above, the pole mechanism can be stored in the mounting device body by lifting the pole mechanism and then rotating it in the direction opposite to the predetermined direction and then lowering it downward. it can. In this stored state, the lower part of the pole mechanism is stored in the mounting device body, so that the height of the safety band mounting device as a whole can be lowered, thereby maintaining a distance from the high voltage part such as a transformer. Thus, electrical insulation from the high-voltage portion can be ensured. Further, in this attachment device, since the pole mechanism only extends upward, it can be extended and stored without worrying about members installed around it, such as piping, and the installation location is also particularly limited. And can be installed at a desired location.
[0009]
Further, in the present invention, the pole mechanism includes a first pole body that is elastically attached to the attachment device body, and a second pole body that is elastically attached to the first pole body, The locking pin is provided on the first pole body,
The first pole body is further provided with a first groove. The first groove extends from the upper end portion of the guide groove portion and extends upward in the axial direction of the first pole body. A connecting groove extending in the direction, and a locking groove extending downward from the one end of the connecting groove in the axial direction,
The second pole body is provided with a first pin that is moved along the first groove,
When the tip of the pole mechanism is lifted upward and rotated in a predetermined direction, the locking pin of the pole mechanism moves along the guide groove of the guide groove and then moves along the connection groove, The first pin of the pole mechanism moves along the guide groove portion of the first groove and then moves along the connection groove portion. Thereafter, when the pole mechanism is lowered downward, the locking pin Is caused in the locking groove portion of the guide groove by the weight of the first pole body. Become locked And the first pin is inserted into the locking groove of the first groove by the weight of the second pole body. Will be locked Thus, the first and second pole bodies of the pole mechanism are held in an extended state with respect to the attachment device main body.
[0010]
According to the present invention, the pole mechanism includes first and second pole bodies, the first pole body is provided with a locking pin that is guided along the guide groove of the mounting apparatus body, and the first The pole body is provided with a first groove, and the second pole body is provided with a first pin guided along the first groove. When lifted upward, the engagement pin and the first pin move along the guide groove and the guide groove portion of the first groove, and then when the pole mechanism is rotated in a predetermined direction, the engagement pin and the first pin are When the pole mechanism is moved downward from the guide groove portion of the guide groove and the first groove along the connection groove portion, the engagement pin and the first pin are guided by the weights of the first and second pole bodies. In the locking groove of the groove and the first groove Will be locked The first and second pole bodies of the pole mechanism are held in an extended state from the attachment device body, and the pole mechanism can be extended and held in two stages by such a simple operation. In this extended state, contrary to the above, the first and second pole bodies of the pole mechanism are lifted by rotating the pole mechanism in the opposite direction to the predetermined direction and then lowering it downward. Can be stored in the mounting device body, and by storing in two stages in this way, the overall height of the safety belt mounting device in the stored state can be further reduced, thereby allowing high voltage parts such as transformers to be stored. Further electrical insulation can be ensured.
[0011]
Further, in the present invention, the pole mechanism includes a third pole body that is elastically attached to the second pole body, and the second pole body is provided with a second groove, The second groove extends in the axial direction upward of the second pole body, a connection groove extending in the circumferential direction from the upper end of the guide groove, and extends downward in the axial direction from one end of the connection groove. The third pole body is provided with a second pin that is moved along the second groove,
When the tip of the pole mechanism is lifted upward and rotated in a predetermined direction, the locking pin of the pole mechanism moves along the guide groove of the guide groove and then moves along the connection groove, The first and second pins of the pole mechanism move along the guide groove portion of the first and second grooves and then move along the connection groove portion, and then lower the pole mechanism downward. And the locking pin is inserted into the locking groove portion of the guide groove by the weight of the first pole body. Become locked And the first and second pins are inserted into the locking groove portions of the first and second grooves by the weight of the second and third pole bodies. Will be locked Thus, the first, second and third pole bodies of the pole mechanism are held in an extended state with respect to the attachment device main body.
[0012]
According to the present invention, the pole mechanism further includes a third pole body, the second pole body is provided with a second groove, and the third pole body moves along the second groove. When the tip of the pole mechanism is lifted upward, the engaging pin and the first and second pins are moved into the guide groove and the guide groove portions of the first and second grooves. When the pawl mechanism is rotated in a predetermined direction, the engaging pin and the first and second pins move from the guide groove and the guide groove portion of the first and second grooves along the connection groove portion. Thereafter, when the pole mechanism is lowered, the engaging pins and the first and second pins are moved into the guide grooves and the locking groove portions of the first and second grooves by the weights of the first to third pole bodies. Will be locked The first, second, and third pole bodies of the pole mechanism are held in an extended state from the attachment device body, and the pole mechanism can be extended and held in three stages by such a simple operation. In this extended state, contrary to the above, the pole mechanism is lifted and then rotated in the direction opposite to the predetermined direction, and then lowered downward, so that the first, second and third of the pole mechanism are lowered. The pole body can be stored in the main body of the mounting device, and the total height of the safety belt mounting device in the stored state can be further reduced by storing in three stages in this way, thereby enabling high voltage such as a transformer. The distance from the portion can be kept larger.
[0013]
In the present invention, the mounting device body includes a hollow cylindrical body and a mounting seat fixed to the lower end of the hollow cylindrical body, and the pole mechanism is configured to be housed in the hollow cylindrical body. When the pole mechanism is housed in the hollow cylindrical main body, the lower end thereof abuts on the mounting seat.
According to the present invention, the apparatus mounting body has a hollow cylindrical main body and a mounting seat fixed to the lower end of the hollow cylindrical main body. When the pole mechanism is stored in the hollow cylindrical main body, the lower end becomes the mounting seat. At this time, it is possible to prevent the engagement pin of the pole mechanism from contacting the lower end of the guide groove of the mounting apparatus body at this time, and thus it is possible to prevent a large impact from acting on the locking pin.
[0014]
Furthermore, the present invention is characterized in that a hook attachment ring is provided at the tip of the pole mechanism, and a resin ring is provided on the hook attachment ring.
According to the present invention, the hook ring provided at the tip of the pole mechanism is provided with a resin ring, and when the pole mechanism is housed in the mounting device body, the resin ring comes into contact with the mounting device body and the like. As a result, the hook mounting ring can be prevented from coming into contact, and the impact during storage can be reduced. In addition, in the contact state of the resin ring, a certain amount of space is secured between the ball mounting ring and the mounting device body, so that the operator's fingers are not caught and sufficient safety is ensured. The
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, with reference to an accompanying drawing, one embodiment of a safety belt attaching device according to the present invention is described. 1 is a view showing a state in which an embodiment of a safety band attaching device according to the present invention is installed, FIG. 2 is a cross-sectional view showing a state in which the safety belt attaching device in FIG. 1 is housed, and FIG. FIG. 4 is a front view showing the safety belt attaching device of FIG. 1 in an extended state, and FIGS. 4A and 4B are a front view and a plan view showing the attachment device main body of the safety belt attaching device of FIG. 5 (a) and 5 (b) are a front view and a plan view showing the first pole body of the safety band attaching device of FIG. 1, and FIGS. 6 (a) and 6 (b) are safety views of FIG. It is the front view and top view which show the 2nd pole body of a belt | band | zone attachment apparatus, FIG.7 (a) and (b) are the front views and top views which show the 3rd pole body of the safety band attachment apparatus of FIG. It is.
[0016]
In FIG. 1, the illustrated safety belt attaching device 2 is installed on the upper surface of the top cover 6 of the high-voltage transformer 4, for example. In this embodiment, the mounting base 8 is fixed to a predetermined portion of the top cover 6 by means such as welding, and the safety band mounting device 2 is attached to the mounting plate 10 of the mounting base 8. The safety belt mounting device 2 is not limited to such a mounting structure, and other structures, for example, a support angle, a reinforcing angle, etc. are fixed to the top cover 6, and the supporting angle and the reinforcing angle are attached via a mounting base 8. The safety belt attaching device 2 may be installed.
[0017]
A support cover 12 is attached to the top cover 6 of the high-voltage transformer 4, a top cover 14 is fixed to the upper end of the support cover 12, and a high-voltage insulator 16 is attached to the upper surface of the top cover 14. A bushing 18 that covers the high-pressure connecting portion is attached to the upper end of the high-pressure insulator 16. In the high voltage transformer 4, a high voltage is applied to a portion covered with the bushing 18. For example, electrical insulation must be ensured with a predetermined interval between the bushing 18 and the support. The cover 12, the top cover 14, and the like are provided apart from the bushing 18 by a predetermined distance, and sufficient electrical insulation is ensured between the bushing 18.
[0018]
Next, the illustrated safety band mounting device 2 will be described. The safety band mounting device 2 is composed of a mounting device main body 20 and a pole mechanism 21 that is elastically mounted on the mounting device main body 20. The pole mechanism 21 includes a first pole body 22, a second pole body 24, and a third pole body 26. 1 to 4, the mounting apparatus main body 20 shown in the figure has a hollow cylindrical main body 28 and a mounting seat 30 fixed to the lower end of the hollow cylindrical main body 28 by means such as welding. The mounting seat 30 is placed on the mounting plate 10 of the mounting base 8 and is connected by using fixing bolts and nuts (both not shown), so that the mounting device body 20 is attached to the mounting base 8. It is attached.
[0019]
Four reinforcing plates 32 are fixed to the connection portion between the hollow cylindrical main body 28 and the mounting seat 30 at intervals in the circumferential direction. In addition, a through hole 34 is provided in a substantially central portion of the mounting seat 30, and the inside and the outside of the hollow cylindrical main body 28 communicate with each other through the through hole 34, and air flows in and out through the through hole 34. As a result, the expansion and contraction of the pole mechanism 21 described later becomes smooth. A guide groove 36 is provided at a predetermined portion of the hollow cylindrical main body 28. The guide groove 36 will be described later.
[0020]
Next, the first pole body 22 will be described with reference to FIGS. 2, 3, and 5. The illustrated first pole body 22 includes a hollow cylindrical pole body 38. The outer diameter of the pole body 38 is substantially equal to the inner diameter of the hollow cylindrical body 28 of the mounting apparatus body 20, and the length in the axial direction (vertical direction in FIGS. 1 to 3) is the axial direction of the hollow cylindrical body 28 (see FIG. 1 to 3 is substantially equal to the length in the vertical direction), and the pole body 38 is attached to the inside of the hollow cylindrical main body 28 of the mounting apparatus main body 20 so as to be stretchable as shown in FIGS. . A locking pin 40 that is located in the guide groove 36 of the mounting device main body 20 and moves along the guide groove 36 is attached to a predetermined portion below the pole body 38, and is different from the predetermined portion of the pole body 38. A first groove 42 is provided at a predetermined portion of the first groove 42. The first groove 42 will also be described later.
[0021]
The second pole body 24 will be described with reference to FIGS. 2, 3 and 6. The illustrated second pole body 24 has substantially the same configuration as the first pole body 22 described above, and is hollow. A cylindrical pole body 44 is formed. The outer diameter of the pole body 44 is substantially equal to the inner diameter of the pole body 38 of the first pole body 22, and the length in the axial direction (vertical direction in FIGS. 1 to 3) is substantially the same as the length of the pole body 38 in the axial direction. As shown in FIGS. 2 and 3, the pole body 44 is telescopically mounted inside the pole body 38 of the first pole body 22. A first pin 46 that is located in the first groove 42 of the first pole body 22 and moves along the first groove 46 is attached to a predetermined portion below the pole body 44. A second groove 48 is provided in another predetermined portion different from the predetermined portion. The second groove 48 will also be described later.
[0022]
The third pole body 26 will be described with reference to FIGS. 2, 3, and 7. The illustrated third pole body 26 has substantially the same configuration as the second pole body 24 described above, and is hollow. The cylindrical pole body 50 is constituted. The outer diameter of the pole body 50 is substantially equal to the inner diameter of the pole body 44 of the second pole body 24, and its axial direction (vertical direction in FIGS. 1 to 3) is longer than the axial length of the pole body 38. As shown in FIGS. 2 and 3, the pole body 50 is attached to the inside of the pole body 44 of the second pole body 24 so as to be stretchable. A second pin 52 that is located in the second groove 48 of the second pole body 24 and moves along the second groove 52 is attached to a predetermined portion of the lower part of the pole body 50.
[0023]
In the safety band attaching device 2, when the pole mechanism 21 is stored, as shown in FIG. 2, the entire pole body 38 of the first pole body 22 is placed inside the hollow cylindrical body 28 of the attaching device body 20. The entire pole body 44 of the second pole body 24 is substantially accommodated inside the pole body 38 of the first pole body 22, and the second pole body 44 is substantially accommodated inside the pole body 44. Most of the pole body 50 of the three-pole body 26 is accommodated, the upper end portion of the pole body 50 of the third pole body 26 protrudes upward from the mounting device body 20, and a hook attachment ring 54 is formed on this protrusion of the pole body 50. It is installed.
[0024]
In this embodiment, a screw member 56 is attached to the pole body 50 of the third pole body 26 so as to penetrate through the pole body 50, and hook attachment rings 54 are provided at both ends of the screw member 56 protruding from the pole body 50, For example, it is fixed by means such as welding. Further, a fixing nut 58 is screwed on the inner side of the pole body 50 of the screw member 56 to prevent the screw member 56 from rotating. A resin ring 61 is interposed between each hook attachment ring 54 and the pole body 50. The resin ring 61 is fitted on the base of the hook attachment ring 54, and when the pole mechanism 21 is in the retracted state, the resin ring 54 comes into contact with the upper surfaces of the first and second pole bodies 22 and 24. The hook attachment ring 54 is prevented from coming into direct contact with the attachment device main body 20 or the like. Further, a resin cap member 60 for closing the upper surface opening has arrived at the upper end of the third pole body 26, and a sticker (not shown) indicating how to use it is provided on the upper surface of the cap member 60, for example. ) Is affixed.
[0025]
Next, mainly with reference to FIGS. 4 to 6, the guide groove 36 of the mounting apparatus body 20 and the first and second grooves 42 and 48 of the first and second pole bodies 22 and 24 will be described. In the embodiment, the guide groove 36 and the first and second grooves 42 and 48 have substantially the same configuration, and the guide groove 36 (first and second grooves 42 and 48) will be described below. The guide groove 36 (grooves 42, 48) includes a guide groove portion 62 extending in the axial direction from the lower portion to the upper portion of the hollow cylindrical main body 28, a connection portion 64 extending in the circumferential direction from the upper end of the guide groove portion 62, and the connection portion. 64 has a locking groove portion 66 that extends shortly downward from the front end thereof, and the locking pin 40 (pins 46, 52) of the first pole body 22 (pole body 24, 26) is connected to the guide groove portion 62. It moves through the groove 64 and the locking groove 66 as described later.
[0026]
In the safety belt attaching device 2 of this embodiment, the attaching device main body 20 and the first, second and third pole bodies 22, 24, 26 are made of, for example, reinforced aluminum, and thus the attaching device is formed. The weight can be reduced, the handling of the installation and the like becomes easy, and the occurrence of rust which becomes a problem when installed outdoors can be prevented. Further, the locking pin 40 and the first and second pins 46 and 52 are made of, for example, stainless steel in order to ensure sufficient strength. The amount of protrusion of these pins 40, 46, 52 is substantially equal to the thickness of the hollow cylindrical body 28 and the first and second pole bodies 38, 44, so that the tips of the pins 40, 46, 52 are radially outward. It is accommodated in the grooves 36, 42.48 without protruding in the direction. The locking pin 40 and the first and second pins 46 and 52 may be fixed to the first, second and third pole bodies 22, 24 and 26 by means such as press fitting, or may be screwed together. However, in the case of fixing by screw connection, when screwing into the first, second and third pole bodies 22, 24, 26, a screw reinforcing member (for example, trade name “ It is preferable that the locking pin 40 and the first and second pins 46 and 52 are screwed together with the first and second and second and second pins 46 and 52 interposed therebetween. The strength of the threaded portion of the third pole body 22, 24, 26 can be increased.
[0027]
Next, mainly with reference to FIGS. 1-3, the expansion / contraction operation of the safety band attachment apparatus 2 mentioned above is demonstrated. The safety band attaching device 2 is shown as a two-dot chain line in FIG. 1 and extended as shown in FIG. 3 when performing maintenance and inspection of the high-voltage transformer 4. In order to extend in this manner, the tip of the pole mechanism 21, in this embodiment, the tip of the third pole body 26 protruding from the attachment device main body 20 is lifted upward, and then in a predetermined direction (in this embodiment, the attachment device main body (Clockwise with respect to 20) and then lowered downward. When the tip of the pole mechanism 21 is lifted upward, the second pin 52 of the third pole body 26 is inserted into the guide groove 62 of the second groove 48 of the second pole body 24 as understood from FIG. The second pole body 24 is lifted with the movement of the third pole body 26 and the first pin 46 of the second pole body 24 is moved. It moves along the guide groove 62 of the first groove 42 of the first pole body 22. And after the 1st pin 46 contact | abuts to the upper end of the guide groove part 62 of the 1st groove | channel 42, the 1st pole body 22 is lifted with the movement of the 2nd pole body 24, and 1st The locking pin 40 of the pole body 24 moves along the guide groove portion 62 of the guide groove 36 of the mounting apparatus main body 20, and the locking pin 40 contacts the upper end of the guide groove portion 62 of the guide groove 36, whereby the first The pole body 22 is prevented from moving.
[0028]
Then, when the third pole body 26 is rotated in a predetermined direction from this state, the second pin 52 of the third pole body 26 moves along the connection groove portion 64 of the second groove 48 and reaches the tip thereof. Then, the second pole body 24 is rotated in a predetermined direction along with the movement of the third pole body 26, and the first pin 46 of the second pole body 24 is connected to the connecting groove portion of the first groove 42. 64, and after the first pin 46 comes into contact with the tip of the connecting groove 64 of the first groove 42, the first pole body 22 moves along with the movement of the second pole body 24. The locking pin 40 of the first pole body 24 is rotated in a predetermined direction and moves along the connection groove portion 64 of the guide groove 36 of the mounting apparatus body 20 to contact the tip of the connection groove portion 64 and thus contact. Thus, the rotation of the first pole body 22 in the predetermined direction is prevented.
[0029]
And when lowering from this state, As can be easily understood from FIG. The locking pin 40 of the first pole body 22 moves along the locking groove 66 of the guide groove 36. By the weight of the first pole body When the third pole body 26 is lowered after coming into contact with its lower end, the first pin 46 of the second pole body 24 moves along the locking groove 66 of the first groove 42. By the weight of the second pole body When the third pole body 26 is lowered further after coming into contact with the lower end, the second pin 52 of the third pole body 26 moves along the locking groove 66 of the second groove 48. By the weight of the third pole body The lower end abuts against the lower end, thereby preventing the lower movement of the third pole body 26. In this way, the safety band attaching device 2 can be held in the extended state by a simple operation of lifting the tip end portion of the pole mechanism 21, rotating it in a predetermined direction, and then lowering it downward.
[0030]
When the pole mechanism 21 is in the extended state, the height of its tip, in other words, the hook mounting ring 54 is about 1 m from the top cover 6 of the transformer 4, and the operator who maintains and inspects the transformer is By attaching the hook of the safety band attached to the hook attachment ring 54 so as to be detachable, the work can be performed safely even at a high place.
[0031]
In order to put the extended safety belt attaching device 2 into the retracted state, the tip end portion of the pole mechanism 21, in this embodiment, the upper end portion of the third pole body 26 is lifted upward and then rotated in a direction opposite to the predetermined direction. Then, it may be lowered downward. When the third pole body 50 is lifted, the engaging pin 40 and the first and second pins 46 and 52 are guided by the guide groove 36 and the first and second grooves 42 and 52, as can be easily understood from the above description. When the locking groove portion 66 of the 48 is moved and brought into contact with the upper end thereof and then rotated in the direction opposite to the predetermined direction, the engaging pin 40 and the first and second pins 46 and 52 are moved to the guide groove 36 and the first groove. When the connection groove portion 64 of the second grooves 42 and 48 is moved to abut against the base portion and then lowered downward, the engaging pin 40 and the first and second pins 46 and 52 are moved to the guide groove 36 and the first groove 46. The guide grooves 62 of the second grooves 42 and 48 are moved and positioned below the guide grooves 62. At this time, before the engaging pin 40 and the first and second pins 46 and 52 come into contact with the lower ends of the guide grooves 62 of the grooves 36, 42 and 48, the first, second and third pole bodies 22. , 24 and 26 are in contact with the mounting seat 30 of the mounting apparatus main body 20 and are held in the retracted state shown in FIG. 1 by the solid line, and these pins 40, 46 and 52 correspond to the corresponding grooves 36, 42, Contact with the lower end of 48 can be avoided, and a large impact force can be prevented from acting on the pins 40, 46, 46.
[0032]
In this housed state, the upper end of the safety belt mounting device 2 is positioned below the top cover 14, and by maintaining this positional relationship, electrical insulation is ensured away from the bushing 18 of the transformer 4 by a predetermined distance or more. It can be confirmed easily.
In the safety band attaching device 2 described above, since the pole mechanism 21 extends and contracts with respect to the attaching device main body 20, the installation place is less restricted and can be attached to a wide application range.
[0033]
Further, in such a safety band attaching device, the attachment device main body 20 and the distal end portion of the pole mechanism 21 protruding from the housing device 20 in the housed state (in this embodiment, the distal end portion of the third pole body 26) are used, for example, as the transformer 4. The other parts of the pole mechanism 21 (in this embodiment, the entire first and second pole bodies 22 and 24 and most of the remaining third pole band 26) are applied to the transformer 4 It is also possible to apply a color different from that of, for example, yellowish red. When configured in this manner, the housing state, in other words, the state in which electrical insulation is ensured by looking at the appearance of the safety band attaching device 2, particularly its paint color, is the extended state, in other words, the electrical insulation. Therefore, it is possible to easily determine whether the state is not secured, and it is possible to easily check the work safety after maintenance and inspection.
[0034]
As mentioned above, although one embodiment of the safety belt attaching device according to the present invention has been described, the present invention is not limited to such an embodiment, and various changes or modifications can be made without departing from the scope of the present invention. .
For example, in the illustrated embodiment, one guide groove 36 and one each of the first and second grooves 42 and 48 are provided. However, the present invention is not limited to this, and two grooves 36 and 42.48 are provided. Corresponding to this, two engaging pins 40 and two first and second pins 46 and 52 may be provided.
[0035]
Further, for example, in the illustrated embodiment, the entire safety band attaching device 2 is configured in four stages (the pole mechanism 21 is accommodated in three stages), but the present invention is not limited to this, and the entire safety band attaching apparatus is You may make it comprise in 2 steps | paragraphs, 3 steps | paragraphs, or 5 steps | paragraphs or more.
[Brief description of the drawings]
FIG. 1 is a diagram showing a state in which an embodiment of a safety band attaching device according to the present invention is installed.
2 is a cross-sectional view showing a state in which the safety band attaching device of FIG. 1 is housed. FIG.
FIG. 3 is a front view showing the safety band attaching device of FIG. 1 in an extended state.
4 (a) and 4 (b) are a front view and a plan view showing a mounting device main body of the safety belt mounting device of FIG.
FIGS. 5A and 5B are a front view and a plan view showing a first pole body of the safety band attaching device of FIG. 1;
6A and 6B are a front view and a plan view showing a second pole body of the safety band attaching device of FIG.
7 (a) and 7 (b) are a front view and a plan view showing a third pole body of the safety band attaching device of FIG.
[Explanation of symbols]
2 Safety belt mounting device
4 High voltage transformer
20 Mounting device body
21 Pole mechanism
22 First pole body
24 Second pole body
26 Third pole body
36 guide groove
40 Locking pin
42 First groove
46 1st pin
48 Second groove
52 second pin
54 Hook mounting ring
62 Guide groove
64 Connection groove
66 Locking groove

Claims (5)

A hollow cylindrical mounting device main body, and a pole mechanism composed of a hollow cylindrical pole body, which is attached to the mounting device main body so as to be extendable and contractible,
The mounting device main body is provided with a guide groove, and the guide groove extends in the axial direction upward of the mounting device main body, a connection groove extending in the circumferential direction from the upper end portion of the guide groove, and the connection groove A locking groove extending downward from the one end in the axial direction,
The pawl mechanism is provided with a locking pin that is moved along the guide groove,
When the pole mechanism is lifted upward and rotated in a predetermined direction, the locking pin of the pole mechanism moves along the guide groove portion of the guide groove, and then moves along the connection groove portion. When the pole mechanism is lowered, the locking pin is locked in the locking groove portion of the guide groove by its own weight , and thus the pole mechanism is extended with respect to the mounting device main body. A safety band attaching device characterized by being held. The pole mechanism includes a first pole body that is telescopically attached to the mounting device body and a second pole body that is telescopically attached to the first pole body, and the first pole body Is provided with the locking pin,
The first pole body is further provided with a first groove. The first groove extends from the upper end portion of the guide groove portion and extends upward in the axial direction of the first pole body. A connecting groove extending in the direction, and a locking groove extending downward from the one end of the connecting groove in the axial direction,
The second pole body is provided with a first pin that is moved along the first groove,
When the tip of the pole mechanism is lifted upward and rotated in a predetermined direction, the locking pin of the pole mechanism moves along the guide groove of the guide groove and then moves along the connection groove. The first pin of the pole mechanism moves along the guide groove portion of the first groove and then moves along the connection groove portion. After that, when the pole mechanism is lowered downward, the locking pin Is engaged with the engagement groove portion of the guide groove by the weight of the first pole body, and the first pin is engaged with the engagement of the first groove by the weight of the second pole body. a state that locks the locking groove, thus the first and second pole body of the pawl mechanism is safety belt according to claim 1, characterized in that it is held in a stretched state relative to the mounting device body Mounting device. The pole mechanism includes a third pole body that is elastically attached to the second pole body, and the second pole body is provided with a second groove, and the second groove is A guide groove that extends upward in the axial direction of the second pole body, a connection groove that extends in the circumferential direction from the upper end of the guide groove, and a locking groove that extends downward in the axial direction from one end of the connection groove. The third pole body is provided with a second pin that is moved along the second groove,
When the tip of the pole mechanism is lifted upward and rotated in a predetermined direction, the locking pin of the pole mechanism moves along the guide groove of the guide groove and then moves along the connection groove, The first and second pins of the pole mechanism move along the guide groove portion of the first and second grooves and then move along the connection groove portion, and then lower the pole mechanism downward. And the locking pin is locked to the locking groove portion of the guide groove by the weight of the first pole body, and the first and second pins are the second and third poles. Due to the weight of the body, the first and second grooves are locked in the locking groove portions, and thus the first, second and third pole bodies of the pole mechanism are in contact with the mounting device main body. To be kept stretched Safety belt attachment system of claim 2 wherein symptoms.   The mounting device main body has a hollow cylindrical main body and a mounting seat fixed to the lower end of the hollow cylindrical main body, and the pole mechanism is configured to be housed in the hollow cylindrical main body. The safety band attachment device according to any one of claims 1 to 3, wherein when the hollow cylindrical main body is housed, a lower end thereof abuts on the attachment seat.   5. The safety according to claim 1, wherein a hook attachment ring is provided at a tip portion of the pole mechanism, and a resin ring is provided on the hook attachment ring.

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