JP4884838B2 - Support column - Google Patents

Description

  The present invention relates to a support column to which a safety rope used for preventing an operator from falling from an aerial work site can be attached.

  For example, in power plants and substations, facilities (for example, power receiving / transforming facilities and station buildings) in which electric devices such as transformers and communication devices are arranged are installed outdoors. FIG. 6 is a diagram for explaining the facilities arranged in the substation. The facility 12 shown in the figure is of a mobile installation type, and in the figure, four facilities 12-1 to 12-4 are installed. It is in the state. Here, the joint covers 18-2 to 18-4 are provided at the portions where the ceiling portions 12a-1 to 12a-4 of the facilities 12-1 to 12-4 are adjacent to each other, and the joint covers 18-2 to 18-2 are provided. The facilities 12-1 to 12-4 are joined at 18-4. Moreover, the joining covers 18-1 and 18-5 are provided also in the ceiling parts 12a-1 and 12a-4 on the side not in contact with the facilities adjacent to the facilities 12-1 and 12-4.

  Each of the facilities 12-1 to 12-4 has a mass of 1 ton or more, and suspension tubes 14 that are annular bodies are provided at the four corners of the outer surface of the ceiling portions 12a-1 to 12a-4. The wire 16 is coupled to the 14 suspension holes, and is suspended and transported by a crane or the like. The suspension tube 14 is provided by welding to the ceiling portions 12a-1 to 12a-4. Here, as a method of suspending with a crane or the like, the facilities 12-1 to 12-4 are integrated as well as the facilities 12-1 to 12-4 individually as shown by the two-dotted line in FIG. Sometimes suspended.

  And although the facilities 12-1 to 12-4 have a height of 2 m or more in general, the workers have the ceilings 12a-1 to 12a-1 to the facilities 12-1 to 12-4 for reasons such as maintenance and inspection and replacement of electrical equipment. The necessary work is performed after going up to 12a-4.

  Here, the electric devices arranged in the facilities 12-1 to 12-4 are directly or indirectly responsible for one end of the functions of the power plant or substation, and the electric device has failed or the like. In some cases, it may cause burnout of electric facilities or power outages. Therefore, the necessary work is performed with careful attention so as not to adversely affect the electric devices arranged in the facilities 12-1 to 12-4.

  In such workplaces with heights of 2 m or higher (altitude workplaces), workers are required to take safety measures such as wearing safety belts with safety ropes attached to prevent them from falling from the workplace. It is obligatory. Therefore, the above safety measures need to be taken even when working on the ceiling portions 12a-1 to 12a-4. As such a safety measure, for example, in order to attach a safety rope, a support column is provided in the work place. Various types of support struts are applied depending on the environment of the installation workplace, the type of work, and the like.

  Patent Document 1 discloses a technique related to a support column (safety column) in FIGS. 1 and 2. The “fall prevention safety column” disclosed in the same document is installed and used on the ceiling portion of an elevator cage when performing work or construction, and has a structure that can be vertically expanded and contracted. And the locking means (12) etc. which lock the state which the safety support | pillar extended is cancelled | released by the lock release means (22) etc., and the safety support | pillar shrink | contracts. This unlocking means (22) etc., for example, is configured to operate when the tip of the safety column installed on the ceiling of the elevator in the extended state collides with the ceiling of the building as the elevator rises. Yes. This prevents damage to the safety struts and peripheral devices due to the operation of the elevator even if the safety struts are extended and forgetting to remove them, for example.

JP 2002-191710 A

  In the technique disclosed in Patent Document 1, a mounting hole (6) is provided in the mounting portion (5) of the safety column as a specific configuration for mounting the support column (safety column) to the workplace (see Patent Document 1). FIG. 1). That is, a hole is provided in a steel material or the like attached to the ceiling portion of the elevator, and a bolt for attachment is inserted into this hole and the attachment hole (6). However, for example, when attaching the support struts to the ceiling portions 12a-1 to 12a-4 of the facilities 12-1 to 12-4 described above, for example, providing holes penetrating the ceiling portions 12a-1 to 12a-4 Become. When such a through hole is provided, problems such as confirmation of the installation position of the devices inside the facilities 12-1 to 12-4 and processing such as chips when forming the through hole occur, and the work is complicated. It becomes. In addition, depending on the type of the facility 12-1 to 12-4, there is a case where an electrical device that may receive an electric shock (electric shock) by contact is installed inside, and in such a case, as described above Formation of the through hole becomes difficult.

  In addition, when the pedestal for attaching the support strut is provided by welding to the ceiling portions 12a-1 to 12a-4 of the facilities 12-1 to 12-4, local heat generated during welding is disposed inside. This causes problems such as adversely affecting the electrical equipment.

  An object of the present invention is to provide a support column that can be easily and reliably installed without performing complicated operations such as drilling and welding on a facility that has electrical equipment inside and has an annular body for rope suspension on the outer surface of the ceiling. Is to provide.

The support column according to claim 1 is:
In the support column for locking the rope for maintaining safety of the worker provided on the facility having the electrical equipment inside and having the annular body for suspending the rope on the outer surface of the ceiling, inserted into the annular body, a connecting portion performing connection between the annular body, and a cover base portion for covering the said connection portion, Installation on the ceiling outer surface of the lower end the facility is formed in a substantially fan shape that the principal of該被allowed pedestal portion A mounting portion having a base portion, a coupling portion that couples the mounting base to the connecting portion so as to maintain the installation state, and an upper end portion of the covering base portion that is erected and fixed at a predetermined position. And a column main body having a portion for locking the rope.

According to the present invention, since the support column can be installed using an annular body provided for rope suspension on the facility, it is supported without performing any drilling operation or welding operation on the installation facility. Support columns can be installed. Therefore, the complicated work resulting from the drilling work is eliminated, and the danger that the worker receives an electric shock from the electric equipment during the work is avoided. Furthermore, adverse effects on the electrical equipment in the facilities by a station plant thermal addition due to welding is also without causing, is formed in a substantially fan shape that a main lower end portion of the cover base portion formed in the installation base In addition, since the base portion is installed on the outer surface of the ceiling of the facility, it is possible to safely and easily fix the support column in a stable state. Moreover, since the base part is provided in the installation base, the installation state of the support column provided in the installation base is also stable.

The support column according to claim 2 is:
The coupling portion is coupled and fixed to the coupling portion main body so as to attract the coupling portion main body integrally provided on the coupling portion and the coupling portion integrally provided on the coupling portion main body to the installation base side. It has an attracting coupling part.

  In this way, the attracting coupling unit attracts the coupling unit main body (the coupling unit integrated with the coupling unit body) to the installation base side, but since the coupling unit is coupled to the annular body, as a result, the installation base is attached to the annular body. The result will be attracted. Since the annular body is fixed to the upper part of the facility, the attractive force of the attractive coupling portion acts to press the installation base in the direction of the facility. That is, the installation base is pressed and installed on the facility. With such a simple structure, the attachment of the support column using the annular body has been achieved without performing a drilling operation or the like in the facility.

The support column according to claim 3 is:
The connecting portion is formed to be opposed to each other with an interval capable of receiving the annular body, and has a pair of arm portions provided with holes at opposed positions, and is inserted into the hole portions of the pair of arm portions. Having the possible insertion body, and in the state where the annular body is received between the pair of arm portions, the connection is performed with the insertion body being inserted through the hole and the annular body. Features.

  Thereby, a connection part can be formed by simple structure, and the connection to the annular body of a connection part can also be performed by an easy operation | work. And the stabilization of a connection state is easily securable by performing the additional structure that an insertion body does not come off from a hole and an annular body.

The support column according to claim 4 is:
The coupling portion main body is formed as a rod-like body having a thread groove formed on the outer periphery thereof, and one end thereof is fixed to the outer surface of the upper end of the coupling base, and the attraction coupling portion is the coupling portion main body. The coupling portion main body is fixedly coupled to the installation base by allowing the coupling portion main body to pass through the ceiling portion of the covering base portion of the installation base from below, and the penetration portion Is performed by fastening with the nut body.

  As a result, the nut body is screwed into the coupling portion main body to perform a fastening operation, whereby the attracting coupling portion attracts the coupling portion main body and simultaneously presses the ceiling portion of the covering base portion of the installation base. Thus, the installation work of the installation base and the connecting portion can be performed with an easy work, and therefore the installation work of the support column is facilitated.

The support column according to claim 5 is:
The nut body is integrally fixed to a lower end portion of the column main body portion. By this structure, it becomes possible to fix a support | pillar main-body part to an installation base simultaneously by fastening a nut body with a coupling | bond part main body.

The support column according to claim 6,
The column main body has a hollow column shape with an open bottom, and the bottom is coupled and fixed to an outer surface of the ceiling of the covering table of the installation table, and the rod-shaped coupling unit main body is fixed in the fixed state. The penetrating part is in a state of being received inside.

  Thereby, in the state where the column main body is coupled and fixed, the coupling body and the nut body screwed into the coupling unit main body that are penetrated from below into the ceiling portion of the covering base are housed in the column main body. . Therefore, the protrusion of the constituent members of the support column to the outside is suppressed, and the configuration can be simplified and made compact as a whole.

The support column according to claim 7 is:
An elastic material is provided on the bottom surface of the base portion. Thereby, when the installation base is fixed on the ceiling outer surface of the facility, the stress acting on the ceiling outer surface can be reliably distributed over the entire bottom surface of the base portion. Accordingly, it is possible to prevent the outer surface of the facility from being damaged such as a dent due to the fixing of the installation table. Furthermore, the frictional force acting on the elastic material reliably prevents the installation base from sliding and rotating on the outer surface of the facility ceiling. In addition, when an impact is applied to the support column via the safety rope due to an operator falling or the like, the impact that acts on the annular fixed object due to the impact can be reduced.

  According to the support column of the present invention, on the facility having the electric equipment inside and having the ring suspension for the rope on the outer surface of the ceiling, the facility is provided with means such as drilling and welding. The support column can be installed without using it, and the support column can be installed without adverse effects on the inside of the facility, complicated installation work, or complicated structure.

  Next, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a diagram illustrating an installation state of a support column according to the present embodiment in a facility. As a facility, a facility 12 similar to that shown in FIG. 6 is taken as an example. Here, the same elements as those shown in FIG. 6 are denoted by the same reference numerals, and the description thereof is omitted. The support column 10 according to the present embodiment includes ceiling portions 12a-1 and 12a-4 among the ceiling portions 12a-1 to 12a-4 that are upper outer surfaces of the connected facilities 12-1 to 12-4. 2 are provided at each of the four corners, that is, one is provided at each of the four corners.

  What is characteristic is that the support column 10 is installed using a suspension pipe 14 for rope suspension, which is an existing annular body fixed in advance to the ceiling portions 12a-1 to 12a-4. The usage state of the suspension tube 14 will be described later.

  Moreover, in this Embodiment, the rope 20 is spanned over the rope latching | locking part 22 of the upper end part of the four support support | pillars 10, and the operator attaches the safety belt with which he wore himself / herself via a string-like body etc. It is possible to perform the work by being locked. Thereby, a worker's fall etc. are prevented and safety of work is secured.

  FIGS. 2A and 2B are diagrams illustrating the entire configuration of the support column 10 illustrated in FIG. 1, and are a front view and a side view, respectively. The support column 10 has an installation base 30 installed on the outer surface of the ceiling portion 12 a at the lowermost part, and a connection portion 24 that connects the suspension pipe 14 is provided in the installation base 30. A connecting portion 28 is provided on the upper portion of the connecting portion 24 to connect the connecting portion 24 and the installation base 30. A column main body 32 is fixed to the upper part of the installation table 30. The rope locking portion 22 described above is attached to the upper end portion of the column main body portion 32.

  Further, the installation base 30 has a base portion 30d at the lowermost portion, and a substantially cylindrical covering base portion 30f is provided on the upper portion thereof. The strength of the base portion 30d is obtained by connecting the base portion 30d from the side surface of the covering base portion 30f. A reinforcing plate 30g is provided to reinforce. Reference numeral 32 a denotes a handle portion, which is formed as a rod-like body projecting from the column main body portion 32. The handle portion 32a will be described later.

  FIG. 3 is an explanatory view showing a planar shape of the base portion 30d. As can be understood from FIG. 2 and this figure, the base portion 30d has a plate-like shape, and is formed in a substantially fan shape with the lower end portion of the covering portion 30f as a key (caulking). In the present embodiment, the divergence angle is 90 degrees. In this way, the installation table 30 can be mounted while avoiding obstacles existing in the ceiling portions 12a-1 to 12a-4 of the facility 12 by being configured as a sector shape.

  4 (A) and 4 (B) are explanatory views enlarging the connecting portion 24, the coupling portion 28, and the installation base 30 of the support column 10 shown in FIG. FIG. 4A is a front sectional view, and FIG. 4B is a side sectional view. The connection portion 24 mainly includes a connection base 25 and an insertion body 27. In the present embodiment, the connection base 25 is formed in a U-shaped plate shape having a pair of arm portions 25a and 25b. The arm portions 25a and 25b are formed so as to face each other with an interval between which the suspension tube 14 can be received. Further, the arm portions 25a and 25b are provided with oval holes 25c at positions facing each other.

  On the other hand, the insertion body 27, which is another constituent member of the connecting portion 24, is formed in a substantially rod shape. The insertion body 27 has an outer diameter that can be inserted into the suspension tube 14 and the hole portion 25c, a flange portion 27a is provided at one end portion, and a pin hole 27b for inserting a stop pin (not shown) is provided at the other end portion. It has been. In the present embodiment, as shown in FIG. 5 described later, the stop pin 27c is formed by bending a single bar-shaped steel material, and is configured to be locked to the pin hole 27b by the bent shape. It has become.

  With this configuration, the connecting portion 24 is connected to the suspension tube 14 by first receiving the suspension tube 14 between the pair of arm portions 25a and 25b, and in that state, the insertion body 27 is inserted into the hole portion 25c and the suspension tube 14. It is done by inserting.

  Next, as described above, the installation base 30 is a base part that is installed in a state in which it is in contact with a predetermined area on the outer surface of the ceiling part 12a of the facility and the covering base part 30f that covers the suspension pipe 14 and the connecting part 24. 30d. And the upper wall 30a as a ceiling part is provided in the upper part of the covering base part 30f, and the through-hole 30b is formed there. The through hole 30b has a diameter that is slightly larger than the diameter of a coupling portion main body 28a described later. Moreover, the attachment hole 30c which has a shape long in the vertical direction is formed in the side part (side wall) of the covering base part 30f in several places.

  Next, the coupling portion 28 includes a coupling portion main body 28a and a nut body 28b as an attractive coupling portion. The coupling portion main body 28 a has a rod shape and is fixed to the upper end portion of the coupling base 25. In the present embodiment, a mounting hole is formed in the upper end portion of the coupling base 25, and the mounting hole is loaded therein and integrally joined by welding, for example.

  With this coupling state, the coupling portion main body 28a is substantially upright with respect to the installation surface in a state where the coupling portion 24 is coupled to the suspension tube 14 as described above. The coupling portion main body 28a is formed with a screw groove around it, and the nut body 28b has a screw hole that is screwed into the screw groove. By screwing the screw hole with the thread groove of the coupling portion main body 28a, the nut body 28b is fastened to the coupling portion main body 28a, and the installation base 30 is attracted to the suspension tube 14 by this fastening.

  A column main body 32 that is an upper constituent member of the support column 10 is erected and fixed to the upper end of the installation table 30. And in this Embodiment, the support | pillar main-body part 32 is formed as a hollow cylindrical body by which the bottom part was open | released, and the length is about 1 m. What is important in the present embodiment is that the nut body 28b as the above-described attracting and coupling portion is fitted to the lower end portion of the hollow cylindrical body, that is, the lower end portion of the column main body portion 32, for example, welding. It is fixed by.

  Next, FIG. 5 is an exploded perspective view illustrating each component described above of the support column 10 shown in FIG. Below, based on this figure, the procedure which installs the support | pillar 10 on the outer surface of the ceiling part 12a is demonstrated. First, the coupling portion main body 28a is inserted into the through hole 30b formed in the upper wall 30a from the inside of the installation base 30, and protrudes to the outside of the upper wall 30a. In this protruding state, the connecting base 25 is positioned inside the covering base portion 30f of the installation base 30 (below the upper wall 30a) (connecting base arrangement stage). Further, in this protruded state, the covering tube portion 30f is covered with the suspension tube 14 so that the suspension tube 14 is positioned between the arm portions 25a and 25b of the connecting table 25, and the suspension tube 14 is covered with the covering portion. It is set to the state located inside 30f (installation stand arrangement stage).

  Next, the insertion body 27 is inserted, and the connecting portion 24 and the suspension tube 14 are connected. This insertion operation is performed by inserting the insertion body 27 from the mounting hole 30c located at a position where the suspension pipe 14 or the like can be inserted among the plurality of mounting holes 30c formed in the covering base portion 30f. It is carried out by inserting both through the hole 25c of 25a, 25b and the suspension tube 14. The insertion is performed with the end where the pin hole 27b is formed as the tip, and the connecting operation of the connecting portion 24 and the suspension tube 14 is completed by attaching the stop pin 27c to the inserted insertion body 27.

  Next, the nut body 28b is screwed into the coupling portion main body 28a protruding from the through hole 30b of the installation base 30, and a tightening operation is performed. Since the nut body 28b is integrally fixed to the lower end portion of the column main body 32, the screwing and tightening operations can be performed by rotating the column main body 32 itself about its axis. In addition, this rotation of the support | pillar main-body part 32 can be performed by grasping the handle part 32a (refer FIG. 2) with a hand.

  By this tightening operation, the nut body 28b comes into contact with the upper wall 30a, and further, each component of the connecting portion 24 moves upward in this contacted state. By this rise, the insertion body 27 comes into contact with the inner peripheral upper portion of the suspension tube 14. And the insertion body 27 performs the attraction | suction operation | movement with respect to the suspension pipe 14 by the further fastening operation | movement (attraction | suction operation). That is, the coupling portion 28 pulls the connecting portion 24 and the installation table 30 to each other, and the drawing table 30 is attracted to the suspension tube 14 by this drawing, and a stable installation state is obtained.

  In other words, in this way, the pulling operation of the coupling portion main body 28a is performed by the action of the attracting coupling portion (nut body 28b), and the coupling portion main body 28a is integrated with the coupling base 25 of the coupling portion 24. Since the connecting portion 24 is connected to the suspension tube 14, the installation table 30 is attracted to the suspension tube 14 as a result. And since the suspension pipe 14 is being fixed to the upper part of the plant | facility 12, the attracting force of the nut body 28b acts so that the installation stand 30 may be pushed down to a plant | facility direction.

  Thereby, the installation base 30 is installed and fixed on the outer surface of the ceiling 12a of the facility. Moreover, since the installation base 30 is provided with a base portion 30d (fan shape) having a predetermined planar extension, the installation state is stable.

  Further, since the nut body 28b is fixed to the bottom of the column main body 32, the fixing of the column main body 32 to the installation base 30 also proceeds at the same time by the fastening operation of the nut body 28b. Through the operations in each of the above steps, the support column 10 is installed and fixed on the outer surface of the ceiling 12a of the facility.

  As described above, according to the support column 10 according to the present embodiment, the support column 10 can be installed on the facility 12-1 by using the suspension pipe 14 for suspending the rope (wire). It is possible to install the support column 10 on the facility 12-1 without performing any drilling operation or welding operation. Therefore, the complicated work caused by the drilling work is eliminated, and the danger that the worker touches the electric devices arranged in the facilities 12-1 to 12-4 and receives an electric shock during the work is avoided. Is done. In addition, the risk of electrical equipment malfunctioning due to extreme heating resulting from welding work is eliminated, and the installation base can be fixed safely and easily.

  Moreover, since the coupling | bond part main body 28a and the nut body 28b which protrude from the upper part of the installation stand 30 will be in the state accommodated in the hollow-shaped support | pillar main-body part 32, it can achieve the simple outer shape with few protrusion parts. it can.

  Here, the base portion 30d receives the impact in the entire base portion 30d when an impact acts in the direction in which the support post 10 tilts, such as when an operator in use of the support post 10 falls, and the suspension pipe 14 It also has the effect of alleviating the impact applied to the. The size of the base portion 30d and the shape of the base portion 30d are appropriately determined according to the installation conditions of the support column 10 and the like.

  In addition, you may make it provide elastic materials, such as rubber | gum, in the bottom part of the base part 30d. Thereby, when the installation stand 30 is fixed on the outer surface of the ceiling part 12a-1, the stress acting on the ceiling part 12a-1 can be reliably distributed over the entire contacted part. Accordingly, it is possible to prevent the ceiling portion 12a-1 from being damaged such as a dent due to the fixing of the installation table 30. Further, the friction force acting on the elastic material reliably prevents the installation table 30 from sliding and rotating on the contact surface. Moreover, when an impact acts on the support column 10, the impact acting on the suspension tube 14 due to this impact can be reduced.

  The present invention is not limited to the above-described embodiment, and various modifications can be made within the scope of the gist of the present invention. For example, the facilities 12-1 to 12-4 are not limited to those installed in a substation, and may be installed in a power plant, for example. In addition, the nut body 28 b that is the attracting and coupling portion may not be fixed to the column main body 32 and may be accommodated in the hollow portion of the column main body 32. Thereby, first, only the installation base 30 is fixed, and finally the column main body 32 is fixed to the installation base 30 using a fixing member or the like.

It is the figure explaining the installation state to the facility of the support support | pillar concerning this invention. It is the figure explaining the structure of the support support | pillar shown in FIG. 1, (A) is a front view, (B) is a side view. It is a top view explaining the base part of an installation stand. FIG. 3 is an enlarged explanatory view of a connection portion, a coupling portion, and an installation base portion of the support column shown in FIG. 2. It is the disassembled perspective view explaining each structural member of the support column shown in FIG. It is the figure explaining the facility arrange | positioned at the substation.

Explanation of symbols

10 Support column 12 (12-1, 12-2, 12-3, 12-4) Facility 12a-1, 12a-2, 12a-3, 12a-4 Ceiling part 14 Suspension tube 16 Wire 20 Rope 22 Rope locking Portion 24 Connection portion 25 Connection base 25a, 25b Arm portion 27 Insertion body 27a Flange portion 27b Pin hole 27c Stop pin 28 Connection portion 28a Connection portion main body 28b Nut body 30 Installation base 30a Upper wall 30b Through hole 30c Mounting hole 30d Base portion 30f Cover part 30g Reinforcement plate 32 Prop body part 32a Handle part

Claims (7)

In the support column for locking the rope for maintaining the safety of the worker, which is provided on the facility having the electrical equipment inside and having the annular body for hanging the rope on the outer surface of the ceiling,
A connecting portion that is inserted into the annular body and connects to the annular body;
And installation table having a cover base portion for covering the said connection portion, and the base portion is formed in a substantially fan shape that the main the lower end of該被allowed pedestal portion is Installation on the ceiling outer surface of the facility, and
A coupling unit coupling the installation table to the coupling unit so as to maintain the installation state;
A column main body portion that is erected and fixed to an upper end portion of the covering base portion and has a portion for locking the rope at a predetermined position;
A support column comprising:   The coupling portion is coupled and fixed to the coupling portion main body so as to attract the coupling portion main body integrally provided on the coupling portion and the coupling portion integrally provided on the coupling portion main body to the installation base side. The support strut according to claim 1, further comprising an attracting coupling portion. The connecting portion is
A connecting base having a pair of arm portions that are formed to face each other with an interval in which the annular body can be received;
And an insertion body that can be inserted into the holes of the pair of arms,
3. The connection is performed in a state where the annular body is received between the pair of arms and the insertion body is inserted through the hole and the annular body. The support column according to any one of the above. The coupling portion main body is formed as a rod-like body having a screw groove formed on the outer periphery thereof, and one end is fixedly installed on the upper end outer surface of the coupling base,
The attraction coupling portion is formed as a nut body that can be screwed into the coupling portion main body,
The coupling and fixing of the coupling portion main body to the installation base is performed by allowing the coupling portion main body to penetrate the ceiling portion of the covering base portion of the installation base from below and fastening the penetration portion with the nut main body. The support column according to any one of claims 2 and 3, wherein   The support column according to claim 4, wherein the nut body is integrally fixed to a lower end portion of the column main body. The column main body has a hollow column shape with an open bottom,
The bottom is coupled and fixed to the outer surface of the ceiling of the covering platform of the installation table, and the penetration portion of the rod-shaped coupling body is received inside in the fixed state. The support column according to any one of claims 4 and 5.   The support column according to claim 1, wherein an elastic material is provided on a bottom surface of the base portion.

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