KR101650823B1 - Bracket for installing aerial line - Google Patents
Bracket for installing aerial line Download PDFInfo
- Publication number
- KR101650823B1 KR101650823B1 KR1020160010652A KR20160010652A KR101650823B1 KR 101650823 B1 KR101650823 B1 KR 101650823B1 KR 1020160010652 A KR1020160010652 A KR 1020160010652A KR 20160010652 A KR20160010652 A KR 20160010652A KR 101650823 B1 KR101650823 B1 KR 101650823B1
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- communicating
- sensing
- supporting
- fastening
- connecting member
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G7/00—Overhead installations of electric lines or cables
- H02G7/12—Devices for maintaining distance between parallel conductors, e.g. spacer
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Abstract
According to the present invention,
1. A working cable installation stand for a processing machine in which a working distribution line (L) is provided at an end thereof,
In the above-mentioned processing-dedicated cable installation stand,
A first support part 11 formed on an upper side and a lower side with a sensing part 11a formed to be open to the upper and lower sides on the rear side; A second support part 12 having a sensing part 12a formed to open to the left and right sides on the rear side and intersecting with the first support part 11 in a cross shape; First and second bolt portions 13 and 14 each having a width smaller than the first support portion 11 and protruding outward from both sides of the first support portion 11; (10) having third and fourth bolts (15, 16) each having a width smaller than that of the second support portion (12) and protruding outward from both sides of the second support portion (12) Wow:
A first support portion 21 formed with upper and lower chambers and having a sensing part 21a formed to be open to the upper and lower sides of the front side; A second support part 22 having a sensing part 22a formed to open to the right and left sides in front of the first support part 21 and crossing the first support part 21 in a cross shape; First and second bolt portions 23 and 24 each having a width smaller than the first support portion 21 and protruding outward from both sides of the first support portion 21; And third and fourth bolt portions 25 and 26 each having a width smaller than the second support portion 22 and protruding outward from both sides of the second support portion 22, A second support member 20 spaced apart from the first support member 20;
And an opening 31b having a width smaller than that of the insertion portion 31a and having one side communicated with the insertion portion 31a and the other side opened to upper and lower side and outer side, A first engaging portion 31 detachably attached to the first bolt portion 13 of the first supporting member 10; And an opening 32b having a width smaller than that of the insertion portion 32a and having one side communicating with the insertion portion 32a and the other side opening up to the upper and lower side and the outer side, A second engaging portion 32 detachably attached to the first bolt portion 23 of the second support member 20; The first communicating portion 33a and the second communicating portion 33b communicate with each other through the first communicating portion 33a and the first communicating portion 33a. The first communicating portion 33a communicates with one side of the first communicating portion 33a. A second communicating portion 33b communicating with the upper side of the player's portion 11a and an upper portion communicating with the other side of the first communicating portion 33a and an upper communicating portion communicating with the lower portion of the second supporting member 20 A first cushioning member 30 made of an elastic material and having a sensing part 33 having a second communicating part 33c communicating with the upper side of the sensing part 21a of the supporting part 21;
And an opening 41b having a width smaller than that of the insertion portion 41a and having one side communicating with the insertion portion 41a and the other side having an opening vertically and outwardly, A first engaging portion 41 detachably attached to the second bolt portion 14 of the first supporting member 10; And an opening 42b having a width smaller than that of the insertion portion 42a and having one side communicated with the insertion portion 42a and the other side opened to the upper and lower side and the outer side, A second engaging portion 42 detachably attached to the second bolt portion 24 of the second support member 20; The first communicating portion 43a and the second communicating portion 43b communicate with each other through the first communicating portion 43a and the first communicating portion 43a. The first communicating portion 43a communicates with one side of the first communicating portion 43a. A second communicating portion 43b which communicates with the lower side of the forward portion 11a and a second communicating portion 43b which opens upward and downward and whose lower side communicates with the other side of the first communicating portion 43a, A second cushioning member 40 made of an elastic material and having a sensing part 43 having a second communicating part 43c communicating with a lower side of the sensing part 21a of the supporting part 21;
And an opening 51b having a width smaller than that of the insertion portion 51a and having one side communicated with the insertion portion 51a and the other side opened to the upper and lower side and the outer side, A first engaging portion 51 detachably attached to the third bolt portion 15 of the first supporting member 10; And an opening 52b having a width smaller than that of the insertion portion 52a and having one side communicating with the insertion portion 52a and the other side opening up to the upper and lower side and the outer side, A second engaging portion 52 detachably attached to the third bolt portion 25 of the second support member 20; The first communicating portion 53a and the second communicating portion 53b are communicated with one side of the first communicating portion 53a while the left communicating with the left communicating with the first communicating portion 53a and the right communicating with the sensing portion of the second supporting portion 12 of the first supporting member 10 The second communicating portion 53b communicating with the left side of the forward portion 12a and the second communicating portion 53b communicating with the other side of the first communicating portion 53a and the left communicating with the left communicating portion 53a, A third cushioning member 50 made of an elastic material and having a sensing part 53 having a second communicating part 53c communicating with the left side of the sensing part 22a of the supporting part 22;
And an opening 61b having a width smaller than that of the insertion portion 61a and having one side communicated with the insertion portion 61a and the other side opened to the upper and lower sides and the outer side, A first engaging portion 61 detachably attached to the fourth bolt portion 16 of the first supporting member 10; And an opening 62b having a width smaller than that of the inserting portion 62a and having one side communicating with the inserting portion 62a and the other side opening to the upper and lower side and the outer side, A second engaging portion 62 detachably attached to the fourth bolt portion 26 of the second support member 20; The first communicating portion 63a formed in the front and rear directions and the first communicating portion 63a communicating with one side of the first communicating portion 63a and the right communicating with the one side of the first communicating portion 63a and the left communicating with the sensing portion of the second supporting portion 12 of the first supporting member 10 A second communicating portion 63b communicating with the right side of the forward portion 12a and a second communicating portion 63b communicating with the other side of the first communicating portion 63a and opened on the right and left sides, A fourth cushioning member 60 of elastic material having a sensing part 63 having a second communicating part 63c communicating with the right side of the sensing part 22a of the supporting part 22;
A nut B1a which is threadably fastened to the first bolt portion 13 of the first support member 10 and which presses the first engaging portion 31 of the first buffer member 30; An insertion portion B1b2 which is open to the front and rear sides and which communicates with the seat portion B1b1 and an insertion portion B1b2 which is provided on the upper portion of the insertion portion B1b2, And a second fastening portion B1b2 which is provided at a lower portion of the insertion portion B1b2 and opens upward and downward and communicates with the insertion portion B1b2, (B1b4), and a sensor body (B1b5) formed laterally, one side of which is communicated with the second fastening portion (B1b4) and the other side of which is exposed to the outside; A fixing body B1c having a third fastening portion B1c1 opened to the upper and lower sides and being detachably inserted into the insertion portion B1b2; Is fastened to the first fastening portion B1b3 of the connecting body B1b and the third fastening portion B1c1 of the fixing body B1c and the second fastening portion B1b4 of the connecting body B1b, A first working distribution line installation member B1 having a fastening body B1d for detachably fixing the connection body B1b to the connection body B1b;
A nut B2a detachably threadedly engaged with the second bolt 14 of the first support member 10 and pressing the first engaging portion 41 of the second buffer member 40; An insertion portion B2b2 which is open to front and rear sides and which opens to the front and rear sides and which is in communication with the seat portion B2b1 and an insertion portion B2b2 which is provided at an upper portion of the insertion portion B2b2, A second fastening portion B2b3 which is opened at the lower end of the insertion portion B2b2 and communicates with the insertion portion B2b2, (B2b4), and a sensor B2b5 formed laterally, one side of which is communicated with the second fastening portion B2b4 and the other side of which is exposed to the outside; A fixing body B2c having a third fastening portion B2c1 which is open to the upper and lower sides and is detachably inserted into the insertion portion B2b2; Is fastened to the first fastening portion B2b3 of the connecting body B2b and the second fastening portion B2b4 of the connecting body B2b and the third fastening portion B2c1 of the fixing body B2c, A second processing power distribution line installation member B2 having a fastening body B2d for detachably fixing the first connection part B2c to the connection body B2b;
A nut body B3a detachably threadably fastened to the third bolt portion 15 of the first support member 10 and pressing the first engaging portion 51 of the third buffer member 50; An insertion portion B3b2 which is opened to the front and rear sides and which communicates with the seat portion B3b1 and an insertion portion B3b2 which is provided on the upper portion of the insertion portion B3b2, A first fastening part B3b3 which is open to the insertion part B3b2 by being opened to the insertion part B3b2 and communicated with the insertion part B3b2, (B3b4), and a sensor mounting portion (B3b5) formed laterally, one side of which is communicated with the second fastening portion (B3b4) and the other side of which is exposed to the outside; A fixing body B3c having a third fastening portion B3c1 which is opened to the upper and lower sides and is detachably inserted into the insertion portion B3b2; Is fastened to the first fastening portion B3b3 of the connecting body B3b and the third fastening portion B3c1 of the fixing body B3c and the second fastening portion B3b4 of the connecting body B3b, And a fastening body (B3d) for detachably fixing the connection body (B3c) to the connecting body (B3b); and a second processing power distribution line installation member
A nut body B4a detachably threadably fastened to the fourth bolt portion 16 of the first support member 10 and pressing the first engagement portion 61 of the fourth cushioning member 60; An insertion portion B4b2 which is open to front and rear sides and which communicates with the seat portion B4b1 and an insertion portion B4b2 which is provided on an upper portion of the insertion portion B4b2, A first fastening part B4b3 which is open to the insertion part B4b2 by being opened to the insertion part B4b2 and communicated with the insertion part B4b2, (B4b4), and a sensor body (B4b) formed laterally, one side of which is in communication with the second fastening part (B4b4) and the other side of which is exposed to the outside; A fixing body B4c having a third coupling portion B4c1 which is opened to the upper and lower sides and is detachably inserted into the insertion portion B4b2; The first fastening portion B4b3 of the connecting body B4b and the third fastening portion B4c1 of the fixing body B4c and the second fastening portion B4b4 of the connecting body B4b, A fourth processing power distribution line installation member B4 having a fastening body B4d for detachably fixing the workpiece B4c to the connecting body B4b;
A nut body B5a detachably threadably fastened to the first bolt portion 23 of the second support member 20 and pressing the second engagement portion 32 of the first buffer member 30; An insertion portion B5b2 which is opened to the front and rear sides and which communicates with the seating portion B5b1 and an insertion portion B5b2 which is provided on the upper portion of the insertion portion B5b2, A first coupling part B5b3 which is open to the insertion part B5b2 by being opened to the insertion part B5b2 and communicates with the insertion part B5b2, (B5b4), and a sensor body (B5b) formed laterally, one side of which is communicated with the second fastening portion (B5b4) and the other side of which is exposed to the outside; A fixing body B5c having a third coupling portion B5c1 which is open to the upper and lower sides and is detachably inserted into the insertion portion B5b2; The first fastening portion B5b3 of the connecting body B5b and the third fastening portion B5c1 of the fixing body B5c and the second fastening portion B5b4 of the connecting body B5b, (B5d) having a fastening body (B5d) for detachably fastening the connecting body (B5c) to the connecting body (B5b)
A nut member B6a detachably threadably fastened to the second bolt portion 24 of the second support member 20 and pressing the second engagement portion 42 of the second buffer member 40; An insertion portion B6b2 which is opened to the front and rear sides and which communicates with the seat portion B6b1 and an insertion portion B6b2 which is provided on the upper portion of the insertion portion B6b2, And a second fastening part B6b2 which is provided at a lower portion of the insertion part B6b2 and opens upward and downward to communicate with the insertion part B6b2, (B6b4), and a sensor body (B6b) formed laterally, one side of which is communicated with the second fastening part (B6b4) and the other side of which is exposed to the outside; A fixing body B6c having a third coupling portion B6c1 opened to the upper and lower sides and being detachably inserted into the insertion portion B6b2; The first fastening portion B6b3 of the connecting body B6b and the third fastening portion B6c1 of the fixing body B6c and the second fastening portion B6b4 of the connecting body B6b, (B6d) having a fastening body (B6d) for detachably fixing the connection body (B6c) to the connecting body (B6b)
A nut body B7a detachably threadably fastened to the third bolt portion 25 of the second support member 20 and pressing the second engagement portion 52 of the third buffer member 50; An insertion portion B7b2 which is opened to front and rear sides and which communicates with the seat portion B7b1 and an insertion portion B7b2 which is provided at an upper portion of the insertion portion B7b2, And a second fastening portion B7b2 which is provided at a lower portion of the insertion portion B7b2 and opens upward and downward to communicate with the insertion portion B7b2, (B7b4), and a sensor body (B7b) having a lateral side, one side communicating with the second fastening portion (B7b4) and the other side exposed to the outside; A fixing body B7c having a third coupling portion B7c1 which is open to the upper and lower sides and is detachably inserted into the insertion portion B7b2; Is fastened to the first fastening portion B7b3 of the connecting body B7b and the third fastening portion B7c1 of the fixing body B7c and the second fastening portion B7b4 of the connecting body B7b, A seventh processing distribution line installation member B7 having a fastening body B7d for detachably fixing the connection body B7c to the connecting body B7b;
A nut member B8a detachably threadably fastened to the fourth bolt portion 26 of the second support member 20 and pressing the second engagement portion 62 of the fourth cushioning member 60; An insertion portion B8b2 which is open to the front and rear sides and which communicates with the seat portion B8b1 and an insertion portion B8b2 which is provided on the upper portion of the insertion portion B8b2, A first coupling part B8b3 which is open to the insertion part B8b2 by being opened to the insertion part B8b2 and communicates with the insertion part B8b2, (B8b4), and a sensor body (B8b) having a sensor attachment part (B8b5) formed laterally and communicating with the second fastening part (B8b4) and the other end exposed to the outside; A fixing body B8c having a third coupling portion B8c1 which is opened to the upper and lower sides and is detachably inserted into the insertion portion B8b2; The first fastening portion B8b3 of the connecting body B8b and the third fastening portion B8c1 of the fixing body B8c and the second fastening portion B8b4 of the connecting body B8b, (B8d) for detachably fixing the connection body (B8c) to the connecting body (B8b); and an eighth working line mounting member
B8b5, B6b5, B7b5, and B8b5 of the first to eighth distribution power distribution line installation members B1 to B8 and the first to eighth distribution distribution line installation members B1 to B8 First to eighth ultrasonic sensors W1 to W8 for sensing the fastening bodies B1d, B2d, B3d, B4d, B5d, B6d, B7d,
B2d and B1d of the first to eighth processing lines B1 to B8 are provided from the first to eighth ultrasonic sensors W1 to W8 to the first to eighth processing lines B1 to B8, (U1 to U8) for transmitting a signal indicating that repair is required to the outside upon reception of a signal indicating that it has failed to detect the signals B3d, B3d, B4d, B5d, B6d, B7d and B8d,
A first connecting member S1a1 inserted into the upper part of the detecting part 11a of the first supporting part 11 of the first supporting member 10 and a through part t1 penetrating in the upper and lower directions, A connecting portion S1a2b which is inserted into the penetrating portion t1 of the body portion S1a2a so as to be movable up and down and a connecting portion S1a2b which is provided at the penetrating portion t1 of the body portion S1a2a, And a spring (S1a2c) for pressing the connecting portion (S1a2b) downward so that the connecting portion (S1a2b) contacts the first connecting member (S1a1), so that the second connecting portion (33b) of the first cushioning member A first connecting member S1a provided with a contact S1a2; A first connecting member S1b1 inserted into the upper part of the detecting part 21a of the first supporting part 21 of the second supporting member 20 and a penetrating part t2 penetrating in the upper and lower directions, A connecting portion S1b2b which is inserted into the penetrating portion t2 of the body portion S1b2a so as to be movable upward and downward and a connecting portion S1b2b which is provided at the penetrating portion t2 of the body portion S1b2a, And a spring (S1b2c) for pressing the connecting portion (S1b2b) downward so that the connecting portion (S1b2b) comes into contact with the first connecting member (S1b1) A second connecting member (S1b) provided with a contact (S1b2); Is received in the detecting portion (11a) of the first supporting portion (11) of the first supporting member (10) and has one end connected to the first connecting member (S1a1) of the first connecting member (S1a) A first sensing line S1c exposed to the outside of the first supporting portion 11 of the supporting member 10; One end of which is connected to the first connecting member S1b1 of the second connecting member S1b and the other end of which is connected to the second supporting member 21 of the second supporting member 20, A second sensing line (S1d) exposed to the outside of the first supporting portion (21) of the supporting member (20); One end of which is connected to the connecting portion S1a2b of the second connecting member S1a2 of the first connecting member S1a and the other end of which is connected to the second connecting member S1a2 of the first connecting member S1a, A first sensing member S1 having a third sensing line S1e connected to the connecting portion S1b2b of the second connecting member S1b2 of the member S1b;
A first connecting member S2a1 inserted into the lower part of the detection part 11a of the first supporting part 11 of the first supporting member 10 and a through part t3 penetrating in the upper and lower directions, A connecting portion S2a2b which is inserted into the penetrating portion t3 of the body portion S2a2a so as to be movable up and down and a connecting portion S2a2b which is provided at the penetrating portion t3 of the body portion S2a2a, And a spring S2a2c for urging the connecting portion S2a2b upward so that the connecting portion S2a2b comes into contact with the first connecting member S2a1. The spring S2a2c presses the second connecting portion 43b of the second buffer member 40, A first connecting member S2a provided with a contact S2a2; A first connecting member S2b1 inserted into the lower part of the detecting part 21a of the first supporting part 21 of the second supporting member 20 and a penetrating part t4 penetrating in the upper and lower directions, A connecting portion S2b2b which is inserted into the penetrating portion t4 of the body portion S2b2a such that the connecting portion S2b2b is movable upward and downward and the connecting portion S2b2b which is provided at the penetrating portion t4 of the body portion S2b2a, And a spring S2b2c for pushing the connecting portion S2b2b downward so that the connecting portion S2b2b comes into contact with the first connecting member S2b1 to form the second connecting portion 43c of the second buffer member 40, A second connecting member S2b having a contact S2b2; The first sensing line S2c of the second sensing member S2 is accommodated in the sensing portion 11a of the first supporting portion 11 of the first supporting member 10 and has one end connected to the first connecting member S2a A first sensing line S2c connected to the first connection S2a1 of the first supporting member 10 and the other end exposed to the outside of the first supporting portion 11 of the first supporting member 10; One end of which is connected to the first connecting member S2b1 of the second connecting member S2b and the other end of which is connected to the second connecting member S2b1 of the second supporting member 20, A second sensing line S2d which is exposed to the outside of the first supporting portion 21 of the supporting member 20; One end of which is connected to the connecting portion S2a2b of the second connecting member S2a2 of the first connecting member S2a and the other end of which is connected to the second connecting member S2a2 of the second buffer member 40, A second sensing member S2 having a third sensing line S2e connected to the connection S2b2b of the second connector S2b2 of the member S2b;
A first connecting member S3a1 inserted into the left side of the sensing part 12a of the second supporting part 12 of the first supporting member 10 and a through hole t5 penetrating in the upper and lower directions, A connecting portion S3a2b which is inserted into the penetrating portion t5 of the body portion S3a2a so as to be movable up and down and a connecting portion S3a2b which is provided at the penetrating portion t5 of the body portion S3a2a, And a spring S3a2c for pushing the connecting portion S3a2b to the first connecting member S3a1 by pushing the connecting portion S3a2b to the second connecting portion 53b of the third cushioning member 50, A first connecting member S3a provided with a contact S3a2; A first connecting member S3b1 inserted into the left side of the sensing part 22a of the second supporting part 22 of the second supporting member 20 and a through part t6 penetrating through the upper part and the lower part, A connecting portion S3b2b which is inserted into the penetrating portion t6 of the body portion S3b2a so as to be movable up and down and a connecting portion S3b2b which is provided at the penetrating portion t6 of the body portion S3b2a, And a spring S3b2c for urging the connecting portion S3b2b to the first connecting member S3b1 so that the connecting portion S3b2b is in contact with the first connecting member S3b1 so that the second connecting member S3b2b is inserted into the third connecting portion 53c of the third buffer member 50. [ A second connecting member S3b having a contact S3b2; Is received in the sensing part (12a) of the second supporting part (12) of the first supporting member (10) and has one end connected to the first connecting member (S3a1) of the first connecting member (S3a) A first sensing line S3c exposed to the outside of the second supporting portion 12 of the supporting member 10; Is received in the detecting portion 22a of the second supporting portion 22 of the second supporting member 20 and has one end connected to the first connecting member S3b1 of the second connecting member S3b, A second sensing line (S3d) exposed to the outside of the second supporting portion (22) of the supporting member (20); One end thereof is connected to the connecting portion S3a2b of the second connecting member S3a2 of the first connecting member S3a and the other end is connected to the connecting portion S3a2b of the second connecting member S3a2 of the third connecting member S3a, A third sensing member S3 having a third sensing line S3e connected to the connecting portion S3b2b of the second connector S3b2 of the member S3b;
A first connecting member S4a1 inserted into the right side of the sensing part 12a of the second supporting part 12 of the first supporting member 10 and a through part t7 penetrating in the upper and lower directions, A connecting portion S4a2b which is inserted into the penetrating portion t7 of the body portion S4a2a so as to be movable up and down and a connecting portion S4a2b which is provided at the penetrating portion t7 of the body portion S4a2a, And a spring S4a2c for pushing the connecting portion S4a2b to the first connecting member S4a1 so that the connecting portion S4a2b contacts the first connecting member S4a1 and the second connecting portion S4b is inserted into the second connecting portion 63b of the fourth buffer member 60. [ A first connecting member S4a provided with a contact S4a2; The first connecting member S4b1 inserted into the right side of the detecting part 22a of the second supporting part 22 of the second supporting member 20 and the penetrating part t8 penetrating in the upper and lower directions, A connecting portion S4b2b which is inserted into the penetrating portion t8 of the body portion S4b2a so as to be movable up and down and a connecting portion S4b2b which is provided at the penetrating portion t8 of the body portion S4b2a, And a spring S4b2c for pushing the connecting portion S4b2b to the first connecting member S4b1 so as to press the connecting portion S4b2b to the left to contact the first connecting member S4b1 to the third connecting portion 63c of the fourth cushioning member 60, A second connecting member S4b having a contact S4b2; One end of which is connected to the first connecting member S4a1 of the first connecting member S4a and the other end of which is connected to the first connecting member S4a1 of the second supporting member 12 of the first supporting member 10, A first sensing line S4c exposed to the outside of the second supporting portion 12 of the supporting member 10; One end of which is connected to the first connecting member S4b1 of the second connecting member S4b and the other end of which is connected to the second connecting member S4b2 of the second supporting member 22 of the second supporting member 20, A second sensing line S4d exposed to the outside of the second supporting portion 22 of the supporting member 20; One end of which is connected to the connecting portion S4a2b of the second connecting member S4a2 of the first connecting member S4a and the other end of which is connected to the second connecting portion S4a2 of the fourth connecting member S4a, A fourth sensing member S4 having a third sensing line S4e connected to the connection S4b2b of the second connector S4b2 of the member S4b;
The other end of the first sensing line S1c of the first sensing member S1 is electrically connected and the other end of the first sensing line S2c of the second sensing member S2 is electrically connected, The other end of the first sensing line S3c of the first sensing member S4 is electrically connected and the other end of the first sensing line S4c of the fourth sensing member S4 is electrically connected, The first sensing line S2c of the first sensing line S1c and the second sensing line S2c of the second sensing member S2 and the second sensing line S3c of the third sensing member S3 and the fourth sensing line S3c of the fourth sensing member S4, A signal output unit S5 for outputting an electric signal through the sensing line S4c;
The other end of the second sensing line S1d of the first sensing member S1 is electrically connected and the other end of the second sensing line S2d of the second sensing member S2 is electrically connected, The other end of the second sensing line S 3 d of the second sensing member S 3 is electrically connected and the other end of the second sensing line S 4 d of the fourth sensing member S 4 is electrically connected, The second sensing line S2d of the second sensing member S2 and the second sensing line S3d of the third sensing member S3 and the fourth sensing line S3d of the fourth sensing member S4, A signal receiver S6 for receiving the electrical signal from the signal output device S5 via the sensing line S4d;
A transmitter S7 which is provided in the signal receiver S6 and outputs an alarm signal to the outside when the signal receiver S6 does not receive the electric signal from the signal output unit S5,
And a control unit.
Description
The present invention relates to a machined wire installation stand for machining that is easy to repair.
Generally, large power generated in a power plant is transmitted to each substation with high-voltage power through a power transmission line such as a transmission tower. Substations are subjected to various stages of transforming process, and processed distribution lines And the distribution process that will be supplied to each region.
Here, the machining distribution line is connected to the pole and supplies the electricity supplied from the substation to each customer, and a plurality of such distribution distribution lines are connected to the pole.
In such a case, if there is a strong wind, a collision may occur between the processing power distribution lines, which may cause a serious safety accident such as a short circuit or a broken wire.
Accordingly, conventionally, as shown in Fig. 1, the
At this time, in the
In addition, the
SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a machined cable installation stand which can easily confirm installation state of a machining distribution line and prevent collision between the machining distribution lines .
According to an aspect of the present invention,
1. A working cable installation stand for a processing machine in which a working distribution line (L) is provided at an end thereof,
In the above-mentioned processing-dedicated cable installation stand,
A
A
And an opening 31b having a width smaller than that of the
And an opening 41b having a width smaller than that of the
And an opening 51b having a width smaller than that of the
And an opening 61b having a width smaller than that of the
A nut B1a which is threadably fastened to the
A nut B2a detachably threadedly engaged with the
A nut body B3a detachably threadably fastened to the
A nut body B4a detachably threadably fastened to the
A nut body B5a detachably threadably fastened to the
A nut member B6a detachably threadably fastened to the
A nut body B7a detachably threadably fastened to the
A nut member B8a detachably threadably fastened to the
B8b5, B6b5, B7b5, and B8b5 of the first to eighth distribution power distribution line installation members B1 to B8 and the first to eighth distribution distribution line installation members B1 to B8 First to eighth ultrasonic sensors W1 to W8 for sensing the fastening bodies B1d, B2d, B3d, B4d, B5d, B6d, B7d,
B2d and B1d of the first to eighth processing lines B1 to B8 are provided from the first to eighth ultrasonic sensors W1 to W8 to the first to eighth processing lines B1 to B8, (U1 to U8) for transmitting a signal indicating that repair is required to the outside upon reception of a signal indicating that it has failed to detect the signals B3d, B3d, B4d, B5d, B6d, B7d and B8d,
A first connecting member S1a1 inserted into the upper part of the detecting
A first connecting member S2a1 inserted into the lower part of the
A first connecting member S3a1 inserted into the left side of the
A first connecting member S4a1 inserted into the right side of the
The other end of the first sensing line S1c of the first sensing member S1 is electrically connected and the other end of the first sensing line S2c of the second sensing member S2 is electrically connected, The other end of the first sensing line S3c of the first sensing member S4 is electrically connected and the other end of the first sensing line S4c of the fourth sensing member S4 is electrically connected, The first sensing line S2c of the first sensing line S1c and the second sensing line S2c of the second sensing member S2 and the second sensing line S3c of the third sensing member S3 and the fourth sensing line S3c of the fourth sensing member S4, A signal output unit S5 for outputting an electric signal through the sensing line S4c;
The other end of the second sensing line S1d of the first sensing member S1 is electrically connected and the other end of the second sensing line S2d of the second sensing member S2 is electrically connected, The other end of the second
A transmitter S7 which is provided in the signal receiver S6 and outputs an alarm signal to the outside when the signal receiver S6 does not receive the electric signal from the signal output unit S5,
And a control unit.
INDUSTRIAL APPLICABILITY The present invention is capable of quickly confirming and repairing the installation state of a processing distribution line, and it is possible to stably maintain the interval between the processing distribution lines.
FIG. 1 is a view for explaining a conventional spacer,
FIG. 2 is a sectional view for explaining an easy-to-repair machined wire installation stand according to the present invention,
3 is a view for explaining the first to eighth machining distribution line installation members, the first to eighth ultrasonic sensors, and the first to eighth transmission units according to the present invention,
Fig. 4 is a sectional view taken along the line XX in Fig. 2,
5 is a cross-sectional view of the YY line of Fig. 2,
6 is a sectional view for explaining the first to fourth buffer members of the present invention,
Fig. 7 is a view for explaining a to d in Fig. 4,
Fig. 8 is a view for explaining e to h in Fig. 5,
Figs. 9 to 11 are views for explaining the operation of a machined cable installation for machining, which is easy to repair according to the present invention.
BEST MODE FOR CARRYING OUT THE INVENTION The present invention will now be described in detail with reference to the accompanying drawings.
FIG. 2 is a sectional view for explaining an easy-to-repair machined wire installation stand according to the present invention. FIG. 3 is a sectional view of the first to eighth machining distribution wire installation members and the first to eighth ultrasonic sensors, 4 is a sectional view taken along the line XX in Fig. 2, Fig. 5 is a sectional view along the YY line in Fig. 2, and Fig. 6 is a sectional view for explaining the first to fourth buffer members of the present invention Fig. 7 is a view for explaining a to d in Fig. 4, Fig. 8 is a view for explaining e to h in Fig. 5, and structural characteristics of the present invention will be described with reference to Figs. 2 to 8 As follows.
The working wire installation block for easy processing and repair according to the present invention has a first supporting
The
The first supporting
The
The first and
The third and
The
The
The
The first and
The third and
The
The
The
The sensing
The
The
The
The
The
The
The
The sensing
The
The
The
The
The first working distribution line installation member B1 is provided with a nut body B1a, a connecting body B1b, a fixing body B1c and a fastening body B1d.
The nut body B1a of the first processing line installation member B1 is threadably fastened to the
The connecting body B1b of the first working distribution line installation member B1 includes a seating portion B1b1 which is opened to the front and rear sides and an insertion portion B1b2 which is opened to the front and rear sides and communicates with the seating portion B1b1 A first fastening part B1b3 which is provided on the upper part of the insertion part B1b2 and opens upward and downward and communicates with the insertion part B1b2; And a sensor mounting portion B1b5 which is formed laterally and has one side communicating with the second connecting portion B1b4 and the other side exposed to the outside, and a second connecting portion B1b4 opened to communicate with the insertion portion B1b2, .
The fixed body B1c of the first processing distribution line installation member B1 is provided with the third coupling portion B1c1 which is opened upward and downward and is detachably attached to the insertion portion B1b2 of the first processing line installation member B1 .
The fastening body B1d of the first processing line installation member B1 is connected to the first fastening portion B1b3 of the connecting body B1b of the first processing line installation member B1 and the first fastening portion B1b2 of the first processing line installation member B1 The third connecting portion B1c1 of the fixing body B1c and the second connecting portion B1b4 of the connecting body B1b of the first processing wiring board mounting member B1 are fastened to each other by the fastening portion B1b1 of the first processing wiring board mounting member B1 The fixing body B1c is detachably fixed to the connecting body B1b of the first processing power distribution line installation member B1.
The second working distribution line installation member B2 is provided with a nut body B2a, a connecting body B2b, a fixing body B2c and a fastening body B2d.
The nut body B2a of the second processing line installation member B2 is threadably fastened to the
The connecting body B2b of the second working distribution line installation member B2 includes a seating portion B2b1 which is open to the front and rear sides and an insertion portion B2b2 which is opened to the front and rear sides and communicates with the seating portion B2b1 A first fastening part B2b3 which is provided on the upper part of the insertion part B2b2 and opens upward and downward and communicates with the insertion part B2b2 and a second fastening part B2b2 provided on the lower part of the insertion part B2b2, A second fastening part B2b4 which is opened to communicate with the insertion part B2b2 and a sensor mounting part B2b5 which is formed laterally and has one side communicated with the second fastening part B2b4 and the other side exposed to the outside, .
The fixed body B2c of the second processing distribution line installation member B2 is provided with the third fastening portion B2c1 which is opened to the upper and lower sides and is detachably attached to the insertion portion B2b2 of the second processing line installation member B2 .
The fastening body B1d of the second processing line installation member B2 is connected to the first fastening portion B2b3 of the connecting body B2b of the second processing line installation member B2 and the second fastening portion B2b2 of the second processing line installation member B2 The first and second processing lines B2 and B2 are fastened with the second fastening portions B2b4 of the connecting body B2b of the fixing body B2c and the second processing line B2, And the fixed body B2c is detachably fixed to the connection body B2b of the second processing power distribution line installation member B2.
The third working distribution line installation member B3 has a nut body B3a, a connecting body B3b, a fixing body B3c, and a fastening body B3d.
The nut body B3a of the third processing distribution line attachment member B3 is threadably fastened to the
The connecting body B3b of the third working distribution line installation member B3 includes a seating portion B3b1 which is opened to the front and rear sides and an insertion portion B3b2 which is opened to the front and rear side and which communicates with the seating portion B3b1, A first fastening part B3b3 which is provided on the upper part of the insertion part B3b2 and opens upward and downward to communicate with the insertion part B3b2 and a second fastening part B3b2 provided on the lower part of the insertion part B3b2, A second fastening part B3b4 which is opened and communicated with the insertion part B3b2 and a sensor mounting part B3b5 which is formed laterally and one side communicates with the second fastening part B3b4 and the other side is exposed to the outside, Equipped.
The fixed body B3c of the third processing distribution line installation member B3 is provided with a third coupling portion B3c1 which is opened upward and downward and is detachably attached to the insertion portion B3b2 of the third processing line installation member B3 .
The fastening body B3d of the third processing power distribution line installation member B3 is connected to the first fastening portion B3b3 of the connection body B3b of the third processing power line installation member B3 and the fastening portion B3b of the third processing line installation member B3 Is fastened with the second fastening portion B3b4 of the third fastening portion B3c1 of the fixing body B3c and the connecting body B3b of the third processing line installation member B3, The fixing body B3c is detachably fixed to the connection body B3b of the third processing power distribution line installation member B3.
The fourth working distribution line installation member B4 has a nut body B4a, a connecting body B4b, a fixing body B4c, and a fastening body B4d.
The nut body B4a of the fourth processing power distribution line attachment member B4 is threadably fastened to the
The connecting body B4b of the fourth working distribution line installation member B4 includes a seating portion B4b1 that is open to the front and rear sides and an insertion portion B4b2 that is open to the front and rear sides and communicates with the seating portion B4b1, A first coupling part B4b3 which is provided on the upper part of the insertion part B4b2 and opens upward and downward to communicate with the insertion part B4b2, A second fastening part B4b4 which is opened and communicated with the insertion part B4b2 and a sensor mounting part B4b5 which is formed laterally and one side communicates with the second fastening part B4b4 and the other side is exposed to the outside, Equipped.
The fixing body B4c of the fourth processing power distribution line installation member B4 is provided with a third coupling portion B4c1 which is opened upward and downward and is detachably attached to the insertion portion B4b2 of the fourth processing power distribution line installation member B4 .
The fastening body B4d of the fourth processing power distribution line installation member B4 is connected to the first fastening portion B4b3 of the connecting body B4b of the fourth processing power line installation member B4 and the fastening portion B4b of the fourth processing line installation member B4 And the second connection portion B4b4 of the connection body B4b of the fourth processing power distribution line installation member B4 and the second connection portion B4b4 of the fourth processing distribution line installation member B4 The fixing body B4c is detachably fixed to the connection body B4b of the fourth processing power distribution line installation member B4.
The fifth working distribution line installation member B5 is provided with a nut body B5a, a connection body B5b, a fixing body B5c, and a fastening body B5d.
The nut body B5a of the fifth processing power distribution line attachment member B5 is threadably fastened to the
The connecting body B5b of the fifth working distribution line installation member B5 includes a seating portion B5b1 that is open to front and rear and an outside room and an insertion portion B5b2 that is open to front and rear sides and communicates with the seating portion B5b1 A first fastening portion B5b3 provided on the upper portion of the insertion portion B5b2 and opening upwardly and downwardly to communicate with the insertion portion B5b2 and a second fastening portion B5b2 provided on the lower portion of the insertion portion B5b2, And a sensor mounting portion B5b5 which is formed laterally and has one side communicating with the second connecting portion B5b4 and the other side exposed to the outside, and a second connecting portion B5b4 opened to communicate with the inserting portion B5b2, .
The fixing body B5c of the fifth processing power distribution line installation member B5 is provided with a third fastening portion B5c1 which is opened upward and downward and is detachably attached to the insertion portion B5b2 of the fifth processing power line installation member B5 Inserted
The fastening body B5d of the fifth processing power distribution line installation member B5 is connected to the first fastening portion B4b3 of the connection body B5b of the fifth processing power line installation member B5 and the fastening portion B5b of the fifth processing line installation member B5 Is fastened to the second fastening portion B5b4 of the connecting body B5b of the fixing body B5c and the fifth processing power line installation member B5 so as to fix the fifth processing power line installation member B5 The fixing body B5c is detachably fixed to the connection body B5b of the fifth processing power distribution line installation member B5.
The sixth processing power distribution line installation member B6 has a nut body B6a, a connecting body B6b, a fixing body B6c, and a fastening body B6d.
The nut body B6a of the sixth processing power distribution line attachment member B6 is threadably fastened to the
The connecting body B6b of the sixth processing power distribution line installation member B6 includes a seating portion B6b1 which is open to front and rear and an outside room and an insertion portion B6b2 which is opened to front and rear sides and communicates with the seating portion B6b1 A first coupling part B6b3 which is provided on the upper part of the insertion part B6b2 and opens upward and downward and communicates with the insertion part B6b2 and a second coupling part B6b2 provided on the lower part of the insertion part B6b2, And a sensor mounting portion B6b5 which is formed laterally and has one side communicated with the second connecting portion B6b4 and the other side exposed to the outside, and a second connecting portion B6b4 opened to the inserting portion B6b2, .
The fixing body B6c of the sixth processing power distribution line installation member B6 is provided with a third coupling portion B6c1 which is opened upward and downward and is detachably attached to the insertion portion B6b2 of the sixth processing power distribution line installation member B6 .
The fastening body B1d of the sixth processing power distribution line installation member B6 is connected to the first fastening portion B6b3 of the connecting body B6b of the sixth processing power line installation member B6 and the first fastening portion B6b2 of the sixth processing line installation member B6 And the second connecting portion B6b4 of the connecting body B6b of the sixth processing electric-power-line connecting member B6 and the second connecting portion B6b4 of the sixth processing electric-power-line connecting member B6 The fixing body B6c is detachably fixed to the connection body B6b of the sixth processing power distribution line installation member B6.
The seventh processing power distribution line installation member B7 has a nut body B7a, a connecting body B7b, a fixing body B7c, and a fastening body B7d.
The nut body B7a of the seventh working distribution line installation member B7 is threadably fastened to the
The connecting body B7b of the seventh working distribution line installation member B7 includes a seating portion B7b1 which is open to front and rear and an outside room and an insertion portion B7b2 which is opened to front and rear sides and communicates with the seating portion B7b1 A first fastening portion B7b3 provided on the upper portion of the insertion portion B7b2 and opening upward and downward to communicate with the insertion portion B7b2; And a sensor mounting portion B7b5 which is formed laterally and has one side communicating with the second connecting portion B7b4 and the other side exposed to the outside, and a second connecting portion B7b4 opened to communicate with the inserting portion B7b2, .
The fixing body B7c of the seventh processing power distribution line installation member B7 is provided with a third coupling portion B7c1 which is opened upward and downward and is detachably attached to the insertion portion B7b2 of the seventh processing power distribution line installation member B7 .
The fastener B1d of the seventh processing power distribution line installation member B7 is connected to the first fastening portion B7b3 of the connection body B7b of the seventh processing power distribution line installation member B7 and the first fastening portion B7b3 of the seventh processing power distribution line installation member B7 Is fastened to the second fastening portion B7b4 of the connecting body B7b of the fixing body B7c and the seventh processing wiring board mounting member B7 The fixing body B7c is detachably fixed to the coupling body B7b of the seventh processing power distribution line installation member B7.
The eighth working distribution line installation member B8 has a nut body B8a, a connecting body B8b, a fixing body B8c, and a fastening body B8d.
The nut body B8a of the eighth working distribution line installation member B8 is threadably fastened to the
The connecting body B8b of the eighth working distribution line installation member B8 includes a seating portion B8b1 that is open to front and rear and an outside chamber and an insertion portion B8b2 that is open to front and rear sides and communicates with the seating portion B8b1 A first coupling part B8b3 which is provided on the upper part of the insertion part B8b2 and opens upward and downward and communicates with the insertion part B8b2; And a sensor mounting portion B8b5 which is formed laterally and has one side communicating with the second connecting portion B8b4 and the other side exposed to the outside, and a second connecting portion B8b4 opened to the inserting portion B8b2, .
The fixing body B8c of the eighth working distribution line installation member B8 is provided with a third connection portion B8c1 which is opened upward and downward and is detachably attached to the insertion portion B8b2 of the eighth processing line installation member B8 .
The fastening body B8d of the eighth working distribution line installation member B8 is connected to the first fastening section B8b3 of the connecting body B8b of the eighth working line installation member B8 and the fastening member B8b of the eighth working line installation member B8 Is fastened to the second fastening portion B8b4 of the connecting body B8b of the fixing part B8c and the eighth working line part B8c of the eighth working line part B8c, And the fixing body B8c is detachably fixed to the connecting body B8b of the eighth working distribution line installation member B8.
The first ultrasonic sensor W1 is installed on the sensor mounting portion B1b5 of the first processing line installation member B1 and detects the fastening body B1d of the first processing line installation member B1.
The second ultrasonic sensor W2 is mounted on the sensor mounting portion B2b5 of the second processing line installation member B2 and detects the fastening member B2d of the second processing line installation member B2.
The third ultrasonic sensor W3 is installed on the sensor mounting portion B3b5 of the third processing line installation member B3 and detects the fastening body B3d of the third processing line installation member B3.
The fourth ultrasonic sensor W4 is installed on the sensor installation part B4b5 of the fourth processing power distribution line installation member B4 and detects the fastening body B4d of the fourth processing power distribution line installation member B4.
The fifth ultrasonic sensor W5 is installed on the sensor installation part B5b5 of the fifth processing power distribution line installation member B5 and detects the fastening body B5d of the fifth processing power line installation member B5.
The sixth ultrasonic sensor W6 is installed on the sensor mounting portion B6b5 of the sixth processing line installation member B6 and detects the fastening body B6d of the sixth processing line installation member B6.
The seventh ultrasonic sensor W7 is installed on the sensor mounting portion B7b5 of the seventh processing power distribution line installation member B7 and detects the fastening member B7d of the seventh processing power distribution line installation member B7.
The eighth ultrasonic sensor W8 is installed on the sensor mounting portion B8b5 of the eighth processing line installation member B8 and detects the fastening member B8d of the eighth processing line installation member B8.
The first transmission unit U1 is provided on the first processing line installation member B1 and receives a signal from the first ultrasonic sensor W1 that it has not detected the fastening body B1d of the first processing line installation member B1 A signal indicating that repair is needed to the outside is transmitted.
The second transmitting unit U2 is installed on the second processing power distribution line installation member B2 and receives from the second ultrasonic sensor W2 a signal indicating that the fastening body B2d of the second processing line installation member B2 has not been detected A signal indicating that repair is needed to the outside is transmitted.
The third transmission unit U3 is installed on the third processing power distribution line installation member B3 and receives from the third ultrasonic sensor W3 a signal indicating that the fastening body B3d of the third processing line installation member B3 has not been detected A signal indicating that repair is needed to the outside is transmitted.
The fourth transmission unit U4 is provided on the fourth processing power distribution line installation member B4 and receives a signal from the fourth ultrasonic sensor W4 that it has not detected the fastening body B4d of the fourth processing power distribution line installation member B4 A signal indicating that repair is needed to the outside is transmitted.
The fifth transmission unit U5 is installed on the fifth processing power distribution line installation member B5 and receives from the fifth ultrasonic sensor W5 a signal indicating that the fastening body B5d of the fifth processing line installation member B5 has not been detected A signal indicating that repair is needed to the outside is transmitted.
The sixth transmission unit U6 is provided on the sixth processing power distribution line installation member B6 and receives from the sixth ultrasonic sensor W6 a signal indicating that the fastening body B6d of the sixth processing line installation member B6 has not been detected A signal indicating that repair is needed to the outside is transmitted.
The seventh transmission unit U7 is provided on the seventh processing power distribution line installation member B7 and receives a signal from the seventh ultrasonic sensor W7 indicating that the fastening body B7d of the seventh processing line installation member B7 has not been detected A signal indicating that repair is needed to the outside is transmitted.
The eighth transmission unit U8 is provided on the eighth processing power distribution line installation member B8 and receives from the eighth ultrasonic sensor W8 a signal indicating that the fastening unit B8d of the eighth processing line installation member B8 has not been detected A signal indicating that repair is needed to the outside is transmitted.
The first sensing member S1 includes a first connecting member S1a, a second connecting member S1b, a first sensing line S1c, a second sensing line S1d, and a third sensing line S1e ).
The first connecting member S1a of the first sensing member S1 has the first connecting member S1a1 and the second connecting member S1a2.
The first contact S1a1 of the first connecting member S1a of the first sensing member S1 is inserted on the upper side of the
The second connecting member S1a2 of the first connecting member S1a of the first sensing member S1 has a body portion S1a2a having a penetration portion t1 formed so as to pass through the upper and lower chambers, A connecting portion S1a2b which is inserted into the penetrating portion t1 of the connecting portion S1a2b so as to be movable upward and downward and a connecting portion S1a2b which is provided at the penetrating portion t1 of the body portion S1a2a and which presses the connecting portion S1a2b downward, And a spring S1a2c for causing the first sensing member S1 to contact the first connecting member S1a1 of the first connecting member S1a of the first sensing member S1, 33b.
The second connecting member S1b of the first sensing member S1 has the first connecting member S1b1 and the second connecting member S1b2.
The first contact S1b1 of the second connecting member S1b of the first sensing member S1 is inserted on the upper side of the
The second connecting member S1b2 of the second connecting member S1b of the first sensing member S1 has a body portion S1b2a having a penetration portion t2 formed so as to pass through the upper and lower chambers, A connecting portion S1b2b which is inserted into the penetrating portion t2 of the body portion S1b2a so as to be movable up and down and a connecting portion S1b2b which is provided at the penetrating portion t2 of the body portion S1b2a and which presses the connecting portion S1b2b downward, And a spring S1b2c for causing the first sensing member S1 to contact the first connecting member S1b1 of the second connecting member S1b of the first sensing member S1, 33c.
The first sensing line S1c of the first sensing member S1 is received in the
The second sensing line S1d of the first sensing member S1 is accommodated in the
The third sensing line S1e of the first sensing member S1 is received in the
The second sensing member S2 includes a first connecting member S2a, a second connecting member S2b, a first sensing line S2c, a second sensing line S2d, and a third sensing line S2e ).
The first connecting member S2a of the second sensing member S2 has the first connecting member S2a1 and the second connecting member S2a2.
The first connecting member S2a1 of the first connecting member S2a of the second sensing member S2 is inserted below the
The second connecting member S2a2 of the first connecting member S2a of the second sensing member S2 has a body portion S2a2a having a penetration portion t3 penetrating through the upper and lower chambers, A connecting portion S2a2b which is inserted into the penetrating portion t3 of the body portion S2a2a in such a manner that the connecting portion S2a2b is movably inserted into the penetrating portion t3 of the body portion S2a2a and the connecting portion S2a2b And a spring S2a2c for causing the second sensing member S2 to contact the first connecting member S2a1 of the first connecting member S2a of the second sensing member S2, 43b.
The second connecting member S2b of the second sensing member S2 has the first connecting member S2b1 and the second connecting member S2b2.
The first connecting member S2b1 of the second connecting member S2b of the second sensing member S2 is inserted below the
The second connecting member S2b2 of the second connecting member S2b of the second sensing member S2 has a body portion S2b2a having a penetration portion t4 penetrating the body portion S2b2a, A connecting portion S2b2b which is inserted into the penetrating portion t4 of the body portion S2b2a in such a manner that the connecting portion S2b2b is movably inserted into the penetrating portion t4 of the body portion S2b2a and the connecting portion S2b2b And a spring S2b2c for causing the second sensing member S2 to contact the first connecting member S2b1 of the second connecting member S2b of the second sensing member S2, 43c.
The first sensing line S2c of the second sensing member S2 is accommodated in the
The second sensing line S2d of the second sensing member S2 is accommodated in the
The third sensing line S2e of the second sensing member S2 is received in the
The third sensing member S3 includes a first connecting member S3a, a second connecting member S3b, a first sensing line S3c, a second sensing line S3d, and a third sensing line S3e ).
The first connecting member S3a of the third sensing member S3 has the first connecting member S3a1 and the second connecting member S3a2.
The first contact S3a1 of the first connecting member S3a of the third sensing member S3 is inserted to the left of the
The second connecting member S3a2 of the first connecting member S3a of the third sensing member S3 has a body portion S3a2a having a penetration portion t5 penetrating through the upper and lower walls, A connecting portion S3a2b which is inserted into the penetrating portion t5 of the body portion S3a2a so as to be movable upward and downward and a connecting portion S3a2b which is provided at the penetrating portion t5 of the body portion S3a2a and which presses the connecting portion S3a2b to the right, And a spring S3a2c for causing the third sensing member S3 to contact the first connecting member S3a1 of the first connecting member S3a of the third sensing member S3, 53b.
The second connecting member S3b of the third sensing member S3 has the first connecting member S3b1 and the second connecting member S3b2.
The first contact S3b1 of the second connecting member S3b of the third sensing member S3 is inserted to the left of the
The second connecting member S3b2 of the second connecting member S3b of the third sensing member S3 has a body portion S3b2a having a penetration portion t6 penetrating the upper and lower chambers, A connecting portion S3b2b inserted into the penetrating portion t6 of the body portion S3b2a in such a manner that the connecting portion S3b2b is movably inserted into the penetrating portion t6 of the body portion S3b2a and the connecting portion S3b2b Of the
The first sensing line S3c of the third sensing member S3 is accommodated in the
The second sensing line S3d of the third sensing member S3 is accommodated in the
The third sensing line S3e of the third sensing member S3 is received in the
The fourth sensing member S4 includes a first connecting member S4a, a second connecting member S4b, a first sensing line S4c, a second sensing line S4d, and a third sensing line S4e ).
The first connecting member S4a of the fourth sensing member S4 has the first connecting member S4a1 and the second connecting member S4a2.
The first contact S4a1 of the first connecting member S4a of the fourth sensing member S4 is inserted to the right of the
The second connecting member S4a2 of the first connecting member S4a of the fourth sensing member S4 has a body portion S4a2a having a penetrating portion t7 penetrating through the upper and lower walls, A connecting portion S4a2b which is inserted into the penetrating portion t7 of the body portion S4a2a so as to be movable up and down and a connecting portion S4a2b which is provided on the penetrating portion t7 of the body portion S4a2a and which presses the connecting portion S4a2b to the left, And a spring S4a2c for causing the fourth sensing member S4 to contact the first connecting member S4a1 of the first connecting member S4a of the fourth sensing member S4, 63b.
The second connecting member S4b of the fourth sensing member S4 has the first connecting member S4b1 and the second connecting member S4b2.
The first connector S4b1 of the second connecting member S4b of the fourth sensing member S4 is inserted to the right of the
The second connecting member S4b2 of the second connecting member S4b of the fourth sensing member S4 has a body portion S4b2a having a penetration portion t8 formed so as to pass through the upper and lower chambers, A connecting portion S4b2b which is inserted into the penetrating portion t8 of the body portion S4b2a such that the connecting portion S4b2b can be moved upward and downward and the connecting portion S4b2b which is provided at the penetrating portion t8 of the body portion S4b2a, Of the
The first sensing line S4c of the fourth sensing member S4 is received in the
The second sensing line S4d of the fourth sensing member S4 is received in the
The third sensing line S4e of the fourth sensing member S4 is received in the
The other end of the first sensing line S1c of the first sensing member S1 is electrically connected and the other end of the first sensing line S2c of the second sensing member S2 is electrically connected The other end of the first sensing line S3c of the third sensing member S3 is electrically connected and the other end of the first sensing line S4c of the fourth sensing member S4 is electrically connected, The first sensing line S1c of the sensing member S1 and the first sensing line S2c of the second sensing member S2 and the second sensing line S3c of the third sensing member S3, And outputs an electric signal through the fourth sensing line S4c of the fourth switch S4.
The other end of the second sensing line S1d of the first sensing member S1 is electrically connected to the signal receiver S6 and the other end of the second sensing line S2d of the second sensing member S2 is electrically connected The other end of the second sensing line S3d of the third sensing member S3 is electrically connected and the other end of the second sensing line S4d of the fourth sensing member S4 is electrically connected, The second sensing line S1d of the sensing member S2 and the second sensing line S2d of the second sensing member S2 and the second sensing line S3d of the third sensing member S3, And receives the electric signal from the signal output unit S5 through the fourth sensing line S4d in the step S4.
The transmitter S7 is installed in the signal receiver S6 and outputs a warning signal to the outside when the signal receiver S6 does not receive the electric signal from the signal output unit S5.
FIGS. 9 to 11 are views for explaining the operation of a machined wire installation stand for machining that is easy to repair according to the present invention, and the operation of the present invention will be described with reference to FIGS. 9 to 11. FIG.
As shown in Fig. 4, the processing distribution line L is installed in the processing wire installation stand of the present invention. At this time, the machining distribution line L is stably fixed through the first to eighth machining distribution line installation members B1 to B8.
If there is a problem in fixing the machining distribution line L in the state where the machining distribution line L is installed, the present invention can notify the manager promptly.
9, the first ultrasonic sensor W1 is connected to the fastening body B1d of the first processing line installation member B1 when the fastening body B1d of the first processing line installation member B1 is unfastened, Lt; / RTI > At this time, when the first transmission unit U1 receives from the first ultrasonic sensor W1 a signal indicating that the fastener B1d of the first processing line installation member B1 has not been detected, .
Then, the external administrator can quickly repair the problem area.
Hereinafter, the installation relationship among the configurations of the worktable mounting table for processing processing according to the present invention will be described.
The first supporting
The first sensing line S1c of the first sensing member S1 connected to the signal output unit S5 is connected to the first connection S1a1 of the first connecting member S1a of the first sensing member S1, And the second sensing line S1d of the first sensing member S1 is connected to the first connection S1b1 of the second connecting member S1b of the first sensing member S1, The first sensing member S1 is connected to the second connection S1a2 of the first connection member S1a of the first sensing member S1 and the second connection S1b2 of the second connection member S1b of the first sensing member S1, Is connected to the third sensing line S1e.
In this state, the first connection S1a1 of the first connection member S1a of the first sensing member S1 and the second connection S1a1 of the first connection member S1a of the first sensing member S1 The first engaging
Thereafter, the nut B1a of the first processing line installation member B1 is fastened to the
At this time, when a space is formed between the nut body B1a of the first processing line installation member B1 and the
When a space is formed between the nut body B5a of the fifth processing power distribution line attachment member B5 and the
As described above, according to the present invention, the first sensing line S1c, the second sensing line S1d, and the third sensing line S1e of the first sensing member S1 are not exposed to the outside, The first sensing line S 1 c of the first
In the present invention, the second to
4, the processing power distribution line L is installed on the
The first to
When the wind power is applied in the state that the processing distribution line L is installed on the processing wire installation stand of the present invention, the
At this time, the first to
On the other hand, when the installation period of the present invention is long or the strength of the wind force is strong, the first to
11, the third sensing line S1e of the first sensing member S1 housed in the
At this time, the signal receiver S6 is disconnected from the third sensing line S1e of the first sensing member S1 and no longer receives the electrical signal from the signal output device S5.
If the signal receiver S6 no longer receives the electric signal in this way, the transmitter S7 sends a warning signal to the external management center indicating that a problem has occurred in the machining distribution work line installation board according to the present invention.
As a result, the manager can take immediate action on the problematic machining distribution work line installation.
10; A
30; A
50; A
B1 to B8; First to fourth processing distribution line installation members S1 to S4; The first to fourth sensing members
S5; Signal output device S6; Signal receiver
S7; Transmitters W1 to W8; The first to eighth ultrasonic sensors
U1 ~ U8; The first to eighth transmitting units
Claims (1)
In the above-mentioned processing-dedicated cable installation stand,
A first support part 11 formed on an upper side and a lower side with a sensing part 11a formed to be open to the upper and lower sides on the rear side; A second support part 12 having a sensing part 12a formed to open to the left and right sides on the rear side and intersecting with the first support part 11 in a cross shape; First and second bolt portions 13 and 14 each having a width smaller than the first support portion 11 and protruding outward from both sides of the first support portion 11; (10) having third and fourth bolts (15, 16) each having a width smaller than that of the second support portion (12) and protruding outward from both sides of the second support portion (12) Wow:
A first support portion 21 formed with upper and lower chambers and having a sensing part 21a formed to be open to the upper and lower sides of the front side; A second support part 22 having a sensing part 22a formed to open to the right and left sides in front of the first support part 21 and crossing the first support part 21 in a cross shape; First and second bolt portions 23 and 24 each having a width smaller than the first support portion 21 and protruding outward from both sides of the first support portion 21; And third and fourth bolt portions 25 and 26 each having a width smaller than the second support portion 22 and protruding outward from both sides of the second support portion 22, A second support member 20 spaced apart from the first support member 20;
And an opening 31b having a width smaller than that of the insertion portion 31a and having one side communicated with the insertion portion 31a and the other side opened to upper and lower side and outer side, A first engaging portion 31 detachably attached to the first bolt portion 13 of the first supporting member 10; And an opening 32b having a width smaller than that of the insertion portion 32a and having one side communicating with the insertion portion 32a and the other side opening up to the upper and lower side and the outer side, A second engaging portion 32 detachably attached to the first bolt portion 23 of the second support member 20; The first communicating portion 33a and the second communicating portion 33b communicate with each other through the first communicating portion 33a and the first communicating portion 33a. The first communicating portion 33a communicates with one side of the first communicating portion 33a. A second communicating portion 33b communicating with the upper side of the player's portion 11a and an upper portion communicating with the other side of the first communicating portion 33a and an upper communicating portion communicating with the lower portion of the second supporting member 20 A first cushioning member 30 made of an elastic material and having a sensing part 33 having a second communicating part 33c communicating with the upper side of the sensing part 21a of the supporting part 21;
And an opening 41b having a width smaller than that of the insertion portion 41a and having one side communicating with the insertion portion 41a and the other side having an opening vertically and outwardly, A first engaging portion 41 detachably attached to the second bolt portion 14 of the first supporting member 10; And an opening 42b having a width smaller than that of the insertion portion 42a and having one side communicated with the insertion portion 42a and the other side opened to the upper and lower side and the outer side, A second engaging portion 42 detachably attached to the second bolt portion 24 of the second support member 20; The first communicating portion 43a and the second communicating portion 43b communicate with each other through the first communicating portion 43a and the first communicating portion 43a. The first communicating portion 43a communicates with one side of the first communicating portion 43a. A second communicating portion 43b which communicates with the lower side of the forward portion 11a and a second communicating portion 43b which opens upward and downward and whose lower side communicates with the other side of the first communicating portion 43a, A second cushioning member 40 made of an elastic material and having a sensing part 43 having a second communicating part 43c communicating with a lower side of the sensing part 21a of the supporting part 21;
And an opening 51b having a width smaller than that of the insertion portion 51a and having one side communicated with the insertion portion 51a and the other side opened to the upper and lower side and the outer side, A first engaging portion 51 detachably attached to the third bolt portion 15 of the first supporting member 10; And an opening 52b having a width smaller than that of the insertion portion 52a and having one side communicating with the insertion portion 52a and the other side opening up to the upper and lower side and the outer side, A second engaging portion 52 detachably attached to the third bolt portion 25 of the second support member 20; The first communicating portion 53a and the second communicating portion 53b are communicated with one side of the first communicating portion 53a while the left communicating with the left communicating with the first communicating portion 53a and the right communicating with the sensing portion of the second supporting portion 12 of the first supporting member 10 The second communicating portion 53b communicating with the left side of the forward portion 12a and the second communicating portion 53b communicating with the other side of the first communicating portion 53a and the left communicating with the left communicating portion 53a, A third cushioning member 50 made of an elastic material and having a sensing part 53 having a second communicating part 53c communicating with the left side of the sensing part 22a of the supporting part 22;
And an opening 61b having a width smaller than that of the insertion portion 61a and having one side communicated with the insertion portion 61a and the other side opened to the upper and lower sides and the outer side, A first engaging portion 61 detachably attached to the fourth bolt portion 16 of the first supporting member 10; And an opening 62b having a width smaller than that of the inserting portion 62a and having one side communicating with the inserting portion 62a and the other side opening to the upper and lower side and the outer side, A second engaging portion 62 detachably attached to the fourth bolt portion 26 of the second support member 20; The first communicating portion 63a formed in the front and rear directions and the first communicating portion 63a communicating with one side of the first communicating portion 63a and the right communicating with the one side of the first communicating portion 63a and the left communicating with the sensing portion of the second supporting portion 12 of the first supporting member 10 A second communicating portion 63b communicating with the right side of the forward portion 12a and a second communicating portion 63b communicating with the other side of the first communicating portion 63a and opened on the right and left sides, A fourth cushioning member 60 of elastic material having a sensing part 63 having a second communicating part 63c communicating with the right side of the sensing part 22a of the supporting part 22;
A nut B1a which is threadably fastened to the first bolt portion 13 of the first support member 10 and which presses the first engaging portion 31 of the first buffer member 30; An insertion portion B1b2 which is open to the front and rear sides and which communicates with the seat portion B1b1 and an insertion portion B1b2 which is provided on the upper portion of the insertion portion B1b2, And a second fastening portion B1b2 which is provided at a lower portion of the insertion portion B1b2 and opens upward and downward and communicates with the insertion portion B1b2, (B1b4), and a sensor body (B1b5) formed laterally, one side of which is communicated with the second fastening portion (B1b4) and the other side of which is exposed to the outside; A fixing body B1c having a third fastening portion B1c1 opened to the upper and lower sides and being detachably inserted into the insertion portion B1b2; Is fastened to the first fastening portion B1b3 of the connecting body B1b and the third fastening portion B1c1 of the fixing body B1c and the second fastening portion B1b4 of the connecting body B1b, A first working distribution line installation member B1 having a fastening body B1d for detachably fixing the connection body B1b to the connection body B1b;
A nut B2a detachably threadedly engaged with the second bolt 14 of the first support member 10 and pressing the first engaging portion 41 of the second buffer member 40; An insertion portion B2b2 which is open to front and rear sides and which opens to the front and rear sides and which is in communication with the seat portion B2b1 and an insertion portion B2b2 which is provided at an upper portion of the insertion portion B2b2, A second fastening portion B2b3 which is opened at the lower end of the insertion portion B2b2 and communicates with the insertion portion B2b2, (B2b4), and a sensor B2b5 formed laterally, one side of which is communicated with the second fastening portion B2b4 and the other side of which is exposed to the outside; A fixing body B2c having a third fastening portion B2c1 which is open to the upper and lower sides and is detachably inserted into the insertion portion B2b2; Is fastened to the first fastening portion B2b3 of the connecting body B2b and the second fastening portion B2b4 of the connecting body B2b and the third fastening portion B2c1 of the fixing body B2c, A second processing power distribution line installation member B2 having a fastening body B2d for detachably fixing the first connection part B2c to the connection body B2b;
A nut body B3a detachably threadably fastened to the third bolt portion 15 of the first support member 10 and pressing the first engaging portion 51 of the third buffer member 50; An insertion portion B3b2 which is opened to the front and rear sides and which communicates with the seat portion B3b1 and an insertion portion B3b2 which is provided on the upper portion of the insertion portion B3b2, A first fastening part B3b3 which is open to the insertion part B3b2 by being opened to the insertion part B3b2 and communicated with the insertion part B3b2, (B3b4), and a sensor mounting portion (B3b5) formed laterally, one side of which is communicated with the second fastening portion (B3b4) and the other side of which is exposed to the outside; A fixing body B3c having a third fastening portion B3c1 which is opened to the upper and lower sides and is detachably inserted into the insertion portion B3b2; Is fastened to the first fastening portion B3b3 of the connecting body B3b and the third fastening portion B3c1 of the fixing body B3c and the second fastening portion B3b4 of the connecting body B3b, And a fastening body (B3d) for detachably fixing the connection body (B3c) to the connecting body (B3b); and a second processing power distribution line installation member
A nut body B4a detachably threadably fastened to the fourth bolt portion 16 of the first support member 10 and pressing the first engagement portion 61 of the fourth cushioning member 60; An insertion portion B4b2 which is open to front and rear sides and which communicates with the seat portion B4b1 and an insertion portion B4b2 which is provided on an upper portion of the insertion portion B4b2, A first fastening part B4b3 which is open to the insertion part B4b2 by being opened to the insertion part B4b2 and communicated with the insertion part B4b2, (B4b4), and a sensor body (B4b) formed laterally, one side of which is in communication with the second fastening part (B4b4) and the other side of which is exposed to the outside; A fixing body B4c having a third coupling portion B4c1 which is opened to the upper and lower sides and is detachably inserted into the insertion portion B4b2; The first fastening portion B4b3 of the connecting body B4b and the third fastening portion B4c1 of the fixing body B4c and the second fastening portion B4b4 of the connecting body B4b, A fourth processing power distribution line installation member B4 having a fastening body B4d for detachably fixing the workpiece B4c to the connecting body B4b;
A nut body B5a detachably threadably fastened to the first bolt portion 23 of the second support member 20 and pressing the second engagement portion 32 of the first buffer member 30; An insertion portion B5b2 which is opened to the front and rear sides and which communicates with the seating portion B5b1 and an insertion portion B5b2 which is provided on the upper portion of the insertion portion B5b2, A first coupling part B5b3 which is open to the insertion part B5b2 by being opened to the insertion part B5b2 and communicates with the insertion part B5b2, (B5b4), and a sensor body (B5b) formed laterally, one side of which is communicated with the second fastening portion (B5b4) and the other side of which is exposed to the outside; A fixing body B5c having a third coupling portion B5c1 which is open to the upper and lower sides and is detachably inserted into the insertion portion B5b2; The first fastening portion B5b3 of the connecting body B5b and the third fastening portion B5c1 of the fixing body B5c and the second fastening portion B5b4 of the connecting body B5b, (B5d) having a fastening body (B5d) for detachably fastening the connecting body (B5c) to the connecting body (B5b)
A nut member B6a detachably threadably fastened to the second bolt portion 24 of the second support member 20 and pressing the second engagement portion 42 of the second buffer member 40; An insertion portion B6b2 which is opened to the front and rear sides and which communicates with the seat portion B6b1 and an insertion portion B6b2 which is provided on the upper portion of the insertion portion B6b2, And a second fastening part B6b2 which is provided at a lower portion of the insertion part B6b2 and opens upward and downward to communicate with the insertion part B6b2, (B6b4), and a sensor body (B6b) formed laterally, one side of which is communicated with the second fastening part (B6b4) and the other side of which is exposed to the outside; A fixing body B6c having a third coupling portion B6c1 opened to the upper and lower sides and being detachably inserted into the insertion portion B6b2; The first fastening portion B6b3 of the connecting body B6b and the third fastening portion B6c1 of the fixing body B6c and the second fastening portion B6b4 of the connecting body B6b, (B6d) having a fastening body (B6d) for detachably fixing the connection body (B6c) to the connecting body (B6b)
A nut body B7a detachably threadably fastened to the third bolt portion 25 of the second support member 20 and pressing the second engagement portion 52 of the third buffer member 50; An insertion portion B7b2 which is opened to front and rear sides and which communicates with the seat portion B7b1 and an insertion portion B7b2 which is provided at an upper portion of the insertion portion B7b2, And a second fastening portion B7b2 which is provided at a lower portion of the insertion portion B7b2 and opens upward and downward to communicate with the insertion portion B7b2, (B7b4), and a sensor body (B7b) having a lateral side, one side communicating with the second fastening portion (B7b4) and the other side exposed to the outside; A fixing body B7c having a third coupling portion B7c1 which is open to the upper and lower sides and is detachably inserted into the insertion portion B7b2; Is fastened to the first fastening portion B7b3 of the connecting body B7b and the third fastening portion B7c1 of the fixing body B7c and the second fastening portion B7b4 of the connecting body B7b, A seventh processing distribution line installation member B7 having a fastening body B7d for detachably fixing the connection body B7c to the connecting body B7b;
A nut member B8a detachably threadably fastened to the fourth bolt portion 26 of the second support member 20 and pressing the second engagement portion 62 of the fourth cushioning member 60; An insertion portion B8b2 which is open to the front and rear sides and which communicates with the seat portion B8b1 and an insertion portion B8b2 which is provided on the upper portion of the insertion portion B8b2, A first coupling part B8b3 which is open to the insertion part B8b2 by being opened to the insertion part B8b2 and communicates with the insertion part B8b2, (B8b4), and a sensor body (B8b) having a sensor attachment part (B8b5) formed laterally and communicating with the second fastening part (B8b4) and the other end exposed to the outside; A fixing body B8c having a third coupling portion B8c1 which is opened to the upper and lower sides and is detachably inserted into the insertion portion B8b2; The first fastening portion B8b3 of the connecting body B8b and the third fastening portion B8c1 of the fixing body B8c and the second fastening portion B8b4 of the connecting body B8b, (B8d) for detachably fixing the connection body (B8c) to the connecting body (B8b); and an eighth working line mounting member
B8b5, B6b5, B7b5, and B8b5 of the first to eighth distribution power distribution line installation members B1 to B8 and the first to eighth distribution distribution line installation members B1 to B8 First to eighth ultrasonic sensors W1 to W8 for sensing the fastening bodies B1d, B2d, B3d, B4d, B5d, B6d, B7d,
B2d and B1d of the first to eighth processing lines B1 to B8 are provided from the first to eighth ultrasonic sensors W1 to W8 to the first to eighth processing lines B1 to B8, (U1 to U8) for transmitting a signal indicating that repair is required to the outside upon reception of a signal indicating that it has failed to detect the signals B3d, B3d, B4d, B5d, B6d, B7d and B8d,
A first connecting member S1a1 inserted into the upper part of the detecting part 11a of the first supporting part 11 of the first supporting member 10 and a through part t1 penetrating in the upper and lower directions, A connecting portion S1a2b which is inserted into the penetrating portion t1 of the body portion S1a2a so as to be movable up and down and a connecting portion S1a2b which is provided at the penetrating portion t1 of the body portion S1a2a, And a spring (S1a2c) for pressing the connecting portion (S1a2b) downward so that the connecting portion (S1a2b) contacts the first connecting member (S1a1), so that the second connecting portion (33b) of the first cushioning member A first connecting member S1a provided with a contact S1a2; A first connecting member S1b1 inserted into the upper part of the detecting part 21a of the first supporting part 21 of the second supporting member 20 and a penetrating part t2 penetrating in the upper and lower directions, A connecting portion S1b2b which is inserted into the penetrating portion t2 of the body portion S1b2a so as to be movable upward and downward and a connecting portion S1b2b which is provided at the penetrating portion t2 of the body portion S1b2a, And a spring (S1b2c) for pressing the connecting portion (S1b2b) downward so that the connecting portion (S1b2b) comes into contact with the first connecting member (S1b1) A second connecting member (S1b) provided with a contact (S1b2); Is received in the detecting portion (11a) of the first supporting portion (11) of the first supporting member (10) and has one end connected to the first connecting member (S1a1) of the first connecting member (S1a) A first sensing line S1c exposed to the outside of the first supporting portion 11 of the supporting member 10; One end of which is connected to the first connecting member S1b1 of the second connecting member S1b and the other end of which is connected to the second supporting member 21 of the second supporting member 20, A second sensing line (S1d) exposed to the outside of the first supporting portion (21) of the supporting member (20); One end of which is connected to the connecting portion S1a2b of the second connecting member S1a2 of the first connecting member S1a and the other end of which is connected to the second connecting member S1a2 of the first connecting member S1a, A first sensing member S1 having a third sensing line S1e connected to the connecting portion S1b2b of the second connecting member S1b2 of the member S1b;
A first connecting member S2a1 inserted into the lower part of the detection part 11a of the first supporting part 11 of the first supporting member 10 and a through part t3 penetrating in the upper and lower directions, A connecting portion S2a2b which is inserted into the penetrating portion t3 of the body portion S2a2a so as to be movable up and down and a connecting portion S2a2b which is provided at the penetrating portion t3 of the body portion S2a2a, And a spring S2a2c for urging the connecting portion S2a2b upward so that the connecting portion S2a2b comes into contact with the first connecting member S2a1. The spring S2a2c presses the second connecting portion 43b of the second buffer member 40, A first connecting member S2a provided with a contact S2a2; A first connecting member S2b1 inserted into the lower part of the detecting part 21a of the first supporting part 21 of the second supporting member 20 and a penetrating part t4 penetrating in the upper and lower directions, A connecting portion S2b2b which is inserted into the penetrating portion t4 of the body portion S2b2a such that the connecting portion S2b2b is movable upward and downward and the connecting portion S2b2b which is provided at the penetrating portion t4 of the body portion S2b2a, And a spring S2b2c for pushing the connecting portion S2b2b downward so that the connecting portion S2b2b comes into contact with the first connecting member S2b1 to form the second connecting portion 43c of the second buffer member 40, A second connecting member S2b having a contact S2b2; The first sensing line S2c of the second sensing member S2 is accommodated in the sensing portion 11a of the first supporting portion 11 of the first supporting member 10 and has one end connected to the first connecting member S2a A first sensing line S2c connected to the first connection S2a1 of the first supporting member 10 and the other end exposed to the outside of the first supporting portion 11 of the first supporting member 10; One end of which is connected to the first connecting member S2b1 of the second connecting member S2b and the other end of which is connected to the second connecting member S2b1 of the second supporting member 20, A second sensing line S2d which is exposed to the outside of the first supporting portion 21 of the supporting member 20; One end of which is connected to the connecting portion S2a2b of the second connecting member S2a2 of the first connecting member S2a and the other end of which is connected to the second connecting member S2a2 of the second buffer member 40, A second sensing member S2 having a third sensing line S2e connected to the connection S2b2b of the second connector S2b2 of the member S2b;
A first connecting member S3a1 inserted into the left side of the sensing part 12a of the second supporting part 12 of the first supporting member 10 and a through hole t5 penetrating in the upper and lower directions, A connecting portion S3a2b which is inserted into the penetrating portion t5 of the body portion S3a2a so as to be movable up and down and a connecting portion S3a2b which is provided at the penetrating portion t5 of the body portion S3a2a, And a spring S3a2c for pushing the connecting portion S3a2b to the first connecting member S3a1 by pushing the connecting portion S3a2b to the second connecting portion 53b of the third cushioning member 50, A first connecting member S3a provided with a contact S3a2; A first connecting member S3b1 inserted into the left side of the sensing part 22a of the second supporting part 22 of the second supporting member 20 and a through part t6 penetrating through the upper part and the lower part, A connecting portion S3b2b which is inserted into the penetrating portion t6 of the body portion S3b2a so as to be movable up and down and a connecting portion S3b2b which is provided at the penetrating portion t6 of the body portion S3b2a, And a spring S3b2c for urging the connecting portion S3b2b to the first connecting member S3b1 so that the connecting portion S3b2b is in contact with the first connecting member S3b1 so that the second connecting member S3b2b is inserted into the third connecting portion 53c of the third buffer member 50. [ A second connecting member S3b having a contact S3b2; Is received in the sensing part (12a) of the second supporting part (12) of the first supporting member (10) and has one end connected to the first connecting member (S3a1) of the first connecting member (S3a) A first sensing line S3c exposed to the outside of the second supporting portion 12 of the supporting member 10; Is received in the detecting portion 22a of the second supporting portion 22 of the second supporting member 20 and has one end connected to the first connecting member S3b1 of the second connecting member S3b, A second sensing line (S3d) exposed to the outside of the second supporting portion (22) of the supporting member (20); One end thereof is connected to the connecting portion S3a2b of the second connecting member S3a2 of the first connecting member S3a and the other end is connected to the connecting portion S3a2b of the second connecting member S3a2 of the third connecting member S3a, A third sensing member S3 having a third sensing line S3e connected to the connecting portion S3b2b of the second connector S3b2 of the member S3b;
A first connecting member S4a1 inserted into the right side of the sensing part 12a of the second supporting part 12 of the first supporting member 10 and a through part t7 penetrating in the upper and lower directions, A connecting portion S4a2b which is inserted into the penetrating portion t7 of the body portion S4a2a so as to be movable up and down and a connecting portion S4a2b which is provided at the penetrating portion t7 of the body portion S4a2a, And a spring S4a2c for pushing the connecting portion S4a2b to the first connecting member S4a1 so that the connecting portion S4a2b contacts the first connecting member S4a1 and the second connecting portion S4b is inserted into the second connecting portion 63b of the fourth buffer member 60. [ A first connecting member S4a provided with a contact S4a2; The first connecting member S4b1 inserted into the right side of the detecting part 22a of the second supporting part 22 of the second supporting member 20 and the penetrating part t8 penetrating in the upper and lower directions, A connecting portion S4b2b which is inserted into the penetrating portion t8 of the body portion S4b2a so as to be movable up and down and a connecting portion S4b2b which is provided at the penetrating portion t8 of the body portion S4b2a, And a spring S4b2c for pushing the connecting portion S4b2b to the first connecting member S4b1 so as to press the connecting portion S4b2b to the left to contact the first connecting member S4b1 to the third connecting portion 63c of the fourth cushioning member 60, A second connecting member S4b having a contact S4b2; One end of which is connected to the first connecting member S4a1 of the first connecting member S4a and the other end of which is connected to the first connecting member S4a1 of the second supporting member 12 of the first supporting member 10, A first sensing line S4c exposed to the outside of the second supporting portion 12 of the supporting member 10; One end of which is connected to the first connecting member S4b1 of the second connecting member S4b and the other end of which is connected to the second connecting member S4b2 of the second supporting member 22 of the second supporting member 20, A second sensing line S4d exposed to the outside of the second supporting portion 22 of the supporting member 20; One end of which is connected to the connecting portion S4a2b of the second connecting member S4a2 of the first connecting member S4a and the other end of which is connected to the second connecting portion S4a2 of the fourth connecting member S4a, A fourth sensing member S4 having a third sensing line S4e connected to the connection S4b2b of the second connector S4b2 of the member S4b;
The other end of the first sensing line S1c of the first sensing member S1 is electrically connected and the other end of the first sensing line S2c of the second sensing member S2 is electrically connected, The other end of the first sensing line S3c of the first sensing member S4 is electrically connected and the other end of the first sensing line S4c of the fourth sensing member S4 is electrically connected, The first sensing line S2c of the first sensing line S1c and the second sensing line S2c of the second sensing member S2 and the second sensing line S3c of the third sensing member S3 and the fourth sensing line S3c of the fourth sensing member S4, A signal output unit S5 for outputting an electric signal through the sensing line S4c;
The other end of the second sensing line S1d of the first sensing member S1 is electrically connected and the other end of the second sensing line S2d of the second sensing member S2 is electrically connected, The other end of the second sensing line S 3 d of the second sensing member S 3 is electrically connected and the other end of the second sensing line S 4 d of the fourth sensing member S 4 is electrically connected, The second sensing line S2d of the second sensing member S2 and the second sensing line S3d of the third sensing member S3 and the fourth sensing line S3d of the fourth sensing member S4, A signal receiver S6 for receiving the electrical signal from the signal output device S5 via the sensing line S4d;
A transmitter S7 which is provided in the signal receiver S6 and outputs an alarm signal to the outside when the signal receiver S6 does not receive the electric signal from the signal output unit S5,
Wherein the first and second wires are connected to each other.
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KR1020160010652A KR101650823B1 (en) | 2016-01-28 | 2016-01-28 | Bracket for installing aerial line |
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KR1020160010652A KR101650823B1 (en) | 2016-01-28 | 2016-01-28 | Bracket for installing aerial line |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH06165353A (en) * | 1992-11-24 | 1994-06-10 | Furukawa Electric Co Ltd:The | Multiconductor transmission line |
KR100905247B1 (en) * | 2009-03-07 | 2009-06-29 | 남도종합기술(주) | A structure of clamping using spacer damper |
KR101101907B1 (en) * | 2010-07-28 | 2012-01-02 | 한국전력공사 | Spacer damper and temperature monitor system of transmission line having the same |
KR20120013113A (en) * | 2010-08-04 | 2012-02-14 | 성균관대학교산학협력단 | Smart self-maintenance system for railroad tracks |
KR101504986B1 (en) | 2014-12-01 | 2015-03-23 | 주식회사 현신 | spacer device |
-
2016
- 2016-01-28 KR KR1020160010652A patent/KR101650823B1/en active IP Right Grant
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH06165353A (en) * | 1992-11-24 | 1994-06-10 | Furukawa Electric Co Ltd:The | Multiconductor transmission line |
KR100905247B1 (en) * | 2009-03-07 | 2009-06-29 | 남도종합기술(주) | A structure of clamping using spacer damper |
KR101101907B1 (en) * | 2010-07-28 | 2012-01-02 | 한국전력공사 | Spacer damper and temperature monitor system of transmission line having the same |
KR20120013113A (en) * | 2010-08-04 | 2012-02-14 | 성균관대학교산학협력단 | Smart self-maintenance system for railroad tracks |
KR101504986B1 (en) | 2014-12-01 | 2015-03-23 | 주식회사 현신 | spacer device |
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