CN212380863U - Auxiliary classification fixing device for power distribution automation signal transmission cable - Google Patents
Auxiliary classification fixing device for power distribution automation signal transmission cable Download PDFInfo
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- CN212380863U CN212380863U CN202021413807.5U CN202021413807U CN212380863U CN 212380863 U CN212380863 U CN 212380863U CN 202021413807 U CN202021413807 U CN 202021413807U CN 212380863 U CN212380863 U CN 212380863U
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Abstract
The utility model provides a distribution automation signal transmission cable is with supplementary categorised fixing device, its structure includes punch holder and lower plate, the punch holder upper surface is opened porosely and is fed through and installs the feeder hopper, feeder hopper and punch holder junction fixed mounting have the heating device body, one side below of punch holder is rotated through hinge and one side top of lower plate and is connected, the inside of punch holder is equipped with the moulding-die storehouse, the lower surface of punch holder has A groove, and the upper surface of lower plate has the B groove, and A groove is just in time relative with the B groove when punch holder and lower plate closed, the lower extreme and the moulding-die storehouse intercommunication of feeder hopper, moulding-die storehouse and A groove intercommunication. The utility model provides a current device be difficult to carry out insulation treatment's problem to cable joint department when the classified connection between the cable.
Description
Technical Field
The utility model relates to a distribution automation signal transmission cable is with supplementary categorised fixing device belongs to electric power engineering technical field.
Background
In the electric power engineering work progress, the occasion that needs carry out erection joint to the cable is very many, sometimes need carry out the connection between the different cables simultaneously to stranded cable fixed, when stranded cable erection joint simultaneously, can set up supporting structure usually, utilize supporting structure to support stranded cable, avoid appearing relative interference between the cable and cause the broken circuit.
However, the existing support has a single structure function, can only simply classify multi-strand cables generally, cannot realize fixed connection between the cables, and particularly cannot realize insulation butt joint between two cables; meanwhile, in the prior art, the joint is fixed during cable butt joint, usually, an insulating tape is used for insulation treatment, and the treatment mode easily causes electric leakage of the cable, so that the use of the electric device is influenced.
SUMMERY OF THE UTILITY MODEL
The utility model provides a distribution automation signal transmission cable is with supplementary categorised fixing device, its purpose aims at solving current device and is difficult to carry out insulation treatment's problem to cable joint department when cable fixed connection.
The technical solution of the utility model is as follows: the utility model provides a distribution automation signal transmission cable is with supplementary categorised fixing device, its structure includes punch holder 5 and lower plate 10, 5 upper surfaces of punch holder open porosely and the intercommunication installs feeder hopper 4, feeder hopper 4 and 5 junction fixed mounting of punch holder have heating device body 3, one side below of punch holder 5 is rotated through hinge 7 and one side top of lower plate 10 and is connected, the inside of punch holder 5 is equipped with moulding-die storehouse 11, the lower surface of punch holder 5 has A groove 12, and the upper surface of lower plate 10 has B groove 13, and A groove 12 is just in time relative with B groove 13 when punch holder 5 and lower plate 10 are closed, and the lower extreme and the moulding-die storehouse 11 intercommunication of feeder hopper 4, moulding-die storehouse 11 and A groove 12 intercommunication.
The utility model has the advantages that:
1) the problem that the existing device is difficult to perform insulation treatment on cable joints when cables are fixedly connected is solved;
2) the multi-strand cable can be effectively classified and fixed;
3) the utility model discloses a further handle that sets up wooden material preparation has made things convenient for operating personnel to operate, has just reached the effect of carrying out safety protection to operating personnel.
Drawings
Fig. 1 is a schematic view of the structure of the present invention.
Fig. 2 is a schematic sectional view of the present invention.
Fig. 3 is a schematic diagram of the unfolding overlooking structure of the present invention.
In the drawings: 1 is a handle; 2 is a connecting rod; 3 is a heating device body; 4 is a feed hopper; 5 is an upper splint; 6 is a power supply line; 7 is a hinge; 8 is a cable body; 9 is the inner core of the cable; 10 is a lower splint; 11 is a die pressing chamber; 12 is a groove A; and 13 is a B groove.
Detailed Description
Reference figure, a distribution automation signal transmission cable is with supplementary categorised fixing device, its structure includes punch holder 5 and lower plate 10, 5 upper surfaces of punch holder open porosely and the intercommunication installs feeder hopper 4, feeder hopper 4 and 5 junction fixed mounting of punch holder have heating device body 3, one side below of punch holder 5 is rotated through hinge 7 and one side top of lower plate 10 and is connected, the inside of punch holder 5 is equipped with moulding-die storehouse 11, the lower surface of punch holder 5 has A groove 12, and the upper surface of lower plate 10 has B groove 13, and A groove 12 is just opposite with B groove 13 when punch holder 5 and lower plate 10 are closed, and the lower extreme and the moulding-die storehouse 11 intercommunication of feeder hopper 4, moulding-die storehouse 11 and A groove 12 intercommunication.
The upper opening area of the funnel-shaped feed hopper 4 is larger than the lower opening area of the funnel-shaped feed hopper 4.
The upper part of the die pressing bin 11 is communicated with the feed hopper 4, and the lower part of the die pressing bin 11 is communicated with the groove A12 on the lower surface of the upper clamping plate 5; a plurality of grooves A12 are arranged on the lower surface of the upper clamping plate 5, the A grooves 12 are parallel to each other, and the number of grooves B13 on the upper surface of the lower clamping plate 10 is the same as that of the grooves A12; when the upper clamping plate 5 and the lower clamping plate 10 are closed, the A grooves 12 and the B grooves 13 are just oppositely arranged one by one to form a plurality of cable fixing grooves.
The notch of the A groove 12 is downward, the notch of the B groove 13 is upward, and the shape of a cable fixing groove formed by the A groove 12 and the B groove 13 is matched with the shape of a fixed cable, so that the cable is conveniently and fixedly connected.
The A groove 12 is horizontally arranged, the length direction of the A groove 12 penetrates through the two opposite sides of the upper clamping plate 5, and the length direction of the A groove 12 is parallel to the plane of the hinge 7; the B groove 13 is horizontally arranged, the length direction of the B groove 13 penetrates through the two opposite sides of the lower clamping plate 10, and the length direction of the B groove 13 is parallel to the plane of the hinge 7.
The other sides of the upper splint 5 and the lower splint 10 opposite to the hinge 7 are both connected with a handle 1; the other side of the upper splint 5 opposite to the hinge 7 is connected with one handle 1 through one connecting rod 2, and the other side of the lower splint 10 opposite to the hinge 7 is connected with the other handle 1 through the other connecting rod 2.
The grip 1 is preferably made of wood material; through the handle 1 that uses wooden material preparation, when heating device body 3 heats the cable conductor body raw and other materials in feeder hopper 4, operating personnel can avoid scalding because of the personnel that the high temperature caused through holding the handle, has reached the effect of protecting operating personnel.
A power line 6 is arranged on one side of the heating device body 3 and is electrically connected with an external electric socket through the power line 6, so that the power supply on and off of the heating device body 3 is realized; the preferred resistance wire heating of heating device body 3, heating device body 3 centers on around 5 upper surface trompils of punch holder, also be around feeder hopper 4 and 5 junctions of punch holder, make things convenient for heating device body 3 to heat the cable conductor body raw and other materials that flow to the inside moulding-die storehouse 11 of punch holder 5 from feeder hopper 4.
The upper clamping plate 5 and the lower clamping plate 10 are both preferably made of stainless steel materials.
The lower surface area of the upper clamping plate 5 is consistent with the upper surface area of the lower clamping plate 10.
The utility model discloses the during operation: each cable of the plurality of cables can be correspondingly placed in a plurality of B grooves 13 on the upper surface of the lower clamp plate 10, one cable is placed in each B groove 13, the upper clamp plate 5 and the lower clamp plate 10 are closed by rotating the upper clamp plate 5 and the lower clamp plate 10 around the hinge 7 relatively, after the upper clamp plate 5 and the lower clamp plate 10 are closed, the A groove 12 on the lower surface of the upper clamp plate 5 and the B grooves 13 on the upper surface of the lower clamp plate 10 are just in one-to-one correspondence to form a plurality of cable fixing grooves, and each cable placed in the B groove 13 after the cable fixing grooves are formed is just fixed by the corresponding cable fixing groove, so that classified fixing of the plurality of cables is realized; in addition, each strand of cable usually has its own cable body 8 and cable conductor inner core 9 to make up, fixedly connect with cable conductor inner core 9 in the cable conductor body 8, the cable conductor body 8 wraps up in the periphery of the cable conductor inner core 9, the cable conductor body 8 plays the role of protecting the cable conductor inner core 9 and insulating, the cable conductor body 8 is usually made of insulating rubber material, when needing to realize the cable connection to different cables, usually need to peel off the cable conductor body 8 of each strand of cable junction, then connect the cable conductor inner cores 9 between different cables, the exposed surface of the cable conductor inner core 9 after connecting needs the insulation protection again, use the utility model, can put the junction part of several strands of connected cable conductor inner cores 9 in several B grooves 13 of the upper surface of the lower plate 10 correspondingly at the same time, realize the closure of the upper plate 5 and the lower plate 10 by rotating the upper plate 5 and the lower plate 10 relatively around the hinge 7, after the upper plate 5 and the lower plate 10 are closed, the groove A12 on the lower surface of the upper plate 5 and the groove B13 on the upper surface of the lower plate 10 just correspond to each other one by one to form a plurality of cable fixing grooves, the cable conductor inner core 9 is just in the corresponding cable fixing groove, then, rubber particles are put into the feed inlet of the feed hopper 4, the heating device body 3 is started simultaneously, when the rubber particles in the feed hopper 4 enter the die pressing bin 11 through the holes of the upper plate 5, the rubber particles are heated and melted by the surrounding heating device body 3 and then flow into the die pressing bin 11 and the cable fixing grooves to coat the exposed cable conductor inner core 9, after the rubber particles are cooled, when the molten liquid of the rubber particles is solidified again, the lower plate 10 is separated from the upper plate 5, the corresponding cables which are connected in an insulated mode are taken out, and the effect of insulating treatment and.
The utility model discloses can realize promptly carrying out effectual classification to the stranded cable conductor and fix, can carry out insulation treatment to cable joint department again, solve current device and can only carry out simple classification, nevertheless be difficult to handle the problem of cable joint department electric leakage to the stranded cable.
Example 1
The utility model provides a distribution automation signal transmission cable is with supplementary categorised fixing device, its structure includes punch holder 5 and lower plate 10, 5 upper surfaces of punch holder open porosely and the intercommunication installs feeder hopper 4, feeder hopper 4 and 5 junction fixed mounting of punch holder have heating device body 3, one side below of punch holder 5 is rotated through hinge 7 and one side top of lower plate 10 and is connected, the inside of punch holder 5 is equipped with moulding-die storehouse 11, the lower surface of punch holder 5 has A groove 12, and the upper surface of lower plate 10 has B groove 13, and A groove 12 is just in time relative with B groove 13 when punch holder 5 and lower plate 10 are closed, and the lower extreme and the moulding-die storehouse 11 intercommunication of feeder hopper 4, moulding-die storehouse 11 and A groove 12 intercommunication, the opposite side that punch holder 5 and lower plate 10 are relative with hinge 7 all is connected with handle 1.
The upper opening area of the funnel-shaped feed hopper 4 is larger than the lower opening area of the funnel-shaped feed hopper 4.
The upper part of the die pressing bin 11 is communicated with the feed hopper 4, and the lower part of the die pressing bin 11 is communicated with the groove A12 on the lower surface of the upper clamping plate 5; the number of the grooves A12 on the lower surface of the upper clamping plate 5 is multiple, the grooves A12 are parallel to each other and are communicated with each other, the number of the grooves B13 on the upper surface of the lower clamping plate 10 is the same as that of the grooves A12, and the grooves B13 are parallel to each other and are communicated with each other; when the upper clamping plate 5 and the lower clamping plate 10 are closed, the A grooves 12 and the B grooves 13 are just oppositely arranged one by one to form a plurality of cable fixing grooves.
The cross sections of the grooves A12 and the grooves B13 are semicircular, the notches of the grooves A12 are downward, the notches of the grooves B13 are upward, and the cross section of a cable fixing groove formed by the grooves A12 and the grooves B13 is circular.
The A groove 12 is horizontally arranged, the length direction of the A groove 12 penetrates through the two opposite sides of the upper clamping plate 5, and the length direction of the A groove 12 is parallel to the plane of the hinge 7; the B groove 13 is horizontally arranged, the length direction of the B groove 13 penetrates through the two opposite sides of the lower clamping plate 10, and the length direction of the B groove 13 is parallel to the plane of the hinge 7.
The other side of the upper splint 5 opposite to the hinge 7 is connected with one handle 1 through one connecting rod 2, and the other side of the lower splint 10 opposite to the hinge 7 is connected with the other handle 1 through the other connecting rod 2.
The handle 1 is made of wood materials.
A power line 6 is arranged on one side of the heating device body 3; resistance wire heating is preferably selected to heating device body 3, and heating device body 3 surrounds around the trompil of upper surface of punch holder 5, namely around the junction of feeder hopper 4 and punch holder 5.
The upper clamping plate 5 and the lower clamping plate 10 are both made of stainless steel materials.
The lower surface area of the upper clamping plate 5 is consistent with the upper surface area of the lower clamping plate 10.
Example 2
An auxiliary classification fixing device for a power distribution automation signal transmission cable structurally comprises a handle 1, a connecting rod 2, a heating device body 3, a feed hopper 4, an upper clamping plate 5, a power line 6, a hinge 7 and a lower clamping plate 10; wherein, 5 upper surfaces of punch holder open porosely and communicate and install feeder hopper 4, feeder hopper 4 and 5 junctions fixed mounting of punch holder have heating device body 3, one side below of punch holder 5 is rotated through hinge 7 and one side top of lower plate 10 and is connected, the inside of punch holder 5 is equipped with moulding-die storehouse 11, the lower surface of punch holder 5 has A groove 12, and the upper surface of lower plate 10 has B groove 13, and A groove 12 is just in time relative with B groove 13 when punch holder 5 and lower plate 10 closed, and the lower extreme and the moulding-die storehouse 11 intercommunication of feeder hopper 4, moulding-die storehouse 11 and A groove 12 intercommunication, the opposite side that punch holder 5 and lower plate 10 and hinge 7 are relative all is connected with handle 1.
The upper opening area of the funnel-shaped feed hopper 4 is larger than the lower opening area of the funnel-shaped feed hopper 4.
The upper part of the die pressing bin 11 is communicated with the feed hopper 4, and the lower part of the die pressing bin 11 is communicated with the groove A12 on the lower surface of the upper clamping plate 5; the number of the grooves A12 on the lower surface of the upper splint 5 is 3-6, the 3-6 grooves A12 are mutually parallel and communicated, the number of the grooves B13 on the upper surface of the lower splint 10 is the same as that of the grooves A12, and a plurality of the grooves B13 are mutually parallel and communicated; when the upper clamping plate 5 and the lower clamping plate 10 are closed, 3-6A grooves 12 and 3-6B grooves 13 are oppositely arranged to form 3-6 cable fixing grooves.
The notch of the A groove 12 is downward, the notch of the B groove 13 is upward, and the shape of a cable fixing groove formed by the A groove 12 and the B groove 13 is matched with the shape of a fixed cable, so that the cable is conveniently and fixedly connected.
The A groove 12 is horizontally arranged, the length direction of the A groove 12 penetrates through the two opposite sides of the upper clamping plate 5, and the length direction of the A groove 12 is parallel to the plane of the hinge 7; the B groove 13 is horizontally arranged, the length direction of the B groove 13 penetrates through the two opposite sides of the lower clamping plate 10, and the length direction of the B groove 13 is parallel to the plane of the hinge 7.
The other side of the upper splint 5 opposite to the hinge 7 is connected with one handle 1 through one connecting rod 2, and the other side of the lower splint 10 opposite to the hinge 7 is connected with the other handle 1 through the other connecting rod 2.
The handle 1 is made of wood materials.
A power line 6 is arranged on one side of the heating device body 3; resistance wire heating is preferably selected to heating device body 3, and heating device body 3 surrounds around the trompil of upper surface of punch holder 5, namely around the junction of feeder hopper 4 and punch holder 5.
The upper clamping plate 5 and the lower clamping plate 10 are both made of stainless steel materials.
The lower surface area of the upper clamping plate 5 is consistent with the upper surface area of the lower clamping plate 10.
Claims (10)
1. An auxiliary classification fixing device for a distribution automation signal transmission cable is characterized by comprising an upper clamping plate (5) and a lower clamping plate (10), the upper surface of the upper clamping plate (5) is provided with a hole and is communicated with a feed hopper (4), a heating device body (3) is fixedly arranged at the joint of the feed hopper (4) and the upper clamping plate (5), the lower part of one side of the upper splint (5) is rotationally connected with the upper part of one side of the lower splint (10) through a hinge (7), a die pressing bin (11) is arranged in the upper clamping plate (5), a groove A (12) is arranged on the lower surface of the upper clamping plate (5), a groove B (13) is arranged on the upper surface of the lower clamping plate (10), when the upper clamping plate (5) and the lower clamping plate (10) are closed, the groove A (12) is just opposite to the groove B (13), the lower end of the feed hopper (4) is communicated with the die pressing bin (11), and the die pressing bin (11) is communicated with the groove A (12).
2. The auxiliary classification fixing device for the distribution automation signal transmission cable according to claim 1, characterized in that the feeding hopper (4) is located above the upper surface of the upper clamping plate (5), the feeding hopper (4) is funnel-shaped, the upper opening of the funnel-shaped feeding hopper (4) is a feeding port of the feeding hopper (4), the lower opening of the funnel-shaped feeding hopper (4) is a discharging port of the feeding hopper (4), the discharging port of the feeding hopper (4) is communicated with the die pressing bin (11) inside the upper clamping plate (5) through a hole in the upper surface of the upper clamping plate (5), and the die pressing bin (11) is communicated with the groove A (12) in the lower surface of the upper clamping plate (5).
3. The auxiliary classification fixing device for distribution automation signal transmission cable according to claim 2, characterized in that the upper opening area of the funnel-shaped feeding hopper (4) is larger than the lower opening area of the funnel-shaped feeding hopper (4).
4. The auxiliary classification fixing device for the distribution automation signal transmission cable according to claim 1, characterized in that the upper part of the die chamber (11) is communicated with the feed hopper (4), and the lower part of the die chamber (11) is communicated with the A groove (12) on the lower surface of the upper clamping plate (5); a plurality of grooves A (12) are arranged on the lower surface of the upper clamping plate (5), the grooves A (12) are parallel to each other, and the number of grooves B (13) on the upper surface of the lower clamping plate (10) is the same as that of the grooves A (12); when the upper clamping plate (5) and the lower clamping plate (10) are closed, the A grooves (12) and the B grooves (13) are just oppositely arranged one by one to form a plurality of cable fixing grooves.
5. The auxiliary classification fixing device for the distribution automation signal transmission cable according to claim 1, characterized in that the A groove (12) is horizontally placed, the length direction of the A groove (12) penetrates through two opposite sides of the upper clamping plate (5), and the length direction of the A groove (12) is parallel to the plane of the hinge (7); the B groove (13) is horizontally arranged, the length direction of the B groove (13) penetrates through the two opposite sides of the lower clamping plate (10), and the length direction of the B groove (13) is parallel to the plane where the hinge (7) is located.
6. The auxiliary classification fixing device for the distribution automation signal transmission cable according to claim 1, characterized in that the other sides of the upper clamping plate (5) and the lower clamping plate (10) opposite to the hinge (7) are connected with a handle (1); the other side of the upper splint (5) opposite to the hinge (7) is connected with one handle (1) through one connecting rod (2), and the other side of the lower splint (10) opposite to the hinge (7) is connected with the other handle (1) through the other connecting rod (2).
7. The auxiliary classification fixing device for the distribution automation signal transmission cable according to claim 6, characterized in that the handle (1) is made of wood material; the upper clamping plate (5) and the lower clamping plate (10) are both made of stainless steel materials.
8. The auxiliary classification fixing device for the distribution automation signal transmission cable according to claim 1 is characterized in that a power line (6) is installed on one side of the heating device body (3).
9. The auxiliary classification fixing device for the distribution automation signal transmission cable according to claim 1, characterized in that the heating device body (3) is heated by a resistance wire, and the heating device body (3) surrounds the connection part of the feed hopper (4) and the upper clamping plate (5).
10. The auxiliary classification fixing device for distribution automation signal transmission cable according to claim 1, characterized in that the lower surface area of the upper clamping plate (5) is consistent with the upper surface area of the lower clamping plate (10).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021413807.5U CN212380863U (en) | 2020-07-17 | 2020-07-17 | Auxiliary classification fixing device for power distribution automation signal transmission cable |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021413807.5U CN212380863U (en) | 2020-07-17 | 2020-07-17 | Auxiliary classification fixing device for power distribution automation signal transmission cable |
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CN212380863U true CN212380863U (en) | 2021-01-19 |
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CN202021413807.5U Active CN212380863U (en) | 2020-07-17 | 2020-07-17 | Auxiliary classification fixing device for power distribution automation signal transmission cable |
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2020
- 2020-07-17 CN CN202021413807.5U patent/CN212380863U/en active Active
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