CN117424009B - Non-standard electric power fitting for electric power system - Google Patents

Abstract

The invention provides a nonstandard electric power fitting for an electric power system, which belongs to the technical field of electric power fittings and comprises a base body part, wherein the base body part comprises a connecting base body, and a first clamping body and a plurality of second clamping bodies are arranged on the connecting base body; and a fastening portion including a first fastener, a second fastener, and a third fastener. This a nonstandard electric power fitting for electric power system has improved and optimized fastening portion and base member portion, when making it carry out the connection work between main line and the many branch lines, both can guarantee the steadiness that main line and branch line are connected, improved the convenience of connection process again, and can be nimble be suitable for the connection of different diameter main line and branch line in a certain limit, simultaneously behind main line and branch line steadiness connection, can be alone nimble carry out the unblock to the local maintenance, have connection stability good, the convenient to use degree is high, application scope is wide and the practicality is high advantage.

Description

Non-standard electric power fitting for electric power system

Technical Field

The invention relates to the technical field of electric power fittings, in particular to a non-standard electric power fitting for an electric power system.

Background

The electric power fitting is a metal accessory which is used for connecting and combining various devices in an electric power system and has the functions of transmitting mechanical load, electric load and protection. The power clamp is one of them, and is generally used for connecting and fixing the wires in the power transmission and distribution system, the conventional wire connection is generally to connect two wires distributed linearly (as shown in fig. 1), the connection and fixing process is relatively simple, the corresponding requirement on the power clamp is relatively low, some relatively special wire connections need to connect two wires in a T-shaped state, especially a plurality of branch wires and a single main wire are connected in a T-shaped state (as shown in fig. 2), and the connection and fixing process is relatively troublesome and the requirement on the power clamp is relatively high.

At present, a plurality of branch lines and a single main line are connected in a T shape, a T-shaped wire clamp is generally adopted, only one branch line and the main line can be connected at a time, and in the connecting process, multiple butt joint needs to be carried out, butt joint parts are firstly abutted together, then the butt joint parts are tightly connected together by a fastener to clamp and fix the main line and the branch lines, the whole connecting and fixing process is complex, the convenience is low, the effect of follow-up clamping and fixing can be directly influenced by the abutting state and the abutting compactness, the connecting efficiency can be influenced, the connecting quality is easily influenced, and the connecting stability is further influenced.

Disclosure of Invention

The invention provides a non-standard electric power fitting for an electric power system, which aims to solve the problems of complex connection process and low convenience of a single main line and a plurality of branch lines in the related technology.

The invention provides a non-standard electric power fitting for an electric power system, which comprises a base body part, wherein the base body part comprises a connecting base body, a first clamping body and a plurality of second clamping bodies are arranged on the connecting base body, the second clamping bodies are linearly distributed on the connecting base body, and the second clamping bodies comprise a first clamping base body and a second clamping base body which are matched with each other; the fastening part comprises a first fastening piece, a second fastening piece and a third fastening piece, wherein the first clamping base body and the second fastening piece are in limiting sliding connection with the first fastening piece, the first fastening piece uniformly fastens and connects the corresponding first clamping base body and the second clamping base body together, the fastening and connecting process is completed twice, the second fastening piece is independently fixedly connected with the first clamping base body and the second clamping base body, and the fastening and connecting process is carried out between the two fastening and connecting processes of the first fastening piece.

In one possible implementation manner, the third fastener includes a fastening body and a preliminary connecting body, the fastening body is in a U-shaped structure and is used for fastening and connecting the first clamping body and the second clamping body together, the preliminary connecting body is used for preliminarily connecting the first clamping body and the connecting base body together, and after the first clamping body is connected with the connecting base body, unidirectional movement can be continued in the fastening direction of the first clamping body and the second clamping body.

In one possible implementation manner, the fastening body is in limited sliding connection with the connecting base body, and a sliding block with a limiting groove is arranged between the fastening body and the first clamping base body in the second clamping body, and the sliding block is in limited sliding connection with the first clamping base body.

In one possible implementation manner, the first fastener comprises a fastening main body with a U-shaped structure and a fastening auxiliary body with an arc-shaped structure, the first clamping base bodies at the end parts of the second clamping bodies in linear distribution are in limit sliding connection with the fastening main body, the other first clamping base bodies are in one-to-one correspondence with the fastening auxiliary bodies, the first clamping base bodies are in limit sliding connection with the corresponding fastening auxiliary bodies, and meanwhile the fastening auxiliary bodies are fixedly connected to the fastening main bodies.

In one possible implementation manner, the second clamping base body is provided with a locking piece with a pre-limiting end in a sliding manner, the locking piece comprises a sliding rod, one end of the sliding rod is connected with the pre-limiting end, the other end of the sliding rod is connected with a rotation limiting piece, and the second clamping base body is provided with a limiting seat corresponding to the rotation limiting piece.

In one possible implementation, the pre-limiting end is a limiting frame, and a limiting portion of the limiting frame is arc-shaped.

The above technical solutions in the embodiments of the present invention have at least one of the following technical effects: 1. according to the nonstandard electric power fitting for the electric power system, the fastening part and the base part are improved and optimized, so that when the nonstandard electric power fitting is used for connecting a main line and a plurality of branch lines, the stability of the connection of the main line and the branch lines can be guaranteed, the convenience of the connection process is improved, the connection of the main line and the branch lines with different diameters can be flexibly applied in a certain range, and meanwhile, after the main line and the branch lines are firmly connected, the local part can be unlocked and overhauled independently and flexibly, and the nonstandard electric power fitting has the advantages of being good in connection stability, high in use convenience, wide in application range and high in practicability.

2. According to the nonstandard electric power fitting for the electric power system, the first fastener synchronously drives the first clamping base body and the second corresponding clamping base body to uniformly clamp and fix the branch lines in a preliminary mode, the second fastener independently fastens the corresponding second clamping body after the branch lines are in a stable clamping state, further clamps and fixes the branch lines, and finally the first fastener fastens and locks again, so that convenience in the clamping and fixing process of the plurality of branch lines and stability and firmness in the clamping and fixing process are effectively improved.

3. According to the nonstandard electric power fitting for the electric power system, the pre-limiting end and the locking piece conduct pre-limiting clamping on the branch lines in the process of placing the branch lines, so that after the plurality of branch lines are placed in the corresponding second clamping bodies, the first clamping base body is matched with the second clamping base body, and meanwhile the plurality of branch lines are primarily clamped and fixed, and the convenience of connection of the main line and the plurality of branch lines is further improved.

4. According to the nonstandard electric power fitting for the electric power system, the fastening body is in limit sliding connection with the connecting main body, so that the first clamping body and the second clamping body are conveniently and rapidly fastened together to clamp and fix the main line, and part of the fastening body for fastening connection of the auxiliary clamping body and the first clamping body is connected with the corresponding first clamping body through the sliding block, so that the fastening body does not need to move along with the movement of the first clamping body, the auxiliary clamping body and the first clamping body are flexibly fastened and locked on the basis of ensuring the convenience of fastening connection, and the clamp is flexibly applicable to the connection and fixation of main lines with different diameters and branch lines with different diameters in a certain range.

Drawings

Fig. 1 is a schematic view of a linear distribution of wire connection states.

Fig. 2 is a schematic diagram showing a T-shape connection state of a main line and a plurality of branch lines.

Fig. 3 is a schematic diagram of an overall structure of a non-standard electric power fitting for an electric power system according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a second clamping body of a non-standard electric power fitting for an electric power system according to an embodiment of the present invention.

Fig. 5 is a schematic top view structural diagram of a pre-limiting end and a locking member of a non-standard electric power fitting for an electric power system according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a preliminary connector of a non-standard electric power fitting for an electric power system according to an embodiment of the present invention.

Fig. 7 is a schematic top view structural diagram of a movable slot of a non-standard electric power fitting for an electric power system according to an embodiment of the present invention.

In the figure: 1. a base portion; 101. a connection base; 102. a first clamping body; 1021. a main clamping area; 1022. a main clamping body; 1023. a secondary clamping body; 103. a second clamping body; 1031. clamping a first substrate; 1032. clamping a second substrate; 104. a pre-limit end; 105. a locking member; 1051. a slide bar; 1052. rotating the limiting piece; 1053. a limit seat; 2. a fastening portion; 201. a first fastener; 2011. a fastening body; 2012. fastening the auxiliary body; 202. a second fastener; 203. a third fastener; 204. a fastening nut; 2031. a tightening body; 2032. a preliminary connecting body; 2033. a limit groove; 2034. a sliding block; 3. a main line; 4. a branch line; 5. a main clamping groove; 6. a secondary clamping groove; 7. a movable groove.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be embodied in many other forms than described below and similarly modified by those skilled in the art without departing from the spirit or scope of the invention, which is therefore not limited to the specific embodiments disclosed below.

Referring to fig. 1-3, a non-standard electric power fitting for an electric power system includes a base portion 1 and a fastening portion 2, the base portion 1 is fastened and locked by the fastening portion 2, and the main line 3 and the plurality of branch lines 4 are firmly clamped and fixed, so that the main line 3 and the plurality of branch lines 4 are firmly connected, the whole fastening and locking process has high convenience and is easy to stably clamp and fix the plurality of branch lines 4, and after the fastening and locking process is firmly connected, the non-standard electric power fitting can be independently and flexibly unlocked and overhauled locally, so that the non-standard electric power fitting has higher practicability, and meanwhile, the non-standard electric power fitting can be applicable to the main line 3 and the branch lines 4 with different diameters in a certain range, and has the advantage of wide application range.

Referring to fig. 3 and 4, the base portion 1 includes a connection base 101, a first clamping body 102 and a plurality of second clamping bodies 103 are disposed on the connection base 101, the second clamping bodies 103 are used for clamping and fixing the branch lines 4, the first clamping bodies 102 and the second clamping bodies 103 are matched to clamp and fix the main line 3, and further, a plurality of branch lines 4 and the main line 3 are connected and fixed, as shown in fig. 3, the second clamping bodies 103 are four groups and distributed from left to right, the second clamping bodies 103 include a first clamping body 1031 and a second clamping body 1032 which are matched with each other, the first clamping body 1031 is in left and right limit sliding connection with the connection base 101, the second clamping body 1032 is fixedly connected with the connection base 101, main clamping grooves 5 corresponding to the main line 3 and auxiliary clamping grooves 6 corresponding to the branch lines 4 are formed in the first clamping body 1031 and the second clamping body 103, main clamping grooves 5 corresponding to the main line 3 are also formed in the first clamping bodies 102, and the second clamping bodies 1032 are fastened and locked, and the main line 4 is clamped and fixed to the main line 3 by the auxiliary clamping bodies 1032, and the main line 3 are further, and the main line 3 are fixedly connected together.

Referring to fig. 3 and 4, the fastening part 2 includes a first fastening member 201, a second fastening member 202, a third fastening member 203, and a fastening nut 204, where the first fastening member 1031 is in a limited sliding connection with the first fastening member 201, the first fastening member 201 integrally fastens and connects the first and second corresponding clamping members 1031 and 1032 together, the fastening is completed in two steps, the second fastening member 202 individually fixedly connects the first and second clamping members 1031 and 1032, the fastening is performed between the two fastening processes of the first fastening member 201, the first fastening member 201 includes a fastening body 2011 having a U-shaped structure and a plurality of fastening sub-bodies 2012 having arc structures, the fastening body 2011 sequentially passes through the second clamping member 1032 from left to right, then the fastening main body 2011 is fastened and locked by the fastening nut 204, the fastening sub-bodies 2012 are distributed in the fastening main body 2011 from left to right, the number of the fastening auxiliary bodies 2012 is three, the leftmost clamping base body one 1031 is in left and right limit sliding connection with the fastening main body 2011, the rest of the clamping base bodies one 1031 are in one-to-one correspondence with the fastening auxiliary bodies 2012, the clamping base body one 1031 is in limit sliding connection with the corresponding fastening auxiliary bodies 2012, the second fastening members 202 are also in a U-shaped structure and are in one-to-one correspondence with the second clamping bodies 103, as shown in fig. 3, two ends of the second fastening members 202 penetrate through the corresponding clamping base bodies two 1032 and are also tightened and locked by the fastening nuts 204, the leftmost second fastening members 202 are in left and right limit sliding connection with the fastening main bodies 2011, the left and right limit sliding connection with the second fastening members 202 and the corresponding fastening auxiliary bodies 2012, in the process of connecting the main line 3 with the plurality of branch lines 4, after the connectors of the plurality of branch lines 4 are all placed in the corresponding second clamping bodies 103, the fastening nuts 204 at the ends of the fastening main body 2011 are rotated first, the clamping matrix I1031 is synchronously driven to move rightwards and matched with the corresponding clamping matrix II 1032, the plurality of branch lines 4 are synchronously clamped and fixed preliminarily, then, the plurality of branch lines 4 are in a relatively stable connection state, at the moment, the fastening nuts 204 at the end parts of the second fastening members 202 are rotated, the corresponding clamping matrix I1031 and the clamping matrix II 1032 are independently and further locked, the fastening stability of the clamping matrix I1031 and the clamping matrix II 1032 is improved, the process is carried out under the condition that the branch lines 4 are in a stable connection state, the convenience of the fastening process is improved, the effectiveness of the fastening and locking process is improved, and finally, the fastening nuts 204 at the end parts of the fastening main bodies 2011 can be rotated again to carry out final fastening and locking, so that the fastening stability and the fastening firmness are further improved.

Referring to fig. 3, 6 and 7, the third fastening member 203 is configured to fasten the first clamping body 102 to the second clamping body 103, where the first clamping body 102 includes a main clamping body 1022 fixedly provided with a plurality of main clamping areas 1021 and a plurality of detachable auxiliary clamping bodies 1023, the main clamping areas 1021 are in one-to-one correspondence with the second clamping bases 1032, the auxiliary clamping bodies 1023 are in one-to-one correspondence with the first clamping bases 1031, the third fastening member 203 includes fastening bodies 2031 and primary connecting bodies 2032, the fastening bodies 2031 are in a U-shaped structure and are in a plurality of numbers, and at the same time, the fastening bodies 2031 are all in up-down limited sliding connection with the connecting base 101, a part of the fastening bodies 2031 are used for fastening the auxiliary clamping bodies 1023 to the first clamping bases 1031, another fastening body 2031 is used for fastening the main clamping bodies 1022 to the second clamping bases 1032, and the fastening nuts 204 are screwed on the ends of the fastening bodies 2031, the main clamping body 1022 and the auxiliary clamping body 1023 are respectively provided with a through hole for the fastening body 2031 to pass through, when the main wire 3 is connected with the plurality of branch wires 4, after the connecting area of the main wire 3 is positioned between the first clamping body 102 and the second clamping body 103, the main clamping body 1022 and the connecting base body 101 are initially connected together through the preliminary connecting body 2032, in the process, the fastening bodies 2031 which are in limited sliding connection with the connecting base body 101 pass through the corresponding through holes on the main clamping body 1022, then the corresponding fastening bodies 2031 fasten the main clamping area 1021 and the clamping base body two 1032 together under the control of the corresponding fastening nuts 204, after the clamping base body one 1031 and the clamping base body two 1032 are fastened together, the auxiliary clamping body 1023 is placed at the position corresponding to the corresponding clamping base body one 1031, and the corresponding fastening body 2031 passes through the through holes on the corresponding fastening bodies 2031, then, the fastening nut 204 is screwed on to fasten the secondary clamping body 1023 and the corresponding clamping base body 1031 together, so as to complete the connection of the main line 3 and the plurality of branch lines 4, wherein, as shown in fig. 6, the primary connecting body 2032 is a rotating rod elastically and slidingly connected with a buckle, the connecting base body 101 is provided with a movable groove 7 with a rectangular opening, and the inner wall of the movable groove 7 is provided with a limiting eave. In the process that the connection base body 101 is connected with the main clamping body 1022, the buckle can be automatically clamped on the limiting eave after entering the movable groove 7 from the notch of the movable groove 7, and then the connection base body 101 can only move towards the direction of the main clamping body 1022 and can not move reversely, so that the connection base body 101 and the main clamping body 1022 are connected together, further fastening connection of the connection base body 101 and the main clamping body 1022 is not influenced, and when the connection base body is required to be detached, the buckle can be smoothly moved upwards only by rotating the rotating rod to align the rectangular opening.

Referring to fig. 3 and 4, a sliding block 2034 with a limiting groove 2033 is disposed between a fastening body 2031 for fastening the secondary clamping body 1023 and the first clamping base 1031, the sliding block 2034 is in sliding connection with the first clamping base 1031 in a left-right limiting manner, the position of the fastening body 2031 does not change with the position of the first clamping base 1031, and the fastening body 2031 is connected with the first clamping base 1031 through the sliding block 2034, so that the first clamping base 1031 is fastened with the corresponding secondary clamping body 1023, thereby facilitating the clamping and fixing of branch lines 4 with different diameters, and meanwhile, the invention can be flexibly applied to the connection and fixing of main lines 3 with different diameters and branch lines 4 with different diameters within a certain range.

Referring to fig. 3 and 5, a locking member 105 with a pre-limiting end 104 is slidably disposed on the second clamping base 1032, the locking member 105 includes a sliding rod 1051, one end of the sliding rod 1051 is connected with the pre-limiting end 104, the other end is connected with a rotation limiting member 1052, a limiting seat 1053 corresponding to the rotation limiting member 1052 is disposed on the second clamping base 1032, as shown in fig. 5, the pre-limiting end 104 is a limiting frame, and a limiting portion of the limiting frame is arc-shaped, as shown in fig. 5, a portion of the left side of the pre-limiting end 104, which contacts with the branch lines 4, is arc-shaped, when the connector of the branch line 4 is placed in the corresponding second clamping body 103 in the process of connecting the main line 3 with the plurality of branch lines 4, the branch lines 4 are pre-limited by the pre-limiting end 104, so that after the plurality of branch lines 4 are placed in the corresponding second clamping bodies 103, the first clamping base 1031 and the second clamping base 1032 cooperate to simultaneously perform preliminary clamping and fixing on the plurality of branch lines 4, and in the process of placing the branch lines 4, only the branch lines 4 need to be placed in the area between the corresponding first clamping base 1031 and the second clamping base 1032, then the sliding rod 1051 is pulled rightwards, the pre-limiting end 104 cooperates with the second clamping base 1032 to perform pre-limiting clamping on the connecting end of the branch lines 4, in this process, the rotation limiting piece 1052 is in a horizontal state, then the rotation limiting piece 1052 is rotated, the rotation limiting piece 1052 is in a vertical state, as shown in fig. 5 (in a top view), at this time, the rotation limiting piece 1052 is staggered with the limiting seat 1053 and is abutted against the limiting seat 1053, and the rotation limiting piece 1052 is limited by the limiting seat 1053, so that the branch lines 4 are in a clamping and fixing state.

In embodiments of the invention, unless expressly specified and limited otherwise, a first feature "up" or "down" on a second feature may be that the first and second features are in direct contact, or that the first and second features are in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "connected," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, integrally connected, or slidably connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle according to the present invention should be covered in the protection scope of the present invention.

Claims (5)

1. A non-standard power fitting for a power system, characterized by: the device comprises a base body part (1), wherein the base body part (1) comprises a connecting base body (101), a first clamping body (102) and a plurality of second clamping bodies (103) are arranged on the connecting base body (101), the second clamping bodies (103) are linearly distributed on the connecting base body (101), and the second clamping bodies (103) comprise a clamping base body I (1031) and a clamping base body II (1032) which are matched with each other;

The fastening part (2), the fastening part (2) comprises a first fastening piece (201), a second fastening piece (202) and a third fastening piece (203), the first clamping base body (1031) and the second fastening piece (202) are in limit sliding connection with the first fastening piece (201), the first fastening piece (201) uniformly fastens and connects the corresponding first clamping base body (1031) and the second clamping base body (1032) together, the fastening and connecting process is completed in two times, the second fastening piece (202) independently fixedly connects the first clamping base body (1031) and the second clamping base body (1032), and the fastening and connecting process is carried out between the two fastening and connecting processes of the first fastening piece (201);

The first fastener (201) comprises a fastening main body (2011) with a U-shaped structure and a fastening auxiliary body (2012) with an arc-shaped structure, a clamping base body I (1031) positioned at the end part of the second linearly distributed clamping body (103) is in limit sliding connection with the fastening main body (2011), the other clamping base bodies I (1031) are in one-to-one correspondence with the fastening auxiliary bodies (2012), the clamping base body I (1031) is in limit sliding connection with the corresponding fastening auxiliary bodies (2012), and meanwhile, the fastening auxiliary bodies (2012) are fixedly connected to the fastening main body (2011);

The second fastening pieces (202) are also of U-shaped structures and correspond to the second clamping bodies (103) one by one, the leftmost second fastening piece (202) is in left-right limiting sliding connection with the fastening main body (2011), and the rest second fastening pieces (202) are in left-right limiting sliding connection with the corresponding fastening auxiliary bodies (2012).

2. A non-standard electrical power fitting for an electrical power system as claimed in claim 1, wherein: the third fastener (203) comprises a fastening body (2031) and a primary connecting body (2032), the fastening body (2031) is of a U-shaped structure and is used for fastening and connecting the first clamping body (102) and the second clamping body (103) together, the primary connecting body (2032) is used for preliminarily connecting the first clamping body (102) and the connecting base body (101) together, and after the first clamping body (102) is connected with the connecting base body (101), unidirectional movement can be continued in the fastening direction of the first clamping body (102) and the second clamping body (103).

3. A non-standard electrical power fitting for an electrical power system as claimed in claim 2, wherein: the fastening body (2031) is in limit sliding connection with the connecting base body (101), a sliding block (2034) with a limit groove (2033) is arranged between the fastening body (2031) and a clamping base body I (1031) in the second clamping body (103), and the sliding block (2034) is in limit sliding connection with the clamping base body I (1031).

4. A non-standard electrical power fitting for an electrical power system as claimed in claim 1, wherein: the clamping base body II (1032) is provided with a locking piece (105) with a pre-limiting end (104) in a sliding mode, the locking piece (105) comprises a sliding rod (1051), one end of the sliding rod (1051) is connected with the pre-limiting end (104), the other end of the sliding rod is connected with a rotation limiting piece (1052), and the clamping base body II (1032) is provided with a limiting seat (1053) corresponding to the rotation limiting piece (1052).

5. A non-standard electrical power fitting for an electrical power system as in claim 4, wherein: the pre-limiting end (104) is a limiting frame, and the limiting part of the limiting frame is arc-shaped.