Quick connector for network wiringTechnical Field
The utility model relates to the technical field of network wiring, in particular to a quick connector for network wiring.
Background
The quick connector, also called quick connector or quick connector, for network wiring is a special wiring device, and is mainly used for circuit connection, especially in the aspect of network wiring. Compared with the traditional wiring terminal, the quick connector can be used for connecting two wires quickly and safely. In network wiring, quick connectors are often used to connect equipment or components such as cables, wires, motors, etc., for ease of debugging and maintenance. Meanwhile, the quick connector can also effectively prevent the wires from loosening or being disconnected accidentally, and stability and reliability of the device are improved.
At present, a certain physical space is needed when the quick connector is connected, limitation can exist when the quick connector is used in dense equipment and a narrow space, the space is limited due to the fact that the distance between the equipment is very close, maintenance and replacement of the quick connector can become more difficult, a large number of equipment and other connectors can need to be moved when the quick connector is moved or replaced, and the complexity and time cost of work are increased; therefore, the existing requirements are not met, and a quick connector for network wiring is provided.
Disclosure of utility model
The utility model provides a quick connector for network wiring, which is provided with the quick connector which can be conveniently operated by an operator to connect and disconnect the quick connector without directly pulling and inserting the quick connector by fingers or other tools, and particularly has the beneficial effects that the operation of a pull rope can be more convenient and accurate and the reliability is higher for some devices which need to be connected in a narrow space or a specific angle, the problems that the quick connector in the prior art needs a certain physical space when being connected, the limitation exists when the quick connector is used in dense devices and a narrow space, the space is limited due to the fact that the distance between the devices is very close, the maintenance and the replacement of the quick connector become more difficult, and a large number of devices and other connectors can need to be moved to move the plug connector, so that the complexity and the time cost of work are increased are solved.
The utility model provides the following technical scheme: the utility model provides a quick-operation joint for network distribution, includes the socket body and connects the body, connect the body to install the inside of the socket body, socket body lateral wall is provided with the draw-in groove, connect the body to divide into first splicing block and second splicing block, the second splicing block is connected the both sides of first splicing block, second splicing block lateral part is provided with rotating assembly, rotating assembly with draw-in groove sliding connection.
As an alternative to the quick connector for network wiring of the present utility model, the present utility model comprises: the middle part of the second connecting block is provided with a chute and a notch, and the notch is communicated with the outside of the chute and the second connecting block.
As an alternative to the quick connector for network wiring of the present utility model, the present utility model comprises: the side part of the second connecting block is provided with a first fixing block and a second fixing block, the side part of the second connecting block is provided with a mounting groove, and the first fixing block and the second fixing block are connected in the mounting groove.
As an alternative to the quick connector for network wiring of the present utility model, the present utility model comprises: the lateral part of first fixed block is provided with first spring, the other end of first spring is connected the inner wall of mounting groove, the lateral part of second fixed block is provided with the second spring, the other end of second spring is connected the inner wall of mounting groove.
As an alternative to the quick connector for network wiring of the present utility model, the present utility model comprises: the first fixed block lateral part is provided with first groove of turning round, second fixed block lateral part is provided with the second groove of turning round, the rotation subassembly is installed first fixed block with between the second fixed block, the rotation subassembly lateral part is provided with the stay cord, the other end of stay cord is located the outside of second splicing block.
As an alternative to the quick connector for network wiring of the present utility model, the present utility model comprises: the rotating assembly comprises a rotating shaft, a first rotating plate and a second rotating plate, wherein the first rotating plate is connected with two sides of the rotating shaft in a rotating mode, the other side of the first rotating plate is connected with the inner wall of the first rotating groove, and the second rotating plate is connected with the inner wall of the second rotating groove.
As an alternative to the quick connector for network wiring of the present utility model, the present utility model comprises: the stay cord cover is established the middle part of pivot, the stay cord is located the inside of spout.
As an alternative to the quick connector for network wiring of the present utility model, the present utility model comprises: the end part of the sliding chute is provided with a rotating wheel, the middle part of the rotating wheel is provided with a shaft body, two sides of the shaft body are connected with fixing rods, and the pull rope is in sliding connection with the rotating wheel.
The utility model has the following beneficial effects:
1. This quick-operation joint for network wiring, through rotating the subassembly, the second splicing block can be in the draw-in groove in the socket body internal slip and rotatory, press the socket body with the joint body when the installation, the rotation subassembly slides at the inner wall of the socket body, the card is gone into in the draw-in groove when passing the draw-in groove, this kind of design can make direction and the angle of connector can be freely adjusted, thereby convenient plug equipment, and adapt to different connection demands, through the design of stay cord, the operator can operate the quick-operation joint more conveniently, connect and break them, and do not need directly to lean on finger or other instrument to pull out the plug, especially to some equipment that need connect under narrow and small space or specific angle, the operation of stay cord can be more convenient and accurate, the reliability is also higher.
2. This quick-operation joint for network wiring through setting up the runner in the turning to be connected stay cord and runner can increase the power transmission and reduce the resistance of operation, when stay cord and runner link to each other, the operator can rotate the runner through pulling the stay cord, and then changes the position and the direction of rotating the subassembly, because the runner provides bigger moment of torsion and lever effect, the operator can more easily control the rotation of connector when pulling the stay cord, has reduced required strength and the resistance when operating.
Drawings
Fig. 1 is a schematic perspective view of the present utility model.
Fig. 2 is a schematic view of the structure of the joint body of the present utility model.
Fig. 3 is a schematic top view of the present utility model.
Fig. 4 is an enlarged schematic view of the structure of the present utility model at a.
Fig. 5 is an enlarged schematic view of the structure of the present utility model at B.
Fig. 6 is a schematic structural view of a rotating assembly according to the present utility model.
In the figure: 110. a socket body; 111. a clamping groove; 130. a joint body; 131. a first joint block; 132. a second joint block; 133. a chute; 134. a notch; 135. a first fixed block; 140. a second fixed block; 141. a mounting groove; 142. a first spring; 143. a second spring; 144. a first rotating groove; 145. a second rotary groove; 150. a rotating assembly; 151. a rotating shaft; 152. a first rotating plate; 153. a second rotating plate; 160. a pull rope; 161. a rotating wheel; 162. a shaft body; 163. and a fixing rod.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
First, this embodiment is intended to facilitate solving the problems that a certain physical space is required for the quick connector during connection, the space is limited due to the fact that the space is limited when the quick connector is used in dense equipment and narrow space, maintenance and replacement of the quick connector are also more difficult due to the fact that the distance between the equipment is very close, a large number of equipment and other connectors are required to be moved or replaced, and the complexity and time cost of the operation are increased, referring to fig. 1-6, a quick connector for network wiring comprises a socket body 110 and a connector body 130, the connector body 130 is mounted inside the socket body 110, a clamping groove 111 is formed in the side wall of the socket body 110, the connector body 130 is divided into a first connector block 131 and a second connector block 132, the second connector block 132 is connected to two sides of the first connector block 131, a rotating assembly 150 is arranged on the side of the second connector block 132, and the rotating assembly 150 is slidingly connected with the clamping groove 111.
The middle part of second splicing block 132 is provided with spout 133 and opening 134, opening 134 intercommunication spout 133 and the outside of second splicing block 132, first fixed block 135 and second fixed block 140 are installed to the lateral part of second splicing block 132, the lateral part of second splicing block 132 is provided with mounting groove 141, first fixed block 135 and second fixed block 140 are connected in the inside of mounting groove 141, the lateral part of first fixed block 135 is provided with first spring 142, the other end of first spring 142 is connected at the inner wall of mounting groove 141, the lateral part of second fixed block 140 is provided with second spring 143, the other end of second spring 143 is connected at the inner wall of mounting groove 141, first fixed block 135 and second fixed block 140 are in the same place through mounting groove 141 connection, structural fixing has been formed, this kind of design can effectively reduce the wearing and tearing of connector in frequent use, and reduce the risk of becoming flexible or damaging that leads to because of external force, thereby improve the durability and the life of connector.
The first fixed block 135 lateral part is provided with first runner 144, the second fixed block 140 lateral part is provided with second runner 145, rotating assembly 150 installs between first fixed block 135 and second fixed block 140, rotating assembly 150 lateral part is provided with stay cord 160, the other end of stay cord 160 is located the outside of second receiving block 132, rotating assembly 150 includes pivot 151, first revolving plate 152 and second revolving plate 153, first revolving plate 152, the both sides at pivot 151 are connected in the rotation to second revolving plate 153 rotation, the opposite side of first revolving plate 152 is connected at the inner wall of first runner 144, the inner wall at second runner 145 is connected to second revolving plate 153, the middle part at pivot 151 is established to the stay cord 160 cover, stay cord 160 is located the inside of spout 133, through linking together stay cord 160 and runner 161, can operate the rotation of connector more easily, thereby alleviate required strength and resistance when operating, make the connector use become more smooth and comfortable.
In this embodiment: through the rotating assembly 150, the second connection block 132 can slide and rotate in the clamping groove 111 in the socket body 110, the connector body 130 is pressed into the socket body 110 during installation, the rotating assembly 150 slides in the inner wall of the socket body 110 and is clamped into the clamping groove 111 when passing through the clamping groove 111, the direction and angle of the connector can be freely adjusted by the design, so that the connector can be conveniently plugged and unplugged, different connection requirements are met, an operator can conveniently operate the quick connector to connect and disconnect the quick connector through the design of the pull rope 160, the quick connector does not need to be directly plugged by fingers or other tools, and particularly, for some devices needing to be connected in a narrow space or under a specific angle, the operation of the pull rope 160 can be more convenient and accurate, and the reliability is higher.
In the second embodiment, the pull rope 160 is not easy to pull, and the present embodiment is an improvement made on the basis of the first embodiment, specifically, referring to fig. 1-6, the end portion of the chute 133 is provided with a rotating wheel 161, the middle portion of the rotating wheel 161 is provided with a shaft 162, two sides of the shaft 162 are connected with fixing rods 163, the pull rope 160 is slidably connected with the rotating wheel 161, and due to the sliding connection between the pull rope 160 and the rotating wheel 161, friction and abrasion are relatively small, compared with a direct contact or rotation mode, the sliding connection can reduce friction loss of the connector, and the service life of the connector is prolonged.
In this embodiment: by providing the wheel 161 at the corner and connecting the pull cord 160 to the wheel 161, the force transfer and the reduction of the resistance to operation can be increased, and when the pull cord 160 is connected to the wheel 161, the operator can rotate the wheel 161 by pulling the pull cord 160, thereby changing the position and direction of the rotating assembly 150, and because the wheel 161 provides a greater torque and leverage, the operator can more easily control the rotation of the connector when pulling the pull cord 160, reducing the force and resistance required during operation.
It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.