CN110416860B

CN110416860B - Wiring equipment for calibrating connecting wire

Info

Publication number: CN110416860B
Application number: CN201910733466.5A
Authority: CN
Inventors: 练常青
Original assignee: Zeng Huihuang
Current assignee: Guangdong Xinfusheng Connection Technology Co ltd
Priority date: 2019-08-09
Filing date: 2019-08-09
Publication date: 2020-07-10
Anticipated expiration: 2039-08-09
Also published as: JP2021028904A; CN110416860A

Abstract

The invention discloses wiring equipment for calibrating a connecting wire, which comprises a calibration box, wherein a connecting cavity with a forward opening is arranged in the calibration box, a transmission cavity is arranged at the rear end of the connecting cavity, a transmission shaft extending into the connecting cavity is rotatably connected in the transmission cavity, and a lifting system positioned in the connecting cavity is arranged on the transmission shaft.

Description

Wiring equipment for calibrating connecting wire

Technical Field

The invention relates to the technical field of wire connection, in particular to a wiring device for calibrating a connecting wire.

Background

The wire connection is a basic process of electrician work, and the quality of the connection is directly related to whether the whole line can be safely and reliably operated for a long time. The types and connection forms of the wires to be connected are different, and the connection methods are also different. Common connection methods are stranded connection, press connection, welding, etc.

Among them, the press bonding is widely used as the most simple and easy-to-learn method of the operation steps. However, in the compression connection method, a guide is required to be passed through the casing and exposed to a length of two to three centimeters, and then both ends of the casing are pressed and locked using hydraulic pliers. In the process, the lead is left for a long time due to manual error or forgetting, and meanwhile, a large force is required to perform locking operation by using a hydraulic clamp, so that the connection is not firm, and the line is not safe. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows:

in the pressing connection method, on one hand, manual operation errors or forgetting operation are easy to occur, the lead is not left for a long time, and meanwhile, the use of the hydraulic clamp needs larger force.

The wiring equipment for calibrating the connecting wire comprises a calibration box, a connecting cavity with a forward opening is arranged in the calibration box, a transmission cavity is arranged at the rear end of the connecting cavity, a transmission shaft extending into the connecting cavity is rotatably connected in the transmission cavity, a lifting system positioned in the connecting cavity is arranged on the transmission shaft, the lifting system can pass through an intermittent gear arranged on the transmission shaft, a lifting platform meshed and connected on the intermittent gear and place a sleeve, bilaterally symmetrical smearing devices are arranged on the lifting platform, the smearing devices can pass through a right-angle bracket arranged on the lifting platform, a feeding ring arranged at the upper end of the right-angle bracket, a smearing pipe slidably connected in the feeding ring and smear vaseline in the sleeve, the inner wall of the top end of the connecting cavity is provided with a supplementing device, the supplementing device can be fixedly connected with a containing box on the inner wall of the top end of the connecting cavity, an arrangement cavity which is arranged in the containing box and has an upward opening is used for placing the sleeves in order, a transmission assembly is arranged in the feeding ring, the transmission assembly can be rotationally connected with a driven shaft which is arranged in the transmission cavity and is symmetrical left and right, the driven shaft on the left side extends into the connecting cavity, a reversing gear which is arranged on the driven shaft on the right side, a fixed shaft which is rotationally connected in the transmission cavity and extends into the connecting cavity, a synchronous gear which is arranged on the fixed shaft and is meshed and connected with the reversing gear, the synchronous rotation and the opposite directions are realized, the driven shaft on the left side and the fixed shaft are respectively provided with a wire feeding device which is positioned, and a guide wire is sent into the sleeve, and a hydraulic system capable of pressing the sleeve is arranged on the inner wall of the top end of the connecting cavity.

Preferably, the transmission ratio between the reversing gear and the synchronizing gear is one.

Preferably, the rear end of the transmission shaft is in power connection with a motor embedded on the inner wall of the transmission cavity.

Wherein, the lifting system comprises a crimping pipe which can abut against the upper end of the lifting platform.

Wherein, paint the device including set up in annular storage chamber in the material loading intra-annular, storage chamber is close to eight groups of balls that sliding connection has the array to distribute on the lateral inner wall of ring heart, the ball with scribble and connect in the counterbalance between the pipe, storage chamber keep away from the symmetric center side end face with scribble and be connected with the resistance spring between the pipe, connect the fixed bilateral symmetry that is equipped with of intracavity wall and with scribble a pipe sliding connection's slider that leads.

The replenishing device comprises a arranging cavity which is communicated with the arranging cavity on the inner wall of the front end of the arranging cavity, a crimping pipe is slidably connected in the arranging cavity, a sliding rod is slidably connected at the rear end of the arranging cavity, a push plate which is positioned in the arranging cavity is arranged on the sliding rod, a shift lever which is positioned at the outer side of the rear end of the arranging cavity is arranged at the rear end of the sliding rod, and a track barrel which is slidably connected with the shift lever is arranged on the transmission shaft.

The transmission assembly comprises a main chain wheel arranged on the transmission shaft and located in the transmission cavity, an auxiliary chain wheel located in the transmission cavity is arranged on the driven shaft, and a chain is connected between the auxiliary chain wheel and the main chain wheel.

The wire feeding device comprises a driven shaft and a rotary table fixed on the shaft, the front end of the rotary table is hinged with a chain rod connected with a conveying pipe in a hinged mode, a wire is connected in the conveying pipe in a sliding mode, the conveying pipe is connected with a butt joint rod in a rotating mode close to the inner wall of the near end of the conveying pipe, and a limiting rod capable of being abutted to the butt joint rod is fixedly arranged on the inner wall of the near end of the conveying pipe.

The hydraulic system comprises a hydraulic machine arranged on the inner wall of the top end of the connecting cavity, the lower end of the hydraulic machine is in power connection with a hydraulic rod, and a pressing plate capable of being abutted to the crimping pipe is fixedly arranged at the lower end of the hydraulic rod.

The invention has the beneficial effects that: the length value of the feeding part of the lead is required to be set in advance, so that the operator is prevented from forgetting to leave and operate the lead, the coating structure in the rising process is removed from the sleeve by adopting the structure of the inclined guide sliding block, vaseline is replenished again by driving the beads to rotate by sliding, the transmission stability of the lead connecting part is ensured, and the problem of insecure connection caused by insufficient manual force is solved by adopting an independent hydraulic structure.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall construction of a wiring device for calibrating connecting wires according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is an enlarged view of the structure at "B" in FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 2;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 1;

fig. 6 is a schematic structural view of the wire of fig. 1 after the wire connection is completed.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a wiring device for calibrating and connecting a lead, which is mainly applied to the process of pressing and connecting a lead by using a crimping pipe, and the invention is further explained by combining the attached drawings of the invention:

the invention relates to a wiring device for calibrating a connecting wire, which comprises a calibration box 11, wherein a connecting cavity 12 with a forward opening is arranged in the calibration box 11, a transmission cavity 31 is arranged at the rear end of the connecting cavity 12, a transmission shaft 27 extending into the connecting cavity 12 is rotatably connected in the transmission cavity 31, a lifting system 901 positioned in the connecting cavity 12 is arranged on the transmission shaft 27, the lifting system 901 can be meshed with a lifting platform 29 connected to the lifting platform 28 through an intermittent gear 28 arranged on the transmission shaft 27 to place a sleeve, bilaterally symmetrical smearing devices 902 are arranged on the lifting platform 29, the smearing devices 902 can smear vaseline in the sleeve through a right-angle bracket 26 arranged on the lifting platform 29, a feeding ring 21 arranged at the upper end of the right-angle bracket 26, a smearing pipe 24 connected in the feeding ring 21 in a sliding manner, the inner wall of the top end of the connecting cavity 12 is provided with a supplementing device 903, the supplementing device 903 can be fixedly connected with a containing box 15 on the inner wall of the top end of the connecting cavity 12, an arranging cavity 38 which is arranged in the containing box 15 and has an upward opening is used for arranging the sleeves in order, a feeding ring 21 is internally provided with a transmission assembly 904, the transmission assembly 904 can be connected with a driven shaft 18 which is arranged in the transmission cavity 31 and is symmetrical left and right through rotation, the driven shaft 18 on the left side extends into the connecting cavity 12, a reversing gear 36 arranged on the driven shaft 18 on the right side, a fixed shaft 30 which is rotatably connected in the transmission cavity 31 and extends into the connecting cavity 12, a synchronous gear 37 which is arranged on the fixed shaft 30 and is meshed with the reversing gear 36, the synchronous rotation and the opposite direction are realized, and the driven shaft 18 on the left side and the fixed shaft 30 are respectively provided with a, the wire feeding device 905 can feed the wires into the sleeve through the conveying pipe 20 which is connected to the inner wall of the connecting cavity 12 in a sliding mode, and the inner wall of the top end of the connecting cavity 12 is provided with a hydraulic system 906 capable of compressing the sleeve.

Advantageously, the transmission ratio between the reversing gear 36 and the synchronizing gear 37 is one, ensuring the same rotation speed of the driven shaft 18 and the fixed shaft 30.

Advantageously, the rear end of the transmission shaft 27 is connected with a motor 32 embedded in the inner wall of the transmission cavity 31 for providing the operation power of the equipment.

According to an embodiment, the following describes in detail the lifting system 901, the lifting system 901 comprises a crimping tube 25 which is abuttable against an upper end of the lifting table 29, and the wire is connected by the crimping tube 25.

According to an embodiment, the following detailed description is provided for the smearing device 902, the smearing device 902 includes an annular storage cavity 46 disposed in the feeding ring 21, eight groups of balls 45 distributed in an array are slidably connected to an inner wall of the storage cavity 46 near a ring center side, the balls 45 are connected to the smearing tube 24 in an abutting manner, a resistance spring 23 is connected between an end surface of the storage cavity 46 far from a symmetrical center side and the smearing tube 24, guide blocks 22 which are symmetrical left and right and slidably connected to the smearing tube 24 are fixedly disposed on an inner wall of the connecting cavity 12, and vaseline in the storage cavity 46 is smeared onto the smearing tube 24 by sliding of the balls 45 on the smearing tube 24.

According to an embodiment, the supplementing device 903 is described in detail below, the supplementing device 903 includes an arrangement cavity 38 disposed on an inner wall of a front end of the arrangement cavity 38, a pressure welding pipe 25 is slidably connected in the arrangement cavity 38, a sliding rod 41 is slidably connected to a rear end of the arrangement cavity 38, a push plate 40 located in the arrangement cavity 38 is disposed on the sliding rod 41, a shift lever 42 located outside a rear end of the arrangement cavity 38 is disposed at a rear end of the sliding rod 41, and a track barrel 43 slidably connected to the shift lever 42 is disposed on the transmission shaft 27.

According to an embodiment, the following description details the transmission assembly 904, the transmission assembly 904 includes a main sprocket 33 disposed on the transmission shaft 27 and located in the transmission cavity 31, an auxiliary sprocket 35 located in the transmission cavity 31 is disposed on the driven shaft 18, a chain 34 is connected between the auxiliary sprocket 35 and the main sprocket 33, and the synchronous rotation is realized by using a transmission principle of a chain structure.

According to an embodiment, the wire feeding device 905 is described in detail below, the wire feeding device 905 includes a rotary table 17 respectively disposed on the driven shaft 18 and the fixed shaft 30, a chain rod 19 hinged to the conveying pipe 20 is hinged to a front end of the rotary table 17, a wire 49 is slidably connected in the conveying pipe 20, a butting rod 48 is rotatably connected to inner walls of the mutually adjacent ends of the conveying pipe 20, a limiting rod 47 capable of butting against the butting rod 48 is fixedly disposed on the inner walls of the mutually adjacent ends of the conveying pipe 20, and the butting rod 48 is rotated and limited by the limiting rod 47 to realize that the butting rod 48 rotates in one direction for connecting the wire.

According to an embodiment, a hydraulic system 906 is described in detail below, the hydraulic system 906 includes a hydraulic machine 13 disposed on the inner wall of the top end of the connection cavity 12, a hydraulic rod 14 is connected to the lower end of the hydraulic machine 13, a pressing plate 16 capable of abutting against a crimping pipe 25 is fixedly disposed at the lower end of the hydraulic rod 14, and the crimping pipe 25 is folded and pressed by the pressing plate 16.

The following describes in detail the use steps of a wiring device for calibrating connecting conductors according to the present invention with reference to fig. 1 to 6:

in the initial state, the lifting table 29 abuts against the inner wall of the bottom end of the connection cavity 12, at this time, the first crimping pipe 25 is positioned at the upper end of the lifting table 29, the smearing pipe 24 is positioned in the crimping pipe 25, at this time, the resistance spring 23 is in a compressed state, and the lead 49 penetrates through the conveying pipe 20 after being peeled.

When the wiring is performed, the motor 32 is started to rotate the transmission shaft 27, and further the lifting platform 29 is pushed to move upwards through the meshing rotation of the intermittent gear 28 and the lifting platform 29, at this time, the smearing pipe 24 removes the limitation of sliding due to the gradually reduced thickness of the contact surface of the guide sliding block 22, and moves away from the symmetrical center under the elastic recovery of the resistance spring 23, at this time, the ball 45 rotates through the movement of the smearing pipe 24, so that the vaseline in the storage cavity 46 is smeared on the surface of the smearing pipe 24, after the transmission shaft 27 rotates for half a circle, the lifting platform 29 is positioned at the uppermost end, the smearing pipe 24 is separated from the contact with the pressure connecting pipe 25, at the same time, the transmission shaft 27 rotates the main chain wheel 33, and drives the driven shaft 18 to synchronously rotate through the chain 34, the driven shaft 18 on the right side rotates through the meshing rotation of the reversing gear 36 and the synchronous gear 37, and, the rotary table 17 is driven to rotate, the rotary table 17 pulls the conveying pipe 20 to slide towards the symmetrical center through the chain rod 19, the conducting wire 49 is sent into the crimping pipe 25, at the moment, the hydraulic press 13 is started to push the hydraulic rod 14 to move downwards, and the crimping pipe 25 is extruded and formed through the pressing plate 16.

After the completion, the hydraulic press 13 is started to pull the containing box 15 to move upwards through the hydraulic rod 14, at this time, the motor 32 is started to continue to rotate the transmission shaft 27 for a half circle, the lifting platform 29 is again abutted to the inner wall of the bottom end of the connecting cavity 12, meanwhile, the track barrel 43 rotates, and power sequentially passes through the shift lever 42, the slide rod 41 and the push plate 40 to push the crimping pipe 25 in the arrangement cavity 38 to leave from the through hole 39 and is supplemented to the upper end of the lifting platform 29.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. A wiring device for calibrating a connecting wire, comprising a calibration box;

a connecting cavity with a forward opening is arranged in the calibration box, a transmission cavity is arranged at the rear end of the connecting cavity, a transmission shaft extending into the connecting cavity is rotatably connected in the transmission cavity, a lifting system positioned in the connecting cavity is arranged on the transmission shaft, and the lifting system can be meshed with a lifting platform connected to an intermittent gear through the intermittent gear arranged on the transmission shaft, and a sleeve is placed on the lifting platform;

the lifting platform is provided with bilaterally symmetrical smearing devices, the smearing devices can pass through a right-angle support arranged on the lifting platform, a feeding ring arranged at the upper end of the right-angle support, a smearing pipe connected in the feeding ring in a sliding manner and smear vaseline in a sleeve, the inner wall of the top end of the connecting cavity is provided with a supplementing device, and the supplementing device can pass through a containing box fixedly connected to the inner wall of the top end of the connecting cavity and an arrangement cavity arranged in the containing box and provided with an upward opening to place the sleeve in order;

a transmission assembly is arranged in the feeding ring, the transmission assembly can be connected to a driven shaft which is in bilateral symmetry in the transmission cavity in a rotating mode, the driven shaft on the left side extends into the connecting cavity, a reversing gear is arranged on the driven shaft on the right side, a fixed shaft is connected to the transmission cavity in a rotating mode and extends into the connecting cavity, a synchronous gear is arranged on the fixed shaft and is meshed with the reversing gear, and the synchronous rotation and the opposite directions are achieved;

the driven shaft on the left side and the fixed shaft are respectively provided with a wire feeding device which is positioned in the connecting cavity, the wire feeding device can be connected with the conveying pipe on the inner wall of the connecting cavity in a sliding manner to feed a wire into the sleeve, and the inner wall of the top end of the connecting cavity is provided with a hydraulic system capable of pressing the sleeve tightly.

2. A wiring device for calibrating connecting wires according to claim 1, characterized in that: the transmission ratio between the reversing gear and the synchronous gear is one.

3. A wiring device for calibrating connecting wires according to claim 1, characterized in that: the tail end of the rear end of the transmission shaft is in power connection with a motor embedded on the inner wall of the transmission cavity.

4. A wiring device for calibrating connecting wires according to claim 1, characterized in that: the lifting system comprises a crimping pipe which can abut against the upper end of the lifting platform.

5. A wiring device for calibrating connecting wires according to claim 1, characterized in that: paint the device including set up in annular storage chamber in the material loading intra-annular, storage chamber is close to eight groups of balls that sliding connection has array distribution on the lateral inner wall of ring heart, the ball with scribble and to connect in the counterbalance between the pipe, storage chamber keep away from the symmetric center side end face with scribble and to be connected with the resistance spring between the pipe, connect the fixed bilateral symmetry that is equipped with of intracavity wall and with scribble a sliding connection's the slider that leads.

6. A wiring device for calibrating connecting wires according to claim 4, characterized in that: the replenishing device comprises a arranging cavity which is communicated with the arranging cavity arranged on the inner wall of the front end of the arranging cavity, a crimping pipe is slidably connected in the arranging cavity, a sliding rod is slidably connected at the rear end of the arranging cavity, a push plate positioned in the arranging cavity is arranged on the sliding rod, a shift lever positioned at the outer side of the rear end of the arranging cavity is arranged at the rear end of the sliding rod, and a track barrel which is slidably connected with the shift lever is arranged on the transmission shaft.

7. A wiring device for calibrating connecting wires according to claim 1, characterized in that: the transmission assembly comprises a main chain wheel arranged on the transmission shaft and located in the transmission cavity, an auxiliary chain wheel located in the transmission cavity is arranged on the driven shaft, and a chain is connected between the auxiliary chain wheel and the main chain wheel.

8. A wiring device for calibrating connecting wires according to claim 1, characterized in that: send traditional thread binding putting including set up respectively in driven shaft and fixed epaxial carousel, the carousel front end articulated have with the articulated chain pole of connecting of conveyer pipe, sliding connection has the wire in the conveyer pipe, the conveyer pipe is rotated on leaning on the near-end inner wall each other and is connected with the butt pole, the conveyer pipe lean on the near-end inner wall each other on fixed be equipped with can with the gag lever post of butt pole butt.

9. A wiring device for calibrating connecting wires according to claim 4, characterized in that: the hydraulic system comprises a hydraulic machine arranged on the inner wall of the top end of the connecting cavity, the lower end of the hydraulic machine is in power connection with a hydraulic rod, and a pressing plate capable of being abutted to the crimping pipe is fixedly arranged at the lower end of the hydraulic rod.