CN112894052B - Convenient welding box equipment for feeder connection - Google Patents

Abstract

The invention relates to a convenient welding box device, in particular to a convenient welding box device for feeder connection, which comprises a folding mechanism, a conveying mechanism and an extrusion welding mechanism, wherein the device can be folded into a convenient suitcase, the device can convey a feeder at one end into a fixed grinding tool, the device can extrude two feeders to connect the two feeders, the device can inject a solder wire solution into the contact point of the two feeders in the process of extruding the two feeders, the device can output the connected two feeders out of the device, the folding mechanism is connected with the conveying mechanism, the conveying mechanism is connected with the extrusion welding mechanism, and the extrusion welding mechanism is connected with the folding mechanism.

Description

Convenient welding box equipment for feeder connection

Technical Field

The invention relates to feeder line connecting equipment, in particular to convenient welding box equipment for feeder line connection.

Background

In the feeder line connection process, high-altitude operation is often needed, most of the existing devices are inconvenient to operate and complicated in flow, but no good convenient welding box device exists in the market, so that the convenient welding box device for feeder line connection is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the convenient welding box equipment for feeder connection, the equipment can clamp an unmanned aerial vehicle, the equipment can be folded into a convenient suitcase, the equipment can convey a feeder at one end into a fixed grinding tool, the equipment can extrude two feeders to connect the two feeders, the equipment can inject a solder wire solution into the positions of contact points of the two feeders in the process of extruding the two feeders, and the equipment can output the two connected feeders out of the equipment.

In order to solve the technical problems, the invention relates to a convenient welding box device, in particular to a convenient welding box device for feeder line connection.

Folding mechanism is connected with transport mechanism, and transport mechanism is connected with extrusion welding mechanism, and extrusion welding mechanism is connected with folding mechanism.

As a further optimization of the technical scheme, the folding mechanism comprises a handle, a limiting plate, a sliding rail a, a limiting block, a lower groove, an equipment mounting plate a, an upper groove a, an equipment mounting plate b, an upper groove b and a sliding rail b, wherein the handle is connected with the limiting plate in a sliding manner, the handle is connected with the sliding rail a in a sliding manner, the handle is connected with the sliding rail b in a sliding manner, the limiting plate is connected with the lower groove, the sliding rail a is connected with the limiting block, the sliding rail a is connected with the lower groove, the limiting block is connected with the lower groove, the lower groove is connected with the equipment mounting plate a, the equipment mounting plate a is connected with the upper groove a, the upper groove a is hinged with the upper groove b, the equipment mounting plate b is connected with the upper groove b, and the upper groove b is connected with the sliding rail b.

As a further optimization of the technical scheme, the invention relates to a convenient welding box device for feeder line connection, wherein a conveying mechanism comprises a motor, a motor shaft, a belt a, a connecting shaft a, a connecting plate b, a belt b, a connecting shaft b, a connecting plate, a conveying belt, a connecting shaft c, a connecting groove, a feeder line limiting plate, a fixed grinding tool, a feeder line a and a feeder line b, the motor is connected with the motor shaft, the motor is connected with the connecting plate b, the motor shaft is in friction connection with the belt a, the belt a is in friction connection with the connecting shaft a, the connecting shaft a is in bearing connection with the connecting plate b, the connecting plate a is connected with the device mounting plate a, the connecting plate b is in bearing connection with the connecting shaft b, the connecting plate b is in friction connection with the device mounting plate a, the belt b is in friction connection with the connecting shaft b, the connecting shaft b is in friction connection with the conveying belt, the connecting plates are in bearing connection with the connecting shaft c, the two connecting plates on one side are connected with the equipment mounting plate a, the connecting plate on the other side is connected with the equipment mounting plate b, the connecting plates are connected with the connecting grooves, the conveying belt is in friction connection with the connecting shaft c, the conveying belt is in friction connection with the feeder line b, the connecting grooves are connected with the feeder line limiting plate, the connecting grooves are connected with the equipment mounting plate b, and the fixed grinding tool is connected with the equipment mounting plate a.

As further optimization of the technical scheme, the invention relates to convenient welding box equipment for feeder connection, wherein an extrusion welding mechanism comprises a friction wheel a, a friction wheel b, a first connecting shaft, a first connecting plate, a friction wheel c, a second connecting shaft, a first belt, a third connecting shaft, a torsion spring, a second connecting plate, a sliding grinding tool, a third connecting plate, a friction wheel d, a fourth connecting shaft, a sliding input plate, an input plate groove, a metal pipe a, a second belt, a fifth connecting shaft, a fourth connecting plate, a sealing ring, a rotating ring, a friction ring, a fifth connecting plate, a propeller, a sixth connecting shaft, a metal pipe b, a solder box and an electric heater, wherein the friction wheel a is in friction connection with the friction wheel b, the friction wheel a is connected with the connecting shaft a, the first connecting shaft is in threaded connection with the first connecting plate, the first connecting shaft is in threaded connection with the second connecting plate, the first connecting plate is connected with an equipment mounting plate a, the friction wheel c is connected with a second connecting shaft, the second connecting shaft is in friction connection with a first belt, the second connecting shaft is connected with a third connecting plate a bearing, the first belt is in friction connection with a third connecting shaft, the third connecting shaft is in threaded connection with the second connecting plate, the third connecting shaft is connected with a sliding grinding tool bearing, the third connecting shaft is in sliding connection with the third connecting plate a, a torsion spring is sleeved on the third connecting shaft, one end of the torsion spring is connected with the second connecting plate, the other end of the torsion spring is connected with the third connecting shaft, the second connecting plate is connected with an equipment mounting plate a, the sliding grinding tool is connected with the third connecting plate, the sliding grinding tool is in sliding connection with the equipment mounting plate a, the third connecting plate is in friction connection with a friction wheel d, the third connecting plate is in sliding connection with a groove on the equipment mounting plate a, the friction wheel d is connected with a fourth connecting shaft, the friction connection with a sliding input plate, the fourth connecting shaft is in friction connection with the second belt, and the fourth connecting shaft is connected with the equipment mounting plate a bearing, the sliding input plate is connected with the input plate groove in a sliding mode, the sliding input plate is connected with the equipment mounting plate a in a sliding mode, the input plate groove is connected with the equipment mounting plate a, one end of the metal pipe a is connected with the sliding input plate in a sliding mode, the other end of the metal pipe a is connected with the sealing ring bearing, the metal pipe a is connected and communicated with the connecting plate four, the belt two is in friction connection with the connecting shaft five, the belt two is in friction connection with the friction ring, the connecting shaft five is connected with the equipment mounting plate a bearing, the connecting plate four is connected with the equipment mounting plate a, the sealing ring is connected with the rotating ring, the sealing ring is connected with the metal pipe b bearing, the rotating ring is connected with the friction ring, the rotating ring is connected with the propeller, the connecting plate five is connected and communicated with the metal pipe b, the connecting plate five is connected with the equipment mounting plate a, the propeller is connected with the six, the metal pipe b is connected and communicated with the electric heater, the soldering tin box is connected with the equipment mounting plate a, the solder pot is connected with the upper groove a.

As a further optimization of the technical scheme, the convenient welding box equipment for feeder line connection is characterized in that the conveying belt is made of high-elasticity rubber.

According to the convenient welding box equipment for feeder line connection, a large number of resistors are arranged inside the electric heater, metal heat conducting layers are arranged outside the resistors, and the metal heat conducting layers can generate heat after the power supply is switched on.

The convenient welding box equipment for feeder line connection has the beneficial effects that:

according to the convenient welding box equipment for feeder connection, the equipment can be folded into a convenient suitcase, the equipment can convey a feeder at one end into the fixed grinding tool, the equipment can extrude the two feeders to connect the two feeders, the equipment can inject a solder wire solution into the contact point of the two feeders in the process of extruding the two feeders, and the equipment can output the two connected feeders.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a convenient welding box device for feeder connection according to the present invention.

Fig. 2 is a schematic structural diagram of a convenient soldering box device for feeder connection according to the present invention.

Fig. 3 is a schematic structural diagram of a convenient soldering box device for feeder connection according to the present invention.

Fig. 4 is a schematic structural diagram of a convenient soldering box device for feeder connection according to the present invention.

Fig. 5 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

Fig. 6 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

Fig. 7 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

Fig. 8 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

Fig. 9 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

Fig. 10 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

Fig. 11 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

Fig. 12 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

Fig. 13 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

Fig. 14 is a schematic structural diagram of a convenient soldering box apparatus for feeder connection according to the present invention.

In the figure: a folding mechanism 1; 1-1 of a handle; a limiting plate 1-2; a slide rail a 1-3; 1-4 parts of a limiting block; 1-5 of a lower groove; equipment mounting plate a 1-6; upper tank a 1-7; equipment mounting plate b 1-8; upper tank b 1-9; a slide rail b 1-10; a conveying mechanism 2; a motor 2-1; a motor shaft 2-2; belt a 2-3; connecting shaft a 2-4; connection board a 2-5; connecting plate b 2-6; belt b 2-7; connecting shaft b 2-8; 2-9 of a connecting plate; 2-10 of a conveyor belt; connecting shaft c 2-11; 2-12 connecting grooves; feeder line limiting plates 2-13; 2-14 parts of a fixed abrasive tool; feed line a 2-15; feed line b 2-16; acompression welding mechanism 3; friction wheel a 3-1; friction wheel b 3-2; connecting shaft I3-3; 3-4 of a first connecting plate; friction wheel c 3-5; connecting shafts II 3-6; 3-7 parts of a first belt; connecting shafts III are 3-8; 3-9 parts of a torsion spring; 3-10 parts of a second connecting plate; 3-11 parts of a sliding grinding tool; 3-12 parts of a connecting plate III; friction wheel d 3-13; connecting shaft IV 3-14; a sliding input plate 3-15; input board slots 3-16; metal tubes a 3-17; 3-18 parts of a second belt; connecting shafts five 3-19; 3-20 parts of a connecting plate; 3-21 parts of a sealing ring; 3-22 parts of a rotating ring; 3-23 parts of friction ring; connecting plates five 3-24; 3-25 parts of a propeller; connecting shafts six 3-26; metal tubes b 3-27; 3-28 parts of a tin soldering box; and 3-29 electric heaters.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, the present invention relates to a convenient soldering box device for connecting feeders, and more specifically, to a convenient soldering box device for connecting feeders, which includes a folding mechanism 1, a transfer mechanism 2, and asqueeze soldering mechanism 3, and the device can be folded into a convenient suitcase, can transfer one end of a feeder into a fixed abrasive tool, can squeeze two feeders to connect the two feeders, can inject solder wire solution at the positions of the contact points of the two feeders in the process of squeezing the two feeders, and can output the connected two feeders.

Folding mechanism 1 is connected with transport mechanism 2, and transport mechanism 2 is connected withextrusion welding mechanism 3, andextrusion welding mechanism 3 is connected with folding mechanism 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the embodiment further describes the embodiment, where the folding mechanism 1 includes a handle 1-1, a limit plate 1-2, a slide rail a1-3, a limit block 1-4, a lower groove 1-5, an equipment mounting plate a1-6, an upper groove a1-7, an equipment mounting plate b1-8, an upper groove b1-9, and a slide rail b1-10, the handle 1-1 is slidably connected to the limit plate 1-2, the handle 1-1 is slidably connected to the slide rail a1-3, the handle 1-1 is slidably connected to the slide rail b1-10, the limit plate 1-2 is connected to the lower groove 1-5, the slide rail a1-3 is connected to the limit block 1-4, the sliding rail a1-3 is connected with the lower groove 1-5, the limiting block 1-4 is connected with the lower groove 1-5, the lower groove 1-5 is connected with the equipment mounting plate a1-6, the equipment mounting plate a1-6 is connected with the upper groove a1-7, the upper groove a1-7 is hinged with the upper groove b1-9, the equipment mounting plate b1-8 is connected with the upper groove b1-9, the upper groove b1-9 is connected with the sliding rail b1-10, the equipment can be folded into a convenient suitcase, the handle 1-1 is pulled to be in contact with the limiting block 1-4 far away from the feeder line a2-15, the equipment mounting plate b1-8 and the upper groove b1-9 are rotated, the upper groove b1-9 is in contact with the upper groove a1-7, then the handle 1-1 is pulled reversely to be in contact with the other limiting block 1-4, the upper side of the handle 1-1 slides on the sliding rail b1-10 and is limited by the sliding rail b1-10, the device now constitutes a folding hand-box.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and the embodiment further describes the embodiment, where the conveying mechanism 2 includes a motor 2-1, a motor shaft 2-2, a belt a2-3, a connecting shaft a2-4, a connecting plate a2-5, a connecting plate b2-6, a belt b2-7, a connecting shaft b2-8, a connecting plate 2-9, a conveying belt 2-10, a connecting shaft c2-11, a connecting groove 2-12, a feeder limiting plate 2-13, a fixed grinding tool 2-14, a feeder a2-15, a feeder b2-16, a motor 2-1 is connected to the motor shaft 2-2, a motor 2-1 is connected to the connecting plate b2-6, the motor shaft 2-2 is in frictional connection with a belt a2-3, the belt a2-3 is in frictional connection with a connecting shaft a2-4, the connecting shaft a2-4 is in bearing connection with a connecting plate a2-5, the connecting shaft a2-4 is in bearing connection with a connecting plate b2-6, the connecting shaft a2-4 is in frictional connection with a belt b2-7, the connecting plate a2-5 is in bearing connection with an equipment mounting plate a1-6, the connecting plate b2-6 is in bearing connection with a connecting shaft b2-8, the connecting plate b2-6 is in friction connection with an equipment mounting plate a1-6, the belt b2-7 is in friction connection with a b2-8, the connecting shaft b2-8 is in bearing connection with a connecting plate 2-9, the connecting shaft b2-8 is in friction connection with a conveyor belt 2-10, the connecting plate 2-9 is in bearing connection with a connecting shaft c2-11, two connecting plates 2-9 at one side are connected with an equipment mounting plate a1-6, the connecting plates 2-9 at the other side are connected with an equipment mounting plate b1-8, the connecting plates 2-9 are connected with connecting grooves 2-12, a conveyor belt 2-10 is in friction connection with a connecting shaft c2-11, the conveyor belt 2-10 is in friction connection with a feeder line b2-16, the connecting grooves 2-12 are connected with feeder line limiting plates 2-13, the connecting grooves 2-12 are connected with an equipment mounting plate b1-8, a fixed grinding tool 2-14 is connected with an equipment mounting plate a1-6, the equipment can transmit one end of the feeder line into the fixed grinding tool, the motor 2-1 works to drive a motor shaft 2-2 to rotate, the motor shaft 2-2 rotates through a connecting shaft a2-4 through a belt a2-3, the connecting shaft a2-4 rotates to drive the connecting shaft b2-8 to rotate through the belt b2-7, the connecting shaft b2-8 rotates to drive the connecting shaft c2-11 to rotate through the conveyor belt 2-10, the feeder line a2-15 is conveyed towards the direction of the feeder line b2-16 or away from the direction of the feeder line b2-16 when the conveyor belt 2-10 moves along, and when the feeder line b2-16 is conveyed, the feeder line a2-15 gradually moves into the fixed abrasive tool 2-14.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14. the embodiment further describes the embodiment, and the embodiment includes a friction wheel a3-1, a friction wheel b3-2, a first connecting shaft 3-3, a first connecting plate 3-4, a friction wheel c3-5, a second connecting shaft 3-6, a first belt 3-7, a third connecting shaft 3-8, a torsion spring 3-9, a second connecting plate 3-10, a sliding grinding tool 3-11, a third connecting plate 3-12, a friction wheel d3-13, a fourth connecting shaft 3-14, a sliding input plate 3-15, an input plate slot 3-16, a metal tube a3-17, a second belt 3-18, a friction wheel b 3-12, a friction wheel b3-2, a first connecting shaft 3-3, 4, a friction wheel c3-5, a connecting shaft b 3-6, a belt b 3-7, a torsion spring 3-9, a belt b 3-10, a sliding grinding tool 3-11, a connecting plate b 3-12, a friction wheel b 3-13, a friction wheel b 3-4, a friction wheel b 3-3, a friction wheel b 3-4, a friction wheel b 3-3, a friction wheel b 3-3, b 3-3, b3-2, b3, b, 3, b3, b, Connecting shaft five 3-19, connecting plate four 3-20, sealing ring 3-21, rotating ring 3-22, friction ring 3-23, connecting plate five 3-24, propeller 3-25, connecting shaft six 3-26, metal tube b3-27, soldering tin box 3-28, electric heater 3-29, friction wheel a3-1 and friction wheel b3-2 are connected in friction, friction wheel a3-1 and connecting shaft a2-4 are connected, friction wheel b3-2 and connecting shaft one 3-3 are connected, connecting shaft one 3-3 and connecting plate one 3-4 are connected in screw thread, connecting shaft one 3-3 and connecting plate b2-6 are connected in screw thread, connecting plate one 3-4 and equipment mounting plate a1-6 are connected, friction wheel c3-5 and connecting shaft two 3-6 are connected, a connecting shaft II 3-6 is in friction connection with a belt I3-7, the connecting shaft II 3-6 is in bearing connection with a connecting plate a2-5, the belt I3-7 is in friction connection with a connecting shaft III 3-8, the connecting shaft III 3-8 is in threaded connection with a connecting plate II 3-10, the connecting shaft III 3-8 is in bearing connection with a sliding grinding tool 3-11, the connecting shaft III 3-8 is in sliding connection with a connecting plate a2-5, a torsion spring 3-9 is sleeved on the connecting shaft III 3-8, one end of the torsion spring is connected with the connecting plate II 3-10, the other end of the torsion spring is connected with the connecting shaft III 3-8, the connecting plate II 3-10 is connected with an equipment mounting plate a1-6, the sliding grinding tool 3-11 is connected with the connecting plate III 3-12, the sliding grinding tool 3-11 is in sliding connection with the equipment mounting plate a1-6, the sliding grinding tool 3-11 is connected with the fixed grinding tool 2-14 in a sliding mode, the connecting plate three 3-12 is connected with the friction wheel d3-13 in a friction mode, the connecting plate three 3-12 is connected with the groove on the equipment mounting plate a1-6 in a sliding mode, the friction wheel d3-13 is connected with the connecting shaft four 3-14, the friction wheel d3-13 is connected with the sliding input plate 3-15 in a friction mode, the connecting shaft four 3-14 is connected with the belt two 3-18 in a friction mode, the connecting shaft four 3-14 is connected with the equipment mounting plate a1-6 in a bearing mode, the sliding input plate 3-15 is connected with the input plate groove 3-16 in a sliding mode, the sliding input plate 3-15 is connected with the equipment mounting plate a1-6 in a sliding mode, the input plate groove 3-16 is connected with the equipment mounting plate a1-6 in a sliding mode, one end of the metal pipe a3-17 is connected with the sliding input plate 3-15 in a sliding mode, and the other end is connected with the sealing ring 3-21 in a bearing mode, the metal pipe a3-17 is connected and communicated with the connecting plate IV 3-20, the belt II 3-18 is connected with the connecting shaft V3-19 in a friction mode, the belt II 3-18 is connected with the friction ring 3-23 in a friction mode, the connecting shaft V3-19 is connected with the equipment mounting plate A1-6 in a bearing mode, the connecting plate IV 3-20 is connected with the equipment mounting plate A1-6 in a friction mode, the sealing ring 3-21 is connected with the rotating ring 3-22 in a bearing mode, the sealing ring 3-21 is connected with the metal pipe b3-27 in a bearing mode, the rotating ring 3-22 is connected with the friction ring 3-23 in a bearing mode, the rotating ring 3-22 is connected with the propeller 3-25 in a bearing mode, the connecting plate V3-24 is connected and communicated with the metal pipe b3-27 in a bearing mode, the connecting plate V3-24 is connected with the equipment mounting plate A1-6 in a bearing mode, the propeller 3-25 is connected with the connecting shaft VI 3-26 in a bearing mode, the metal tube b3-27 is connected and communicated with the soldering tin box 3-28, the soldering tin box 3-28 is connected with the electric heater 3-29, the soldering tin box 3-28 is connected with the equipment mounting plate a1-6, the soldering tin box 3-28 is connected with the upper groove a1-7, the equipment can extrude the two feeders to connect the two feeders, the equipment can inject soldering tin wire solution at the contact point of the two feeders in the process of extruding the two feeders, the equipment can output the connected two feeders, when the feeder a2-15 is transmitted in the fixed grinding tool 2-14, the connecting shaft a2-4 is in a rotating state, the friction wheel a3-1 is also driven to rotate when the connecting shaft a2-4 rotates, the friction wheel b3-2 is driven to rotate when the friction wheel a3-1 rotates, the friction wheel b3-2 rotates to drive the connecting shaft to rotate by 3-3, the first connecting shaft 3-3 rotates and moves away from the first connecting plate 3-4 under the action of the first connecting plate 3-4, when the first connecting shaft 3-3 drives the friction wheel b3-2 to move to be in contact with the friction wheel c3-5, the friction wheel b3-2 and the friction wheel c3-5 are in friction connection, at the moment, the friction wheel c3-5 is driven to rotate by the friction wheel b3-2, the friction wheel c3-5 rotates to drive the second connecting shaft 3-6 to rotate, the second connecting shaft 3-6 rotates to drive the third connecting shaft 3-8 to rotate through the first belt 3-7, the third connecting shaft 3-8 rotates to move towards the direction of the fixed grinding tool 2-14 under the action of the second connecting plate 3-10, the third connecting shaft 3-8 moves to drive the sliding grinding tool 3-11 to move towards the direction of the fixed grinding tool 2-14, at the moment, the feeder line a2-15 and the feeder line b2-16 between the fixed abrasive tool 2-14 and the sliding abrasive tool 3-11 are gradually clamped, when the connecting shaft I3-3 drives the friction wheel b3-2 to move to be not contacted with the friction wheel c3-5, the torsion accumulated by the torsion spring 3-9 of the connecting shaft III 3-8 is instantaneously released, the sliding abrasive tool 3-11 and the fixed abrasive tool 2-14 are instantaneously separated, at the moment, the feeder line a2-15 and the feeder line b2-16 are clamped into a connecting state, the connecting plate III 3-12 is also driven to move in the process of moving the sliding abrasive tool 3-11, the connecting plate III 3-12 moves to drive the sliding input plate 3-15 to transversely move through the friction wheel d3-13, and the sliding input plate 3-15 starts to move towards the input plate groove 3-16, when the holes on the sliding input plate 3-15 move to be in a communicated state with the metal tubes a3-17, the connecting plates three 3-12 move to the limit position of the chutes on the equipment mounting plate a1-6, the friction wheels d3-13 also drive the connecting shafts four 3-14 to rotate when rotating, the connecting shafts four 3-14 rotate to drive the connecting shafts five 3-19 to rotate through the belts two 3-18, the belts two 3-18 also drive the friction rings 3-23 to rotate in the following motion process, the friction rings 3-23 rotate to drive the propellers 3-25 to rotate through the rotating rings 3-22, the propellers 3-25 suck air into the soldering tin boxes 3-28 through the metal tubes b3-27 when rotating, the soldering tin boxes 3-28 which are powered on are heated and melted by the soldering tin boxes 3-28 are discharged to the metal tubes a3-17, solder wire solution is injected between the feeder lines a2-15 and b2-16 through holes in the device mounting plate a1-6 and holes in the sliding input plate 3-15 under the guidance of the metal tube a3-17, the sliding abrasive tool 3-11 and the fixed abrasive tool 2-14 clamp the feeder lines a2-15 and b2-16 to clamp the solder wire solution and the feeder lines a2-15 and b2-16 into a connected state, the feeder lines b2-16 are conveyed to the direction of the feeder lines a2-15 continuously, the feeder lines b2-16 enter the feeder line limiting plate 2-13 into the lower connecting groove 2-12 when the movement of the feeder lines b2-16 is blocked, and the feeder lines b2-16 are conveyed continuously until the feeder lines 2-16 are completely conveyed out of the device under the condition that the sliding abrasive tool 3-11 and the fixed abrasive tool 2-14 are separated.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, and fig. 14, and the present embodiment further describes the first embodiment, in which the material of the conveyor belts 2 to 10 is high-elastic rubber.

The sixth specific implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, and 14, and the present embodiment further describes an embodiment in which a large number of electric resistors are disposed inside theelectric heaters 3 to 29, and a metal heat conductive layer is disposed outside the electric resistors, and the metal heat conductive layer can generate heat after the power is turned on.

The working principle of the device is as follows: the equipment can be folded into a convenient suitcase, the handle 1-1 is pulled to be in contact with a limiting block 1-4 far away from a feeder line a2-15, at the moment, the equipment mounting plate b1-8 and an upper groove b1-9 are rotated, the upper groove b1-9 is in contact with an upper groove a1-7, then, the handle 1-1 is pulled reversely to be in contact with another limiting block 1-4, the upper side of the handle 1-1 slides on a sliding rail b1-10 and is limited by the sliding rail b1-10, at the moment, the equipment forms a folding hand box, the equipment can transmit the feeder line at one end into a fixed grinding tool, the motor 2-1 works to drive a motor shaft 2-2 to rotate, the motor shaft 2-2 rotates through a connecting shaft a2-3 connecting shaft a2-4, the a2-4 rotates through a belt b2-7 to drive a connecting shaft b2-8 to rotate, the connecting shaft b2-8 rotates to drive the connecting shaft c2-11 to rotate through the conveyor belt 2-10, when the conveyor belt 2-10 moves along, the feeder line a2-15 is conveyed towards the feeder line b2-16 or away from the feeder line b2-16, when the feeder line b2-16 is conveyed, the feeder line a2-15 gradually moves into the fixed grinding tool 2-14, the device can press the two feeder lines to connect the two feeder lines, the device can inject soldering tin wire solution at the contact point of the two feeder lines in the process of pressing the two feeder lines, the device can output the connected two feeder lines, when the feeder line a2-15 is conveyed in the fixed grinding tool 2-14, the connecting shaft a2-4 is in a rotating state, when the connecting shaft a2-4 rotates, the friction wheel a3-1 is also driven to rotate, when the friction wheel a3-1 rotates, the friction wheel b3-2 is driven to rotate, the friction wheel b3-2 rotates to drive the connecting shaft I3-3 to rotate, the connecting shaft I3-3 rotates and moves away from the connecting plate I3-4 under the action of the connecting plate I3-4, when the connecting shaft I3-3 drives the friction wheel b3-2 to move to be in contact with the friction wheel c3-5, the friction wheel b3-2 and the friction wheel c3-5 are in friction connection, the friction wheel c3-5 is driven to rotate by the friction wheel b3-2, the friction wheel c3-5 rotates to drive the connecting shaft II 3-6 to rotate, the connecting shaft II 3-6 rotates to drive the connecting shaft III 3-8 to rotate through the belt I3-7, the connecting shaft III 3-8 rotates to move towards the fixed grinding tool 2-14 under the action of the connecting plate II 3-10, and the connecting shaft III 3-8 moves to drive the sliding grinding tool 3-11 to move towards the fixed grinding tool 2-14 direction At the moment, the feeder line a2-15 and the feeder line b2-16 between the fixed abrasive tool 2-14 and the sliding abrasive tool 3-11 are gradually clamped, when the connecting shaft I3-3 drives the friction wheel b3-2 to move to be not contacted with the friction wheel c3-5, the torsion accumulated by the torsion spring 3-9 of the connecting shaft III 3-8 is instantaneously released, the sliding abrasive tool 3-11 and the fixed abrasive tool 2-14 are instantaneously separated, at the moment, the feeder line a2-15 and the feeder line b2-16 are clamped into a connecting state, the connecting plate III 3-12 is also driven to move in the process of moving the sliding abrasive tool 3-11, the connecting plate III 3-12 moves to drive the sliding input plate 3-15 to transversely move through the friction wheel d3-13, the sliding input plate 3-15 starts to move towards the input plate groove 3-16, when the holes on the sliding input plate 3-15 move to be in a communicated state with the metal tubes a3-17, the connecting plates three 3-12 move to the limit position of the chutes on the equipment mounting plate a1-6, the friction wheels d3-13 also drive the connecting shafts four 3-14 to rotate when rotating, the connecting shafts four 3-14 rotate to drive the connecting shafts five 3-19 to rotate through the belts two 3-18, the belts two 3-18 also drive the friction rings 3-23 to rotate in the following motion process, the friction rings 3-23 rotate to drive the propellers 3-25 to rotate through the rotating rings 3-22, the propellers 3-25 suck air into the soldering tin boxes 3-28 through the metal tubes b3-27 when rotating, the soldering tin boxes 3-28 which are powered on are heated and melted by the soldering tin boxes 3-28 are discharged to the metal tubes a3-17, solder wire solution is injected between the feeder lines a2-15 and b2-16 through holes in the device mounting plate a1-6 and holes in the sliding input plate 3-15 under the guidance of the metal tube a3-17, the sliding abrasive tool 3-11 and the fixed abrasive tool 2-14 clamp the feeder lines a2-15 and b2-16 to clamp the solder wire solution and the feeder lines a2-15 and b2-16 into a connected state, the feeder lines b2-16 are conveyed to the direction of the feeder lines a2-15 continuously, the feeder lines b2-16 enter the feeder line limiting plate 2-13 into the lower connecting groove 2-12 when the movement of the feeder lines b2-16 is blocked, and the feeder lines b2-16 are conveyed continuously until the feeder lines 2-16 are completely conveyed out of the device under the condition that the sliding abrasive tool 3-11 and the fixed abrasive tool 2-14 are separated.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (3)

1. The utility model provides a feeder is connected with convenient welding box equipment, includes folding mechanism (1), transport mechanism (2), extrusion welding mechanism (3), its characterized in that: the folding mechanism (1) is connected with the conveying mechanism (2), the conveying mechanism (2) is connected with the extrusion welding mechanism (3), and the extrusion welding mechanism (3) is connected with the folding mechanism (1);

the folding mechanism (1) comprises a handle (1-1), a limiting plate (1-2), a sliding rail a (1-3), a limiting block (1-4), a lower groove (1-5), an equipment mounting plate a (1-6), an upper groove a (1-7), an equipment mounting plate b (1-8), an upper groove b (1-9) and a sliding rail b (1-10), wherein the handle (1-1) is connected with the limiting plate (1-2) in a sliding manner, the handle (1-1) is connected with the sliding rail a (1-3) in a sliding manner, the handle (1-1) is connected with the sliding rail b (1-10) in a sliding manner, the limiting plate (1-2) is connected with the lower groove (1-5), the sliding rail a (1-3) is connected with the limiting block (1-4), and the sliding rail a (1-3) is connected with the lower groove (1-5), the limiting blocks (1-4) are connected with the lower grooves (1-5), the lower grooves (1-5) are connected with the equipment mounting plates a (1-6), the equipment mounting plates a (1-6) are connected with the upper grooves a (1-7), the upper grooves a (1-7) are hinged with the upper grooves b (1-9), the equipment mounting plates b (1-8) are connected with the upper grooves b (1-9), and the upper grooves b (1-9) are connected with the sliding rails b (1-10);

the conveying mechanism (2) comprises a motor (2-1), a motor shaft (2-2), a belt a (2-3), a connecting shaft a (2-4), a connecting plate a (2-5), a connecting plate b (2-6), a belt b (2-7), a connecting shaft b (2-8), a connecting plate (2-9), a conveying belt (2-10), a connecting shaft c (2-11), a connecting groove (2-12), a feeder limiting plate (2-13), a fixed grinding tool (2-14), a feeder a (2-15) and a feeder b (2-16), wherein the motor (2-1) is connected with the motor shaft (2-2), the motor (2-1) is connected with the connecting plate b (2-6), and the motor shaft (2-2) is in friction connection with the belt a (2-3), the belt a (2-3) is in friction connection with the connecting shaft a (2-4), the connecting shaft a (2-4) is in bearing connection with the connecting plate a (2-5), the connecting shaft a (2-4) is in bearing connection with the connecting plate b (2-6), the connecting shaft a (2-4) is in friction connection with the belt b (2-7), the connecting plate a (2-5) is connected with the equipment mounting plate a (1-6), the connecting plate b (2-6) is in bearing connection with the connecting shaft b (2-8), the connecting plate b (2-6) is connected with the equipment mounting plate a (1-6), the belt b (2-7) is in friction connection with the connecting shaft b (2-8), the connecting shaft b (2-8) is in bearing connection with the connecting plate (2-9), and the connecting shaft b (2-8) is in friction connection with the conveyor belt (2-10), the connecting plates (2-9) are in bearing connection with a connecting shaft c (2-11), two connecting plates (2-9) on one side are connected with an equipment mounting plate a (1-6), the connecting plates (2-9) on the other side are connected with an equipment mounting plate b (1-8), the connecting plates (2-9) are connected with connecting grooves (2-12), a conveyor belt (2-10) is in friction connection with the connecting shaft c (2-11), the conveyor belt (2-10) is in friction connection with a feeder line b (2-16), the connecting grooves (2-12) are connected with feeder line limiting plates (2-13), the connecting grooves (2-12) are connected with the equipment mounting plate b (1-8), and a fixed grinding tool (2-14) is connected with the equipment mounting plate a (1-6);

the extrusion welding mechanism (3) comprises a friction wheel a (3-1), a friction wheel b (3-2), a connecting shaft I (3-3), a connecting plate I (3-4), a friction wheel c (3-5), a connecting shaft II (3-6), a belt I (3-7), a connecting shaft III (3-8), a torsion spring (3-9), a connecting plate II (3-10), a sliding grinding tool (3-11), a connecting plate III (3-12), a friction wheel d (3-13), a connecting shaft IV (3-14), a sliding input plate (3-15), an input plate groove (3-16), a metal pipe a (3-17), a belt II (3-18), a connecting shaft V (3-19), a connecting plate IV (3-20), a sealing ring (3-21), The welding device comprises a rotating ring (3-22), a friction ring (3-23), a connecting plate five (3-24), a propeller (3-25), a connecting shaft six (3-26), a metal pipe b (3-27), a solder box (3-28) and an electric heater (3-29), wherein the friction wheel a (3-1) is in friction connection with the friction wheel b (3-2), the friction wheel a (3-1) is connected with the connecting shaft a (2-4), the friction wheel b (3-2) is connected with the connecting shaft one (3-3), the connecting shaft one (3-3) is in threaded connection with the connecting plate one (3-4), the connecting shaft one (3-3) is in threaded connection with the connecting plate b (2-6), the connecting plate one (3-4) is connected with the device mounting plate a (1-6), and the friction wheel c (3-5) is connected with the connecting shaft two (3-6), a connecting shaft II (3-6) is in friction connection with a belt I (3-7), the connecting shaft II (3-6) is in bearing connection with a connecting plate a (2-5), the belt I (3-7) is in friction connection with a connecting shaft III (3-8), the connecting shaft III (3-8) is in threaded connection with a connecting plate II (3-10), the connecting shaft III (3-8) is in bearing connection with a sliding grinding tool (3-11), the connecting shaft III (3-8) is in sliding connection with the connecting plate a (2-5), a torsion spring (3-9) is sleeved on the connecting shaft III (3-8), one end of the torsion spring is connected with the connecting plate II (3-10) and the other end is connected with the connecting shaft III (3-8), the connecting plate II (3-10) is connected with an equipment mounting plate a (1-6), the sliding grinding tool (3-11) is connected with the connecting plate III (3-12), the sliding grinding tool (3-11) is connected with the equipment mounting plate a (1-6) in a sliding mode, the sliding grinding tool (3-11) is connected with the fixed grinding tool (2-14) in a sliding mode, the connecting plate three (3-12) is connected with the friction wheel d (3-13) in a friction mode, the connecting plate three (3-12) is connected with the groove on the equipment mounting plate a (1-6) in a sliding mode, the friction wheel d (3-13) is connected with the connecting shaft four (3-14), the friction wheel d (3-13) is connected with the sliding input plate (3-15) in a friction mode, the connecting shaft four (3-14) is connected with the belt two (3-18) in a friction mode, the connecting shaft four (3-14) is connected with the equipment mounting plate a (1-6) in a bearing mode, the sliding input plate (3-15) is connected with the input plate groove (3-16) in a sliding mode, the sliding input plate (3-15) is connected with the equipment mounting plate a (1-6) in a sliding manner, the input plate groove (3-16) is connected with the equipment mounting plate a (1-6), one end of the metal pipe a (3-17) is connected with the sliding input plate (3-15) in a sliding manner, the other end of the metal pipe a (3-17) is connected with the bearing of the sealing ring (3-21), the metal pipe a (3-17) is connected and communicated with the connecting plate four (3-20), the belt two (3-18) is connected with the connecting shaft five (3-19) in a friction manner, the belt two (3-18) is connected with the friction ring (3-23) in a friction manner, the connecting shaft five (3-19) is connected with the bearing of the equipment mounting plate a (1-6), the connecting plate four (3-20) is connected with the equipment mounting plate a (1-6), and the sealing ring (3-21) is connected with the rotating ring (3-22), the sealing ring (3-21) is connected with a metal tube b (3-27) in a bearing mode, the rotating ring (3-22) is connected with the friction ring (3-23), the rotating ring (3-22) is connected with a propeller (3-25), a connecting plate five (3-24) is connected and communicated with the metal tube b (3-27), the connecting plate five (3-24) is connected with an equipment mounting plate a (1-6), the propeller (3-25) is connected with a connecting shaft six (3-26), the metal tube b (3-27) is connected and communicated with a soldering tin box (3-28), the soldering tin box (3-28) is connected with an electric heater (3-29), the soldering tin box (3-28) is connected with the equipment mounting plate a (1-6), and the soldering tin box (3-28) is connected with an upper groove a (1-7).

2. The convenient and fast welding box device for feeder connection according to claim 1, characterized in that: the material of the conveyor belt (2-10) is high-elastic rubber.

3. The convenient and fast welding box device for feeder connection according to claim 1, characterized in that: a large number of resistors are arranged in the electric heaters (3-29), metal heat conduction layers are arranged outside the electric heaters, and the metal heat conduction layers can generate heat after the power supply is switched on.

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