CN205386700U - Heater welding and winding equipment - Google Patents

Abstract

The utility model provides a heater welding and winding equipment, inlet wire component on including the frame and locating the frame, the structure of skinning, send the line structure, welded structure and winding arrangement, the inlet wire component is located in the frame, establish the wire on the inlet wire component, one side of inlet wire component is located to the structure of skinning, the wire be connected to skin structural, the structure of skinning is used for cutting off the wire, send the line structure to be used for carrying the wire to the welded structure on, so that the heater on wire and the welded structure welds, the heater that welded structure will weld the completion is carried and is twined on the winding arrangement, the winding arrangement includes winding member, the heater that the welding was accomplished twines on winding member. The utility model provides a heater welding and winding equipment utilizes welded structure to weld wire and heater, then utilizes the winding arrangement to twine to replace current the adoption and rivet and utilize the manual work to carry out winding mode, reduced staff's working strength, improved production efficiency, guaranteed production quality.

Description

Heating wire welding and Wiring apparatus

Technical field

This utility model relates to communications electronics field, particularly relates to a kind of heating wire welding and Wiring apparatus.

Background technology

Heating wire assembly in electronic smoke atomizer is made up of heating wire, wire and glass cord.Heating wire and wire are riveted by current production method for first passing through terminal, then the heating wire after riveted joint and wire are wrapped in artificial on glass cord again, then severing glass cord.

But, inventor have found that of this case, adopt the above-mentioned mode of production to have a disadvantage in that

1., owing to heating wire and wire are riveted by terminal, contact resistance can be formed in junction, cause that the resistance variations of heating wire is very big；

2. a lot of terminals are copper alloy, can produce chemical reaction with ree-oil, and copper ion can enter human body thus producing health problem together with ree-oil；

3. when manually heating wire being wound on glass cord, owing to pitch and degree of tightness differ greatly, the impact of electronic cigarette quality is relatively big, and owing to adopting manual operation, so yield is relatively low；

4. when being wound around heating wire and cutting glass cord, a lot of dust can be produced, the injury of staff is bigger.

Therefore, being badly in need of design one can weld wire and heating wire automatically, and is automatically welded and Wiring apparatus by the heating wire that the heating wire after welding is wound.

Utility model content

In view of this, this utility model is for the disappearance of prior art existence, and its main purpose is to provide a kind of heating wire welding that automatically can carry out heating wire welding and being wound around and Wiring apparatus and electronic equipment.

nullFor achieving the above object，This utility model provides a kind of heating wire welding and Wiring apparatus，Wherein，The welding of described heating wire and Wiring apparatus include frame and the inlet wire element being located in described frame、Peeling structure、Line sending structure、Welding Structure and winding arrangement，Described inlet wire element is located in described frame，Described inlet wire element is provided with wire，Described peeling structure is located at the side of described inlet wire element，Described wire is connected in described peeling structure，Described peeling structure is in order to cut off described wire，So that described wire separates with described inlet wire element，Described line sending structure is located at the side of described peeling structure，Described line sending structure is in order to be delivered to described wire in described Welding Structure，So that described wire welds with the heating wire in described Welding Structure，And be delivered on described winding arrangement by the described heating wire welded to be wound，Described winding arrangement includes wrap，The described heating wire welded is wound on described wrap.

Wherein, described peeling structure is two, respectively the first peeling structure and the second peeling structure, and the contiguous described inlet wire element of described first peeling structure is arranged, to be cut off by the described wire on described inlet wire element.

Wherein, described first peeling structure and the second peeling structure all include the first driving element and cut element, the described element that cuts drives element to electrically connect with described first, cuts element and cut off by the wire on described heating wire described in described first driving element drives.

Wherein, the contiguous described second peeling structure of described line sending structure is arranged, described line sending structure includes the second driving element and line sending element, described line sending element drives element to be electrically connected with described second, described second drives line sending member motion described in element drives, so that described wire is delivered in described Welding Structure by described line sending element.

Wherein, the contiguous described line sending structure of Welding Structure described in described Welding Structure is arranged, described Welding Structure includes the 3rd driving element, the first wire clamp and soldered elements, described first wire clamp is in order to clamp described wire, and described first wire clamp drives element to electrically connect with the described 3rd, described soldered elements drives element to electrically connect with the described 3rd, described 3rd drives soldered elements described in element drives and described first wire clamp motion, so that described soldered elements moves to welding position, and the wire on described heating wire and described first wire clamp is welded.

Wherein, the welding of described heating wire and Wiring apparatus also include transhipment structure, described transhipment structure is located in described frame, and the described Welding Structure of vicinity is arranged, described transhipment structure includes electric rotating machine and line taking element, described line taking element electrically connects with described electric rotating machine, and described electric rotating machine drives described line taking element to be delivered on described winding arrangement by the described heating wire welded.

Wherein, the welding of described heating wire and Wiring apparatus also include structure for conveying, described structure for conveying is located in described frame, and is located between described transhipment structure and described winding arrangement, in order to be delivered on described winding arrangement by the described heating wire welded in described transhipment structure.

Wherein, described structure for conveying includes the 4th driving element, clamp element and detection piece, described clamp element drives element to electrically connect with the described 4th, described clamp element is in order to clamp the described heating wire welded, and described detection piece is in order to detect the described heating wire on described clamp element.

Wherein, described 4th driving element is servomotor, and the described 4th drives clamp member motion described in element drives, to be delivered on described winding arrangement by the described heating wire welded.

Wherein, described winding arrangement also includes the 5th driving element, rotational structure and cut off element, described rotational structure includes the second wire clamp and rotates element, the described heating wire welded is located on described second wire clamp, described rotation element is connected with described second wire clamp, described 5th drives rotation element described in element drives to rotate to described wrap, so that the described heating wire welded is wound on described wrap, described element of cutting off drives element to electrically connect with the described 5th, described element of cutting off is in order to cut off the described heating wire being wound around, so that described heating wire separates with described rotation element.

The heating wire that this utility model provides welds and Wiring apparatus, is cut off by the wire on inlet wire element by arranging peeling structure, is then delivered in Welding Structure via line sending structure so that this wire can weld with the heating wire in Welding Structure；Then the heating wire welded is delivered on winding arrangement and is wound so that the heating wire welded can be wound on wrap, thus completing welding and the winding of heating wire between heating wire with wire.Owing to this process is Automatic Control, instead of existing employing heating wire and wire to be riveted, then again through the artificial way that heating wire after riveted joint and wire are wound, reduce the working strength of staff, and the injury that staff is brought by the dust produced when being wound around heating wire can be reduced.Additionally, due to heating wire adopts, with wire, the mode welded such that it is able to prevent heating wire from producing bigger resistance variations, it is ensured that the quality of heating wire.

Accompanying drawing explanation

For more clearly setting forth structural feature of the present utility model and effect, it is described in detail below in conjunction with accompanying drawing and specific embodiment.

Fig. 1 is the heating wire welding that provides of this utility model embodiment and the perspective view of Wiring apparatus；

Fig. 2 is the structural representation at another visual angle of Fig. 1；

Fig. 3 is the peeling structure that provides of this utility model embodiment and the structural representation of line sending structure；

Fig. 4 is the structural representation of the structure for conveying that this utility model embodiment provides；

Fig. 5 is the structural representation of the winding arrangement that the embodiment of the present invention provides；

Fig. 6 is the structural representation that the heating wire that the embodiment of the present invention provides is wound on wrap.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described.

Seeing also Fig. 1 to Fig. 6, this utility model provides the welding of a kind of heating wire and Wiring apparatus 100, including frame 10 and be located at the inlet wire element 20 in described frame 10, peeling structure 30, line sending structure 40, Welding Structure 50 and winding arrangement 60.Described inlet wire element 20 is located in described frame 10.Being provided with wire (not indicating in figure) on described inlet wire element 20, described peeling structure 30 is located at the side of described inlet wire element 20, and described wire is connected in described peeling structure 30.Described peeling structure 30 is in order to cut off described wire, so that described wire separates with described inlet wire element 20.Described line sending structure 40 is located at the side of described peeling structure 30, described line sending structure 40 in order to be delivered in described Welding Structure 50 by described wire, so that described wire welds with the heating wire 200 in described Welding Structure 50, and it is delivered on described winding arrangement 60 by the described heating wire 200 welded to be wound.Described winding arrangement 60 includes wrap 61, and the described heating wire 200 welded is wound on described wrap 61.

The heating wire 200 that this utility model embodiment provides welds and Wiring apparatus 100, by described peeling structure 30, the described wire on described inlet wire element 20 is cut off, and it is delivered in described Welding Structure 50 via described line sending structure 40, owing to described Welding Structure 50 being provided with described heating wire 200, making described wire and described heating wire 200 be capable of welding, then the described heating wire 200 welded is wound by recycling winding arrangement 60.Owing to described heating wire 200 adopts, with described wire, the mode welded, and whole process is automatic control process, so participate in conveying or welding without staff, reduce the working strength of staff, also ensure that the quality of production of described heating wire 200 simultaneously.

Specifically, described frame 10 is rectangle cabinet body structure, and described frame 10 includes a loading end 11, and described inlet wire element 20, peeling structure 30, line sending structure 40, Welding Structure 50 and described winding arrangement 60 are all located on described loading end 11.Owing to described frame 10 is cabinet body structure, so other parts can be placed, such as power supply control, circuit control part, the source of welding current etc..

Further, the bottom of described frame 10 is provided with cushion block 12, and described cushion block 12 is four, is respectively arranged on four corners of described frame 10.While described cushion block 12 can be easy to the stable placement of described frame 10, it is also possible to the height on the described relative ground of frame 10 is increased, places and cause abrasion between the relative ground, bottom of described frame 10.Preferably, described cushion block 12 is circular cushion block, to increase described cushion block 12 and the contact area on ground, is further ensured that the stable placement of described frame 10.It is understood that in other embodiments, described cushion block 12 can be also square cushion block or U-shaped cushion block etc..

Described inlet wire element 20 is provided with described wire.In the present embodiment, in order to ensure when described wire enters to be straight line, described inlet wire element 20 being provided with calibrating device (not shown), described wire is calibrated on described calibrating device, so that described wire remains straight state.Described wire can be belt leather wire or not belt leather wire.When described wire is belt leather wire, described wire enters via described inlet wire element 20, and when being connected in described peeling structure 30, the crust of described belt leather wire is peeled off by described peeling structure 30, and is delivered in described Welding Structure 50 by described wire via described line sending structure 40 and welds.When described wire is not belt leather wire, described wire is directly cut off by described peeling structure 30, and is delivered in described Welding Structure 50 via described line sending structure 40.By above-mentioned setting, described heating wire 200 can be made to weld and Wiring apparatus 100 disclosure satisfy that the welding of different conductor.

Described peeling structure 30 is two, respectively the first peeling structure 31 and the second peeling structure 32, the centrosymmetry of described first peeling structure 31 and the second peeling structure 32 relatively described frame 10 respectively is arranged, the contiguous described inlet wire element 20 of described first peeling structure 31 is arranged, to be cut off by the described wire on described inlet wire element 20.In the present embodiment, described first peeling structure 31 includes the first driving element (not indicating in figure) and cuts element 312, the described element 312 that cuts drives element to electrically connect with described first, and cut element 312 described in described first driving element drives to be cut off by described wire, so that described wire separates with described inlet wire element 20.Specifically, described first driving element can be motor or cylinder.

The structure of described second peeling structure 32 is consistent with described first peeling structure 31, so refer to the description previously for described first peeling structure 31 about this structure, repeats no more here.Described second peeling structure 32 is located at the side of described Welding Structure 50, in order to cut described wire further, so that the length of described wire meets the requirement of welding.

The contiguous described first peeling structure 31 of described line sending structure 40 is arranged, described line sending structure 40 includes the second driving element 41 and line sending element 42, described line sending element 42 drives element 41 to electrically connect with described second, and described second drives element 41 to drive described line sending element 42 to move, so that described wire is delivered in described Welding Structure 50 by described line sending element 42.In the present embodiment, described second driving element 41 can be motor or gear.Described line sending element 42 can be the conveyer belt being located on described second driving element 41, described second drives element 41 to drive the upper motion in the horizontal direction of described line sending element 42, so that the described wire on described line sending element 42 is delivered on the position at described Welding Structure 50 place, in order to weld.Preferably, described line sending element 42 can be Timing Belt.Additionally, described line sending structure 40 is also provided with clamp cylinder, clamp described wire by described clamp cylinder, described line sending element 42 can be easy to further and described wire is delivered on the position at described Welding Structure 50 place.

Described Welding Structure 50 is located between described first peeling structure 31 and the second peeling structure 32, and the contiguous described line sending structure 40 of described Welding Structure 50 is arranged.Described Welding Structure 50 includes the 3rd driving element (not indicating in figure), first wire clamp 52 and soldered elements 53, described first wire clamp 52 is in order to clamp described wire, and described first wire clamp 52 drives element to electrically connect with the described 3rd, described soldered elements 53 drives unit 1 to electrically connect with the described 3rd, described 3rd drives soldered elements 53 and described first wire clamp 52 described in element drives to move, so that described soldered elements 53 moves to welding position, and the wire on the described heating wire 200 being clamped on soldered elements 53 and described first wire clamp 52 is welded.Described Welding Structure 50 still further comprises the source of welding current 54, and the described 3rd drives element to electrically connect with the described source of welding current 54, to realize the described 3rd electric connection driving element.During welding, the described 3rd drives soldered elements 53 described in element drives to move, make the heating wire 200 being clamped onto respectively with the conductive contact clamped on the first wire clamp 52, while contact, the described source of welding current 54 discharges, and makes heating wire 200 and wire weld together.What drive soldered elements 53 can add cam link structure for motor.It is understood that in other embodiments, the described 3rd to drive element can be also that cylinder control model, servomotor add the control model of ball-screw or motor adds the control model of ball screw.

Described heating wire 200 welds and Wiring apparatus 100 also includes transhipment structure 70, and described transhipment structure 70 is located in described frame 10, and contiguous described Welding Structure 50 is arranged.Described transhipment structure 70 includes electric rotating machine 71 and line taking element 72, described line taking element 72 electrically connects with described electric rotating machine 71, so that described electric rotating machine 71 can drive described line taking element 72 to be delivered on described winding arrangement 60 by the described heating wire 200 welded.In the present embodiment, described line taking element 72 can be wire clamp or clamp gas pawl, to clamp the described heating wire 200 welded, it is prevented that described heating wire 200 drops in course of conveying.Specifically, described transhipment structure 70 also can farther include telescopic cylinder 73, and described electric rotating machine 71 electrically connects with described telescopic cylinder.After described Welding Structure 50 has been welded, described telescopic cylinder 73 stretches out, so that described line taking element 72 stretches out and clamps the described heating wire 200 after welding, then described telescopic cylinder 73 is retracted, drive described electric rotating machine 71 to rotate, and drive described line taking element 72 that the heating wire 200 after welding is delivered to transfer position.Further, described heating wire 200 welds and Wiring apparatus 100 also includes structure for conveying 80, described structure for conveying 80 is located in described frame 10, and described structure for conveying 80 is located between described transhipment structure 70 and described winding arrangement 60, in order to the described heating wire 200 welded in described transhipment structure 70 is delivered on described winding arrangement 60.nullSpecifically，Described structure for conveying 80 includes the 4th driving element 81、Clamp element 82 and detection piece (not indicating in figure)，Described clamp element 82 drives element 81 to electrically connect with the described 4th，Described clamp element 82 is in order to clamp the described heating wire 200 welded，Further，Described structure for conveying 80 also includes motor 84、Screw mandrel 85 and be slidably connected to conveying member 86 on described screw mandrel 85，Described motor 84 electrically connects with described screw mandrel 85，Described clamp element 82 is fixedly arranged on described conveying member 86，Described motor 84 drives described screw mandrel 85 to rotate，So that described conveying member 86 drives described clamp element 82 to be slidably connected on described screw mandrel 85，So that described clamp element 82 can slide along described screw mandrel 85，Realize the purpose carrying the described heating wire 200 welded to move，85 are alternatively Timing Belt.

Further, in order to detect the welding quality of the described heating wire 200 welded, it is necessary to described heating wire 200 is detected.Therefore, described detection piece 86 is in order to carry out Welding quality test to described heating wire 200.Specifically, described 4th driving element 81 is telescopic cylinder.Described detection piece 86 includes elastic part (not shown) and detection part (not shown), and described clamp element 82 includes the first crimping 82a and the second crimping 82b.When the described 4th drives element 81 to stretch out, the heating wire 200 in transhipment structure 70 is stated in described first crimping 82a fixation clamp residence, and described second crimping 82b is connected with described elastic, and described elastic can drive described second crimping 82b motion.When the described 4th drives element 81 to retract, described second crimping 82b is held by described elastic along the direction away from described transhipment structure 70.When described second crimping 82b moves along the direction away from described transhipment structure 70 under the effect of described elastic, and when moving to the detection range of described test section, then described detection piece detects that described heating wire 200 weld strength is inadequate, now, described motor 84 and screw mandrel 85 drive described second crimping 82b to move to a material casting position again, and described second crimping 82b is separated with described heating wire 200.When described second crimping 82b is drawn by described elastic along the direction away from described transhipment structure 70, and the scope of its motion is not when the detection range of described test section, then described detection piece detects that the weld strength of described heating wire 200 meets the requirements, now, described 4th drives element 81 again to drive described second crimping 82b motion, so that described heating wire 200 is delivered to described winding mechanism 60.Preferably, described elastic is spring, and described test section is distance measuring sensor or range finding switch etc..

See also figure, Fig. 5 and Fig. 6, described winding arrangement 60 still further comprises the 5th driving element 62, rotational structure 63 and cuts off element 64, described rotational structure 63 includes the second wire clamp 631 and rotates element 632, the described heating wire 200 welded is located on described second wire clamp 631, described rotation element 632 is connected with the described heating wire 200 welded, described 5th drives element 62 to drive described rotation element to rotate to described wrap 61, so that the described heating wire 200 welded is wound on described wrap 61.In the present embodiment, described wrap 61 can be glass cord or ceramic rod.Described second wire clamp 631 can be clamp gas pawl or Flexible clamp, and described rotation element 632 can be rotating disk, and described 5th driving element 62 is motor.Described second wire clamp 631 is two, and one of them second wire clamp 631 drives element 62 to be connected with the described 5th.Described winding arrangement 60 still further comprises compensating element, 65, and described compensating element, 65 is connected with another described second wire clamp 631 described, and does moving interpolation.During winding, described rotation element 632 rotates, and the described 5th drives element 62 to drive one of them described second wire clamp 631 to move toward radial direction, (as it is shown in figure 5, being Y-direction).Now, described compensating element, 65 drives another described second wire clamp 631 to axially move, it is in figure X-direction, and then described heating wire 200 is wound on glass cord or ceramic rod uniformly, thus completing the winding of described heating wire 200 and described wrap 61.

In order to improve further, described heating wire 200 welds and Wiring apparatus also includes external control element (not indicating in figure), by described external control element, above-mentioned peeling structure 30, line sending structure 40, Welding Structure 50 and the movement position of winding arrangement 60 and the data of motion can be arranged on described external control element, then the control action of described external control element is utilized so that described heating wire 200 welds and Wiring apparatus can run and be finally completed heating wire 200 and weld and be wound around.

The heating wire 200 that this utility model provides welds and Wiring apparatus, is cut off by the wire on inlet wire element by arranging peeling structure, is then delivered in Welding Structure via line sending structure so that this wire can weld with the heating wire 200 in Welding Structure；Then utilize Welding Structure to be delivered on winding arrangement by the heating wire 200 welded to be wound so that the heating wire 200 welded can be wound on wrap, thus completing welding and the winding of heating wire 200 between heating wire 200 and wire.Owing to this process is Automatic Control, instead of existing employing heating wire 200 and wire to be riveted, then again through the artificial way that heating wire 200 after riveted joint and wire are wound, reduce the working strength of staff, and the injury that staff is brought by the dust produced when being wound around heating wire 200 can be reduced.Additionally, due to heating wire 200 adopts, with wire, the mode welded such that it is able to prevent heating wire 200 from producing bigger resistance variations, it is ensured that the quality of heating wire 200.

The above is preferred embodiment of the present utility model; it should be pointed out that, for those skilled in the art, under the premise without departing from this utility model principle; can also making some improvements and modifications, these improvements and modifications are also considered as protection domain of the present utility model.

Claims (10)

1. null1. a heating wire welding and Wiring apparatus，It is characterized in that，It includes frame and the inlet wire element being located in described frame、Peeling structure、Line sending structure、Welding Structure and winding arrangement，Described inlet wire element is located in described frame，Described inlet wire element is provided with wire，Described peeling structure is located at the side of described inlet wire element，Described wire is connected in described peeling structure，Described peeling structure is in order to cut off described wire，So that described wire separates with described inlet wire element，Described line sending structure is located at the side of described peeling structure，Described line sending structure is in order to be delivered to described wire in described Welding Structure，So that described wire welds with the heating wire in described Welding Structure，And be delivered on described winding arrangement by the described heating wire welded to be wound，Described winding arrangement includes wrap，The described heating wire welded is wound on described wrap.
2. 2. heating wire according to claim 1 welding and Wiring apparatus, it is characterized in that, described peeling structure is two, respectively the first peeling structure and the second peeling structure, the contiguous described inlet wire element of described first peeling structure is arranged, to be cut off by the described wire on described inlet wire element.
3. 3. heating wire according to claim 2 welding and Wiring apparatus, it is characterized in that, described first peeling structure and the second peeling structure all include the first driving element and cut element, the described element that cuts drives element to electrically connect with described first, cuts element and cut off by described wire described in described first driving element drives.
4. 4. the heating wire according to Claims 2 or 3 welds and Wiring apparatus, it is characterized in that, the contiguous described second peeling structure of described line sending structure is arranged, described line sending structure includes the second driving element and line sending element, described line sending element drives element to be electrically connected with described second, described second drives line sending member motion described in element drives, so that described wire is delivered in described Welding Structure by described line sending element.
5. 5. heating wire according to claim 4 welding and Wiring apparatus, it is characterized in that, the contiguous described line sending structure of Welding Structure described in described Welding Structure is arranged, described Welding Structure includes the 3rd driving element, first wire clamp and soldered elements, described first wire clamp is in order to clamp described wire, and described first wire clamp drives element to electrically connect with the described 3rd, described soldered elements drives element to electrically connect with the described 3rd, described 3rd drives soldered elements described in element drives and described first wire clamp motion, so that described soldered elements moves to welding position, and the wire on described heating wire and described first wire clamp is welded.
6. 6. heating wire according to claim 1 welding and Wiring apparatus, it is characterized in that, the welding of described heating wire and Wiring apparatus also include transhipment structure, described transhipment structure is located in described frame, and the described Welding Structure of vicinity is arranged, described transhipment structure includes electric rotating machine and line taking element, and described line taking element is electrically connected with described electric rotating machine, and described electric rotating machine drives described line taking element to be delivered on described winding arrangement by the described heating wire welded.
7. 7. heating wire according to claim 6 welding and Wiring apparatus, it is characterized in that, the welding of described heating wire and Wiring apparatus also include structure for conveying, described structure for conveying is located in described frame, and it is located between described transhipment structure and described winding arrangement, in order to the described heating wire welded in described transhipment structure is delivered on described winding arrangement.
8. 8. heating wire according to claim 7 welding and Wiring apparatus, it is characterized in that, described structure for conveying includes the 4th driving element, clamp element and detection piece, described clamp element drives element to electrically connect with the described 4th, described clamp element is in order to clamp the described heating wire welded, and described detection piece is in order to detect the described heating wire on described clamp element.
9. 9. heating wire according to claim 8 welding and Wiring apparatus, it is characterized in that, described 4th driving element is servomotor, and the described 4th drives clamp member motion described in element drives, to be delivered on described winding arrangement by the described heating wire welded.
10. 10. heating wire according to claim 1 welding and Wiring apparatus, it is characterized in that, described winding arrangement also includes the 5th driving element, rotational structure and cut off element, described rotational structure includes the second wire clamp and rotates element, the described heating wire welded is located on described second wire clamp, described rotation element is connected with described second wire clamp, described 5th drives rotation element described in element drives to rotate to described wrap, so that the described heating wire welded is wound on described wrap, described element of cutting off drives element to electrically connect with the described 5th, described element of cutting off is in order to cut off the described heating wire being wound around, so that described heating wire separates with described rotation element.