CN113628873A

CN113628873A - Winding machine for buzzer production and processing

Info

Publication number: CN113628873A
Application number: CN202111180146.5A
Authority: CN
Inventors: 姚海东
Original assignee: Changzhou Fuyou Electronics Co ltd
Current assignee: Changzhou Fuyou Electronics Co ltd
Priority date: 2021-10-11
Filing date: 2021-10-11
Publication date: 2021-11-09
Anticipated expiration: 2041-10-11
Also published as: CN113628873B

Abstract

The invention discloses a winding machine for buzzer production and processing, which relates to the field of winding machines and comprises a winding machine table board, wherein a rotating box used for adsorbing and fixing a buzzer is arranged above the winding machine table board, a side table board is arranged on the side surface of the winding machine table board, a coil roller used for winding a copper wire is arranged on the side table board, a pressing component pressed and held on one side of the copper wire is arranged on the surface of the winding machine table board, in order to solve the problem that the buzzer is unstable in the copper wire winding process, the pressing component pressed and held on one side of the copper wire is arranged on the surface of the winding machine table board, the pressing component comprises a sleeve ring sleeved on the outer ring of the copper wire and a telescopic component used for pushing the sleeve ring to move, and the telescopic component can push the copper wire tightly wrapped by the sleeve ring to press towards the outer ring of the buzzer, so that the buzzer is stable in structure and not easy to fall off when rotating and winding the copper wire.

Description

Winding machine for buzzer production and processing

Technical Field

The invention relates to the field of winding machines, in particular to a winding machine for buzzer production and processing.

Background

The winding machine is equipment for winding a current object on a specific workpiece and is generally used for winding copper wires, the wires wound by the common winding machine are mostly enameled copper wires, enameled aluminum wires, spinning wires, electric heating wires for winding electric heating appliances, soldering wires, electric wires, cables and the like, the winding machine is various in types, the winding machine can be classified into a general type and a special type according to the application of the winding machine, the general type winding machine is suitable for various products, and the special type winding machine is the winding machine for a specific product.

The wires wound by the common winding machine are mostly enamelled copper wires (for winding inductance coils of electronic and electric products), enamelled aluminum wires, textile wires (for winding yarn spindles and thread balls of textile machines), and also electric heating wires and soldering wires for winding electric heating appliances, electric wires, cables and the like. Winding machines are various in types, and classified according to their uses, and classified into general types and special types; general type-applicable to the coiling machine of multiple product, the processing that just needs to change corresponding mould and instruction can correspond different products. Application specific-winding machines for a specific product. Common special winding machines include: 1. special for square transformers (special machine for thin wire and special machine for thick wire);

2. special for ring transformers (large ring machine, middle ring machine, small ring machine);

3. special fan and motor machines (pedestal fan, ceiling fan, blade-rotating fan) for other types of transformers;

4. a special toy micro motor; (flyer, special winder);

5. a series rotor coil special machine (electric tool);

6. a fractional horsepower motor and a special high-horsepower motor;

the winding machine used in the current market can not ensure the wound wire to be kept tight in the using process, and the current winding machine does not have the wire arranging function, so that the wound wire is accumulated at a single position, and the wound coil can not be kept stable.

Therefore, it is necessary to invent a winding machine for buzzer production and processing to solve the above problems.

Disclosure of Invention

The invention aims to provide a winding machine for buzzer production and processing, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a coiling machine for bee calling organ production and processing, including the coiling machine mesa, the top of coiling machine mesa is provided with the rotation box that is used for adsorbing fixed bee calling organ, the side of coiling machine mesa is provided with the side mesa, is provided with the coil roller that is used for coiling copper line on the side mesa, the surface of coiling machine mesa is provided with to press and holds the subassembly in the pressure of copper line one side, presses and holds the subassembly including the cover establish the lantern ring of copper line outer lane department with promote the flexible subassembly that the lantern ring removed.

Preferably, the lantern ring is of an annular structure with an opening at one end, a first supporting block is arranged at one end of the lantern ring, a supplement plate is arranged at the other end of the lantern ring, a second supporting block is fixedly arranged at the end of the supplement plate, and a moving unit is fixedly arranged between the second supporting block and the first supporting block.

In this embodiment, in order to solve the unstable phenomenon of buzzer winding copper line in-process appearance, be provided with on the surface of coiling machine mesa and press the pressure of holding in copper line one side and hold the subassembly, press and hold the subassembly including the cover establish the lantern ring of copper line outer lane department with promote the flexible subassembly that the lantern ring removed, flexible subassembly can promote the lantern ring to wrap up tight copper line towards the outer lane pressfitting of buzzer for stable in structure is difficult for droing when buzzer rotates the winding copper line.

Preferably, the inner circle of the lantern ring is provided with the clearance layer, the clearance layer has set gradually second cavity, first cavity from the one end of keeping away from the copper line to the one end that is close to the copper line in the inner plate including fixing the inner plating at lantern ring medial surface, the one end of second cavity is provided with the opening, and the opening part is sealed to have the sealing plug, the outside fixed surface of sealing plug is provided with the pull ring, the other end of second cavity is provided with outer clearance mouth, the position that the second cavity is close to outer clearance mouth is provided with elastic baffle, elastic baffle's one end is fixed on the inner wall that the second cavity is close to copper line one side, and the other end slope is just laminated with the opposite side inner wall activity of second cavity towards the inside of second cavity, fixed welding has the second spring that promotes the laminating of elastic baffle tip to the inner wall of second cavity on the inner wall of second cavity.

It should be noted that, the lift unit can promote backup pad, locating plate, flexible subassembly, the lantern ring and copper line and go up and down, makes the copper line go up and down at the in-process of buzzer outer lane winding copper line, has realized spiral winding, increases the purpose of winding copper line stability, and has the arrangement copper line for the winding phenomenon can not appear overlapping each other in the copper line.

Preferably, the inside third chamber that is located second cavity inner circle and first cavity tip that still is provided with of one end that the inner plate is close to outer clearance mouth, the fixed welding in bottom of third chamber has first spring, the end fixing of first spring is provided with the cotton cover, the outer lane of cotton cover activity laminating at the copper line, be provided with the collection mouth of the inside one end slope of intercommunication third chamber towards first cavity on the cotton cover, it is loudspeaker form cell body to collect the mouth.

Specifically, during the winding copper line, the first spot welding of one end of copper line is fixed in the outer lane department of bee calling organ, then start negative pressure unit and rotation unit, the negative pressure effort that negative pressure unit produced loops through the negative pressure cavity, the lower surface for bee calling organ is inhaled in the hole transmission to the negative pressure, make the stable absorption of bee calling organ fix on rotating the box, and rotation unit can drive and rotate the box and rotate, because bee calling organ is adsorbed and fixed at the upper surface that rotates the box, bee calling organ rotates simultaneously when rotating the box and rotates, the realization is with the purpose of copper line winding in bee calling organ outer lane department.

Preferably, one side of the first cavity is provided with a first notch communicated with the inner ring of the inner plate, a sponge block is fixedly arranged in the first notch, the upper end of the first cavity is provided with an adding pipe communicated with the inside and the outside of the first cavity, and an opening of the adding pipe is sealed by a plug.

In order to increase winding copper line in-process, the copper line can be in buzzer outer lane department around tightly, be provided with drive assembly, drive unit in the drive assembly can be to the gradual emission of copper line when driving the coil roller through the rotating shaft and rotate, make the pressure hold the subassembly and have good tension when pressing and holding the copper line, it needs to explain that, the spring is in compression state all the time, elasticity can be applyed to the spring under the compression state for the limiting plate, make the limiting plate can move towards the one end of telescopic link in flexible chamber, thereby the lantern ring that promotes the telescopic link tip props up the copper line tightly.

Preferably, the fixed surface of second supporting shoe is provided with the adapter sleeve through the fix with screw at the mobile unit tip, flexible subassembly includes telescopic link and flexible cover, be provided with flexible chamber in the flexible cover, the fixed limiting plate that is provided with sliding connection in flexible chamber of end of telescopic link, the fixed welding in bottom in flexible chamber has the spring of holding in the limiting plate surface of drawing, the fixed welding in end of flexible cover has the flange, and the flange passes through the fix with screw on the locating plate, one side fixed welding of locating plate has the backup pad, the fixed surface welding of coiling machine mesa has the lift unit that promotes the backup pad and go up and down.

In the device, the lantern ring is one end open-ended annular structure, and the one end of the lantern ring is provided with first supporting shoe, and the other end is provided with the supplementary board, the end fixing of supplementary board is provided with the second supporting shoe, the fixed mobile unit that is provided with between second supporting shoe and the first supporting shoe, the mobile unit can make things convenient for the dismouting to sheathe in the link, and when the mobile unit started and extended, can make the distance between first supporting shoe and the second supporting shoe lengthen for the ring that the lantern ring is constituteed diminishes, thereby adapts to the thickness of copper line, plays stable cladding guide effect to the copper line, and supplementary board, lantern ring, inner plating all use the preparation of elastic metal panel.

Preferably, the surface of side mesa is provided with supporting component and drive assembly, and supporting component includes the curb plate of fixed welding at side mesa both sides upper surface, it is connected with the axis of rotation to rotate on the curb plate, the tip at the coil roller is fixed to the axis of rotation, the both ends of coil roller are all fixed to be provided with and block the line baffle board that the copper line drops from the coil roller.

In the embodiment, when the copper wire is wound by the buzzer, the copper wire moves towards one side of the buzzer in the lantern ring, in the moving process, dust on the surface of the copper wire can be scraped by the cotton sleeve and enters the second cavity along the outer cleaning port to be collected, the effect of cleaning the dust on the surface of the copper wire is achieved, the copper wire keeps proper resistance and cannot be interfered by the dust, the collection port can scrape the rest part of dust on the surface of the copper wire, the dual dustproof dust collection effect is achieved, the collection port is a horn-shaped groove body, the dust can be squeezed into the third cavity and cannot be discharged in a backflow mode, the first spring plays a role of pushing the cotton sleeve to be tightly pressed on the surface of the copper wire, and the cleaning effect is good;

in the device, when dust is concentrated at the outer cleaning opening, the elastic baffle is pushed to elastically deform towards the inside of the second chamber to open the inlet of the second chamber, so that the dust enters the second chamber to be collected, and when the dust in the second chamber flows reversely, the elastic baffle is pushed to move towards the outer cleaning opening;

in actual setting, the thicknesses of the lantern ring and the inner layer plate are large, a second chamber, a first chamber and the like are conveniently arranged in the lantern ring and the inner layer plate, a mixed cleaning solution of salt and vinegar can be poured into the first chamber through opening the plug, the mixed cleaning solution can be infiltrated and act on the surface of the copper wire through the sponge block, the salt and the vinegar can erase rusty spots on the surface of the copper wire, the resistance of the copper wire is guaranteed to be fixed, convenience and practicability are realized, the mixed cleaning solution of the salt and the vinegar is only a small part when being infiltrated on the surface of the copper wire through the sponge block, and the copper wire can be dried by wind in the process that the copper wire is moved out of the lantern ring and is wound on the buzzer;

the dust collected inside the second chamber can be cleaned when the sealing plug is pulled open by the pull ring.

Preferably, the driving assembly comprises a transmission unit, the transmission unit is fixedly welded on a side plate on one side of the side table top through a transmission unit supporting plate, and the transmission unit is in transmission connection with the end part of the group of rotating shafts.

It should be noted that both the transmission unit and the rotation unit can use devices such as a motor, the negative pressure unit can use devices such as a negative pressure fan, and both the moving unit and the lifting unit can use devices such as an electric push rod or an air cylinder.

Preferably, an inner cavity is arranged inside the winding machine table board, a rotating circular groove communicated with the inner cavity is formed in the winding machine table board below the buzzer, the rotating box is rotatably arranged on the rotating circular groove, and a rotating unit for driving the rotating box to rotate is fixedly welded on the bottom surface of the inner cavity.

Preferably, a negative pressure chamber is arranged in the rotating box, a negative pressure unit communicated with the negative pressure chamber is fixedly arranged at the lower end of the rotating box, a rubber layer attached to the lower surface of the buzzer is fixedly arranged on the upper surface of the rotating box, negative pressure suction holes penetrating through the inside and the outside of the rotating box and the upper and the lower surfaces of the rubber layer at the same time are arranged above the rotating box, a plurality of groups of the negative pressure suction holes are arranged in a circular array, and the diameter of the rotating box is smaller than that of the buzzer;

specifically, the rubber layer can be sealed at the outer ring of the negative pressure suction hole, so that sufficient negative pressure suction force transmitted to the lower surface of the buzzer from the negative pressure suction hole is ensured, and the upper surface of the rubber layer is flush with the upper surface of the winding machine table board, so that the winding machine table board is convenient and practical;

the preparation method of the rubber layer 48 comprises the following steps:

step one, preparing maleic anhydride modified graphene: feeding graphene into a silane coupling agent KH560 according to a weight ratio of 1:3, stirring for 10-20min at a stirring speed of 100-;

step two, preparing active bentonite: firstly, irradiating the bentonite by adopting protons with the irradiation power of 500W and the irradiation time of 1-5min, then adding the bentonite into an ethanol solvent, carrying out ultrasonic dispersion for 10-20min, wherein the ultrasonic power is 500W, finishing the ultrasonic treatment, then adding the rare earth lanthanum oxide accounting for 10-20% of the total silicon content of the bentonite, stirring for 10-30min, and the stirring speed is 500r/min,

selecting raw materials: 40-50 parts of fluororubber, 10-20 parts of maleic anhydride modified graphene, 10-15 parts of acrylic emulsion, 5-10 parts of active bentonite, 1-5 parts of a divinylbenzene crosslinking agent and 6-10 parts of coupled graphene in the first step;

and step four, sequentially adding the raw materials into a premixing machine, wherein the mixing temperature is 110-.

In the preparation of rubber layer 48, adopt maleic anhydride modified graphene and active bentonite, the lamellar structure interlude of bentonite is in the raw materials, play the separation effect, simultaneously with the cooperation of graphite alkene grafting maleic anhydride, improve the reaction contact degree between the raw materials, and then it is modified with the fluororubber cooperation, the mixed reaction degree of raw materials has been improved, the elasticity performance on rubber layer is better, and life-span and the weather resistant effect of use are stronger, and then the rubber layer can seal in negative pressure suction hole outer lane department, it is sufficient to have guaranteed that the negative pressure suction of negative pressure suction hole department transmission to bee calling organ lower surface, rubber layer after modification treatment simultaneously, the stability of negative pressure suction has been improved, the service efficiency of product structure has been strengthened.

The invention has the technical effects and advantages that:

1. the winding machine for buzzer production and processing comprises a winding machine table board, wherein a rotating box used for adsorbing and fixing a buzzer is arranged above the winding machine table board, a side table board is arranged on the side surface of the winding machine table board, a coil roller used for winding a copper wire is arranged on the side table board, a pressing component pressed and held on one side of the copper wire is arranged on the surface of the winding machine table board, in order to solve the problem that the buzzer is unstable in a copper wire winding process, the pressing component pressed and held on one side of the copper wire is arranged on the surface of the winding machine table board, and comprises a lantern ring sleeved at the outer ring of the copper wire and a telescopic component used for pushing the lantern ring to move, and the telescopic component can push the copper wire tightly wrapped by the lantern ring to press towards the outer ring of the buzzer, so that the buzzer is stable in structure and not easy to fall off when rotating to wind the copper wire;

2. according to the winding machine for buzzer production and processing, the lifting unit can push the supporting plate, the positioning plate, the telescopic assembly, the lantern ring and the copper wire to lift, the copper wire is lifted in the process of winding the copper wire on the outer ring of the buzzer, spiral winding is achieved, the purpose of increasing the stability of winding the copper wire is achieved, the copper wire is arranged, and the copper wire is prevented from being overlapped and wound;

3. according to the winding machine for producing and processing the buzzer, when copper wires are wound, one end of each copper wire is fixed to the outer ring of the buzzer in a spot welding mode, then the negative pressure unit and the rotating unit are started, the negative pressure acting force generated by the negative pressure unit is transmitted to the lower surface of the buzzer through the negative pressure chamber and the negative pressure suction hole in sequence, the buzzer is stably adsorbed and fixed on the rotating box, the rotating unit can drive the rotating box to rotate, the buzzer rotates simultaneously when the rotating box rotates due to the fact that the buzzer is adsorbed and fixed to the upper surface of the rotating box, and the purpose that the copper wires are wound on the outer ring of the buzzer is achieved;

4. according to the winding machine for buzzer production and processing, in order to increase the winding process of copper wires, the copper wires can be wound tightly at the outer ring of the buzzer, the driving assembly is arranged, the driving unit in the driving assembly can gradually discharge the copper wires when driving the coil roller to rotate through the rotating shaft, so that the pressing and holding assembly has good tension when pressing and holding the copper wires, it needs to be noted that the spring is always in a compression state, the spring in the compression state can apply elasticity to the limiting plate, the limiting plate can move towards one end of the telescopic rod in the telescopic cavity, and the lantern ring at the end part of the telescopic rod is pushed to support the copper wires tightly;

5. the winding machine for the production and processing of the buzzer, disclosed by the invention, has the advantages that the lantern ring is of an annular structure with an opening at one end, one end of the lantern ring is provided with the first supporting block, the other end of the lantern ring is provided with the supplementary plate, the end part of the supplementary plate is fixedly provided with the second supporting block, the moving unit is fixedly arranged between the second supporting block and the first supporting block, the moving unit can be conveniently disassembled and assembled on the connecting sleeve, when the moving unit is started and extended, the distance between the first supporting block and the second supporting block can be lengthened, so that a circular ring formed by the lantern ring is reduced, the thickness of a copper wire is adapted, a stable cladding guide effect is realized on the copper wire, and the supplementary plate, the lantern ring and the inner plate are all made of elastic metal plates;

6. according to the winding machine for buzzer production and processing, when a copper wire is wound by a buzzer, the copper wire moves towards one side of the buzzer in the lantern ring, in the moving process, dust on the surface of the copper wire can be scraped by the cotton sleeve and enters the second cavity along the outer cleaning port to be collected, the effect of cleaning the dust on the surface of the copper wire is achieved, the copper wire keeps proper resistance and cannot be interfered by the dust, the collection port can scrape the rest part of dust on the surface of the copper wire, the dual dust prevention and collection effect is achieved, the collection port is a horn-shaped groove body, the dust can be squeezed into the third cavity and cannot be discharged in a backflow mode, the first spring plays a role of pushing the cotton sleeve to be tightly pressed on the surface of the copper wire, and the cleaning effect is good;

7. according to the winding machine for buzzer production and processing, when dust is collected at the outer cleaning opening, the elastic baffle is pushed to elastically deform towards the inside of the second chamber to open the inlet of the second chamber, so that the dust enters the second chamber to be collected, and when the dust in the second chamber flows in the reverse direction, the elastic baffle is pushed to move towards the outer cleaning opening.

Drawings

FIG. 1 is a schematic view of the structure of the present invention.

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention.

FIG. 3 is a schematic side view of the present invention.

FIG. 4 is an enlarged view of the structure at B in FIG. 3 according to the present invention.

Fig. 5 is a cross-sectional view of a telescoping assembly of the present invention.

Fig. 6 is a schematic view of the internal structure of the winding machine table-board of the present invention.

Figure 7 is a cross-sectional view of a collar of the present invention.

FIG. 8 is an enlarged view of the structure at C in FIG. 5 according to the present invention.

FIG. 9 is an enlarged view of the structure at E in FIG. 7 according to the present invention.

FIG. 10 is an enlarged view of the structure at F in FIG. 7 according to the present invention.

FIG. 11 is an enlarged view of the structure shown at D in FIG. 6 according to the present invention.

FIG. 12 is a schematic view of the upper structure of the rotating box of the present invention.

Fig. 13 is a schematic view of the lower structure of the rotating box of the present invention.

Fig. 14 is a schematic view of the internal structure of the rotating box of the present invention.

In the figure: 1. a table board of a winding machine; 2. a buzzer; 3. a copper wire; 4. a telescoping assembly; 5. positioning a plate; 6. a support plate; 7. a lifting unit; 8. a side plate; 9. a transmission unit support plate; 10. a transmission unit; 11. a side table-board; 12. a rotating shaft; 13. a wire blocking plate; 14. a coil roll; 15. a collar; 16. a first support block; 17. a supplement board; 18. a second support block; 19. a mobile unit; 20. a telescopic rod; 21. a flange; 22. a telescopic sleeve; 23. a limiting plate; 24. a spring; 25. a telescoping chamber; 26. cleaning the layer; 27. connecting sleeves; 28. an inner layer board; 29. a first chamber; 30. a first notch; (ii) a 31. A sponge block; 32. a second chamber; 33. a sealing plug; 34. a pull ring; 35. an addition pipe; 36. a plug; 37. a collection port; 38. a first spring; 39. a third chamber; 40. cotton sleeves; 41. an outer cleaning port; 42. an elastic baffle plate; 43. a second spring; 44. an interior chamber; 45. rotating the cartridge; 46. a rotating unit; 47. rotating the circular groove; 48. a rubber layer; 49. negative pressure suction holes; 50. a negative pressure chamber; 51. a negative pressure unit.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a winding machine for buzzer production and processing as shown in figures 1-14, which comprises a winding machine table board 1, wherein a rotating box 45 for adsorbing and fixing a buzzer 2 is arranged above the winding machine table board 1, a side table board 11 is arranged on the side surface of the winding machine table board 1, a coil roller 14 for winding a copper wire 3 is arranged on the side table board 11, a pressing component which is pressed and held on one side of the copper wire 3 is arranged on the surface of the winding machine table board 1, and the pressing component comprises a lantern ring 15 sleeved at the outer ring of the copper wire 3 and a telescopic component 4 for pushing the lantern ring 15 to move.

The lantern ring 15 is of an annular structure with an opening at one end, a first supporting block 16 is arranged at one end of the lantern ring 15, a supplement plate 17 is arranged at the other end of the lantern ring, a second supporting block 18 is fixedly arranged at the end part of the supplement plate 17, and a moving unit 19 is fixedly arranged between the second supporting block 18 and the first supporting block 16.

In this embodiment, in order to solve 2 winding copper lines of bee calling organ 3 in-process unstable phenomena appear, be provided with on the surface of coiling machine mesa 1 and press the pressure of holding in 3 one sides of copper line and hold the subassembly, press and hold the subassembly including the cover establish the lantern ring 15 of 3 outer lanes of copper line departments with promote the flexible subassembly 4 that the lantern ring 15 removed, flexible subassembly 4 can promote the outer lane pressfitting of the tight copper line 3 orientation bee calling organ 2 of lantern ring 15 package for 2 stable in structure when rotating winding copper line 3 of bee calling organ, be difficult for droing.

The inner ring of the lantern ring 15 is provided with a cleaning layer 26, the cleaning layer 26 comprises an inner plate 28 fixed on the inner side surface of the lantern ring 15, a second chamber 32 is sequentially arranged in the inner plate 28 from one end far away from the copper wire 3 to one end close to the copper wire 3, first cavity 29, the one end of second cavity 32 is provided with the opening, the opening part is sealed to have sealing plug 33, the outside fixed surface of sealing plug 33 is provided with pull ring 34, the other end of second cavity 32 is provided with outer clearance mouth 41, the position that second cavity 32 is close to outer clearance mouth 41 is provided with elastic baffle 42, the one end of elastic baffle 42 is fixed on the inner wall that second cavity 32 is close to copper line 3 one side, the other end slope is towards the inside of second cavity 32 and with the opposite side inner wall movable joint of second cavity 32, fixed welding has the second spring 43 that promotes elastic baffle 42 tip laminating to second cavity 32 inner wall on the inner wall of second cavity 32.

It should be noted that, lift unit 7 can promote backup pad 6, locating plate 5, flexible subassembly 4, lantern ring 15 and copper line 3 and go up and down, makes copper line 3 go up and down at the in-process of 2 outer lane winding copper lines 3 of bee calling organ, has realized spiral winding, increases the purpose of winding copper line 3 stability, and has the copper line 3 of arrangement for the winding phenomenon of each other superpose can not appear in copper line 3.

The inside third chamber 39 that is located second chamber 32 inner circle and first chamber 29 tip that still is provided with of one end that inner plate 28 is close to outer clearance mouth 41, the fixed welding in bottom of third chamber 39 has first spring 38, the end fixing of first spring 38 is provided with cotton cover 40, cotton cover 40 activity laminating is in the outer lane of copper line 3, be provided with the collection mouth 37 of the inside one end slope of intercommunication third chamber 39 towards first chamber 29 on the cotton cover 40, collection mouth 37 is the loudspeaker form cell body.

Specifically, when winding copper line 3, the first spot welding of one end of copper line 3 is fixed in buzzer 2's outer lane department, then start negative pressure unit 51 and rotation unit 46, the negative pressure effort that negative pressure unit 51 produced loops through negative pressure cavity 50, the negative pressure is inhaled hole 49 and is given the lower surface for buzzer 2, make stable absorption of buzzer 2 fix on rotation box 45, and rotation unit 46 can drive rotation box 45 and rotate, because buzzer 2 is adsorbed and is fixed at the upper surface that rotates box 45, buzzer 2 rotates simultaneously when rotating box 45 rotates, the realization is with the purpose of copper line 3 winding in buzzer 2 outer lane department.

A first notch 30 communicated with an inner ring of the inner layer plate 28 is formed in one side of the first cavity 29, a sponge block 31 is fixedly arranged in the first notch 30, an adding pipe 35 communicated with the inside and the outside of the first cavity 29 is arranged at the upper end of the first cavity 29, and a plug 36 is sealed at the opening of the adding pipe 35.

In order to increase winding copper line 3 in-process, copper line 3 can be in 2 outer lane departments of bee calling organ and wind tightly, be provided with drive assembly, drive unit 10 among the drive assembly can be to copper line 3 gradual emission when driving coil roller 14 through axis of rotation 12 and rotate, make the pressure hold the subassembly and have good tension when pressing and holding copper line 3, it is required to explain, spring 24 is in compression state all the time, spring 24 under the compression state can apply elasticity for limiting plate 23, make limiting plate 23 can remove towards the one end of telescopic link 20 in flexible chamber 25, thereby promote the lantern ring 15 of 20 tip of telescopic link to prop tightly copper line 3.

The fixed surface of second supporting shoe 18 is provided with adapter sleeve 27 through the fix with screw at the mobile unit 19 tip, flexible subassembly 4 includes telescopic link 20 and telescopic sleeve 22, be provided with flexible chamber 25 in the telescopic sleeve 22, the end fixing of telescopic link 20 is provided with limiting plate 23 of sliding connection in flexible chamber 25, the fixed welding in bottom in flexible chamber 25 has the spring 24 of holding in limiting plate 23 surface, the fixed welding in end of telescopic link 22 has flange 21, flange 21 passes through the fix with screw on locating plate 5, the fixed welding in one side of locating plate 5 has backup pad 6, the fixed welding in surface of coiling machine mesa 1 has lift unit 7 that promotes backup pad 6 and go up and down.

In the device, lantern ring 15 is one end open-ended annular structure, the one end of lantern ring 15 is provided with first supporting shoe 16, the other end is provided with supplementary board 17, the end fixing of supplementary board 17 is provided with second supporting shoe 18, the fixed mobile unit 19 that is provided with between second supporting shoe 18 and the first supporting shoe 16, mobile unit 19 can make things convenient for the dismouting on adapter sleeve 27, when mobile unit 19 starts and extends, can make the distance between first supporting shoe 16 and the second supporting shoe 18 lengthen, make the ring that the lantern ring 15 constitutes diminish, thereby adapt to the thickness of copper line 3, play stable cladding guide effect to copper line 3, supplementary board 17, lantern ring 15, inner plating 28 all uses the preparation of elastic metal panel.

The surface of side mesa 11 is provided with supporting component and drive assembly, and supporting component includes the curb plate 8 of fixed welding at 11 both sides upper surface of side mesa, rotates on the curb plate 8 and is connected with axis of rotation 12, and axis of rotation 12 is fixed at coil roller 14's tip, and coil roller 14's both ends are all fixed being provided with and are blockked copper line 3 and follow the line baffle board 13 that drops on coil roller 14.

In this embodiment, when the copper wire 3 is wound by the buzzer 2, the copper wire 3 moves towards one side of the buzzer 2 in the lantern ring 15, in the moving process, dust on the surface of the copper wire 3 can be scraped by the cotton sleeve 40 and enters the second chamber 32 along the outer cleaning port 41 to be collected, so that the effect of cleaning the dust on the surface of the copper wire 3 is achieved, the copper wire 3 keeps a proper resistance and cannot be interfered by the dust, the collection port 37 can scrape the rest part of dust on the surface of the copper wire 3, the dual dust prevention and collection effect is achieved, the collection port 37 is a horn-shaped groove body, so that the dust can be squeezed into the third chamber 39 and cannot be discharged in a backflow mode, the first spring 38 plays a role of pushing the cotton sleeve 40 to be tightly pressed on the surface of the copper wire 3, and the cleaning effect is good;

in the device, when dust is collected at the outer cleaning opening 41, the elastic baffle plate 42 is pushed to elastically deform towards the inside of the second chamber 32 to open the inlet of the second chamber 32, so that the dust enters the second chamber 32 to be collected, and when the dust in the second chamber 32 flows reversely, the elastic baffle plate 42 is pushed to move towards the outer cleaning opening 41, because the elastic baffle plate 42 inclines, the elastic baffle plate 42 is pulled and held by the second spring 43, the limiting function of the inner wall of the second chamber 32 ensures that the inlet of the second chamber 32 cannot be opened, and the dust collected in the second chamber 32 is prevented from flowing back;

in actual setting, the thickness of the lantern ring 15 and the inner layer plate 28 is large, the second chamber 32, the first chamber 29 and the like are conveniently arranged in the inner layer plate, the mixed cleaning solution of salt and vinegar can be poured into the first chamber 29 by opening the plug 36, the mixed cleaning solution can be soaked by the sponge block 31 and acts on the surface of the copper wire 3, rust spots on the surface of the copper wire 3 can be removed by the salt and the vinegar, the resistance fixation of the copper wire 3 is guaranteed, the use is convenient and practical, the mixed cleaning solution of the salt and the vinegar is only a small part when being soaked on the surface of the copper wire 3 by the sponge block 31, and the copper wire 3 can be air-dried when being moved out of the lantern ring 15 and wound on the buzzer 2;

the seal 33 is pulled apart by the pull ring 34 to clean the second chamber 32 of dust collected therein.

The driving assembly comprises a transmission unit 10, the transmission unit 10 is fixedly welded on the side plate 8 on one side of the side table board 11 through a transmission unit supporting plate 9, and the transmission unit 10 is in transmission connection with the end part of a group of rotating shafts 12.

The transmission unit 10 and the rotation unit 46 may use a motor or the like, the negative pressure unit 51 may use a negative pressure fan or the like, and the movement unit 19 and the elevation unit 7 may use an electric push rod or an air cylinder or the like.

An inner cavity 44 is arranged inside the winding machine table board 1, a rotating circular groove 47 communicated with the inner cavity 44 is formed in the winding machine table board 1 below the buzzer 2, the rotating box 45 is rotatably arranged on the rotating circular groove 47, and a rotating unit 46 for driving the rotating box 45 to rotate is fixedly welded on the bottom surface of the inner cavity 44.

A negative pressure chamber 50 is arranged in the rotating box 45, a negative pressure unit 51 communicated with the negative pressure chamber 50 is fixedly arranged at the lower end of the rotating box 45, a rubber layer 48 attached to the lower surface of the buzzer 2 is fixedly arranged on the upper surface of the rotating box 45, negative pressure suction holes 49 penetrating through the inner and outer surfaces of the rotating box 45 and the upper and lower surfaces of the rubber layer 48 are arranged above the rotating box 45, a plurality of groups of the negative pressure suction holes 49 are arranged in a circular array shape, and the diameter of the rotating box 45 is smaller than that of the buzzer 2;

specifically, the rubber layer 48 can be sealed at the outer ring of the negative pressure suction hole 49, so that the negative pressure suction force transmitted from the negative pressure suction hole 49 to the lower surface of the buzzer 2 is sufficient, the upper surface of the rubber layer 48 is parallel and level with the upper surface of the winding machine table board 1, and the winding machine table board is convenient and practical.

Example 2.

Example 3:

the inner ring of the lantern ring 15 of the embodiment is provided with a cleaning layer 26, the cleaning layer 26 comprises an inner plate 28 fixed on the inner side surface of the lantern ring 15, a second cavity 32 is arranged in the inner plate 28 from one end far away from the copper wire 3 to one end close to the copper wire 3, first cavity 29, the one end of second cavity 32 is provided with the opening, the opening part is sealed to have sealing plug 33, the outside fixed surface of sealing plug 33 is provided with pull ring 34, the other end of second cavity 32 is provided with outer clearance mouth 41, the position that second cavity 32 is close to outer clearance mouth 41 is provided with elastic baffle 42, the one end of elastic baffle 42 is fixed on the inner wall that second cavity 32 is close to copper line 3 one side, the other end slope is towards the inside of second cavity 32 and with the opposite side inner wall movable joint of second cavity 32, fixed welding has the second spring 43 that promotes elastic baffle 42 tip laminating to second cavity 32 inner wall on the inner wall of second cavity 32.

Example 4:

a negative pressure chamber 50 is arranged in the rotating box 45 of the embodiment, a negative pressure unit 51 communicated with the negative pressure chamber 50 is fixedly arranged at the lower end of the rotating box 45, a rubber layer 48 attached to the lower surface of the buzzer 2 is fixedly arranged on the upper surface of the rotating box 45, negative pressure suction holes 49 which simultaneously penetrate through the inner and outer surfaces of the rotating box 45 and the upper and lower surfaces of the rubber layer 48 are arranged above the rotating box 45, a plurality of groups of the negative pressure suction holes 49 are arranged in a circular array, and the diameter of the rotating box 45 is smaller than that of the buzzer 2;

The rubber layer 48 is prepared by the following steps:

Example 5:

The rubber layer 48 is prepared by the following steps:

step one, preparing maleic anhydride modified graphene: feeding graphene into a silane coupling agent KH560 according to a weight ratio of 1:3, stirring for 20min at a stirring speed of 200r/min and a stirring temperature of 90 ℃, then adding maleic anhydride accounting for 30% of the total amount of the graphene, continuing stirring for 20min, and washing and drying after stirring;

step two, preparing active bentonite: irradiating bentonite with proton at 500W for 5min, adding into ethanol solvent, ultrasonically dispersing for 20min at 500W, adding rare earth lanthanum oxide 20% of total silicon content of bentonite, stirring for 30min at 500r/min,

selecting raw materials: 50 parts of fluororubber, 20 parts of maleic anhydride modified graphene, 15 parts of acrylic emulsion, 10 parts of active bentonite, 5 parts of divinylbenzene crosslinking agent and 10 parts of coupled graphene in the step one;

and step four, sequentially adding the raw materials into a pre-mixer, wherein the mixing temperature is 150 ℃, the mixing time is 20min, the mixing is finished, finally, feeding the mixture into a double-screw extruder for extrusion, the extrusion temperature is 170 ℃, the extrusion is finished, and cooling to the natural room temperature is carried out.

Example 6:

The rubber layer 48 is prepared by the following steps:

step one, preparing maleic anhydride modified graphene: feeding graphene into a silane coupling agent KH560 according to a weight ratio of 1:3, stirring for 15min at a stirring speed of 150r/min and a stirring temperature of 90 ℃, then adding maleic anhydride accounting for 25% of the total amount of the graphene, continuing stirring for 15min, and washing and drying after stirring;

step two, preparing active bentonite: irradiating bentonite with proton at irradiation power of 500W for 3min, adding into ethanol solvent, performing ultrasonic dispersion for 15min at ultrasonic power of 300W, adding rare earth lanthanum oxide 15% of total silicon content of bentonite, stirring for 20min at stirring speed of 400r/min,

selecting raw materials: 45 parts of fluororubber, 15 parts of maleic anhydride modified graphene, 12.5 parts of acrylic emulsion, 7.5 parts of active bentonite, 3 parts of a divinylbenzene crosslinking agent and 8 parts of coupled graphene in the step one;

and step four, sequentially adding the raw materials into a pre-mixer, wherein the mixing temperature is 130 ℃, the mixing time is 15min, after the mixing is finished, finally sending the mixture into a double-screw extruder for extrusion, wherein the extrusion temperature is 145 ℃, after the extrusion is finished, cooling the mixture to the natural room temperature.

Example 7:

the preparation method of the rubber layer 48 comprises the following steps:

step one, preparing maleic anhydride modified graphene: feeding graphene into a silane coupling agent KH560 according to a weight ratio of 1:3, stirring for 10min at a stirring speed of 100r/min and a stirring temperature of 90 ℃, then adding maleic anhydride accounting for 20-30% of the total amount of the graphene, continuing stirring for 10min, and washing and drying after stirring;

step two, preparing active bentonite: irradiating bentonite with proton at irradiation power of 500W for 1min, adding into ethanol solvent, performing ultrasonic dispersion for 10min at ultrasonic power of 100W, adding rare earth lanthanum oxide 10% of total silicon content of bentonite, stirring for 10min at stirring speed of 3000r/min,

selecting raw materials: 40 parts of fluororubber, 10 parts of maleic anhydride modified graphene, 10 parts of acrylic emulsion, 5 parts of active bentonite, 1 part of divinylbenzene crosslinking agent and 6 parts of coupled graphene in the first step;

and step four, sequentially adding the raw materials into a pre-mixer, wherein the mixing temperature is 110 ℃, the mixing time is 10min, the mixing is finished, finally, feeding the mixture into a double-screw extruder for extrusion, the extrusion temperature is 120 ℃, the extrusion is finished, and cooling to the natural room temperature is carried out.

The working principle is as follows: in order to solve the unstable phenomenon of 3 in-process appearances of buzzer 2 winding copper line, be provided with on the surface of coiling machine mesa 1 and press the pressure of holding in 3 one sides of copper line and hold the subassembly, press and hold the subassembly including the cover establish the lantern ring 15 of 3 outer lanes of copper line departments with promote the flexible subassembly 4 that the lantern ring 15 removed, flexible subassembly 4 can promote the lantern ring 15 tight copper line 3 of package towards the outer lane pressfitting of buzzer 2 for stable in structure when buzzer 2 rotates winding copper line 3, is difficult for droing.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. A coiling machine for bee calling organ production and processing, including coiling machine mesa (1), its characterized in that: the top of coiling machine mesa (1) is provided with rotation box (45) that is used for adsorbing fixed bee calling organ (2), the side of coiling machine mesa (1) is provided with side mesa (11), is provided with coil roller (14) that are used for convoluteing copper line (3) on side mesa (11), the surface of coiling machine mesa (1) is provided with the pressure of holding in copper line (3) one side and holds the subassembly, and the pressure is held the subassembly and is established lantern ring (15) and the flexible subassembly (4) that promote lantern ring (15) removal in copper line (3) outer lane department including the cover.

2. The winding machine for buzzer production and processing according to claim 1, wherein: the lantern ring (15) is of an annular structure with an opening at one end, a first supporting block (16) is arranged at one end of the lantern ring (15), a supplement plate (17) is arranged at the other end of the lantern ring (15), a second supporting block (18) is fixedly arranged at the end of the supplement plate (17), and a moving unit (19) is fixedly arranged between the second supporting block (18) and the first supporting block (16).

3. The winding machine for buzzer production and processing according to claim 2, wherein: the inner ring of the lantern ring (15) is provided with a cleaning layer (26), the cleaning layer (26) comprises an inner plate (28) fixed on the inner side surface of the lantern ring (15), a second chamber (32) and a first chamber (29) are sequentially arranged in the inner plate (28) from one end far away from a copper wire (3) to one end close to the copper wire (3), one end of the second chamber (32) is provided with an opening, a sealing plug (33) is sealed at the opening, the outer side surface of the sealing plug (33) is fixedly provided with a pull ring (34), the other end of the second chamber (32) is provided with an outer cleaning port (41), an elastic baffle plate (42) is arranged at a position, close to the outer cleaning port (41), of the second chamber (32), one end of the elastic baffle plate (42) is fixed on the inner wall, close to one side of the copper wire (3), of the other end inclines towards the inside of the second chamber (32) and is movably attached to the other side of the second chamber (32), and a second spring (43) for pushing the end part of the elastic baffle (42) to be attached to the inner wall of the second cavity (32) is fixedly welded on the inner wall of the second cavity (32).

4. The winding machine for buzzer production and processing according to claim 3, wherein: inner plate (28) are close to inside third chamber (39) that is located second cavity (32) inner circle and first cavity (29) tip that still is provided with of one end of outer clearance mouth (41), the fixed welding in bottom of third chamber (39) has first spring (38), the end fixing of first spring (38) is provided with cotton cover (40), cotton cover (40) activity laminating is in the outer lane of copper line (3), be provided with collection mouth (37) of the inside one end slope of intercommunication third cavity (39) towards first cavity (29) on cotton cover (40), it is loudspeaker form cell body to collect mouth (37).

5. The winding machine for buzzer production and processing according to claim 4, wherein: one side of the first cavity (29) is provided with a first notch (30) communicated with an inner ring of the inner plate (28), a sponge block (31) is fixedly arranged in the first notch (30), the upper end of the first cavity (29) is provided with an adding pipe (35) communicated with the inside and the outside of the first cavity (29), and a plug (36) is sealed at the opening of the adding pipe (35).

6. The winding machine for buzzer production and processing according to claim 2, wherein: a connecting sleeve (27) fixed at the end part of the mobile unit (19) through a screw is fixedly arranged on the surface of the second supporting block (18), the telescopic component (4) comprises a telescopic rod (20) and a telescopic sleeve (22), a telescopic cavity (25) is arranged in the telescopic sleeve (22), a limit plate (23) which is connected in the telescopic cavity (25) in a sliding way is fixedly arranged at the end part of the telescopic rod (20), a spring (24) which is pulled and held on the surface of the limit plate (23) is fixedly welded at the bottom of the telescopic cavity (25), a flange (21) is fixedly welded at the end part of the telescopic sleeve (22), the flange (21) is fixed on the positioning plate (5) through a screw, a supporting plate (6) is fixedly welded on one side of the positioning plate (5), and a lifting unit (7) for pushing the supporting plate (6) to lift is fixedly welded on the surface of the winding machine table board (1).

7. The winding machine for buzzer production and processing according to claim 1, wherein: the surface of side mesa (11) is provided with supporting component and drive assembly, and supporting component includes curb plate (8) of fixed welding at side mesa (11) both sides upper surface, it is connected with axis of rotation (12) to rotate on curb plate (8), the tip at coil roller (14) is fixed in axis of rotation (12), the both ends of coil roller (14) are all fixed and are provided with and block line baffle board (13) that copper line (3) drop from coil roller (14).

8. The winding machine for buzzer production and processing according to claim 7, wherein: the driving assembly comprises a transmission unit (10), the transmission unit (10) is fixedly welded on a side plate (8) on one side of a side table board (11) through a transmission unit supporting plate (9), and the transmission unit (10) is in transmission connection with the end part of a group of rotating shafts (12).

9. The winding machine for buzzer production and processing according to claim 1, wherein: the winding machine is characterized in that an inner cavity (44) is arranged inside the winding machine table board (1), a rotating circular groove (47) communicated with the inner cavity (44) is formed in the winding machine table board (1) at the position below the buzzer (2), the rotating box (45) is rotatably arranged on the rotating circular groove (47), and a rotating unit (46) for driving the rotating box (45) to rotate is fixedly welded on the bottom surface of the inner cavity (44).

10. The winding machine for buzzer production and processing according to claim 9, wherein: a negative pressure chamber (50) is arranged in the rotating box (45), a negative pressure unit (51) communicated with the negative pressure chamber (50) is fixedly arranged at the lower end of the rotating box (45), a rubber layer (48) attached to the lower surface of the buzzer (2) is fixedly arranged on the upper surface of the rotating box (45), negative pressure suction holes (49) simultaneously penetrating through the inside and the outside of the rotating box (45) and the upper and lower surfaces of the rubber layer (48) are arranged above the rotating box (45), a plurality of groups of negative pressure suction holes (49) are arranged in a circular array shape, and the diameter of the rotating box (45) is smaller than that of the buzzer (2);

the preparation method of the rubber layer (48) comprises the following steps: