CN110625038B - Electric hair drier heater winding machine - Google Patents

Abstract

The invention relates to the technical field of electric hair drier research and development design, in particular to a winding machine of an electric hair drier heater, which adopts the following technical scheme: the winding device of the electric blowing bus frame winding machine comprises a fixed clamp which is rotatably arranged on a vertical plate and a movable clamp which is arranged on the opposite side of the fixed clamp, a clamping gap for clamping a mica wire frame is formed between the fixed clamp and the movable clamp, the movable clamp is rotatably arranged on a longitudinal push rod, and a winding motor is arranged on the vertical plate to drive the fixed clamp to rotate, and the winding device has the advantages that: the production cost of the mica wire frame is effectively reduced, the defect of manual winding adopted in the prior art is overcome, the winding efficiency is high, the uniformity of finished products after winding is better than that of products after manual winding, the consistency and stability of the mica wire frame after winding are high, the later maintenance rate is reduced, the later product experience effect of customers is improved, and the brand effect is further improved.

Description

Electric hair drier heater winding machine

The technical field is as follows:

the invention relates to the technical field of electric hair drier research and development design, in particular to a winding machine of an electric hair drier heater.

Background art: the blower is composed of a group of electric heating wires and a high-speed small fan. When the fan is electrified, the heating wire can generate heat, and the air blown out by the fan passes through the heating wire and is changed into hot air.

The heating wire is generally wound on a mica wire frame, however, in the existing process production, because the mica wire frame is in an irregular shape, the winding difficulty is high, the existing process production still adopts manual winding until today, in the process of adopting manual winding, a processing worker has certain damage to fingers in the long-term winding process, in addition, when manual winding is adopted, the uniformity and consistency of winding are poor, a fault part of a product is relatively high, further certain influence is also exerted on the service life of the product, in addition, due to the defect of the manual winding, poor using effect is brought to consumers, the brand influence is reduced, further, when manual winding is adopted, the winding speed is poor, and further management cost is brought to enterprises.

The patent office of the national intellectual property office discloses a patent with the following patent numbers: 201020027060.X, in the patent, discloses a winding device of an electric hair drier heater, which has a complex structure, basically adopts a mode of manually fixing and clamping a mica wire frame, has low working efficiency, poor winding effect and high maintenance cost, and cannot meet the requirements of enterprises.

The invention content is as follows:

the invention aims to provide a winding machine of an electric hair drier heater, in particular to an automatic winding machine of the electric hair drier heater.

The invention aims to provide a winding machine of an electric hair drier heater, in particular to a winding machine of an electric hair drier heater with better winding efficiency.

The invention aims to provide a winding machine of an electric hair drier heater, in particular to a winding machine of an electric hair drier heater with better winding uniformity.

The invention aims to provide a winding machine of an electric hair drier heater, in particular to a winding machine of an electric hair drier heater with better winding consistency.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a hairdryer heater coiling machine, includes winding device, draw traditional thread binding putting, its characterized in that: the winding device comprises a fixing clamp which is rotatably arranged on a vertical plate and a movable clamp which is arranged on the opposite side of the fixing clamp, a clamping gap used for clamping a mica wire frame is formed between the fixing clamp and the movable clamp, the movable clamp is rotatably arranged on a longitudinal push rod, the fixing clamp which is arranged on the vertical plate and is driven by a winding motor is arranged to rotate, a wire drawing device is arranged on one side of the clamping gap, the wire drawing device comprises a support arm and at least one group of hook portions arranged at one end of the support arm, and a conveying device drives the mica wire frame to move.

Wherein, one side of each group of hook portions is provided with a locking driving piece, and the first locking driving piece drives the lock rod to seal or restrict the hook opening of the hook portions.

The conveying device comprises a conveying rack and a conveying belt which is arranged on the conveying rack and driven by a conveying belt transmission mechanism, a stop block is arranged on one side where the conveying belt is arranged, a notch is formed in the conveying belt surface of the conveying belt, and a blocking strip is arranged on one side of the notch in parallel.

Wherein, set up the needle frame on the notch one side that lies in the conveyer belt, the needle frame sets up forked needle portion, forked needle portion and conveyer belt direction of delivery parallel arrangement.

The bottom of the stop block is provided with a second lifting driving piece, and the second lifting driving piece drives the ejector block to be lifted and driven to a position between the movable clamp and the fixed clamp along the direction of the stop block.

Wherein, set up first transverse driving spare, first transverse driving spare drives foretell support arm and then drives drag hook portion transverse motion through first intermediate member.

Wherein, set up first lifting driving piece on lieing in first intermediate member, first lifting driving piece drives foretell support arm and then drives drag hook portion lifting or decline through second intermediate member.

The first longitudinal driving piece is arranged on the second intermediate piece and drives the support arm through the third intermediate piece so as to drive the drag hook part to move longitudinally.

And a second transverse driving part is arranged on the third intermediate part and drives the support arm to further drive the drag hook part to transversely move.

Wherein, lieing in the adjacent wire winding guider that sets up in centre gripping clearance, wire winding guider includes: the guide frame is arranged on the guide rod through a sliding piece in a sliding mode, and a third longitudinal driving piece is arranged and longitudinally drives the guide frame to longitudinally slide along the guide rod.

The invention has the advantages that: the production cost of the mica wire frame is effectively reduced, the defect of manual winding adopted in the prior art is overcome, the winding efficiency is high, the uniformity of finished products after winding is better than that of products after manual winding, the consistency and stability of the mica wire frame after winding are high, the later maintenance rate is reduced, the later product experience effect of customers is improved, and the brand effect is further improved.

Description of the drawings:

fig. 1 is a schematic perspective view of a winding machine of a hair dryer heater in embodiment 1;

FIG. 2 is a schematic top view of the conveying apparatus according to embodiment 1;

FIG. 3 is a schematic bottom view of the conveyor of example 1;

FIG. 4 is a schematic perspective view of the winding and clamping device of embodiment 1;

FIG. 5 is a schematic perspective view of the movable clamp transmission of embodiment 1;

FIG. 6 is a perspective view of a winding guide part in accordance with embodiment 1;

FIG. 7 is a schematic perspective view of a portion of the thread drawing device of example 1;

FIG. 8 is a schematic perspective view of a portion of the thread drawing device of example 1;

FIG. 9 is a schematic perspective view of a portion of the thread drawing device of example 1;

fig. 10 is a perspective view of the stay device arm structure 1 according to embodiment 1;

FIG. 11 is a perspective view of the stay device arm structure 2 of embodiment 1;

FIG. 12 is a schematic view showing the partial stroke of the structure 1 and a third locking member of the embodiment 1;

FIG. 13 is a schematic view of the structure 1 of embodiment 1 showing the stroke of a single third locking member;

FIG. 14 is a schematic diagram showing a driving state of the double third lock members in the structure 1 according to the embodiment 1;

fig. 15 is a schematic view of another driving manner of the structure 2 and the third locking member of the embodiment 1.

The specific implementation mode is as follows:

the following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

In the description of the present invention, unless otherwise specified, the terms "upper, lower, inner, outer" and the like are included in the terms in an orientation that represents only an orientation of the term in a conventional use state or is colloquially understood by those skilled in the art, and should not be construed as limiting the term.

In the description of the present invention, in the different embodiments, the different technical features and the different technical solutions, there is no conflict between the technical features and the technical solutions, and the technical features and the technical solutions may be used in combination with each other.

The terms "first," "second," "third," and the like in the description and in the claims, as well as in the drawings, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the objects so described are interchangeable under appropriate circumstances. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

Example 1: referring to fig. 1-15, a winding machine for a heater of an electric hair drier comprises a control device 3, a winding device 5 and a wire drawing device 6, wherein the winding device 5 comprises a mica wire frame clamping device, the mica wire frame clamping device comprises a fixed clamp 54 which is rotatably arranged on a vertical plate and a movable clamp 52 which is arranged at the opposite side of the fixed clamp 54, a clamping gap for clamping the mica wire frame is formed between the fixed clamp 54 and the movable clamp 52, the movable clamp 52 is rotatably arranged on a longitudinal push rod 511, a winding motor 53 is arranged on the vertical plate and drives the fixed clamp 54 to rotate, and the wire drawing device 6 is arranged at one side of the clamping gap.

The wire pulling device 6 includes a supporting arm 61 and at least one set of hook portions 612 disposed at one end of the supporting arm 61, a first locking driving element 614 is disposed at one side of each set of hook portions 612, the first locking driving element 614 drives the locking rod 615 to close or restrict the hook opening 611 of the hook portions, in the wire pulling process, after the hook opening 611 of the hook portions is hooked with the heat generating wire, the first locking driving element 614 is started to drive the locking rod 615 to restrict or move toward the hook opening 611, and further, the heat generating wire slides in a sliding gap formed by the locking rod 615 and the hook opening 611.

One end of the hook head 613 of the hook portion 612 is connected to the arm, and the other end of the hook head 613 extends outward from the hook opening 611.

In this embodiment, the purpose is that when the pulling hook 612 pulls the wire transversely, the other end of the pulling hook 613 extends outward from the hook opening 611, so that the hook opening 611 of the pulling hook 612 can improve the success rate of pulling the wire, and when the mica wire frame is not placed accurately, the proper tolerance can be achieved, and the overall stability of the operation of the device can be improved.

Wherein, one side that sets up hook portion 612 sets up the second locking driving piece, and the second locking driving piece drives the briquetting oppression or breaks away from hook mouth portion inboard heating wire of hook portion, and its aim at locks the restriction its removal to the tip of heating wire to keep good tension in follow-up coiling process.

Preferably, the lock rod 615 is provided with a closing part 6153 and a pressing part 6152 on one side of the hook opening part 611 of the hook part 612, the closing part 6153 is arranged adjacent to the pressing part 6152, and the axial length of the closing part 6153 extending to the hook opening part 611 is greater than that of the pressing part 6152.

The shift mechanism for setting the movement stroke of the shift lock rod 615 comprises a shift portion 6151 arranged on one side of the lock rod, one end of a shift rod 616 extends towards one side of the shift portion 6151, the other end of the shift rod 616 is provided with a third locking driving piece, the third locking driving piece drives the shift rod 616 to move towards the direction of the shift portion 6151 for the shift lock rod 615, the heating wire pulled by the pull hook portion 612 can slide in the sliding gap, and when the shift rod 616 is driven to be separated from the shift portion 6151, the stroke of the lock rod 615 can completely output the movement of the heating wire, and the purpose is to lock the end of the heating wire to limit the movement of the heating wire, so that the heating wire can be kept in good tension in the subsequent winding process.

The two groups of the hook portions 612 of the support arm 61 are arranged front and back and left and right, wherein the mode of simultaneously driving the two groups of the lock rods 615 by the single first locking driving element 614 or respectively driving the lock rods 615 by the double first locking driving elements 614 can achieve the technical purpose and the expected technical effect.

In the manner of being suitable for the two groups of hook portions 612 and the two first locking driving members respectively transmitting the locking rod 615, the locking rod 615 on one side close to the third locking driving member is provided with a sliding notch matched with the diameter of the blocking rod 616, the blocking rod 616 passes through the sliding notch of the locking rod 615 and extends to the blocking portion 6151 of the other locking rod, and the diameter of one side of the blocking rod 616 close to the third locking driving member is larger than the diameter of the other end.

Wherein, structure 1: referring to fig. 10, 12-14, the third locking driving member 617A may be a linear cylinder disposed perpendicular to the lock bar 615 to drive the shift lever 616 to disengage from the shift portion 6151 or to extend the stroke of the shift lock bar 615, which is suitable for the single first locking driving member 614 or the double first locking driving member 614.

In this embodiment, the third locking driving member 617A may be activated at a timing, or a photoelectric sensor or a microswitch may be disposed on the arm 61, the top of the shift portion 11 located on the side of the main frame 1 away from the winding device 5 may be in an arc transition, and when the shift portion 11 is moved, the corresponding third locking driving member 617A is detected to activate and drive the shift lever 616 to disengage from the shift portion 6151, so that the same technical purpose and expected technical effects as those of the activation lever may be achieved.

When the locking bar 615 outputs, the heating wire can still slide in the sliding gap formed between the blocking portion 6153 of the locking bar 615 and the hook opening portion 611, when the third locking driving member 617 drives the blocking rod 616 to disengage from the blocking portion 6151, the blocking rod 616 no longer blocks the stroke of the locking bar 615, and the locking bar 615 continues to move towards the hook opening portion 611, so that the pressing portion 6152 of the locking bar 615 presses the heating wire to restrict the movement of the locking heating wire.

Wherein, structure 2: referring to fig. 11 and 15, the third locking driving member 617B may be an actuating rod 618 connected to the other end of the blocking rod 615, the actuating rod 618 extends toward the blocking portion 11 disposed on the main frame 1, a spring notch 6161 is formed on the blocking rod 615 at a side of the supporting arm 61 close to the actuating rod 618, a spring 6162 is disposed in the spring notch 6161, so that the blocking rod 615 is pressed and output toward the blocking portion 6151, a movable locking shaft 6163 extending toward the spring 6162 is disposed at the other end of the supporting arm 61 in the pressing direction of the spring 6162 toward the blocking rod 615, and the movable locking shaft 6163 may be a bolt or a screw extending in the direction of the spring.

In this embodiment, the actuating rod 618 is disposed on a side surface of the supporting arm 61, the supporting arm 61 is axially provided with a moving shaft hole corresponding to the locking rod, a sliding through hole 610 matched with the blocking rod 616 in shape is provided on a side of the supporting arm 61 parallel to the blocking rod 616, and the blocking rod 616 passes through the sliding through hole 610 and extends to the blocking portion 6151.

During application, when the actuating lever 618 does not move the locking lever 615 toward the hook opening 611, due to the action of the spring 6192, the barrier bar 616 extends toward the barrier portion 6151, even when the first locking driver 614 locks the locking bar 615 to the hook opening portion 611 or restricts the output, the stroke is also limited, typically by the closing portion 6153 closing or restricting the hook mouth portion 611, at which time, the heater wire can still slide in the sliding gap formed by the lock bar 615 and the hook opening portion 611, when the actuating lever 618 is moved toward the shift portion 11 of the main frame 1 by the retracting movement of the arm 61, the starting rod 618 is pressed against the shift portion 61 to move the starting rod 618 in the opposite direction to drive the blocking rod 616 to disengage from the blocking portion 6151, the blocking rod 616 stops the stroke of the blocking lock rod 615, and the lock rod 615 continues to move towards the hook opening 611 to press the pressing portion 6152 of the lock rod 615 to press the heating wire to restrict the movement of the locking heating wire.

Wherein, for further providing a transverse movement axial direction to the draw hook part 612, a first transverse driving member 62 is provided, the first transverse driving member 62 drives the support arm 61 through a first intermediate member 621 so as to drive the draw hook part 612 to transversely move, and the first intermediate member 621 is transversely slidably mounted on the main frame 1.

Wherein, for further providing a lifting movement axial direction for the hook portion 612, the first lifting driving member 63 is disposed on the first intermediate member 621, and the first lifting driving member 63 drives the support arm 61 through the second intermediate member 631 to drive the hook portion 612 to lift or lower.

Wherein, to provide a longitudinal movement axis for the further hook portion 612, a first longitudinal driving member 64 is disposed on the second intermediate member 631, and the first longitudinal driving member 64 drives the arm 61 through the third intermediate member 641 to drive the hook portion 612 to move longitudinally.

Wherein, a transverse movement axial direction is provided for the further opposite pulling hook portion 612, a second transverse driving member 65 is disposed on the third intermediate member 641, and the second transverse driving member 65 drives the supporting arm 61 to drive the pulling hook portion 612 to move transversely.

The conveying device 4 drives the mica wire frame to move towards the clamping gap direction, the conveying device comprises a conveying rack 40 and a conveying belt 4 which is arranged on the conveying rack 40 and driven by a conveying belt transmission mechanism 41, a stop block 44 is arranged on one side where the conveying belt 4 discharges materials, a notch 43 is formed in the conveying belt surface of the conveying belt 4, a blocking strip 42 is arranged on one side of the notch 43 in parallel, and the notch 43 in the conveying belt surface of the conveying belt 4 is arranged in parallel with the conveying direction of the conveying belt 4.

In this embodiment, the mica wire frame that is not wound is flatly placed on the conveying belt surface of the conveying belt 4, the heating wire of the mica wire frame is hung down on the notch 43 of the conveying belt surface, and moves towards the winding device 5 along with the movement of the conveying belt 4, the stop block 44 is arranged to separate the mica wire frame for subsequent lifting and clamping procedures, and the specific setting barrier strip 42 is used for guiding and positioning the side edge placement of the mica wire frame, so that the success rate of clamping and wire pulling in the subsequent process is improved.

Wherein, set up needle frame 47 in the side of the notch 43 that is located the conveyer belt, needle frame 47 sets up forked needle portion 471, forked needle portion 471 and conveyer belt 4 direction of delivery parallel arrangement, when being applicable to the coiling of two heater strips, can the forked heater strip with in the above-mentioned traditional thread binding putting 6 of acting as go-between, improve its success rate and the stability of acting as go-between.

The feeding detection device 45 for detecting the incoming material is arranged at a position, close to the stopper 44, of the conveyor frame 40, and the control device 3 is in control connection with the feeding detection device 45, which may actually be a photoelectric sensor or a microswitch, and aims to provide an incoming material signal to the controller so that the controller can control the transmission of the subsequent second lifting driving element 46 or close the conveyor belt transmission mechanism 41 to stop the transmission.

In the embodiment, when the mica wire clip moves to the conveyer belt 4 and is located at the top of the second lifting driving member 46, the second lifting driving member 46 drives the ejector block 461 to lift and drive to the mica wire frame clamping device toward the stopper, so as to drive the ejector block 461 to lift and drive to the clamping gap between the fixed clamp 54 and the movable clamp 52 toward the stopper, thereby facilitating subsequent clamping and fixing.

When the material is lifted to the gap between the fixed clamp 54 and the movable clamp 52, the second longitudinal driving member 51 drives the movable clamp 52 to move towards the direction of the fixed clamp 54 to clamp the mica wire frame.

The movable clamp 52 and the fixed clamp 54 may be four-leaf clamps or six-leaf clamps matched with the mica wire frame in shape, and are not limited to mica wire clamps with other blade groups, and the specific type of the mica wire clamp is reasonably selected by a person skilled in the art according to the type of the product.

In addition, when the winding is completed, due to the existence of the inserting notch 520, when a gap between the fixed clamp 54 and the movable clamp 52 is opened, the mica wire frame moves back along with the inserting notch 520 of the movable clamp 52, and a stop block is specifically arranged in the axial direction of the back movement of the mica wire frame, so that the mica wire frame can be separated from the movable clamp by dropping and is correspondingly stored and arranged.

In the present embodiment, the position signal detected by the detection block 541 is further detected, and the position where the winding motor 53 drives the detection block 541 to rotate is adaptively adjusted by using the embodiment, and the specific matching control device controls the winding motor 53 to rotate, so that the winding motor 53 can return to the original point of winding when in use, and specifically, the clamping openings of the movable clamp 52 and the fixed clamp 54 are kept corresponding to each other when the next mica bobbin is wound.

The counterweight 521 is disposed at the bottom of the movable clamp 52 or the fixed clamp 54, and is used for resetting to the initial position after winding is completed to facilitate the clamp to keep the same axial direction when the next mica wire frame is wound, as in the above-mentioned purpose of disposing the detection block 541.

The shape of the top block 461 is a triangular protrusion matched with the shape of a triangular groove between the mica wire frame blades, and the top angle of the triangular protrusion can be reasonably selected.

The guide rods are arranged on two sides of the longitudinal push rod driven by the second longitudinal driving piece 51, and the guide rods are used for keeping the motion axial direction of the longitudinal push rod in the output process and keeping the success rate of clamping a mica wire clamp by the movable clamp 52 and the fixed clamp 54, so that the using effect of the mica wire clamp is further improved.

Wherein, lieing in the adjacent wire winding guider that sets up in centre gripping clearance, wire winding guider includes: the guide frame 55 and at least one group of winding notches 551 at the bottom of the guide frame 55, the diameter of the winding notches 551 is slightly larger than that of the heating wire, the guide frame 55 is slidably mounted on the guide rod through a sliding piece 550, a third longitudinal driving piece 56 is arranged, and the third longitudinal driving piece 56 longitudinally drives the guide frame 55 to longitudinally slide along the guide rod.

In the winding process, the winding notch 551 at the bottom of the guide frame 55 restrains the movement of the heating wire material, and the heating wire material is aligned in the movement direction, so that the heating wire material can be further guided in the winding process of the mica wire frame, and the winding consistency and stability are improved.

The guiding frame 55 is rotatably mounted on the sliding member 550, and a movable locking member movably connected and fixed with the guiding frame 55 is disposed at the initial winding position, the movable locking member is a fixed frame 553 on the guiding frame 55 and is provided with a magnetic connection portion with the fixed portion 552 on the guiding frame 55, or a movable connection portion such as a buckle or a plug-in connector, for example, in this embodiment, a magnet and a magnetic material layer mutually attracted with the magnet may be disposed on the fixed portion or the fixed frame of the guiding frame.

In the winding process, when the winding is started, the fixing part 552 of the guide frame 55 is movably locked and connected with the fixing frame 553, and when the winding is started, the guide frame 55 slides to overcome the connection stress of the movable locking part and then presses and buckles the heating wire, and the guide effect is realized along with the movement of the winding.

Preferably, the winding motor 53 is a servo motor, a dc motor, an ac motor or a servo motor, and those skilled in the art can select the type according to the need, and the details are not limited to the disclosure.

Preferably, the conveying belt transmission mechanism 41 includes a transmission motor disposed at one end of the conveying belt 4, and the transmission motor drives the driving wheel 411 at one end of the conveying belt to rotate the conveying belt 4.

Preferably, the first locking driving element 614, the second locking driving element, the third locking driving element 617A, the first lifting driving element 63, the second lifting driving element 46, the second transverse driving element 65, the first longitudinal driving element 64, and the second longitudinal driving element 52 may adopt any conventional device such as a linear cylinder or an electric push rod or other linear transmission mechanism which converts circular motion into linear motion or an electromagnetic push rod, and the like, and the modifications thereof are within the protection scope of the present invention, and those skilled in the art can make adaptive selections according to the needs, and therefore, the details thereof are not described herein.

The first transverse driving member 62 and the third longitudinal driving member 56 may adopt a transmission manner of a servo motor transmission belt, and of course, the present embodiment is not limited to the transmission manner of the servo motor transmission belt, and may also adopt a transmission manner of a servo motor transmission rack engagement, and may also adopt a manner of the servo motor driving a threaded sleeve, specifically, the present embodiment is not limited to the above-mentioned manner of the servo motor, and the above-mentioned technical purpose may be achieved for other motors and the matching alternative design of the speed reducer or the gearbox, and the desired effect may be obtained.

Compared with the prior art, the invention has the following advantages:

compared with a mica wire frame which is wound manually, the uniformity and the flatness of the mica wire frame are greatly improved, particularly when manual winding is adopted, the manual work cannot ensure that the heating wire is uniformly wound on the mica wire frame every time, compared with the embodiment, an automatic transmission mode is adopted, the uniformity is greatly improved, due to the more uniform winding mode, when the mica wire frame is used for a long time during heating, the uniformity of overall heating can be improved so as to avoid the generation of later-stage faults or the occurrence of faults that the heating wire is burnt off due to local heating, and further, the mica wire frame wound by the electric hair drier has the advantages that the overall service life of the electric hair drier is effectively prolonged, and the quality and the grade of the product are obviously higher than those of a product wound manually, so that the market competitiveness of the product is improved.

2, on the winding efficiency of the product of the invention, the automatic control of each driving piece of the product is combined with the automation of the controller, the processing procedures of automatic feeding, lifting and clamping, automatic wire drawing, automatic winding and automatic material releasing are realized, and compared with manual winding, the overall processing efficiency is qualitatively improved, specifically, in the process of combining actual processing and winding, the processing efficiency is higher than the winding efficiency of manual winding by not less than eight times, and the product and the patent office of the national intellectual property office disclose a patent number of which is: the winding mode disclosed by the 201020027060.X patent is obviously different, the overall performance of the winding machine is obviously superior to that of the winding machine, and the invention actually invents an epoch-making winding machine product, replaces manual work, further saves the processing cost and the manual management cost of an enterprise, reduces the production cost of the enterprise, and improves the price competitiveness and the profit value of the product.

It should be understood that the above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the invention, therefore, all equivalent changes in the principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a hairdryer heater coiling machine, includes winding device, draw traditional thread binding putting, its characterized in that: winding device sets up the activity including rotatable fixation clamp and the fixation clamp offside of installing on the riser and presss from both sides, form the centre gripping clearance that is used for centre gripping mica line frame between fixation clamp and the activity clamp, the activity presss from both sides rotatable installation on vertical push rod, it is rotatory to be located the foretell fixation clamp of winding motor transmission on the riser, it sets up draw off mechanism to lie in centre gripping clearance one side, draw off mechanism includes the support arm and sets up in at least a set of hook portion of support arm one end, conveyor includes the transport frame and sets up the conveyer belt by the transmission of conveyer belt drive mechanism in carrying the frame, conveyor drives the mica line frame and moves toward centre gripping clearance direction, one side of every hook portion sets up the locking driving piece, the hook oral area of first locking piece.

2. An electric hair drier heater winding machine according to claim 1, characterized in that: the side of the conveying belt on which the materials are discharged is provided with a stop block, the conveying belt surface of the conveying belt is provided with a notch, and one side of the notch is provided with a stop strip in parallel.

3. A hair dryer heater winder as claimed in claim 2, wherein: a needle frame is arranged on one side of a notch of the conveying belt, the needle frame is provided with a forked needle portion, and the forked needle portion is parallel to the conveying direction of the conveying belt.

4. A hair dryer heater winder according to claim 3, characterised in that: and a second lifting driving piece is arranged at the bottom of the stop block and drives the ejector block to be lifted and driven to a position between the movable clamp and the fixed clamp along the direction of the stop block.

5. A hair dryer heater winder according to claim 4, characterised in that: set up first transverse driving spare, first transverse driving spare drives foretell support arm and then drives drag hook portion transverse motion through first intermediate member.

6. A hair dryer heater winder according to claim 5, characterised in that: the first lifting driving piece is arranged on the first intermediate piece and drives the drag hook portion to lift or descend through the support arm driven by the second intermediate piece.

7. A hair dryer heater winder according to claim 6, characterised in that: and a first longitudinal driving part is arranged on the second intermediate part and drives the support arm to further drive the drag hook part to move longitudinally through a third intermediate part.

8. A hair dryer heater winder as claimed in claim 7, wherein: and a second transverse driving part is arranged on the third intermediate part and drives the support arm to further drive the drag hook part to transversely move.

9. A hair dryer heater winder according to claim 8, characterised in that: being located the adjacent wire winding guider that sets up in centre gripping clearance, wire winding guider includes: the guide frame is arranged on the guide rod through a sliding piece in a sliding mode, and a third longitudinal driving piece is arranged and longitudinally drives the guide frame to longitudinally slide along the guide rod.

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