CN209815095U

CN209815095U - Automatic wire winding and binding machine

Info

Publication number: CN209815095U
Application number: CN201920275323.XU
Authority: CN
Inventors: 柴梦杰
Original assignee: Ningbo Aoboer Electric Appliance Co Ltd
Current assignee: Ningbo Aoboer Electric Appliance Co Ltd
Priority date: 2019-03-05
Filing date: 2019-03-05
Publication date: 2019-12-20
Anticipated expiration: 2029-03-05

Abstract

The utility model discloses an automatic wire winding and bundling machine, including wire winding and bundling machine body, spring telescopic link, slow motor, vertical plate and overhead gage, the connecting axle is installed to the avris of wire winding and bundling machine body, the output shaft is installed on slow motor, and slow motor sets up the avris at wire winding and bundling machine body, the vertical plate runs through the sleeve, and the sleeve fixes the avris at wire winding and bundling machine body to reset spring is installed to the bottom of vertical plate, the curb plate is installed on the top of vertical plate, the overhead gage is installed at the avris that is located the wire winding and bundling machine body of driven gear and drive gear top. This automatic wire winding and bundling machine adopts neotype structural design, has set up on the basis of traditional automatic wire winding and bundling machine structure to have mild unloading and prevent that the electric wire end of not coiling from hanging even winding structure for the electric wire that has tied up can be gentle is sent away from the device, and can effectively avoid the electric wire to hang even coiling.

Description

Automatic wire winding and binding machine

Technical Field

The utility model relates to a wire winding binding machine technical field specifically is an automatic wire winding binding machine.

Background

The automatic winding and binding machine is a device with high automation degree used in the production process of connecting wires of electric appliances or socket plugs, can uniformly and equidistantly wind wires with plugs into bundles, and tightly binds the bundled wires by using thin iron wires wrapped with rubber sleeves, so that the wound wires are prevented from being loose, and the subsequent wires are convenient to transfer and install.

Along with the continuous use of automatic wire winding and bundling machine, current automatic wire winding and bundling machine has coiled the electric wire, use the manipulator to carry out the in-process that shifts, still have longer partial electric current to uncoil, drag the in-process in the transfer, easily drop and hang with the machine avris structure and link, at the continuous transfer in-process, because current automatic wire winding and bundling machine does not design mild unloader, the electric wire that ties up only accepts by the plastic basket, and loosen directly whereabouts by the manipulator, easily bump and pile up, the electric wire that does not coil is easily twined piling up the in-process, be unfavorable for follow-up transfer processing. Therefore, an automatic wire winding and binding machine aiming at the problems needs to be designed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic wire winding and bundling machine to propose among the solution above-mentioned background art not design mild unloader, the electric wire of not coiling easily hangs even winding problem.

In order to achieve the above object, the utility model provides a following technical scheme: an automatic winding and binding machine comprises a winding and binding machine body, a spring telescopic rod, a slow motor, a vertical plate and an upper baffle plate, wherein a connecting shaft is installed at the side of the winding and binding machine body, the connecting shaft is connected with a blanking plate, the upper surface of the blanking plate is provided with a functional strip, a back shaft is installed at the back surface of the blanking plate at the same time, the back shaft is connected with the top end of the spring telescopic rod, the bottom end of the spring telescopic rod is installed on a fixed shaft, the fixed shaft is fixed at the bottom of the side of the winding and binding machine body, a driven gear is fixed on the connecting shaft and is connected with a driving gear, the driving gear is fixed on an output shaft, the output shaft is connected with the side of the winding and binding machine body at the same time, the output shaft is installed on the slow motor, the slow motor is arranged at the side of the winding, and the avris at the wire winding binding machine body is fixed to the sleeve to reset spring is installed to the bottom of vertical plate, and reset spring and wire winding binding machine body interconnect simultaneously, the curb plate is installed on the top of vertical plate, the avris at the wire winding binding machine body that is located driven gear and drive gear top is installed to the overhead gage.

Preferably, the blanking plate and the winding and binding machine body form a rotating mechanism through a connecting shaft, the blanking plate is made of polyvinyl chloride, and functional strips are densely distributed on the upper surface of the blanking plate.

Preferably, the functional strip is connected with the blanking plate in an adhesive mode, the functional strip is in a continuous fold line shape, and the functional strip is made of rubber with a rough surface.

Preferably, the spring telescopic rod and the blanking plate form a rotating mechanism through a back shaft, and the spring telescopic rod and the winding and bundling machine body form the rotating mechanism through a fixed shaft.

Preferably, the driven gear is in meshed connection with the driving gear, the diameters of the driven gear and the driving gear are the same, and only 1/4 parts of the driving gear are distributed with tooth-shaped structures.

Preferably, the vertical plate and the sleeve are in sliding connection, one side of the vertical plate, which is close to the driving gear, is provided with a tooth-shaped structure, the vertical plate and the side plate are in adhesive connection, and the side plate is an acrylic plate with a smooth surface.

Compared with the prior art, the beneficial effects of the utility model are that: the automatic winding and binding machine adopts a novel structural design, and is provided with a structure which has the advantages of gentle blanking and preventing the end of an uncoiled electric wire from being hung and wound on the basis of the structure of the traditional automatic winding and binding machine, so that the bound electric wire can be smoothly sent out of the device, and the electric wire can be effectively prevented from being hung and wound;

1. the connecting shaft, the blanking plate, the functional strip, the back shaft, the spring telescopic rod, the fixed shaft, the driven gear and the driving gear are matched with each other to work, so that the bundled electric wires can be stably and smoothly sent out of the device, and the electric wires are prevented from being accumulated to cause winding;

2. the vertical plate, the sleeve, the reset spring and the side plate are matched with each other to work, so that the tail end of the wire can be far away from the side of the device, and the tail end of the wire is prevented from being damaged due to the fact that an external structure is hung on the tail end of the wire.

Drawings

Fig. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic front view of the present invention;

fig. 3 is a schematic view of the rear view section structure of the connecting shaft of the present invention.

In the figure: 1. a winding and bundling machine body; 2. a connecting shaft; 3. a blanking plate; 4. a functional strip; 5. a back shaft; 6. a spring telescopic rod; 7. a fixed shaft; 8. a driven gear; 9. a drive gear; 10. an output shaft; 11. a slow speed motor; 12. a vertical plate; 13. a sleeve; 14. a return spring; 15. a side plate; 16. and an upper baffle plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: an automatic winding and binding machine comprises a winding and binding machine body 1, a connecting shaft 2, a blanking plate 3, functional strips 4, a back shaft 5, a spring telescopic rod 6, a fixed shaft 7, a driven gear 8, a driving gear 9, an output shaft 10, a slow motor 11, a vertical plate 12, a sleeve 13, a reset spring 14, a side plate 15 and an upper baffle 16, wherein the connecting shaft 2 is installed at the side of the winding and binding machine body 1, the connecting shaft 2 is connected with the blanking plate 3, the functional strips 4 are arranged on the upper surface of the blanking plate 3, the back shaft 5 is installed at the back of the blanking plate 3, the back shaft 5 is connected with the top end of the spring telescopic rod 6, the bottom end of the spring telescopic rod 6 is installed on the fixed shaft 7, the fixed shaft 7 is fixed at the bottom of the side of the winding and binding machine body 1, the driven gear 8 is fixed on the connecting shaft 2, and the, and drive gear 9 is fixed on output shaft 10, output shaft 10 and the avris of wire winding binding machine body 1 interconnect simultaneously, output shaft 10 is installed on slow motor 11, and slow motor 11 sets up the avris at wire winding binding machine body 1, vertical plate 12 runs through sleeve 13, and sleeve 13 is fixed at the avris of wire winding binding machine body 1, and reset spring 14 is installed to the bottom of vertical plate 12, reset spring 14 and wire winding binding machine body 1 interconnect simultaneously, curb plate 15 is installed on the top of vertical plate 12, overhead gage 16 is installed at the avris of wire winding binding machine body 1 that is located driven gear 8 and drive gear 9 top.

In the embodiment, the blanking plate 3 and the winding and binding machine body 1 form a rotating mechanism through the connecting shaft 2, the blanking plate 3 is made of polyvinyl chloride, and the functional strips 4 are densely distributed on the upper surface of the blanking plate 3, the blanking plate 3 can rotate and swing through the connecting shaft 2 under the driving of the driving structure due to the structural design, so that electric wires can be conveniently discharged, the polyvinyl chloride is light in material and enough in strength, and can be stably used for a long time, and the densely distributed functional strips 4 can play a role in slowing down, so that the electric wires are prevented from directly and rapidly sliding down to cause damage due to collision;

the functional strips 4 are connected with the blanking plate 3 in an adhesive mode, the functional strips 4 are in a continuous fold line shape, the functional strips 4 are made of rubber with a rough surface, and due to the structural design, the functional strips 4 have large friction force and the speed of electric wires passing through the functional strips can be reduced;

the spring telescopic rod 6 and the blanking plate 3 form a rotating mechanism through the back shaft 5, and the spring telescopic rod 6 and the winding and binding machine body 1 form the rotating mechanism through the fixed shaft 7, so that the spring telescopic rod 6 can stretch, compress and rotate along with the blanking plate 3 when the blanking plate 3 swings, support is provided for the blanking plate 3, and the blanking plate 3 is prevented from directly rotating and falling when the driving is lost;

the driven gear 8 is in meshed connection with the driving gear 9, the diameters of the driven gear 8 and the driving gear 9 are the same, and only 1/4 parts of the driving gear 9 are distributed with tooth-shaped structures, so that the driving gear 9 can intermittently drive the driven gear 8 and the structures connected with the driven gear 8 to rotate when rotating;

vertical plate 12 and sleeve 13 are sliding connection, and vertical plate 12 distributes for one side near drive gear 9 has dentate structure, and vertical plate 12 and curb plate 15 are adhesive connection, and curb plate 15 is the smooth ya keli board in surface simultaneously, and foretell structural design makes vertical plate 12 can be driven by drive gear 9, and under sleeve 13's control, slides the displacement along the vertical direction, and curb plate 15 then can follow vertical plate 12 and carry out the displacement, and the terminal avris of keeping away from the device of lifting electric wire.

The working principle is as follows: when the device is used, firstly, the winding and binding machine body 1 is normally started, the structure of the winding and binding machine body 1 is the same as that of the existing DL282 automatic winding and binding machine, the structure of the winding and binding machine body is the same as that of the spring telescopic rod 6 and the slow-speed motor 11, the winding and binding machine body is the same as that of the existing DL282 automatic winding and binding machine, the winding and binding machine body is the same as that of the spring telescopic rod 6 and the slow-speed motor 11, the existing mature technology is well known to technicians in the field, the detailed description is omitted, bundled electric wires are transported towards the direction of the blanking plate 3 by related structures, slide down on the blanking plate 3 from the top of the blanking plate 3, can be contacted by the rough surface of the functional strip 4 when passing through the;

the slow motor 11 works and rotates anticlockwise through the driving gear 9 in fig. 3, the rotating direction here is determined from the rear view angle of the device in fig. 3, the tooth-shaped structure on the driving gear 9 is contacted with the driven gear 8, the driven gear 8 is driven to drive the connecting shaft 2 and the blanking plate 3 to rotate clockwise, the blanking plate 3 rotates upwards to lift and stretch the spring telescopic rod 6, the spring telescopic rod 6 is pulled to rotate under the action of the back shaft 5 and the fixed shaft 7 to adapt to the lifting of the blanking plate 3, because the tooth-shaped structure on the driving gear 9 is less, when the tooth-shaped structure is separated from the driven gear 8, the connecting shaft 2 and the blanking plate 3 rotate and reset, the spring telescopic rod 6 is compressed, the spring telescopic rod 6 provides resistance, the phenomenon that the wires transferred on the blanking plate 3 are knocked down due to the quick falling vibration of the blanking plate 3 is avoided, and the tooth-shaped, the blanking plate 3 does continuous small-amplitude vertical rotating shaking, so that the electric wires are prevented from being accumulated at the bottom end of the blanking plate, and the electric wires at the bottom are stirred away in the rotating shaking process;

when the driving gear 9 rotates and the tooth-like structure on the driving gear 9 contacts with the tooth-like structure on the side of the vertical plate 12, the vertical plate 12 is lifted upwards, the vertical plate 12 slides upwards in the sleeve 13 and stretches the return spring 14, the vertical plate 12 drives the side plate 15 to move upwards, the end of the uncoiled electric wire on one side of the side plate 15 is lifted to be far away from the winding and binding machine body 1, the transfer mechanism is matched to ensure that the end of the uncoiled electric wire is hung on the side of the equipment in the transfer process, the upper baffle 16 can shield the driven gear 8 and the driving gear 9 to avoid the electric wire from being rolled in, when the tooth-like structure on the driving gear 9 is separated from the tooth-like structure on the side of the vertical plate 12, the vertical plate 12 drives the side plate 15 to slide downwards under the action of the gravity and the return spring 14 to reset, the gear is waited to contact with the tooth-like structure on, the vertical plate 12 drives the side plate 15 to move up and down intermittently to reset, and the winding and bundling and transferring operations of the winding and bundling machine body 1 require time and the electric wires are intermittently transferred, so that the side plate 15 can effectively lift the tail ends of the electric wires, and the electric wires can be smoothly transferred, which is the working principle of the automatic winding and bundling machine.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an automatic wire winding and bundling machine, includes wire winding and bundling machine body (1), spring telescopic link (6), slow motor (11), vertical plate (12) and last baffle (16), its characterized in that: connecting axle (2) is installed to the avris of wire winding binding machine body (1), and connecting axle (2) and unloading board (3) interconnect, and the upper surface of unloading board (3) is provided with function strip (4) down, and simultaneously the back mounted of unloading board (3) has dorsum (5), the top interconnect of dorsum (5) and spring telescopic link (6), and the bottom of spring telescopic link (6) is installed on fixed axle (7), and fixed axle (7) are fixed in the avris bottom of wire winding binding machine body (1), be fixed with driven gear (8) on connecting axle (2), and driven gear (8) and drive gear (9) interconnect to drive gear (9) are fixed on output shaft (10), and the avris interconnect of output shaft (10) and wire winding binding machine body (1) simultaneously, output shaft (10) are installed on slow motor (11), and slow-speed motor (11) set up the avris at wire winding binding machine body (1), sleeve (13) are run through in vertical plate (12), and sleeve (13) are fixed in the avris of wire winding binding machine body (1) to reset spring (14) are installed to the bottom of vertical plate (12), and reset spring (14) and wire winding binding machine body (1) interconnect simultaneously, curb plate (15) are installed on the top of vertical plate (12), overhead gage (16) are installed and are being located the avris of wire winding binding machine body (1) of driven gear (8) and drive gear (9) top.

2. An automatic wire winding and binding machine according to claim 1, characterized in that: lower flitch (3) constitute slewing mechanism through connecting axle (2) and wire winding binding machine body (1), and the material of flitch (3) down is polyvinyl chloride to the upper surface of flitch (3) distributes densely has functional strip (4) down.

3. An automatic wire winding and binding machine according to claim 1, characterized in that: the functional strips (4) are connected with the blanking plate (3) in an adhesive mode, the functional strips (4) are in a continuous fold line shape, and the functional strips (4) are made of rubber with rough surfaces.

4. An automatic wire winding and binding machine according to claim 1, characterized in that: the spring telescopic rod (6) and the blanking plate (3) form a rotating mechanism through the back shaft (5), and the spring telescopic rod (6) and the winding and binding machine body (1) form the rotating mechanism through the fixed shaft (7).

5. An automatic wire winding and binding machine according to claim 1, characterized in that: the driven gear (8) is in meshed connection with the driving gear (9), the diameters of the driven gear (8) and the driving gear (9) are the same, and only 1/4 parts of the driving gear (9) are distributed with tooth-shaped structures.

6. An automatic wire winding and binding machine according to claim 1, characterized in that: vertical plate (12) and sleeve (13) are sliding connection, and vertical plate (12) are close to drive gear (9) one side and distribute the dentate structure to vertical plate (12) and curb plate (15) are adhesive connection, and curb plate (15) are the smooth ya keli board in surface simultaneously.