CN116961337A - High-efficient motor wire winding is with continuing device that connects - Google Patents

Abstract

The application discloses a high-efficiency motor winding splicing device, which comprises: the main body unit comprises a base, and a vertical plate is fixedly connected to the base; the winding unit comprises a motor, riser output fixedly connected with dwang, the cover is equipped with the wire winding roller on the dwang, be equipped with installation component between dwang and the wire winding roller, be equipped with the power component that is used for driving installation component in the dwang, be equipped with fixed subassembly in the wire winding roller, wire winding roller top is equipped with the inlet wire subassembly, be equipped with the removal subassembly that is used for removing the inlet wire subassembly on the riser, be equipped with drive assembly between installation component and the removal subassembly. According to the application, the winding roller to be wound is arranged, and then the electric roller is started, so that metal moves towards the winding roller, after the metal wire is inserted into the rectangular groove, the metal wire is pressed and fixed under the action of the second spring, and thus the wire is fixed, and the working efficiency is improved.

Description

High-efficient motor wire winding is with continuing device that connects

Technical Field

The application relates to the technical field of motor parts, in particular to a high-efficiency splicing device for motor winding.

Background

The motor is an electromagnetic device for converting or transmitting electric energy according to the law of electromagnetic induction, the motor is represented by letter M in a circuit, the main function of the motor is to generate driving torque, the motor is used as a power source of an electric appliance or various machines, the generator is represented by letter G in the circuit, the main function of the motor is to convert mechanical energy into electric energy, and the motor is divided according to the types of working power sources: the motor can be classified into a direct current motor and an alternating current motor. The coil of the motor is an important part for forming the motor, and the coil needs to use corresponding winding equipment to wind wires outside the winding drum in the processing process.

The existing winding equipment can wind the wire, but after winding is completed, the wire is cut off firstly and then connected onto the next winding drum, so that winding can be performed again, the process needs longer time, winding efficiency is lower, and meanwhile, the rotating roller of the existing winding device is of a fixed size and is only suitable for a certain fixed size, so that the applicability is lower.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

The present application has been made in view of the above-described problems with the conventional winding apparatus.

Therefore, the application aims to provide a high-efficiency motor winding splicing device, which aims to solve the problems that the existing winding device can perform winding treatment on a wire, but after winding is completed, the wire is cut off and then connected onto the next winding drum, so that winding treatment can be performed again, the process needs longer time, the winding efficiency is lower, and meanwhile, the rotating roller of the existing winding device is of a fixed size and is only suitable for a certain fixed size, so that the applicability is lower.

In order to solve the technical problems, the application provides the following technical scheme:

a high efficiency motor winding splice, comprising:

the main body unit comprises a base, and a vertical plate is fixedly connected to the base;

the winding unit comprises a motor, the motor sets up on the riser, riser output fixedly connected with dwang, the cover is equipped with the winding roller on the dwang, be equipped with installation component between dwang and the winding roller, be equipped with the power pack who is used for driving installation component in the dwang, be equipped with fixed subassembly in the winding roller, the winding roller top is equipped with the inlet wire subassembly, be equipped with the removal subassembly that is used for removing the inlet wire subassembly on the riser, be equipped with drive assembly between installation component and the removal subassembly, be equipped with on the base and support the pressure subassembly.

As a preferred scheme of the high-efficiency motor winding splicing device, the application comprises the following steps: the installation component includes the dwang, be equipped with the cavity in the dwang, the dwang slides and alternates on the cavity right side wall, fixedly connected with a plurality of stripper plates on the dwang, it has a plurality of ejector pins to slide on the dwang to alternate, be equipped with first inclined plane and second inclined plane on stripper plate and the ejector pin respectively, first inclined plane cooperatees with the second inclined plane, fixedly connected with arc butt plate on the ejector pin.

As a preferred scheme of the high-efficiency motor winding splicing device, the application comprises the following steps: the power assembly comprises an electromagnet, the electromagnet is arranged on the left side wall of the cavity, the movable rod is made of metal material iron and is matched with the electromagnet, a fixed plate is fixedly connected to the movable rod, and a first spring is fixedly connected between the fixed plate and the right side wall of the cavity.

As a preferred scheme of the high-efficiency motor winding splicing device, the application comprises the following steps: the fixed subassembly includes the dwang, a plurality of rectangular channels have been seted up on the winding roller, the dwang rotates to be connected on the rectangular channel inside wall, the arc wall has been seted up to the rectangular inslot, a plurality of spouts have been seted up on the outer one side inner wall of arc wall, sliding connection has the slide bar on the spout inside wall, fixedly connected with second spring between slide bar and the spout inner wall, a plurality of common fixedly connected with depression bar on the slide bar, be equipped with the third inclined plane on the depression bar.

As a preferred scheme of the high-efficiency motor winding splicing device, the application comprises the following steps: the wire inlet assembly comprises a moving block, the moving block is arranged above the rotating rod obliquely, a C-shaped plate is fixedly connected to the moving block, electric rollers are symmetrically arranged in the C-shaped plate, electric telescopic rods are symmetrically and fixedly connected to the inner walls of the C-shaped plate, and cutters are fixedly connected to the electric telescopic rods.

As a preferred scheme of the high-efficiency motor winding splicing device, the application comprises the following steps: the movable assembly comprises a reciprocating screw, the reciprocating screw is rotationally connected to the vertical plate, the movable block is in threaded connection with the reciprocating screw, the vertical plate is fixedly connected with a guide rod, the movable block is slidably connected to the guide rod, the vertical plate is fixedly connected with an L-shaped plate, the reciprocating screw is rotationally connected to the L-shaped plate, and the guide rod is fixedly connected to the L-shaped plate.

As a preferred scheme of the high-efficiency motor winding splicing device, the application comprises the following steps: the driving assembly comprises a driving wheel which is fixedly connected to the rotating rod, a driven driving wheel is fixedly connected to the reciprocating screw rod, and a driving belt is arranged between the driven driving wheel and the driving wheel.

As a preferred scheme of the high-efficiency motor winding splicing device, the application comprises the following steps: the pressing component comprises two elastic telescopic rods, and the two elastic telescopic rods are fixedly connected with pressing rods.

The application has the beneficial effects that:

1. when the device is used, a user sleeves the winding roller on the rotating rod, then the electromagnet is started to attract the moving rod, the moving rod is driven to move leftwards, the extrusion plate moves leftwards, the extrusion plate is matched with the second inclined plane through the first inclined plane, when the extrusion plate contacts with the ejector rod, the ejector rod can be extruded to move outwards, the arc-shaped retaining plate is driven to move outwards, the inner wall of the winding roller is pressed against, the winding roller is arranged on the rotating rod, the device can be suitable for winding rollers with various specifications, and the applicability of the device is improved.

2. When the winding is finished, the electric telescopic rod is started, the cutter is driven to move inwards to cut the metal wire, the user takes down the winding roller, then installs the winding roller to be wound, then starts the electric roller, so that metal moves towards the winding roller, after the metal wire is inserted into the rectangular groove, the metal wire extends into the arc groove under the action of the rolling rod, and contacts with the pressing rod, under the action of the third inclined plane, the pressing rod is jacked up, then the metal wire is pressed and fixed under the action of the second spring, namely, the wire is fixed, the workload of workers is reduced, and the working efficiency is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

fig. 1 is a schematic diagram of the overall front structure of a splicing device for winding a high-efficiency motor according to the present application;

FIG. 2 is a schematic view of a part of the structure of FIG. 1;

FIG. 3 is a schematic view of the partial cross-sectional structure of FIG. 2;

FIG. 4 is a schematic view of the partial structure of FIG. 1;

FIG. 5 is a schematic cross-sectional view of FIG. 4;

fig. 6 is a schematic view of a partial structure of fig. 1.

In the figure: 100. a main body unit; 101. a base; 102. a vertical plate; 200. a winding unit; 201. a motor; 202. a rotating lever; 203. a mounting assembly; 203a, a cavity; 203b, a moving rod; 203c, a squeeze plate; 203d, a push rod; 203e, arc-shaped retaining plates; 204. a power assembly; 204a, an electromagnet; 204b, a fixed plate; 204c, a first spring; 205. a wire winding roller; 206. a fixing assembly; 206a, rectangular slots; 206b, an arcuate slot; 206c, a scroll bar; 206d, a sliding rod; 206e, a second spring; 206f, a compression bar; 207. a wire inlet assembly; 207a, a moving block; 207b, C-plate; 207c, an electric roller; 207d, an electric telescopic rod; 207e, a cutter; 208. a moving assembly; 208a, a reciprocating screw; 208b, a guide bar; 208c, an L-shaped plate; 209. a transmission assembly; 209a, a driving transmission wheel; 209b, driven transmission wheel; 209c, a transmission belt; 210. a pressing component; 210a, an elastic telescopic rod; 210b, a support rod.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the application. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Further, in describing the embodiments of the present application in detail, the cross-sectional view of the device structure is not partially enlarged to a general scale for convenience of description, and the schematic is only an example, which should not limit the scope of protection of the present application. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

Referring to fig. 1-6, the present application provides a high efficiency splicing apparatus for motor windings, comprising:

the main body unit 100 comprises a base 101, and a vertical plate 102 is fixedly connected to the base 101;

the winding unit 200 comprises a motor 201, the motor 201 is arranged on a vertical plate 102, the output end of the vertical plate 102 is fixedly connected with a rotating rod 202, a winding roller 205 is sleeved on the rotating rod 202, a mounting assembly 203 is arranged between the rotating rod 202 and the winding roller 205, a power assembly 204 used for driving the mounting assembly 203 is arranged in the rotating rod 202, a fixing assembly 206 is arranged in the winding roller 205, a wire inlet assembly 207 is arranged above the winding roller 205, a moving assembly 208 used for moving the wire inlet assembly 207 is arranged on the vertical plate 102, a transmission assembly 209 is arranged between the mounting assembly 203 and the moving assembly 208, and a pressing assembly 210 is arranged on a base 101.

The installation assembly 203 comprises a moving rod 203b, a cavity 203a is arranged in the moving rod 202, the moving rod 203b is inserted into the right side wall of the cavity 203a in a sliding manner, a plurality of extrusion plates 203c are fixedly connected to the moving rod 203b, a plurality of push rods 203d are inserted into the moving rod 202 in a sliding manner, a first inclined plane and a second inclined plane are respectively arranged on the extrusion plates 203c and the push rods 203d, the first inclined plane is matched with the second inclined plane, an arc-shaped retaining plate 203e is fixedly connected to the push rods 203d, when the moving rod 203b moves left and right, the extrusion plates 203c can be driven to move left and right, and when the extrusion plates 203c are contacted with the push rods 203d, the push rods 203d can be extruded to move outwards, the arc-shaped retaining plates 203e are driven to move outwards, the inner walls of the winding rollers 205 are pressed, and the winding rollers 205 are installed on the rotating rod 202.

Further, the power assembly 204 includes an electromagnet 204a, the electromagnet 204a is disposed on the left side wall of the cavity 203a, the moving rod 203b is made of metal iron, the moving rod 203b is matched with the electromagnet 204a, a fixed plate 204b is fixedly connected to the moving rod 203b, and a first spring 204c is fixedly connected between the fixed plate 204b and the right side wall of the cavity 203a, so that when the electromagnet 204a is started, the moving rod 203b can be attracted to drive the moving rod 203b to move to the left side, and when the electromagnet 204a is closed, the moving rod 203b can move to the right side under the action of the first spring 204c to perform resetting.

Further, the fixing component 206 includes a rolling rod 206c, a plurality of rectangular grooves 206a are formed on the winding roller 205, the rolling rod 206c is rotatably connected to the inner side wall of the rectangular groove 206a, an arc groove 206b is formed in the rectangular groove 206a, a plurality of sliding grooves are formed in the inner wall of the outer side of the arc groove 206b, a sliding rod 206d is slidably connected to the inner side wall of the sliding groove, a second spring 206e is fixedly connected between the sliding rod 206d and the inner wall of the sliding groove, a pressing rod 206f is fixedly connected to the sliding rods 206d together, and a third inclined plane is formed on the pressing rod 206f, so that when a metal wire is inserted into the rectangular groove 206a, the metal wire extends into the arc groove 206b under the action of the rolling rod 206c and contacts with the pressing rod 206f, the pressing rod 206f is jacked under the action of the third inclined plane, and then the metal wire is pressed and fixed under the action of the second spring 206 e.

Further, the wire inlet assembly 207 comprises a moving block 207a, the moving block 207a is arranged above the rotating rod 202 in an inclined mode, a C-shaped plate 207b is fixedly connected to the moving block 207a, electric rollers 207C are symmetrically arranged in the C-shaped plate 207b, electric telescopic rods 207d are symmetrically and fixedly connected to the inner wall of the C-shaped plate 207b, cutters 207e are fixedly connected to the electric telescopic rods 207d, so that metal wires penetrate through the two electric rollers 207C, when the electric rollers 207C are started, the metal wires can be driven to move, and meanwhile the cutters 207e can be driven to move inwards through the electric telescopic rods 207d to cut the metal wires.

Further, the moving assembly 208 includes a reciprocating screw 208a, the reciprocating screw 208a is rotatably connected to the vertical plate 102, the moving block 207a is threadedly connected to the reciprocating screw 208a, the vertical plate 102 is fixedly connected with a guide rod 208b, the moving block 207a is slidably connected to the guide rod 208b, the vertical plate 102 is fixedly connected with an L-shaped plate 208c, the reciprocating screw 208a is rotatably connected to the L-shaped plate 208c, and the guide rod 208b is fixedly connected to the L-shaped plate 208c, so that when the reciprocating screw 208a rotates, the moving block 207a can be driven to move left and right, and when a wire is wound, the metal wire can move left and right under the action of the moving block 207a, so that the metal wire is uniformly wound on the winding roller 205.

Further, the driving assembly 209 includes a driving wheel 209a, the driving wheel 209a is fixedly connected to the rotating rod 202, a driven driving wheel 209b is fixedly connected to the reciprocating screw 208a, and a driving belt 209c is disposed between the driven driving wheel 209b and the driving wheel 209a, so that when the motor 201 is started, the rotating rod 202 can be driven to rotate, the driving wheel 209a rotates, and the driven driving wheel 209b is driven to rotate under the action of the driving belt 209 c.

Furthermore, the pressing assembly 210 includes two elastic telescopic rods 210a, and the two elastic telescopic rods 210a are fixedly connected with a pressing rod 210b, so that the pressing rod 210b can be pressed against the winding roller 205 by the action of the elastic telescopic rods 210a when the device is used for winding, and the loose phenomenon of the wound metal wire is avoided.

In the use process, a user sleeves the winding roller 205 on the rotating rod 202, then starts the electromagnet 204a to attract the moving rod 203b, drives the moving rod 203b to move leftwards, enables the extrusion plate 203c to move leftwards, and enables the extrusion plate 203c to be extruded to move outwards through the cooperation of the first inclined plane and the second inclined plane when the extrusion plate 203c is contacted with the ejector rod 203d, drives the arc-shaped abutting plate 203e to move outwards, and abuts against the inner wall of the winding roller 205, so that the winding roller 205 is arranged on the rotating rod 202, and the device can be suitable for winding rollers 205 with various specifications; when winding is completed, the electric telescopic rod 207d is started to drive the cutter 207e to move inwards to cut the metal wire, a user takes down the winding roller 205, then installs the winding roller 205 to be wound, then starts the electric roller 207c to enable metal to move towards the winding roller 205, after the metal wire is inserted into the rectangular groove 206a, the metal wire extends into the arc groove 206b under the action of the rolling rod 206c and contacts with the pressing rod 206f, the pressing rod 206f is jacked under the action of the third inclined plane, then the metal wire is pressed and fixed under the action of the second spring 206e, and therefore the wire is fixed, the workload of workers is reduced, and the working efficiency is improved.

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (8)

1. The utility model provides a high-efficient motor wire winding is with continuing to connect device which characterized in that: comprising the following steps:

the main body unit (100) comprises a base (101), wherein a vertical plate (102) is fixedly connected to the base (101);

winding unit (200), including motor (201), motor (201) set up on riser (102), riser (102) output fixedly connected with dwang (202)), the cover is equipped with winding roller (205) on dwang (202), be equipped with installation component (203) between dwang (202) and winding roller (205), be equipped with in dwang (202) and be used for driving power component (204) of installation component (203), be equipped with fixed subassembly (206) in winding roller (205), winding roller (205) top is equipped with inlet wire subassembly (207), be equipped with on riser (102) and be used for removing moving assembly (208) of inlet wire subassembly (207), be equipped with transmission subassembly (209) between installation component (203) and moving assembly (208), be equipped with on base (101) and support pressure subassembly (210).

2. The high efficiency motor winding splice device of claim 1, wherein: the installation component (203) comprises a movable rod (203 b), a cavity (203 a) is arranged in the rotary rod (202), the movable rod (203 b) is inserted on the right side wall of the cavity (203 a) in a sliding mode, a plurality of extrusion plates (203 c) are fixedly connected to the movable rod (203 b), a plurality of ejector rods (203 d) are inserted on the rotary rod (202) in a sliding mode, a first inclined plane and a second inclined plane are respectively arranged on the extrusion plates (203 c) and the ejector rods (203 d), the first inclined plane is matched with the second inclined plane, and arc-shaped retaining plates (203 e) are fixedly connected to the ejector rods (203 d).

3. The splicing device for high-efficiency motor windings according to claim 2, wherein: the power assembly (204) comprises an electromagnet (204 a), the electromagnet (204 a) is arranged on the left side wall of the cavity (203 a), the moving rod (203 b) is made of metal iron, the moving rod (203 b) is matched with the electromagnet (204 a), a fixed plate (204 b) is fixedly connected to the moving rod (203 b), and a first spring (204 c) is fixedly connected between the fixed plate (204 b) and the right side wall of the cavity (203 a).

4. A high efficiency motor winding splicing apparatus according to claim 3, wherein: the fixed component (206) comprises a rolling rod (206 c), a plurality of rectangular grooves (206 a) are formed in the winding roller (205), the rolling rod (206 c) is rotationally connected to the inner side wall of the rectangular groove (206 a), an arc groove (206 b) is formed in the rectangular groove (206 a), a plurality of sliding grooves are formed in the inner wall of the outer side of the arc groove (206 b), a sliding rod (206 d) is connected to the inner side wall of the sliding groove in a sliding mode, a second spring (206 e) is fixedly connected between the sliding rod (206 d) and the inner wall of the sliding groove, a pressing rod (206 f) is fixedly connected to the sliding rod (206 d) in a common mode, and a third inclined surface is formed in the pressing rod (206 f).

5. The splicing device for high-efficiency motor windings according to claim 4, wherein: inlet wire subassembly (207) are including movable block (207 a), movable block (207 a) set up in dwang (202) oblique top, fixedly connected with C template (207 b) on movable block (207 a), the symmetry is equipped with electronic gyro wheel (207C) in C template (207 b), symmetry fixedly connected with electric telescopic handle (207 d) on C template (207 b) inner wall, fixedly connected with cutter (207 e) on electric telescopic handle (207 d).

6. The high efficiency motor winding splice device of claim 5, wherein: the movable assembly (208) comprises a reciprocating screw (208 a), the reciprocating screw (208 a) is rotationally connected to the vertical plate (102), the movable block (207 a) is in threaded connection with the reciprocating screw (208 a), a guide rod (208 b) is fixedly connected to the vertical plate (102), the movable block (207 a) is slidably connected to the guide rod (208 b), an L-shaped plate (208 c) is fixedly connected to the vertical plate (102), the reciprocating screw (208 a) is rotationally connected to the L-shaped plate (208 c), and the guide rod (208 b) is fixedly connected to the L-shaped plate (208 c).

7. The high efficiency motor winding splice device of claim 6, wherein: the transmission assembly (209) comprises a driving transmission wheel (209 a), the driving transmission wheel (209 a) is fixedly connected to the rotating rod (202), a driven transmission wheel (209 b) is fixedly connected to the reciprocating screw (208 a), and a transmission belt (209 c) is arranged between the driven transmission wheel (209 b) and the driving transmission wheel (209 a).

8. The high efficiency motor winding splice device of claim 7, wherein: the pressing assembly (210) comprises two elastic telescopic rods (210 a), and the two elastic telescopic rods (210 a) are fixedly connected with a pressing rod (210 b) together.