CN216072462U - Photo frame power line winding equipment - Google Patents

Abstract

The utility model discloses a photo frame power line winding device, comprising: the power line winding mechanism is used for rotating around the vertical rotating shaft and winding the power line from bottom to top or from top to bottom one by one; the power line straightening mechanism is used for straightening a power line to be wound between the power line straightening mechanism and the power line winding mechanism, which is led out from the power line winding mechanism, and the power line straightening mechanism is gradually raised or lowered along with the power line rotating coil winding so as to keep the power line to be wound horizontal.

Description

Photo frame power line winding equipment

Technical Field

The utility model relates to the field of photo frame power line winding, in particular to photo frame power line winding equipment.

Background

The production line photo frame power cord winding process is that a photo frame power cord of coming material carries out the wire winding processing according to the shape of customer's demand through artifical supplementary tool mode again, and such production mode is more expending time and cost of labor, and staff fatigue strength is very big moreover, and the power cord uniformity of having wound up also has the difference, is difficult to satisfy the customer requirement.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problems that time and labor cost are consumed in winding one photo frame power line which is supplied in the existing production according to the shape required by a customer in a mode of manually adding an auxiliary jig, and the photo frame power line winding equipment is provided.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a picture frame power cord winding apparatus is constructed comprising:

the power line winding mechanism is used for rotating around the vertical rotating shaft and winding the power line from bottom to top or from top to bottom one by one;

the power line straightening mechanism is used for straightening a power line to be wound between the power line straightening mechanism and the power line winding mechanism, wherein the power line is led out from the power line winding mechanism, and the power line straightening mechanism is gradually raised or lowered along with the power line rotating winding so as to keep the power line to be wound horizontal.

Preferably, the power cord straightening device further comprises a power cord positioning mechanism and a panel used for bearing the power cord winding mechanism, the power cord positioning mechanism and the power cord straightening mechanism, wherein the power cord positioning mechanism is fixedly connected with the power cord winding mechanism and used for fixing the head of the power cord.

Preferably, the power cord winding mechanism comprises a rotating disc, a winding jig mounted on the rotating disc and used for winding the power cord, and a first motor driving the rotating disc to rotate.

Preferably, the circumferential side wall of the winding jig is provided with a plurality of corners, the power cord winding mechanism further comprises a rotating shaft, a first coupling, a first rotating bearing seat fixed above the panel and penetrating the panel, and a plurality of first panel fixing columns fixed below the panel, the lower ends of the first panel fixing columns are fixedly connected with a first motor fixing plate, the panel and the first motor fixing plate are both horizontally arranged, the first motor is fixedly connected below the first motor fixing plate, the rotating shaft of the first motor penetrates through the first motor fixing plate to be fixedly connected with one end of the first coupler, the first rotary bearing seat is internally provided with a ball bearing up and down, the small end of the rotary shaft penetrates through the two ball bearings of the first rotary bearing seat and is fixedly connected with the other end of the first coupler, and the large end of the rotary shaft is fixedly connected with the rotary disc.

Preferably, the power line positioning mechanism includes a positioning support plate, the positioning support plate with rotary disk bottom fixed connection, offer the plug recess that is used for placing the power line plug and the flip that is used for compressing tightly the plug on the positioning support plate, lean on the positioning support plate the fixed connection supporting seat in position of plug recess, flip through the pivot with the supporting seat is articulated, lean on the rotary disk power line positioning mechanism's position set up one with the power line guide that the plug was drawn to the breach of wire winding tool.

Preferably, the power line straightening mechanism comprises a power line supporting plate, a vertical lifting mechanism, two power line clamping bearing seats which are equal in height and are arranged side by side in the front and back direction, and a tension spring, wherein the vertical lifting mechanism is used for driving the power line supporting plate to move up and down;

the power line clamping bearing seat is fixedly connected with the power line supporting plate, the power line clamping bearing seat is rotatably connected with the power line supporting plate, the power line supporting plate is connected with the power line clamping bearing seat through a tension spring, the power line clamping bearing seat drives the power line clamping bearing seat to move towards the first power line clamping bearing seat, and therefore the power line is clamped and straightened.

Preferably, a ball bearing is respectively arranged at the upper part and the lower part in each power line clamping bearing seat, and a C-shaped clamping ring is arranged at the outer side of the lower ball bearing to realize longitudinal limiting;

a tension spring fixing block and a tension spring moving block are arranged below the power line supporting plate, one end of the tension spring fixing block is locked below the power line supporting plate, the other end of the tension spring fixing block is penetrated through a first power line clamping bearing seat through a screw column and is connected with two ball bearings, one end of the tension spring moving block is connected below the power line supporting plate after penetrating through the rotating bush through a tension spring moving block rotating shaft, the other end of the tension spring moving block is penetrated through a second power cord clamping bearing seat through a screw post and is connected with two ball bearings, the tension spring fixing block is connected with the tension spring moving block through a tension spring, under the action of the elasticity of the tension spring, the tension spring moving block drives the second power line clamping bearing seat to approach to the first power line clamping bearing seat by taking a tension spring moving block rotating shaft as a fulcrum.

Preferably, vertical elevating system includes second motor, lead screw and inductor, the power cord backup pad with the lead screw is connected, wear to establish the connection inductor in the power cord backup pad, the inductor is used for the response to treat that winding power cord triggers when placing the level the second motor drive the lead screw drives tight power cord steady step-up/reduction in the power cord backup pad to the winding power cord level is treated in the maintenance.

Preferably, the vertical lift mechanism further comprises: the second rotating bearing seat, two linear bearings fixed above the panel, a plurality of second panel fixing columns below the fixed panel and a second rotating bearing seat fixing plate;

the lower parts of the second panel fixing columns are fixedly connected with a second rotating bearing seat fixing plate, the center of the second rotating bearing seat fixing plate is connected with a second rotating bearing seat in a penetrating way, a ball bearing is respectively arranged at the upper part and the lower part in the second rotating bearing seat, a plurality of second motor fixing plate supporting columns are fixedly connected with the lower parts of the second rotating bearing seat fixing plate, a second motor fixing plate is fixedly connected with the lower parts of the second motor fixing plate supporting columns, the lower parts of the second motor fixing plate are fixedly connected with a second motor, the rotating shaft of the second motor penetrates through the second motor fixing plate and is fixedly connected with one end of a second coupler, the other end of the second coupler is fixedly connected with one end of a screw rod, and the other end of the screw rod penetrates through two ball bearings in the second rotating bearing seat and a screw rod fixing seat and then is fixedly connected with a panel, the lead screw fixing seat is connected with the guide shaft fixing plate in a penetrating mode, the lower end of the guide shaft is fixedly connected to the two sides of the guide shaft fixing plate respectively, the upper end of the guide shaft penetrates through the two linear bearings and the power line supporting plate and is fixedly connected with the two linear bearings, and the tension spring fixing block and the tension spring moving block are arranged between the two guide shafts side by side.

Preferably, the electric cabinet is used for receiving external electric and carrying internal required electric elements, and the panel is mounted on the electric cabinet;

the electric cabinet include the bottom plate and with front panel, left side board, back plate, the right side board that the bottom plate periphery is connected, set up control circuit on the bottom plate, front panel, left side board, back plate, right side board are connected gradually to the bottom plate border, and the front panel includes the front panel and connects in the button mounting panel that the slope of front panel topside set up, fixed connection operating button on the button mounting panel, left side board fixed connection case and bag snap ring, right side board fixed connection hinge, the panel with the bottom plate is just to setting up, the panel right side is connected with the hinge of right side board, the case and bag buckle is connected with the case and bag snap ring looks interlock on the left side board and is locked the panel in the panel left side, be provided with the operation switching button that is used for manual and automatic wire winding mode to switch on the panel.

The photo frame power line winding equipment has the following beneficial effects: the photo frame power line winding equipment is simple in structure and convenient to operate, and can help people to complete power line winding rapidly, so that the production efficiency is improved, the labor cost is reduced, the fatigue strength of staff is reduced, and the consistency of power line winding is ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts:

FIG. 1 is a schematic structural diagram of an embodiment of a picture frame power cord winding apparatus according to the present invention;

FIG. 2 is an exploded view of an embodiment of the picture frame power cord spooling apparatus of the present invention;

FIG. 3 is an exploded view of the electrical cabinet;

FIG. 4 is an exploded view of the rack platform;

FIG. 5 is an exploded view of the power cord winding mechanism;

FIG. 6 is an exploded view of the power cord positioning mechanism;

figure 7 is an exploded view of the power cord straightening mechanism.

Detailed Description

To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Exemplary embodiments of the utility model are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model.

The terms including ordinal numbers such as "first", "second", and the like used in the present specification may be used to describe various components, but the components are not limited by the terms. These terms are used only for the purpose of distinguishing one constituent element from other constituent elements. For example, a first component may be named a second component, and similarly, a second component may also be named a first component, without departing from the scope of the present invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The general idea of the utility model is as follows: on the one hand, power cord winding mechanism is rotatory around vertical rotation axis, with the power cord from down up or from the top down winding circle by circle, on the other hand, power cord straightening mechanism will follow that power cord winding mechanism draws power cord straightening mechanism with the power cord between the mechanism treating winding power cord straightens, just power cord straightening mechanism is along with power cord changes the circle winding and progressively risees or reduce in order to keep treating the winding power cord level.

In order to better understand the technical solutions, the technical solutions will be described in detail below with reference to the drawings and the specific embodiments of the specification, and it should be understood that the embodiments and specific features of the embodiments of the present invention are detailed descriptions of the technical solutions of the present application, and are not limited to the technical solutions of the present application, and the technical features of the embodiments and examples of the present invention may be combined with each other without conflict.

Referring to fig. 1-2, in an embodiment of the present invention, a picture frame power line winding apparatus includes an electric cabinet 10 and a rack platform 30 fixedly connected to an upper portion of the electric cabinet 10.

The electric cabinet 10 is used for receiving external electric and carrying internal required electric elements. Referring to fig. 3, the electric cabinet 10 includes a bottom plate 29 and a front panel, a left side plate 27, a back plate 11, a right side plate 15, four foot pads 24 fixedly connected to the periphery of the bottom plate 29, the bottom plate 11 has four circles of fixedly connected foot pads 24, the front panel, the left side plate 27, the back plate 11 and the right side plate 15 are sequentially connected to the periphery of the bottom plate, the front panel includes a front plate 22 and a button mounting plate 20 connected to the top edge of the front plate 22, a fixed connection operating button is arranged on the button mounting plate 20, two case snap rings 12 and a handle 28 are fixedly connected to the left side plate 27, a hinge 16 and a handle 28 are fixedly connected to the right side plate 15, and a power socket 13 and a ship-type switch 14 are fixedly connected to the back plate 11.

The bottom plate 29 is provided with a control circuit comprising a motor driver 25, a circuit control board 23 and a power supply 26. The operation button and circuit control board 23 specifically comprises two start buttons 19, a reset button 18 and an emergency stop switch 21, and the button mounting plate 20 is further provided with a button locking block 17 for fixing the two start buttons 19 and the reset button 18. When both start buttons 19 are pressed simultaneously, the circuit control board 23 is informed that the automatic winding operation can be started. When the reset button 18 is pressed, the circuit control board 23 controls the whole device to reset, mainly all the motors. When the emergency stop switch 21 is pressed, the circuit control board 23 controls the whole equipment to stop working, mainly all motors stop working. The power socket 13 is used for inserting an external power supply, and the ship-shaped switch 14 is connected with the power socket 13 and used for controlling whether the external power supply is connected for use.

Referring to fig. 2 and 4, the rack platform 30 includes a panel 32, a power line straightening mechanism 31, a power line winding mechanism 35, and a power line positioning mechanism 38. The panel 32 is installed on the electric cabinet 10, and the panel 32 is used for carrying the power cord winding mechanism 35, the power cord positioning mechanism 38 and the power cord straightening mechanism 31. The power cord positioning mechanism 38 is fixedly connected to the power cord winding mechanism 35 for fixing the head of the power cord 366. The power cord winding mechanism 35 is configured to rotate around a vertical rotation axis to wind the power cord 366 from bottom to top. The power cord straightening mechanism 31 is used for straightening the power cord 366 to be wound between the power cord straightening mechanism 31 and the power cord winding mechanism 35, wherein the power cord 366 is led out from the power cord winding mechanism 35, and the power cord straightening mechanism 31 is gradually lifted along with the power cord 366 wound in turns so as to keep the power cord 366 to be wound horizontal.

It is understood that the power cord 366 may also be wound from top to bottom, and the power cord straightening mechanism 31 is gradually lowered as the power cord 366 winds around to keep the power cord 366 to be wound between the power cord straightening mechanism 31 and the power cord winding mechanism 35 horizontal. This is only required to adjust the initial height and the rotation direction of the power cord straightening mechanism 31 and the power cord winding mechanism 35.

Referring to fig. 2, the panel 32 is horizontally disposed, the panel 32 is disposed opposite to the bottom plate 29, the right side of the panel 32 is connected to the hinge 16 of the right side plate 15, and the left side of the panel 32 is connected to two luggage buckles 37 to be engaged with the two luggage snap rings 12 on the left side plate 27 to lock the panel 32. The panel 32 is provided with an operation switching button 33 and a touch display screen 34 by a front edge position, the operation switching button 33 is used for switching between a manual winding mode and an automatic winding mode, and the touch display screen 34 is used for adjusting and setting various parameters of a motor. The center line of the front and back sides of the panel 32 is provided with a power line positioning mechanism 38, a power line winding mechanism 35 and a power line straightening mechanism 31 in sequence from right to left.

Referring to fig. 5, in conjunction with fig. 2 and 4, the power cord winding mechanism 35 includes: the panel rotating mechanism comprises a horizontally arranged rotating disk 388, a winding jig 359 which is installed on the rotating disk 388 and used for winding a power line 366, a first motor 355 which drives the rotating disk 388 to rotate, a rotating shaft 357, a first rotating bearing seat 353 which is fixed above the panel 32 and penetrates through the panel 32, four first panel fixing columns 356 which are fixed below the panel 32, and a first motor fixing plate 354.

The four first panel fixing posts 356 are vertically arranged, the upper ends of the four first panel fixing posts 356 are connected to the panel 32, the lower ends of the four first panel fixing posts are fixedly connected to the first motor fixing plate 354, the panel 32 and the first motor fixing plate 354 are horizontally arranged, the lower side of the first motor fixing plate 354 is fixedly connected to the first motor 355, the rotating shaft of the first motor 355 penetrates through the first motor fixing plate 354 to be fixedly connected to one end of the first coupling 360, the first rotating bearing seat 353 is internally provided with one ball bearing 352 up and down, the small end of the rotating shaft 357 penetrates through the two ball bearings 352 of the first rotating bearing seat 353 and is fixedly connected to the other end of the first coupling 360, and the large end of the rotating shaft 357 is fixedly connected to the rotating disc 388.

The winding jig 359 has a plurality of corners on a circumferential sidewall thereof, for example, in the present embodiment, the winding jig 359 has a substantially triangular prism shape. Two positioning pins 351 are arranged above the rotating disc 388, and the winding jig 359 penetrates through the two positioning pins 351 and is connected with the rotating disc 388 in a bolt connection mode and the like.

The power cord winding mechanism 35 is a main structure of a winding device and mainly drives a power cord plug 386 to rotate and wind a power cord 366 from one end of the power cord plug 386 under the driving action of a first motor 355; the power cord winding mechanism 35 is fixedly connected with the power cord positioning mechanism 38 at the right lower side of the rotary disc 388, a notch for clamping the power cord 366 is formed in the position, close to the power cord positioning mechanism 38, on the rotary disc 388, and the shape and the size of the notch meet the requirement that the power cord led out by the plug can be guided to the winding jig.

In addition, three sides of the winding jig 359 are also provided with inward-recessed avoidance groove notches, so that the ribbon line card can be taken out to penetrate through the three sides of the winding jig 359 to avoid the groove notches to clamp the wound power line 366 after the winding is finished.

Referring to fig. 6, with reference to fig. 2 and 4, the power line positioning mechanism 38 includes a positioning carrier plate 385, the positioning carrier plate 385 is fixedly connected to the bottom of the rotating disc 388, a plug groove for placing a power line plug 386 and a flip cover 382 for pressing the plug are formed on the positioning carrier plate 385, a groove is formed at the bottom of the flip cover 382, and the groove at the bottom of the flip cover 382 and the plug groove on the positioning carrier plate 385 jointly accommodate and enclose the power line plug 386. Specifically, the front side and the rear side of the plug groove of the positioning carrier plate 365 are respectively provided with a limiting block 384, and the two limiting blocks 384 are used for limiting the power line plug 386. The positioning carrier 385 is fixedly connected to the supporting seat 381 at a position close to the plug groove thereof, and the flip cover 382 is hinged to the supporting seat 381 through a rotating shaft 383. The power cord positioning mechanism 38 is mainly used for positioning and pressing the power cord plug 386 to prevent the power cord 366 from being wound and loosened due to the movement of the plug 386 in the winding process.

Referring to fig. 7, with reference to fig. 2 and 4, the power cord straightening mechanism 31 includes a power cord supporting plate 323, a vertical lifting mechanism, two power cord clamping bearing seats 325 that are equal in height and are arranged side by side in front and back, and a tension spring 319, wherein a power cord to be wound of the power cord winding mechanism 30 is horizontally straightened in the left-right direction and continuously laid on the power cord supporting plate 323 in the left-right direction after passing through between circumferential side walls of the two power cord clamping bearing seats 325.

The vertical lifting mechanism is used for driving the power line supporting plate 323 to move up and down, the first power line clamping bearing seat 325 is fixedly connected with the power line supporting plate 323, the second power line clamping bearing seat 325 is rotatably connected with the power line supporting plate 323, the two power line supporting plates 323 are connected through tension springs, the two power line clamping bearing seats 325 are connected through tension springs 319, and the second power line clamping bearing seat 325 is driven to move close to the first power line clamping bearing seat 325 under the action of the elasticity of the tension springs 319 so as to clamp and straighten the power line 366.

Specifically, the two power cord clamping bearing seats 325 are arranged on the right side of the power cord supporting plate 323, a ball bearing 324 is respectively arranged in each power cord clamping bearing seat 325 from top to bottom, a C-shaped snap ring 320 is arranged on the outer side of the lower ball bearing 324 to achieve longitudinal limiting, and a tension spring fixing block 318 and a tension spring moving block 329 are arranged below the power cord supporting plate 323. The left end of the tension spring fixing block 318 is locked below the power cord supporting plate 323, and the right end of the tension spring fixing block is provided with a first power cord clamping bearing seat 325 in a penetrating way through a screw column 322 and is connected with two ball bearings 324. The left end of the tension spring moving block 329 is connected below the power cord supporting plate 323 after penetrating through a rotating bushing 328 through a tension spring moving block rotating shaft 327, and the right end of the tension spring moving block 329 is penetrated through a second power cord clamping bearing seat 325 through a screw column 326 and is connected with two ball bearings 324 therein. The tension spring fixing block 318 is connected with the tension spring moving block 329 through the tension spring 319, and under the action of the elastic force of the tension spring 319, the tension spring moving block 329 drives the second power line clamping bearing seat 325 to approach the first power line clamping bearing seat 325 by taking a tension spring moving block rotating shaft 327 as a fulcrum

Specifically, the vertical lifting mechanism includes a second motor 311, a lead screw 316 and an inductor 321, the power line support plate 323 is connected to the lead screw 316, the inductor 321 is inserted and connected to the power line support plate 323 at a position close to two power line clamping bearing seats 325, the inductor 321 is connected to the circuit control board 23 inside the electric cabinet 10 through the panel 32, the inductor 321 (which may employ sensors such as distance and inclination angle) can sense whether the power line 366 is placed horizontally, for example, the height of the circuit control board 23 is adjusted, so that the horizontally placed power line 366 is right above the inductor 321 by a certain distance, once the inductor 321 senses that the power line 366 is placed horizontally, the trigger circuit control board 23 controls the lead screw 316 to drive the power line 366 clamped on the power line support plate 323 to stably rise upwards (if winding is from top to bottom, it is steadily lowered) to keep the power line 366 to be wound horizontal so that the power line is wound one layer above the other from below in synchronization with the winding jig 359 on the power line winding mechanism 35, the inductor 321 induces the power line 366 and feeds back a signal to the circuit control board 23 so that the circuit control board 23 gives an instruction to the motor driver 25. The power line straightening and clamping mechanism 31 is used for straightening and clamping the tail of the power line and gradually lifting along with the screw rod 316.

More specifically, the vertical lift mechanism further comprises: a second rotary bearing seat 333, two linear bearings 317 fixed above the panel 32, a plurality of second panel fixing posts 315 below the fixed panel 32, and a second rotary bearing seat fixing plate 314. The second rotating bearing seat fixing plates 314 are fixedly connected below the second panel fixing columns 315, the second rotating bearing seat fixing plates 314 are connected with the second rotating bearing seats 333 in a penetrating manner at the center, a ball bearing 334 is respectively arranged at the upper part and the lower part inside the second rotating bearing seats 333, a plurality of second motor fixing plate supporting columns 313 are fixedly connected below the second rotating bearing seat fixing plates 314, a second motor fixing plate 312 is fixedly connected below the second motor fixing plate supporting columns 313, the second motor 311 is fixedly connected below the second motor fixing plate 312, the rotating shaft of the second motor 311 penetrates through the second motor fixing plate 312 and is fixedly connected with one end of a second coupling 335, the other end of the second coupling 335 is fixedly connected with one end of a screw rod 316, and the other end of the screw rod 316 penetrates through two ball bearings 334 inside the second rotating bearing seats 333 and the screw rod fixing seat 330 and is fixedly connected with the panel 32, the lead screw fixing seat 330 is connected with the guide shaft fixing plate 332 in a penetrating manner, the lower ends of the guide shafts 331 are fixedly connected to two sides of the guide shaft fixing plate 332 respectively, the upper ends of the two guide shafts 331 penetrate through the two linear bearings 317 to be fixedly connected with the power cord supporting plate 323, and the tension spring fixing block 318 and the tension spring moving block 329 are arranged between the two guide shafts 331 side by side.

The operation steps of the picture frame power line winding device of the embodiment are as follows: firstly, opening a flip 362 in a power line positioning mechanism 36, manually taking out a power line 366 of a photo frame to be wound, placing a plug at the head of the power line 366 downwards into a groove of a positioning carrier plate 365, and closing the flip 362 to tightly press the plug 366 of the power line; then the tail of the power line 366 is pulled out from the gap of the rotating disc 358 of the power line winding mechanism 35, the power line 366 is clamped between two power line clamping bearing seats 325 of the power line straightening and clamping mechanism 31 and straightened, finally the operation switching button 33 is rotated to an automatic mode, the reset button 18 is pressed, at the moment, the power line winding mechanism 35, the power line positioning mechanism 36, the power line straightening and clamping mechanism 31 and the power line 366 are automatically reset, the start button 19 is pressed by two hands, the winding jig 359 in the power line winding mechanism 35 drives the power line plug 366 in the power line positioning mechanism 36 to gradually lift and match the power line straightening and clamping mechanism 31, the power line 366 is wound layer by layer, after the power line 366 is wound, the binding band line card is taken out to pass through the gap of the three sides of the winding jig 359 to avoid the slot to clamp the wound power line 366, then the wound power line 366 is taken out along the winding jig 359, thereby completing the automatic winding action of the power cord 366 and executing the next picture frame power cord 366 winding.

In summary, the photo frame power line winding device provided by the utility model has the following beneficial effects: the photo frame power line winding equipment is simple in structure and convenient to operate, and can help people to complete power line winding rapidly, so that the production efficiency is improved, the labor cost is reduced, the fatigue strength of staff is reduced, and the consistency of power line winding is ensured.

It should be noted that, in the above operation steps of the present invention, the description of the step method is for better describing the present invention so as to better understand the present invention, and the method and the like related to the present invention are only routine adaptation applications of the prior art, and the present invention is substantially related to the connection relationship between hardware, not to the method itself, that is, the present invention relates to a point method, but does not include the improvement proposed to the method itself, in short, the description of the step method in the above operation steps of the present invention is for better describing the present invention so as to better understand the present invention.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims (10)

1. The utility model provides a photo holder frame power cord spooling equipment which characterized in that includes:

the power line winding mechanism is used for rotating around the vertical rotating shaft and winding the power line from bottom to top or from top to bottom one by one;

the power line straightening mechanism is used for straightening a power line to be wound between the power line straightening mechanism and the power line winding mechanism, wherein the power line is led out from the power line winding mechanism, and the power line straightening mechanism is gradually raised or lowered along with the power line rotating winding so as to keep the power line to be wound horizontal.

2. The picture frame power cord winding apparatus as claimed in claim 1, further comprising a power cord positioning mechanism and a panel for carrying the power cord winding mechanism, the power cord positioning mechanism and the power cord straightening mechanism, wherein the power cord positioning mechanism is fixedly connected to the power cord winding mechanism for fixing the head of the power cord.

3. The picture frame power cord winding apparatus as claimed in claim 2, wherein the power cord winding mechanism includes a rotary disc, a winding jig mounted on the rotary disc for winding a power cord, and a first motor for driving the rotary disc to rotate.

4. The photo frame power cord winding device as claimed in claim 3, wherein the winding jig has a plurality of corners on a circumferential side wall thereof, the power cord winding mechanism further comprises a rotating shaft, a first coupling, a first rotating bearing seat fixed above the panel and penetrating the panel, and a plurality of first panel fixing posts fixed below the panel, the lower ends of the plurality of first panel fixing posts are fixedly connected with a first motor fixing plate, the panel and the first motor fixing plate are both horizontally arranged, the first motor is fixedly connected below the first motor fixing plate, the rotating shaft of the first motor penetrates the first motor fixing plate and is fixedly connected with one end of the first coupling, the first rotating bearing seat is internally provided with a ball bearing at the upper and lower portions, the small end of the rotating shaft penetrates two ball bearings of the first rotating bearing seat and is fixedly connected with the other end of the first coupling, the large end of the rotating shaft is fixedly connected with the rotating disc.

5. The picture frame power line winding device as claimed in claim 3, wherein the power line positioning mechanism includes a positioning carrier plate rotatable with the rotating disk, the positioning carrier plate is fixedly connected to the bottom of the rotating disk, the positioning carrier plate is formed with a plug groove for placing a power line plug and a flip cover for pressing the plug, a support seat is fixedly connected to a position of the positioning carrier plate close to the plug groove, the flip cover is hinged to the support seat through a rotating shaft, and a notch for guiding a power line led out from the plug to the winding jig is formed in a position of the rotating disk close to the power line positioning mechanism.

6. The picture frame power line winding device as claimed in claim 3, wherein the power line straightening mechanism comprises a power line support plate, a vertical lifting mechanism, two power line clamping bearing seats which are equal in height and are arranged side by side in the front-back direction, and a tension spring, wherein the vertical lifting mechanism is used for driving the power line support plate to move up and down, a power line to be wound, which is led out by the power line winding mechanism, is horizontally straightened in the left-right direction and continuously and horizontally laid on the power line support plate in the left-right direction after passing through between the circumferential side walls of the two power line clamping bearing seats;

the power line clamping bearing seat is fixedly connected with the power line supporting plate, the power line clamping bearing seat is rotatably connected with the power line supporting plate, the power line supporting plate is connected with the power line clamping bearing seat through a tension spring, the power line clamping bearing seat drives the power line clamping bearing seat to move towards the first power line clamping bearing seat, and therefore the power line is clamped and straightened.

7. The picture frame power cord winding device as claimed in claim 6, wherein each power cord clamping bearing seat is internally provided with a ball bearing at the upper and lower sides, and a C-shaped snap ring is arranged outside the lower ball bearing to limit longitudinally;

a tension spring fixing block and a tension spring moving block are arranged below the power line supporting plate, one end of the tension spring fixing block is locked below the power line supporting plate, the other end of the tension spring fixing block is penetrated through a first power line clamping bearing seat through a screw column and is connected with two ball bearings, one end of the tension spring moving block is connected below the power line supporting plate after penetrating through the rotating bush through a tension spring moving block rotating shaft, the other end of the tension spring moving block is penetrated through a second power cord clamping bearing seat through a screw post and is connected with two ball bearings, the tension spring fixing block is connected with the tension spring moving block through a tension spring, under the action of the elasticity of the tension spring, the tension spring moving block drives the second power line clamping bearing seat to approach to the first power line clamping bearing seat by taking a tension spring moving block rotating shaft as a fulcrum.

8. The picture frame power cord winding apparatus as claimed in claim 7, wherein the vertical lifting mechanism comprises a second motor, a lead screw and an inductor, the power cord support plate is connected to the lead screw, the inductor is disposed on the power cord support plate in a penetrating manner, and the inductor is used for inducing the placement level of the power cord to be wound, triggering the second motor to drive the lead screw to drive the power cord clamped on the power cord support plate to stably rise/fall, so as to keep the power cord to be wound horizontal.

9. The picture frame power cord spooling apparatus of claim 8 wherein the vertical lift mechanism further comprises: the second rotating bearing block, the guide shaft fixing plate, two linear bearings fixed above the panel, a plurality of second panel fixing columns below the fixed panel and a second rotating bearing block fixing plate;

the lower ends of a plurality of second panel fixing columns are fixedly connected with a second rotating bearing seat fixing plate, the center of the second rotating bearing seat fixing plate is connected with a second rotating bearing seat in a penetrating way, a ball bearing is respectively arranged at the upper part and the lower part in the second rotating bearing seat, a plurality of second motor fixing plate supporting columns are fixedly connected below the second rotating bearing seat fixing plate, a second motor fixing plate is fixedly connected below the second motor fixing plate supporting columns, the second motor is fixedly connected below the second motor fixing plate, the rotating shaft of the second motor penetrates through the second motor fixing plate and then is fixedly connected with one end of a second coupling, the other end of the second coupling is fixedly connected with one end of a screw rod, and the other end of the screw rod penetrates through two ball bearings in the second rotating bearing seat and a screw rod fixing seat and then is fixedly connected with the panel, the lead screw fixing seat is connected with the guide shaft fixing plate in a penetrating mode, two sides of the guide shaft fixing plate are fixedly connected with the lower end of the guide shaft respectively, the upper end of the guide shaft penetrates through the two linear bearings and is fixedly connected with the bottom of the power line supporting plate, and the tension spring fixing block and the tension spring moving block are arranged between the two guide shafts side by side.

10. The picture frame power cord spooling apparatus of claim 2 further comprising an electrical cabinet for receiving external electrical and carrying internal electrical components, the panel mounted on the electrical cabinet;

the electric cabinet includes bottom plate, front panel, left side board, back plate, right side board, set up control circuit on the bottom plate, the bottom plate border connects gradually front panel, left side board, back plate, right side board, front panel include the front panel and connect in the button mounting panel of the slope setting on front panel topside, fixed connection operating button on the button mounting panel, left side board fixed connection case and bag snap ring, right side board fixed connection hinge, the panel with the bottom plate is just to setting up, the panel right side is connected with the hinge of right side board, the panel left side is connected case and bag buckle and is locked the panel with the interlock of case package snap ring looks on the left side board, be provided with the operation switching button that is used for manual and automatic winding mode to switch on the panel.

Images