CN210193076U - Upper shaft device of full-automatic winding machine - Google Patents

Abstract

The utility model discloses an upper shaft device of a full-automatic winding machine, which comprises a support frame, a shaft feeding assembly and a baffle assembly, wherein the shaft feeding assembly comprises a first slide plate frame, a second slide plate frame and an inclined slide plate, the first slide plate frame and the second slide plate frame are respectively arranged on the support frame, one side edge of the inclined slide plate is arranged on the first slide plate frame, the other side edge of the inclined slide plate is arranged on the second slide plate frame, and the inclined slide plate is provided with a chute; the baffle assembly comprises a first correlation inductor, a second correlation inductor and a plurality of baffle pieces, wherein the first correlation inductor and the second correlation inductor are respectively arranged on the inclined sliding plate, and the baffle pieces are respectively embedded in the sliding grooves. The utility model discloses a can place the spool automatically and treat the upper shaft region in, after the spooling equipment starts, can carry out the material loading to the spool, easy operation, simple to operate improves the material loading efficiency of spool greatly, has improved the wire-wound efficiency of spool wire-wound quantity and wire rod.

Description

Upper shaft device of full-automatic winding machine

Technical Field

The utility model relates to a spool spooling equipment field especially relates to an upper shaft device of full-automatic rolling machine.

Background

An automatic winding machine is a machine that winds a linear object around a specific workpiece. Most of electrical products need to be wound into an inductance coil by using an enameled copper wire (enameled wire for short), and a winding machine is needed. Such as various motors, fluorescent lamp ballasts, transformers of various sizes and televisions. The middle circumference and inductance coils of the radio, the line output transformer (high-voltage package), the high-voltage coils of the electronic igniter and the mosquito killer, the loudspeaker, the earphone, the voice coil of the microphone, various electric welding machines and the like can not be exemplified one by one, and the coils in the middle circumference and the inductance coils can be wound by a winding machine. The winding machine is used for winding various yarn balls and yarns suitable for the textile machine by using cotton yarns, artificial fiber yarns and the like in the textile industry.

However, the winding reel can be installed on the existing winding machine, the mode of installing the winding reel is generally manual installation, namely before the winding machine is started, the winding reel is installed on the winding machine manually, so that winding is started again, the mode of manual installation is complex in operation, the installation efficiency is low, and the winding quantity of the bobbin and the winding efficiency of the wire are greatly reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing an upper shaft device of full-automatic rolling machine, can place the spool automatically in treating the upper shaft region to, after the spooling equipment starts, can carry out the material loading to the spool, easy operation, simple to operate improves the material loading efficiency of spool greatly, and then has improved the wire-wound efficiency of spool wire-wound quantity and wire rod.

The purpose of the utility model is realized through the following technical scheme:

an upper shaft device of a full-automatic winding machine comprises:

a supporting frame is arranged on the base plate,

the shaft feeding assembly comprises a first sliding plate frame, a second sliding plate frame and an inclined sliding plate, the first sliding plate frame and the second sliding plate frame are respectively arranged on the supporting frame, one side edge of the inclined sliding plate is arranged on the first sliding plate frame, the other side edge of the inclined sliding plate is arranged on the second sliding plate frame, and a sliding groove is formed in the inclined sliding plate; and

the baffle assembly comprises a first correlation inductor, a second correlation inductor and a plurality of baffle pieces, the first correlation inductor and the second correlation inductor are respectively arranged on the inclined sliding plate, and the baffle pieces are respectively embedded in the sliding groove.

In one embodiment, the first skateboard frame is in a right-angled triangle structure, and the inclined skateboard is arranged on the inclined side of the right-angled triangle structure.

In one embodiment, the bottom of the sliding groove is provided with a plurality of strip-shaped notches, and each baffle piece is accommodated in each strip-shaped notch in a one-to-one correspondence manner.

In one embodiment, in one of the baffle members, the baffle member includes a baffle plate, a rotating shaft and a rotating driver, the baffle plate is accommodated in the elongated gap, the rotating shaft is disposed on the baffle plate, the rotating driver is disposed on the inclined slide plate, and the rotating driver is connected to the rotating shaft.

In one embodiment, the baffle assembly comprises three baffle members, and the three baffle members are respectively arranged in the sliding groove at intervals.

In one embodiment, the first opposite-emitting inductor includes a first emitting inductor and a first receiving inductor, and the first emitting inductor and the first receiving inductor are respectively disposed on the inclined sliding plate.

In one embodiment, the second opposite-emitting inductor includes a second emitting inductor and a second receiving inductor, and the second emitting inductor and the second receiving inductor are respectively disposed on the inclined sliding plate.

In one embodiment, the inclined sliding plate is further provided with a side groove, and the side groove is positioned at one side edge of the inclined sliding plate.

In one embodiment, the upper shaft device further comprises a lap joint assembly, and the lap joint assembly is arranged on the inclined sliding plate.

In one embodiment, the lapping assembly includes a connecting plate body and a rotation driver, the connecting plate body is rotatably disposed on the inclined sliding plate, the rotation driver is disposed on the first sliding plate frame, and the rotation driver is connected to the connecting plate body.

The utility model discloses compare in prior art's advantage and beneficial effect as follows:

the utility model relates to an upper shaft device of full-automatic rolling machine through setting up inlet assembly and baffle subassembly, can place the spool automatically in treating the upper shaft region to, after the spooling equipment starts, can carry out the material loading to the spool, easy operation, simple to operate improves the material loading efficiency of spool greatly, and then has improved the wire-wound efficiency of spool wire-wound quantity and wire rod.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural view of an upper shaft device of a full-automatic winding machine of the present invention;

fig. 2 is a schematic structural view of an upper shaft device according to another embodiment shown in fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The 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 and do not represent the only embodiments.

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 herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, an upper shaft device of a full-automatic winder includes: the bobbin winder comprises a support frame 100, a shaft feeding assembly 200 and a baffle assembly 300, wherein the support frame 100 is used for fixing an upper shaft device, and the shaft feeding assembly 200 is used for placing bobbins in sequence, so that the operation of sequentially installing the bobbins can be realized; the baffle assembly 300 is used for blocking an empty bobbin to be installed, so that the bobbin can be orderly wound, and when one bobbin is completely wound, the next bobbin is wound, thereby preventing the bobbin from being disordered and improving the stability of the bobbin mounting device.

Referring to fig. 1, the shaft assembly 200 includes a first slide plate frame 210, a second slide plate frame 220 and an inclined slide plate 230, the first slide plate frame and the second slide plate frame are respectively disposed on the support frame, one side edge of the inclined slide plate is disposed on the first slide plate frame, the other side edge of the inclined slide plate is disposed on the second slide plate frame, and a slide slot is disposed on the inclined slide plate. It should be noted that the first and second chute frames 210 and 220 are used for fixing the inclined sliding plate, and one end of the inclined sliding plate close to the winding machine is lower than one end of the inclined sliding plate far away from the winding machine, so that when the bobbin is placed on the inclined plate, the bobbin can slide down along the chute of the inclined sliding plate due to gravity, and no external force is needed.

Referring to fig. 1, the baffle assembly 300 includes a first correlation inductor 310, a second correlation inductor 320 and a plurality of baffle members 330, the first correlation inductor and the second correlation inductor are respectively disposed on the inclined sliding plate, and each baffle member is respectively embedded in the sliding groove. It should be noted that the first correlation inductor 310 is arranged right above a baffle, and when the material loading is needed, after the first bobbin passes through the first correlation inductor, the first correlation inductor immediately sends an induction signal to a baffle piece below the first correlation inductor, so that after the baffle piece rotates, the second bobbin is blocked from entering the region to be wound, that is, only after the first bobbin is loaded, the material loading operation of the second bobbin is performed, and the bobbin can be sequentially loaded. The second opposite-shooting sensor 320 is arranged at the tail end of the inclined sliding plate, namely, at the position of the shaft-waiting region, when the first opposite-shooting sensor 310 senses that the winding shaft arrives at the shaft-waiting region, the second winding shaft can be blocked, and when the material loading is needed, the second opposite-shooting sensor 320 sends a sensing signal, so that the baffle part 330 below the second opposite-shooting sensor 320 rotates, the first winding shaft can enter the next station, and the material loading of the winding shaft is realized.

So, through setting up inlet assembly and baffle subassembly, can place the spool automatically in treating the upper shaft region to, after the spooling equipment starts, can carry out the material loading to the spool, easy operation, simple to operate improves the material loading efficiency of spool greatly, and then has improved the wire-wound quantity of spool and the wire-wound efficiency of wire rod.

It should be noted that the first skateboard frame is in a right-angled triangle structure, and the inclined skateboard is arranged on the inclined side of the right-angled triangle structure. Similarly, the second skateboard frame is a right triangle structure, and the inclined skateboard is arranged on the inclined side of the right triangle structure. So, can guarantee that the slope slide has certain inclination, make things convenient for the spool to slide and the material loading.

Please refer to fig. 2, a plurality of strip-shaped notches 231 are formed at the bottom of the sliding chute, and each baffle piece is correspondingly accommodated in each strip-shaped notch one by one. Specifically, in one of the barrier members 310, the barrier member 310 includes a barrier 311, a rotation shaft (not shown) and a rotation driver 312, the barrier is received in the elongated notch, the rotation shaft is disposed on the barrier, the rotation driver is disposed on the inclined slide plate, and the rotation driver is connected to the rotation shaft. It should be noted that the baffle 311 is used to realize the blocking of the bobbin, and the rotary driver 312 is a motor and is used to drive the rotary shaft to rotate, so that the baffle rotates.

It should be noted that the baffle assembly includes three baffle members, and the three baffle members are respectively arranged in the sliding groove at intervals. Each barrier has a different function, for example a first barrier for blocking the entry of the second spool into the area to be shafted and a third barrier for enabling the spooling in the area to be shafted, i.e. to be passed into the next station.

It should be noted that the first opposite-emitting inductor 310 includes a first emitting inductor 311 and a first receiving inductor 312, and the first emitting inductor and the first receiving inductor are respectively disposed on the inclined sliding plate. The first transmitting inductor and the first receiving inductor are infrared inductors, during operation, the first transmitting inductor sends out an infrared signal, the first receiving inductor is used for receiving the infrared signal, if at a certain stage, the first receiving inductor can not receive the infrared induction signal, it is indicated that the winding shaft passes through the sliding groove, and after the winding shaft passes through, the first receiving inductor can continue to receive the infrared induction signal.

It should be noted that the second opposite-emitting inductor includes a second emitting inductor and a second receiving inductor, and the second emitting inductor and the second receiving inductor are respectively disposed on the inclined sliding plate. The induction principle of the second correlation inductor is the same as that of the first correlation inductor.

It should be noted that the inclined slide plate is further provided with a side groove, and the side groove is located at an edge of one side of the inclined slide plate. The side recess is used for placing the wire winding groove, and then makes things convenient for the spool to slide.

It should be noted that, referring to fig. 2, the upper shaft device further includes a lap joint assembly 400, and the lap joint assembly is disposed on the inclined sliding plate. The lap joint assembly 400 includes a connection plate body 410 and a rotation driver 420, the connection plate body rotates and is disposed on the inclined sliding plate, the rotation driver is disposed on the first sliding plate frame, and the rotation driver is connected with the connection plate body. The lap joint assembly 400 is used for connecting an upper shaft device and the next station, and the connecting plate body 410 is used for transferring the winding shaft to the next station; the rotation driver 420 is used for driving the connecting plate 410 to rotate, so as to control whether the bobbin enters the next station.

The utility model discloses compare in prior art's advantage and beneficial effect as follows:

the utility model relates to an upper shaft device of full-automatic rolling machine through setting up inlet assembly and baffle subassembly, can place the spool automatically in treating the upper shaft region to, after the spooling equipment starts, can carry out the material loading to the spool, easy operation, simple to operate improves the material loading efficiency of spool greatly, and then has improved the wire-wound efficiency of spool wire-wound quantity and wire rod.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides an upper shaft device of full-automatic rolling machine which characterized in that includes:

a supporting frame is arranged on the base plate,

the shaft feeding assembly comprises a first sliding plate frame, a second sliding plate frame and an inclined sliding plate, the first sliding plate frame and the second sliding plate frame are respectively arranged on the supporting frame, one side edge of the inclined sliding plate is arranged on the first sliding plate frame, the other side edge of the inclined sliding plate is arranged on the second sliding plate frame, and a sliding groove is formed in the inclined sliding plate; and

the baffle assembly comprises a first correlation inductor, a second correlation inductor and a plurality of baffle pieces, the first correlation inductor and the second correlation inductor are respectively arranged on the inclined sliding plate, and the baffle pieces are respectively embedded in the sliding groove.

2. The upper shaft device of the full-automatic winding machine according to claim 1, wherein the first slide plate frame is in a right-angled triangle structure, and the inclined slide plate is arranged on the inclined side of the right-angled triangle structure.

3. The upper shaft device of the full-automatic winding machine according to claim 1, wherein the bottom of the chute is provided with a plurality of elongated notches, and each baffle piece is accommodated in each elongated notch in a one-to-one correspondence manner.

4. The upper shaft assembly of a fully automatic winder according to claim 3, wherein said baffle member includes a baffle plate received in said elongated slot, a rotating shaft disposed on said baffle plate, and a rotary actuator disposed on said inclined slide plate and connected to said rotating shaft.

5. The upper shaft assembly of a fully automatic winder according to claim 1, wherein said baffle assembly includes three baffle members, each of said three baffle members being spaced apart in said chute.

6. The upper shaft device of the full-automatic winding machine according to claim 1, wherein the first opposite-shooting inductor comprises a first shooting inductor and a first receiving inductor, and the first shooting inductor and the first receiving inductor are respectively arranged on the inclined sliding plate.

7. The upper shaft device of the full-automatic winding machine according to claim 1, wherein the second opposite-emitting inductor comprises a second emitting inductor and a second receiving inductor, and the second emitting inductor and the second receiving inductor are respectively arranged on the inclined sliding plate.

8. The upper shaft device of the full-automatic winding machine according to claim 1, wherein the inclined sliding plate is further provided with a side groove, and the side groove is located at one side edge of the inclined sliding plate.

9. The upper shaft device of a full-automatic winder according to claim 1, further comprising a lap joint assembly disposed on the inclined slide plate.

10. The upper shaft device of a full-automatic winding machine according to claim 9, wherein said lapping assembly comprises a connection plate and a rotation driver, said connection plate is rotatably disposed on said inclined sliding plate, said rotation driver is disposed on said first sliding plate frame, and said rotation driver is connected to said connection plate.

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