CN214517304U - Semi-automatic wire winding machine - Google Patents

Abstract

The application relates to a semi-automatic wire winding machine, which comprises a supporting platform and a wire winding forming mechanism arranged on the supporting platform, wherein the wire winding forming mechanism comprises a wire winding motor and a wire winding forming die; the wire winding machine further comprises a cooling mechanism, the cooling mechanism comprises a water supply tank, a water supply pipe and a first water spraying pipe, the water supply pipe is communicated with the water supply tank, one end of the first water spraying pipe is communicated with the water supply pipe, the other end of the first water spraying pipe faces one side, close to the wire winding motor, of the wire winding hole, and a water supply pump is arranged on the water supply pipe. The steel wire is wound on the wire winding rod, the wire winding motor drives the wire winding rod to rotate, and the wire winding rod and the wire winding forming die jointly act to form the steel wire in a wire winding mode; the water supply pump makes the water in the water supply tank flow into the first water spray pipe through the water supply pipe and then spray into the filament winding hole. This application has the cooling that makes wire winding pole and wire winding forming die, reduces and heaies up, promotes the effect of wire winding shaping effect.

Description

Semi-automatic wire winding machine

Technical Field

The application relates to the technical field of winding equipment, in particular to a semi-automatic winding machine.

Background

At present, the existing wire winding machine generally places a whole circle of steel wire directly on a turntable for fixation, one end of the steel wire on the turntable enters different forming dies on a winding machine through a guide wheel, and the forming dies are used for processing the straight steel wire into spiral wire winding after being driven to rotate by the winding machine.

The utility model discloses a chinese utility model patent that publication number is CN207494454U discloses an automatic guipure wire winding machine of unloading, it includes the frame, establish the coiler in the frame, drive rotatory forming die, carry out the leading wheel that leads, carry out the controller that controls to the coiler to getting into forming die's steel wire through the coiler, be equipped with first straining device in the frame, the discharge end that the frame is located forming die is equipped with an automatic cutout mechanism, is equipped with a pair of steel wire that gets into first straining device in the frame and leads and the second straining device of tensioning, and one side of frame is equipped with a pair of wire winding and carries out automatic collection's unloader, and automatic cutout mechanism passes through controller control cut-off frequency. The double-tensioning device has double tensioning effects, can solve the problems that the steel wire is bent in the feeding process and needs manual blanking, and is simple in structure, simple and convenient to operate, high in working efficiency, low in labor intensity, low in production cost, high in finished product qualification rate and accurate in cutting length.

However, in the above patent, when the wire is wound, the friction of the steel wire may overheat the forming mold, which may further affect the forming.

In view of the above-mentioned related art, there is a problem that a mold is easily overheated in the existing filament winding forming process.

SUMMERY OF THE UTILITY MODEL

In order to improve the overheated problem of mould among the wire winding forming process, this application provides a semi-automatic wire winding machine.

The application provides a semi-automatic filament winder adopts following technical scheme:

a semi-automatic wire winding machine comprises a supporting platform and a wire winding forming mechanism arranged on the supporting platform, wherein the wire winding forming mechanism comprises a wire winding motor arranged on the supporting platform and a wire winding forming die arranged on the supporting platform and positioned on one side of the wire winding motor, a wire winding rod is arranged at the end part of an output shaft of the wire winding motor, a wire winding hole penetrating through the wire winding forming die is formed in the wire winding forming die, and one end of the wire winding rod extends into the wire winding hole; the wire winding machine further comprises a cooling mechanism for spraying cooling water to the wire winding forming die, the cooling mechanism comprises a water supply tank, a water supply pipe communicated with the water supply tank, and a first water spraying pipe arranged at one end of the water supply pipe far away from the water supply tank, one end of the first water spraying pipe is communicated with the water supply pipe, the other end of the first water spraying pipe faces one side, close to the wire winding motor, of the wire winding hole, and a water supply pump is arranged on the water supply pipe.

By adopting the technical scheme, the steel wire is wound on the wire winding rod, the wire winding motor drives the wire winding rod to rotate, and the wire winding motor and the wire winding forming die jointly act to form the steel wire in a wire winding manner; the working shaft moves, so that water in the working shaft flows into the first water spraying pipe through the water supply pipe and then is sprayed into the wire winding hole, the wire winding rod and the wire winding forming die are cooled, the temperature rise is reduced, and the wire winding forming effect is improved.

Optionally, the upper side of the wire winding forming die is provided with a cooling hole, the cooling hole is communicated with the wire winding hole, the cooling mechanism further comprises a second water spray pipe, one end of the second water spray pipe is communicated with a water supply pipe, and the other end of the second water spray pipe is communicated with the cooling hole.

Through adopting above-mentioned technical scheme, the cooling water flows into in the cooling hole through the second spray pipe, makes the cooling of wire winding forming die, promotes wire winding forming die's cooling effect.

Optionally, the water supply pipe is provided with a water supply flow valve at a side of the water supply pump close to the water supply tank.

By adopting the technical scheme, the flow in the water supply pipe can be adjusted through the water supply flow valve, so that the flow of cooling water can be adjusted to adapt to different required production speeds.

Optionally, the wire winding machine further comprises a cleaning mechanism, the cleaning mechanism comprises a cleaning water tank, a cleaning pipe and a cleaning pump, the cleaning pipe is communicated with the cleaning water tank at one end, the cleaning pump is arranged on the cleaning pipe, and one end, far away from the cleaning water tank, of the cleaning pipe faces towards one side, far away from the wire winding hole, of the wire winding motor.

By adopting the technical scheme, the cleaning pump acts to enable the cleaning water to be flushed to the steel wire from the cleaning pipe, so that the steel wire can be flushed as far as possible after being wound.

Optionally, a cleaning flow valve is arranged on the cleaning pipe on one side of the cleaning pump close to the cleaning water tank.

Through adopting above-mentioned technical scheme, wash the flow valve and can control the flow of washing intraductal rivers, adapt to required different production speeds.

Optionally, the supporting platform is provided with a sewage plate around the wire winding mold, and the sewage plate is arranged in a whole circle along the circumferential direction of the wire winding mold to form a sewage tank; the wire winding machine further comprises a circulating mechanism, and the circulating mechanism comprises a first water return pipe, a filtering component and a second water return pipe, wherein one end of the first water return pipe is communicated with the sewage tank, the filtering component is communicated with one end of the first water return pipe, and the second water return pipe is communicated with the filtering component and the water supply tank.

Through adopting above-mentioned technical scheme, rivers can flow to the bilge pit in through cooling and washing use back, flow through first return pipe again, filter the subassembly and filter, again through the second return pipe flow to the feed tank in, continue to use, reduce extravagantly.

Optionally, the filtering component comprises a filtering box, a filtering net is arranged in the filtering box, and the filtering net is fixedly connected with the inner wall of the filtering box.

By adopting the technical scheme, the filter screen filters the sewage, so that the water flowing back into the water supply tank is as clean as possible.

Optionally, the filter screen is the slope setting, the rose box is equipped with the filter tip at the lower one end of filter screen along vertical direction, the filter plug has been filled in the filter tip.

Through adopting above-mentioned technical scheme, pull out the filter plug, the accessible filter tip clears out the impurity clearance after sewage filters, makes the impurity clearance convenient, does not influence the filtration.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the working shaft moves, so that water in the working shaft flows into the first water spraying pipe through the water supply pipe and then is sprayed into the wire winding hole, the wire winding rod and the wire winding forming die are cooled, the temperature rise is reduced, and the wire winding forming effect is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of a semi-automatic filament winding machine according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of the circulating mechanism in the embodiment of the present application.

Fig. 3 is a schematic view of the structure of the filter assembly in the embodiment of the present application.

Description of reference numerals: 1. a support platform; 11. a sewage plate; 12. a sewage tank; 2. a wire winding forming mechanism; 21. a wire winding motor; 22. winding and forming the die; 221. a filament winding hole; 222. a cooling hole; 23. winding a screw rod; 3. a cooling mechanism; 31. a water supply tank; 32. a water supply pipe; 33. a first water spray pipe; 34. a water supply pump; 35. a second water spray pipe; 36. a water supply flow valve; 4. a cleaning mechanism; 41. cleaning the water tank; 42. cleaning the tube; 43. cleaning the pump; 44. cleaning a flow valve; 5. a circulating mechanism; 51. a first water return pipe; 52. a filter assembly; 521. a filter box; 522. a filter screen; 523. a filter tip; 524. a filter plug; 53. a second water return pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses semi-automatic wire winding machine.

Referring to fig. 1 and 2, the semi-automatic wire winding machine comprises a supporting platform 1 and a wire winding forming mechanism 2 arranged on the supporting platform 1, wherein the wire winding forming mechanism 2 comprises a wire winding motor 21, a wire winding forming die 22 and a wire winding rod 23, the wire winding motor 21 is fixed on the supporting platform 1 through a bolt, and the wire winding rod 23 is fixed on an output shaft of the wire winding motor 21 through a coupler. The wire winding forming die 22 is fixed on the supporting platform 1 through a bolt, the wire winding forming die 22 is located on one side of the wire winding motor 21, a wire winding hole 221 is formed in the wire winding forming die 22, and one end, far away from the wire winding motor 21, of the wire winding rod 23 extends into the wire winding hole 221. The steel wire is drawn to the wire winding rod 23, the wire winding motor 21 drives the wire winding rod 23 to rotate, and the wire winding rod 23 is matched with the wire winding forming die 22 together to form the steel wire in a wire winding mode.

In order to cool the wire winding mold 22 in time when the steel wire is formed, the wire winding machine further comprises a cooling mechanism 3, and the cooling mechanism 3 comprises a water supply tank 31, a water supply pipe 32, a first water spray pipe 33, a water supply pump 34, a second water spray pipe 35 and a water supply flow valve 36. The water supply tank 31 is located on one side of the supporting platform 1, one end of the water supply pipe 32 is communicated with the water supply tank 31, the other end of the water supply pipe extends to the upper side of the supporting platform 1, one end, far away from the water supply tank 31, of the water supply pipe 32 is connected with a branch pipe in a threaded mode, and the first water spray pipe 33 and the second water spray pipe 35 are respectively communicated with the water supply pipe 32 through threads connected with the branch pipe. One end of the first water spray pipe 33, which is far away from the water supply pipe 32, faces one side of the filament winding hole 221 of the filament winding forming die 22, which is close to the filament winding motor 21, the upper side of the filament winding forming die 22 is provided with a cooling hole 222 in the vertical direction, the cooling hole 222 is communicated with the filament winding hole 221, and one end of the second water spray pipe 35, which is far away from the water supply pipe 32, is inserted into the cooling hole 222. The water supply pump 34 is disposed on the water supply pipe 32 to provide power for water flow, the water supply flow valve 36 is disposed on the water supply pipe 32 at a side of the water supply pump 34 close to the water supply tank 31, and the water supply flow valve 36 controls the flow rate of water in the water supply pipe 32 to adapt to different production speeds. The water supply pump 34 is started to drive the water in the water supply tank 31, the water flows into the first water spray pipe 33 and the second water spray pipe 35 through the water supply pipe 32, the first water spray pipe 33 sprays water from one side of the wire winding hole 221 close to the wire winding motor 21, the second water spray pipe 35 sprays water from the cooling hole 222 to the wire winding forming die 22, the wire winding forming die 22 is cooled, and the wire winding forming effect is improved.

In order to keep the steel wire winding as clean as possible after forming, the winding machine further comprises a cleaning mechanism 4, and the cleaning mechanism 4 comprises a cleaning water tank 41, a cleaning pipe 42, a cleaning pump 43 and a cleaning flow valve 44. The cleaning water tank 41 is located on one side of the supporting platform 1 close to the water supply tank 31, one end of the cleaning pipe 42 is communicated with the cleaning water tank 41, the other end of the cleaning pipe 42 is located on the supporting platform 1, and one end of the cleaning pipe 42, far away from the cleaning water tank 41, faces the wire winding hole 221 of the wire winding forming die 22 and is far away from one side of the wire winding motor 21. The scavenging pump 43 is arranged on the scavenging pipe 42 and is used for driving water to flow, the scavenging flow valve 44 is arranged on the scavenging pipe 42 and is close to one side of the scavenging water tank 41, and the scavenging flow valve 44 is used for controlling the flow of water in the scavenging pipe 42 so as to adapt to different steel wire production speeds. The cleaning pump 43 drives the water in the cleaning water tank 41 to be sprayed to the steel wire through the cleaning pipe 42, so that the steel wire is flushed as far as possible from the wire winding hole 221, and the subsequent use is facilitated.

In order to recover and circulate the used water, a sewage plate 11 is fixedly welded on the supporting platform 1, the sewage plate 11 forms a whole circle around a wire winding forming die 22 to form a sewage tank 12, and the used water flows into the sewage tank 12; the filament winding machine further includes a circulation mechanism 5, and the circulation mechanism 5 includes a first water return pipe 51, a filter assembly 52, and a second water return pipe 53. One end of the first return pipe 51 is communicated with the sewage tank 12, the other end thereof is communicated with the filtering assembly 52, one end of the second return pipe 53 is communicated with the filtering assembly 52, the other end thereof is communicated with the water supply tank 31, and the first return pipe 51 is vertically higher than the second return pipe 53. The used water flows into the water supply tank 31 for continuous use through the guiding of the first water return pipe 51, the filtering of the filtering component 52 and the guiding of the third water return pipe, so that the water is recycled, and the waste is reduced.

Referring to fig. 2 and 3, to filter the returned water, the filter assembly 52 includes a filter box 521, a filter net 522, a filter 523, and a filter plug 524. The upper side of the filter box 521 along the vertical direction is fixedly connected with the first water return pipe 51 by welding, and the first water return pipe 51 is communicated with the inside of the filter box 521; the lower side of the filtering tank 521 in the vertical direction is fixedly connected with the second water return pipe 53 by welding, and the second water return pipe 53 is communicated with the inside of the filtering tank 521. The filter screen 522 is welded and fixed in the filter box 521, the filter screen 522 is obliquely arranged, the filter 523 is welded and fixed on the filter box 521, the filter 523 is communicated with the inside of the filter box 521, and the filter 523 is positioned at one lower end of the filter screen 522 in the vertical direction. A filter plug 524 is provided at an end of the filter 523 remote from the filter box 521, the filter plug 524 being inserted into the filter 523 for sealing the filter 523. The backflow water flows into the filter box 521 and flows through the filter screen 522, and the filter screen 522 filters impurities to keep the water as clean as possible; the inclined filter screen 522 is convenient for filtered impurities to enter the filter tip 523, and the filter plug 524 is pulled out, so that the impurities can be conveniently cleaned.

The implementation principle of the semi-automatic winding machine in the embodiment of the application is as follows:

in the first step, the temperature is reduced and cooled, the water supply pump 34 is started to drive the water in the water supply tank 31, the water flows into the first water spray pipe 33 and the second water spray pipe 35 through the water supply pipe 32, the first water spray pipe 33 sprays water from one side of the filament winding hole 221 close to the filament winding motor 21, and the second water spray pipe 35 sprays water from the cooling hole 222 to the filament winding forming die 22, so that the filament winding forming die 22 is cooled, and the filament winding forming effect is improved.

In the second step, the cleaning pump 43 drives the water in the cleaning water tank 41 to be sprayed to the steel wire through the cleaning pipe 42, so that the steel wire is flushed as far as possible from the wire winding hole 221, thereby facilitating the subsequent use.

And thirdly, recycling, wherein the used water flows into the water supply tank 31 for continuous use through the guidance of the first water return pipe 51, the filtration of the filter component 52 and the guidance of the third water return pipe, so that the recycling of the water is realized, and the waste is reduced.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a semi-automatic filament winding machine which characterized in that: the wire winding forming mechanism comprises a supporting platform (1) and a wire winding forming mechanism (2) arranged on the supporting platform (1), wherein the wire winding forming mechanism (2) comprises a wire winding motor (21) arranged on the supporting platform (1) and a wire winding forming die (22) arranged on the supporting platform (1) and positioned on one side of the wire winding motor (21), a wire winding rod (23) is arranged at the end part of an output shaft of the wire winding motor (21), a wire winding hole (221) penetrating through the wire winding forming die (22) is formed in the wire winding forming die, and one end of the wire winding rod (23) extends into the wire winding hole (221); the wire winding machine further comprises a cooling mechanism (3) for spraying cooling water to the wire winding forming die (22), the cooling mechanism (3) comprises a water supply tank (31) and a water supply pipe (32) communicated with the water supply tank (31), and a first water spraying pipe (33) arranged at one end, far away from the water supply tank (31), of the water supply pipe (32), one end of the first water spraying pipe (33) is communicated with the water supply pipe (32), the other end of the first water spraying pipe (33) faces one side, close to the wire winding motor (21), of a wire winding hole (221), and a water supply pump (34) is arranged on the water supply pipe (32).

2. A semi-automatic filament winding machine according to claim 1, characterized in that: the upper side of the wire winding forming die (22) is provided with a cooling hole (222), the cooling hole (222) is communicated with the wire winding hole (221), the cooling mechanism (3) further comprises a second water spray pipe (35), one end of the second water spray pipe (35) is communicated with a water supply pipe (32), and the other end of the second water spray pipe is communicated with the cooling hole (222).

3. A semi-automatic filament winding machine according to claim 1, characterized in that: the water supply pipe (32) is provided with a water supply flow valve (36) on one side of the water supply pump (34) close to the water supply tank (31).

4. A semi-automatic filament winding machine according to claim 1, characterized in that: the wire winding machine further comprises a cleaning mechanism (4), the cleaning mechanism (4) comprises a cleaning water tank (41), a cleaning pipe (42) with one end communicated with the cleaning water tank (41), and a cleaning pump (43) arranged on the cleaning pipe (42), and one end, far away from the cleaning water tank (41), of the cleaning pipe (42) faces one side, far away from the wire winding motor (21), of the wire winding hole (221).

5. A semi-automatic filament winding machine according to claim 4, characterized in that: and a cleaning flow valve (44) is arranged on one side of the cleaning pump (43) close to the cleaning water tank (41) on the cleaning pipe (42).

6. A semi-automatic filament winding machine according to claim 1, characterized in that: the supporting platform (1) is provided with a sewage plate (11) around the wire winding mould, and the sewage plate (11) is arranged in a whole circle along the circumferential direction of the wire winding forming mould (22) to form a sewage tank (12); the filament winding machine further comprises a circulating mechanism (5), wherein the circulating mechanism (5) comprises a first water return pipe (51) with one end communicated with the sewage tank (12), a filtering component (52) communicated with one end, far away from the sewage tank (12), of the first water return pipe (51), and a second water return pipe (53) communicated with the filtering component (52) and the water supply tank (31).

7. A semi-automatic filament winding machine according to claim 6, characterized in that: the filter assembly (52) comprises a filter box (521), a filter screen (522) is arranged in the filter box (521), and the filter screen (522) is fixedly connected with the inner wall of the filter box (521).

8. A semi-automatic filament winding machine according to claim 7, characterized in that: the filter screen (522) are obliquely arranged, a filter tip (523) is arranged at one lower end of the filter screen (522) in the vertical direction of the filter box (521), and a filter plug (524) is plugged in the filter tip (523).

Images