CN217866659U - Blanking mechanism of winding machine - Google Patents

Abstract

The utility model belongs to the technical field of the coiling machine technique and specifically relates to a unloading mechanism of coiling machine is related to, including unloading conveyer and two deflectors, the unloading conveyer is installed in coiling machine unloading end position department, and two deflectors are installed respectively in unloading conveyer top both sides through installing in two rows of support pieces of unloading conveyer top both sides, and form the direction passageway that supplies single finished product direction to carry between two deflectors. Finished product is single transport in this application, and the finished product does not take place to pile up this moment, just also can not take place the winding situation, can be convenient for the workman carry out the subsequent processing work.

Description

Blanking mechanism of winding machine

Technical Field

The application relates to the technical field of winding machines, in particular to a blanking mechanism of a winding machine.

Background

A winding machine is an apparatus for winding a linear object onto a specific work, and is generally used for winding a copper wire. The wires wound by the common winding machine are mostly enameled copper wires (inductance coils for winding electronic and electric products), enameled aluminum wires, spinning wires (spindles and bobbins for winding textile machines), electric heating wires and soldering wires for winding electric heating appliances, electric wires, cables and the like.

After the winding machine finishes winding work, workers manually take off finished products, and directly throw the finished products into the collecting box for collection. When the finished products in the collecting box reach a certain quantity, the finished products are conveyed to the appointed position together and then are processed one by one.

However, since the finished products in the collecting box are stacked, no matter the collecting box collects the finished products, or the collecting box collects the finished products and then carries out the carrying process, the pins and the winding wires of different finished products in the collecting box are easily wound, and therefore, the subsequent processing work of workers is not facilitated. Therefore, further improvements can be made.

Disclosure of Invention

In order to make difficult for taking place each other between the finished product to the workman carries out subsequent processing work, this application provides a blanking mechanism of coiling machine.

The application provides a blanking mechanism of coiling machine adopts following technical scheme:

the blanking mechanism of the winding machine comprises a blanking conveyor and two guide plates, wherein the blanking conveyor is arranged at the position of the blanking end of the winding machine, the two guide plates are respectively arranged at the two sides of the top of the blanking conveyor through two rows of supporting pieces arranged at the two sides of the top of the blanking conveyor, and a guide channel for guiding and conveying a single finished product is formed between the two guide plates.

Through adopting above-mentioned technical scheme, at the unloading in-process, the workman places the finished product in unloading conveyer, and the conveyer is direct to be carried the finished product to next process position department and is handled this moment, carries out the direction to the finished product between two deflectors simultaneously and carries. Because the finished product is single transport, the finished product does not take place to pile up this moment, also can not take place the winding situation yet, can be convenient for the workman carry out subsequent processing work.

Optionally, the guide plate includes a guiding section and a guiding section; the two guiding and conveying sections are arranged in parallel; the leading-in sections are installed at one ends, close to the blanking end of the winding machine, of the corresponding guide-feeding sections, and the leading-in sections are in a continuously expanding state towards the direction far away from the guide-feeding sections.

Through adopting above-mentioned technical scheme, at the unloading in-process, after the workman placed the finished product in the blanking conveyer, the finished product was constantly carried to two and is led between the section along two leading-in sections, then leads to the section along leading and carries. Because be the state of constantly expanding towards keeping away from the direction of leading the section between two leading-in sections, can be convenient for the finished product enter into and lead the section position and carry.

Optionally, one end of each of the two lead-in sections, which is far away from the corresponding guide section, is curled towards the outside.

By adopting the technical scheme, because the leading-in section is subjected to curling treatment so as to carry out sharpening treatment on one end, far away from the guide and conveying section, of the leading-in section, workers are not easily scratched by one end, far away from the guide and conveying section, of the leading-in section.

Optionally, the supporting member includes a supporting vertical rod, a guiding adjusting cylinder and a supporting cross rod; the supporting vertical rod is fixed to the top of the blanking conveyor, the guiding adjusting cylinder is fixed to the top of the supporting vertical rod, the guiding adjusting cylinder is used for allowing the supporting cross rod to be installed in a sliding penetrating mode, and a first locking screw used for locking the supporting cross rod is connected to the guiding adjusting cylinder in a threaded mode; the sliding direction of the supporting cross rod is perpendicular to the conveying direction of the blanking conveyor, and the supporting cross rod is used for supporting and mounting the guide plate.

Through adopting above-mentioned technical scheme, install in supporting the horizontal pole after the deflector, the workman can be through unscrewing first locking screw to adjust two deflectors towards being close to each other/keeping away from the direction each other, adjust with the direction passageway size that forms between two deflectors, with the finished product that adapts to equidimension not.

Optionally, the leading-in section and the corresponding guiding and conveying section are hinged to each other through a hinge, and a telescopic adjusting rod is installed between the leading-in section and the corresponding guiding and conveying section; the telescopic adjusting rod comprises a first branch rod and a second branch rod, one end of the first branch rod is hinged to the leading-in section, one end of the second branch rod is hinged to the guiding-conveying section, and one end, far away from the leading-in section, of the first branch rod is inserted into one end, far away from the guiding-conveying section, of the second branch rod in a sliding mode; and the second branch rod is in threaded connection with an adjusting and locking screw for locking the first branch rod.

Through adopting above-mentioned technical scheme, after the workman adjusted the distance between two deflectors, the workman can expand through the pole of adjusting that contracts of rising to adjust/contract the regulation to two induction zone to keep away from induction zone one end adjustment to with the blanking conveyer belt side position in the conveyer, adjust the induction zone of induction zone.

Optionally, the support cross bar is detachably connected with the guide plate.

By adopting the technical scheme, in the installation process, because the support cross rod is detachably connected with the guide plate, at the moment, a worker can firstly insert and install the support cross rod in the guide adjusting cylinder, and place the guide plate in the middle position of the blanking conveyor, and finally, the guide plate is supported and installed in the support cross rod, so that the installation is more convenient.

Optionally, a horizontal connecting cylinder is fixed on the back of the guiding and conveying section, and the horizontal connecting cylinder is used for the sliding insertion of the supporting cross rod; and a second locking screw for locking the supporting cross rod is connected to the horizontal connecting cylinder in a threaded manner.

Through adopting above-mentioned technical scheme, at the in-process of installation deflector, the workman supports the horizontal pole and slides and pegs graft in horizontal connecting cylinder, then supports tightly fixedly to supporting the horizontal pole through second locking screw to support the installation in supporting the horizontal pole with the deflector.

Optionally, the end of the supporting transverse rod is fixed with a vertical connecting rod, the back of the guiding and conveying section is fixed with a vertical connecting cylinder for the vertical connecting rod to be slidably inserted, and a third locking screw for locking the vertical connecting rod is connected to the vertical connecting cylinder in a threaded manner.

Through adopting above-mentioned technical scheme, at the in-process of installation deflector, workman's vertical connecting rod slides and pegs graft in horizontal connecting cylinder, then supports tightly fixedly through third locking screw to vertical connecting rod to support the deflector and install in supporting the horizontal pole.

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

1. in the blanking process, a worker places a finished product on a blanking conveyor, the conveyor directly conveys the finished product to the position of the next process for processing, and meanwhile, the finished product is guided and conveyed between the two guide plates. Because the finished products are conveyed singly, the finished products are not stacked, and the winding condition can not occur, so that the subsequent treatment work of workers can be facilitated;

2. in the blanking process, after workers place finished products on the blanking conveyor, the finished products are continuously guided and conveyed between the two guiding sections along the two guiding sections, and then guided and conveyed along the guiding sections. Because the two leading-in sections are in a continuously enlarged state towards the direction far away from the guiding and conveying section, finished products can conveniently enter the guiding and conveying section to be conveyed;

3. after the deflector is installed in supporting the horizontal pole, the workman can be through unscrewing first locking screw to adjust two deflectors towards being close to each other/keeping away from the direction each other, adjust with the guide way size that forms between two deflectors, with the finished product of adaptation equidimension not.

Drawings

Fig. 1 is a top view of the overall structure of an embodiment of the present application.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a view for showing the entire structure of a single support member in the embodiment of the present application.

Fig. 4 is a view for showing the connection manner between the supporting cross bar and the conveying section in embodiment 2 of the present application.

Description of reference numerals:

1. a blanking conveyor; 2. a guide plate; 21. a guiding section; 22. a lead-in section; 23. a telescopic adjusting rod; 231. a first branch rod; 232. a second branch rod; 233. adjusting the locking screw; 3. a support member; 31. supporting the upright stanchion; 32. a guiding adjusting cylinder; 33. a support rail; 34. a first locking screw; 35. a horizontal connecting cylinder; 36. a second locking screw; 37. a vertical connecting rod; 38. a vertical connecting cylinder; 39. a third locking screw; 100. a winding machine; 101. a discharging end; 102. and (4) a guide channel.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses unloading mechanism of coiling machine.

Example 1:

referring to fig. 1, a blanking mechanism of a winding machine includes a blanking conveyor 1 and two guide plates 2; wherein, the blanking conveyor 1 is arranged at the position of a blanking end 101 of the winding machine 100; the equal fixed mounting in 1 top both sides of blanking conveyer has one row of support piece 3, and every row of support piece 3 all includes two support piece 3 along 1 direction of delivery interval setting of blanking conveyer. Two guide plates 2 are respectively installed on two sides of the top of the blanking conveyor 1 through two rows of supporting pieces 3, and a guide channel 102 for guiding and conveying single finished products is formed between the two guide plates 2.

In the blanking process, a worker places a finished product on the blanking conveyor 1, the conveyor directly conveys the finished product to the position of the next working procedure for processing at the moment, and meanwhile, the finished product is guided and conveyed between the two guide plates 2. Because the finished product is single transport, the finished product does not take place to pile up this moment, also can not take place the winding situation yet, can be convenient for the workman carry out subsequent processing work.

Specifically, in the present embodiment, the guide plate 2 includes a guiding section 21 and a guiding section 22; wherein, the two guiding and conveying sections 21 are arranged in parallel; the leading-in sections 22 are installed at one end of the corresponding guiding section 21 close to the feeding end 101 of the winding machine 100, and the space between the two leading-in sections 22 is in a state of continuously expanding towards the direction far away from the guiding section 21.

In the blanking process, after a worker places a finished product on the blanking conveyor 1, the finished product is continuously guided and conveyed between the two guiding sections 21 along the two guiding sections 22, and then is guided and conveyed along the guiding sections 21. Because the two leading-in sections 22 are in a continuously enlarged state towards the direction away from the guiding section 21, finished products can be conveniently conveyed to the position of the guiding section 21.

Referring to fig. 1 and 2, in particular, in the present embodiment, the lead-in section 22 and the corresponding guide section 21 are hinged to each other by hinges. A telescopic adjusting rod 23 is arranged between the leading-in section 22 and the corresponding guide-sending section 21; the telescopic adjusting rod 23 comprises a first branch rod 231 and a second branch rod 232, one end of the first branch rod 231 is hinged to the leading-in section 22, one end of the second branch rod 232 is hinged to the guiding-conveying section 21, and one end, far away from the leading-in section 22, of the first branch rod 231 is inserted into one end, far away from the guiding-conveying section 21, of the second branch rod 232 in a sliding mode; and an adjusting locking screw 233 for locking the first sub-rod 231 is threadedly connected to the second sub-rod 232.

During the installation of the guide plate 2, the worker can perform expansion/contraction adjustment of the two lead-in sections 22 by raising/contracting the adjustment lever to adjust the end of the lead-in section 22 away from the guide section 21 to the belt side position in the blanking conveyor 1 to adjust the lead-in area of the lead-in section 22.

Referring to fig. 1, in the present embodiment, the ends of the two lead-in sections 22 far away from the corresponding guide section 21 are curled towards the outside to perform the sharpening process on the ends of the lead-in sections 22 far away from the guide section 21, so that a worker is not easily scratched by the ends of the lead-in sections 22 far away from the guide section 21.

With reference to fig. 1 and 3, in particular, in the present embodiment, the support 3 comprises a supporting upright 31, a guiding adjustment cylinder 32 and a supporting crossbar 33; the guide adjusting cylinder 32 is horizontally arranged at the top of the supporting upright rod 31, and the guide adjusting cylinder 32 and the supporting upright rod 31 are welded and fixed; the supporting cross rod 33 is inserted in the guiding adjusting cylinder 32 in a sliding mode, and a first locking screw 34 used for locking the supporting cross rod 33 is connected to the guiding adjusting cylinder 32 in a threaded mode. The supporting upright rod 31 is fixed at the top of the blanking conveyor 1 through a screw, and after the upright rod is fixed on the blanking conveyor 1, the guiding adjustment is vertical to the conveying direction of the blanking conveyor 1; the supporting cross bar 33 is used for supporting and mounting the guide section 21.

After the guide plates 2 are mounted on the support rail 33, the worker can adjust the size of the guide passage 102 formed between the two guide plates 2 by loosening the first locking screw 34 to adjust the two guide plates 2 toward the direction of approaching/separating from each other, so as to adapt to finished products of different sizes.

Specifically, in this embodiment, two horizontal connecting cylinders 35 are fixed on the back of the guiding section 21, and the distance between two horizontal connecting cylinders 35 matches with the distance between two corresponding supporting members 3. Horizontal connecting cylinder 35 sets up with leading send section 21 mutually perpendicularly, and horizontal connecting cylinder 35 is used for supplying to support horizontal pole 33 slip grafting, and supports tightly locking through threaded connection in second locking screw 36 on horizontal connecting cylinder 35 between horizontal connecting cylinder 35 and the support horizontal pole 33, makes to form detachable the connection between support horizontal pole 33 and the deflector 2.

In the process of installing the guide plate 2, the worker supports the cross bar 33 to be slidably inserted into the horizontal connecting cylinder 35, and then the support cross bar 33 is fixedly supported by the second locking screw 36, so that the guide plate 2 is supported and installed on the support cross bar 33. Meanwhile, as the supporting cross rod 33 is detachably connected with the guide plate 2, in the installation process, as the supporting cross rod 33 is detachably connected with the guide plate 2, at the moment, a worker can firstly insert and install the supporting cross rod 33 in the guide adjusting cylinder 32, place the guide plate 2 in the middle of the blanking conveyor 1, and finally support and install the guide plate 2 on the supporting cross rod 33, so that the installation is more convenient.

Example 2:

referring to fig. 4, the present embodiment is different from embodiment 1 in the connection manner between the support rail 33 and the guide plate 2.

Specifically, in the present embodiment, a vertical connecting rod 37 is fixed to an end of the support rail 33. Correspondingly, two vertical connecting cylinders 38 are fixed on the back of the guiding and conveying section 21, the distance between the two vertical connecting cylinders 38 is matched with the distance between the two supporting pieces 3, and the two vertical connecting cylinders 38 are respectively matched with the two vertical connecting rods 37 in a sliding insertion manner so as to allow the vertical connecting rods 37 to be in sliding insertion; and after the vertical connecting rod 37 is inserted into the vertical connecting cylinder 38, the vertical connecting rod 37 is tightly locked by a third locking screw 39 screwed on the vertical connecting cylinder 38.

In the process of installing the guide plate 2, the worker slidably inserts the vertical connecting rod 37 into the horizontal connecting cylinder 35, and then tightly fixes the vertical connecting rod 37 by the third locking screw 39, so as to support and install the guide plate 2 on the supporting cross rod 33.

The embodiments of the present disclosure are all preferred embodiments of the present disclosure, and the protection scope of the present disclosure is not limited thereby, wherein like parts are designated by like reference numerals. Therefore: 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 unloading mechanism of coiling machine which characterized in that: the feeding device comprises a feeding conveyor (1) and two guide plates (2), wherein the feeding conveyor (1) is installed at the position of a feeding end (101) of a winding machine (100), the two guide plates (2) are respectively installed on two sides of the top of the feeding conveyor (1) through two rows of supporting pieces (3) installed on two sides of the top of the feeding conveyor (1), and a guide channel (102) for guiding and conveying a single finished product is formed between the two guide plates (2).

2. The blanking mechanism of the winding machine according to claim 1, characterized in that: the guide plate (2) comprises a guiding section (21) and a guiding-in section (22); the two guiding and conveying sections (21) are arranged in parallel; the leading-in sections (22) are installed at one end, close to a blanking end (101) of the winding machine (100), of the corresponding guiding and conveying section (21), and the leading-in sections (22) are in a continuously expanding state towards the direction far away from the guiding and conveying section (21).

3. The blanking mechanism of the winding machine according to claim 2, characterized in that: one end of each of the two lead-in sections (22) far away from the corresponding guide section (21) is curled outwards.

4. The blanking mechanism of the winding machine according to claim 2, characterized in that: the supporting piece (3) comprises a supporting upright rod (31), a guide adjusting cylinder (32) and a supporting cross rod (33); the supporting vertical rod (31) is fixed to the top of the blanking conveyor (1), the guiding adjusting cylinder (32) is fixed to the top of the supporting vertical rod (31), the guiding adjusting cylinder (32) is used for allowing the supporting cross rod (33) to be installed in a sliding penetrating mode, and the guiding adjusting cylinder (32) is connected with a first locking screw (34) used for locking the supporting cross rod (33) in a threaded mode; the sliding direction of the supporting cross rod (33) is perpendicular to the conveying direction of the blanking conveyor (1), and the supporting cross rod (33) is used for supporting and installing the guide plate (2).

5. The blanking mechanism of the winding machine according to claim 4, characterized in that: the leading-in section (22) and the corresponding guide and delivery section (21) are hinged with each other through a hinge, and a telescopic adjusting rod (23) is arranged between the leading-in section (22) and the corresponding guide and delivery section (21); the telescopic adjusting rod (23) comprises a first branch rod (231) and a second branch rod (232), one end of the first branch rod (231) is hinged to the leading-in section (22), one end of the second branch rod (232) is hinged to the guiding and conveying section (21), and one end, far away from the leading-in section (22), of the first branch rod (231) is inserted into one end, far away from the guiding and conveying section (21), of the second branch rod (232) in a sliding mode; and an adjusting locking screw (233) used for locking the first branch rod (231) is connected to the second branch rod (232) in a threaded manner.

6. The blanking mechanism of the winding machine according to claim 4, characterized in that: the supporting cross rod (33) is detachably connected with the guide plate (2).

7. The blanking mechanism of the winding machine according to claim 6, characterized in that: a horizontal connecting cylinder (35) is fixed on the back of the guide section (21), and the horizontal connecting cylinder (35) is used for the sliding insertion of the supporting cross rod (33); and a second locking screw (36) used for locking the supporting cross rod (33) is connected to the horizontal connecting cylinder (35) in a threaded manner.

8. The blanking mechanism of the winding machine according to claim 6, characterized in that: the end of the supporting cross rod (33) is fixedly provided with a vertical connecting rod (37), the back of the guide section (21) is fixedly provided with a vertical connecting cylinder (38) for the vertical connecting rod (37) to be slidably inserted, and the vertical connecting cylinder (38) is connected with a third locking screw (39) for locking the vertical connecting rod (37) in a threaded manner.

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