CN217507103U - Hollow coil processing device - Google Patents
Hollow coil processing device Download PDFInfo
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- CN217507103U CN217507103U CN202123360277.XU CN202123360277U CN217507103U CN 217507103 U CN217507103 U CN 217507103U CN 202123360277 U CN202123360277 U CN 202123360277U CN 217507103 U CN217507103 U CN 217507103U
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Abstract
The utility model belongs to the technical field of hollow coils, in particular to a hollow coil processing device, which comprises a processing platform, a moving groove a is arranged on the left side of the front surface of the processing platform, a feeding component is arranged on the inner wall of the moving groove a, the servo motor b is started to drive the two driving wheels b to rotate, the two driving wheels b rotate to convey the coil conducting wire, meanwhile, the coil conducting wire is fixed and tightened by two driving wheels b and two driven wheels b, the air cylinder drives the sliding plate, the knife rest and the blade to move downwards to cut the coil conducting wire on the upper surface of the bearing plate, the sliding plate is connected with the left side surface and the right side surface of the inner wall of the lifting groove in a sliding manner, carry on spacingly to knife rest and blade, avoid the blade to appear misplacing at the in-process that removes, solved current device and not fixed the wire and tighten, lead to the cutting plane of wire uneven, and then influence the problem of the normal use of wire.
Description
Technical Field
The utility model belongs to the technical field of the hollow coil, concretely relates to hollow coil processingequipment.
Background
The hollow coil is divided into two parts, namely a hollow heel coil. The core-looking idea means that nothing is in the center, namely, the coils are wound one by one, the leads are mutually insulated, when current flows through the leads, a magnetic field can be generated around the coils, and the magnetic field intensity is in direct proportion to the intensity of the current flowing through the coils and the number of turns of the coils. In a certain magnetic field, the coil is used for cutting magnetic lines of force, the magnetic field can be converted into electric energy, and the electromagnetic conversion principle can be used for manufacturing devices such as relays, motors, wireless equipment, loudspeakers and the like. The wire can be made of copper, iron, aluminum, gold and other metal devices, the magnetic field generated when the metal magnetic device is inserted into the center of the coil to enhance the conductive current of the coil can be increased, when the center of the coil has only a plastic framework or no framework, the hollow coil is formed, the hollow coil is widely applied, and people design the hollow coil into a round shape, a square shape, an oval shape and various special shapes to meet various requirements.
The raw materials of hollow coil are copper promptly, iron, aluminium, the wire of metal material such as gold, for subsequent manufacturing procedure, need cut the wire, and current wire cutting device is when cutting the wire, because current device does not fix the wire and tighten, lead to the cutting plane irregularity of wire, and then influence the normal use of wire, the unable ration cutting wire of current wire cutting device simultaneously, and the cutting length of wire leads to some wires overlength by manual control, cause the wire wasting of resources.
SUMMERY OF THE UTILITY MODEL
To solve the problems set forth in the background art described above. The utility model provides an air core coil processingequipment.
In order to achieve the above purpose, the utility model provides a following technical scheme: a hollow coil processing device comprises a processing platform, wherein a moving groove a is formed in the left side of the front face of the processing platform, a feeding assembly is arranged on the inner wall of the moving groove a, a lifting groove and two moving grooves b are formed in the front face of the processing platform respectively, a cutting assembly is arranged on the inner wall of the lifting groove, a fixing assembly is arranged inside the moving grooves b, and a material receiving assembly is arranged on the right side of the back face of the processing platform;
the cutting assembly comprises an air cylinder arranged on the upper surface of the inner wall of the lifting groove, the telescopic end of the air cylinder is fixedly connected with the upper surface of the sliding plate, the front side of the lower surface of the sliding plate is fixedly connected with the upper surface of the knife rest, and the left side surface and the right side surface of the inner wall of the knife rest are detachably connected with the left side surface and the right side surface of the blade respectively.
Preferably, the left side surface and the right side surface of the sliding plate are respectively in sliding connection with the left side surface and the right side surface of the inner wall of the lifting groove, the front surface of the processing platform is fixedly connected with the back surface of the bearing plate, and the position of the bearing plate corresponds to the position of the blade.
Preferably, the feeding subassembly includes the screw rod a of being connected with the rotation of shifting chute a inner wall lower surface, screw rod a's surface threaded connection has thread bush a, thread bush a's front and the back of following driving wheel a rotate and be connected, processing platform's back mounted has servo motor a, servo motor a's output shaft passes the bearing of processing platform back joint and pivot and the back rigid coupling of driving wheel a, driving wheel a's position and the position of following driving wheel a are corresponding.
Preferably, fixed subassembly includes the screw rod b of being connected with the rotation of shifting chute b inner wall lower surface, screw rod b's surface threaded connection has thread bush b, thread bush b's front and the back of following driving wheel b rotate and be connected, two servo motor b are installed respectively to the back of processing platform, servo motor b's output shaft passes the bearing of processing platform back joint and pivot and driving wheel b's back rigid coupling, driving wheel b's position is corresponding with the position from driving wheel b.
Preferably, receive the material subassembly including installing servo motor c on the processing platform back right side, servo motor c's output shaft passes the bearing and the pivot of processing platform back joint and the back rigid coupling of collecting tray, four flexible grooves have been seted up to the front symmetry of collecting tray, the lower surface of flexible inslot wall and the lower surface rigid coupling of spring, the upper surface of spring and the lower surface rigid coupling of connecting block, the left and right sides face of connecting block and the left and right sides face sliding connection of flexible inslot wall, the front of connecting block and the back rigid coupling of kicking block, the surface of kicking block and the inner wall activity joint of collecting tray.
Preferably, the front surface of the processing platform is detachably connected with the back surface of the dust collection box, and the position of the dust collection box corresponds to the position of the pressure bearing plate.
Preferably, the left side surface and the right side surface of the threaded sleeve a and the threaded sleeve b are fixedly connected with the opposite surfaces of the two limiting plates a and the two limiting plates b respectively, and the surfaces, far away from the limiting plates a and the limiting plates b, of the two limiting plates a and the limiting plates b are connected with the left side surface and the right side surface of the inner wall of the moving groove a and the inner wall of the moving groove b in a sliding mode respectively.
Compared with the prior art, the beneficial effects of the utility model are that:
the utility model discloses, it is rotatory to drive two action wheels b through servo motor b starts, two initiative b are rotatory to carry the coil wire, fix the coil wire through two action wheels b and two from driving wheel b simultaneously and tighten, the cylinder drives the slide, knife rest and blade move down and cut the coil wire of bearing plate upper surface, slide and the left and right sides face sliding connection of lift inslot wall, carry on spacingly to knife rest and blade, avoid the blade dislocation to appear at the in-process that removes, it does not fix the wire and tightens to have solved current device, the cutting plane that leads to the wire is uneven, and then the problem of the normal use of influence wire.
The utility model discloses, drive from driving wheel a downstream through rotating screw thread post an, adjust and the distance between the action wheel an, it drives two from driving wheel b downstream to rotate two screw thread post b, adjust two distances from between driving wheel b and two action wheel b, and then make the application scope of this device more extensive, servo motor a and servo motor b's rotational speed is the same, servo motor a and servo motor b drive action wheel an and action wheel b carry the coil wire, after the coil wire removes the removal certain time, the cylinder drives the blade downstream and cuts the coil wire, and then carry out the ration cutting to the coil wire.
Drawings
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:
fig. 1 is a schematic structural view of the present invention;
fig. 2 is a schematic sectional view of the front view of the present invention;
FIG. 3 is an enlarged schematic view of the structure at A of the present invention;
fig. 4 is a schematic perspective view of the cutting assembly of the present invention;
fig. 5 is a schematic structural view of the rear view in the present invention;
in the figure: 1. a processing platform; 2. a moving groove a; 3. a moving groove b; 4. a lifting groove;
a feeding assembly: 51. a screw a; 52. a driven wheel a; 53. a driving wheel a; 54. a threaded sleeve a; 55. a servo motor a;
fixing the assembly: 61. a screw b; 62. a driven wheel b; 63. a driving wheel b; 64. a threaded sleeve b; 65. a servo motor b;
7. a pressure bearing plate; 8. a dust collection box;
receive the material subassembly: 91. a material collecting disc; 92. a telescopic groove; 93. connecting blocks; 94. a top block; 95. A take-up reel; 96. a spring; 97. a servo motor c;
cutting the assembly: 101. a cylinder; 102. a slide plate; 103. a tool holder; 104. a blade;
11. a limiting plate a; 12. and a limiting plate b.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Examples
Referring to fig. 1-5, the present invention provides the following technical solutions: a hollow coil processing device comprises a processing platform 1, wherein a moving groove a2 is formed in the left side of the front side of the processing platform 1, a feeding assembly is arranged on the inner wall of a moving groove a2, a lifting groove 4 and two moving grooves b3 are formed in the front side of the processing platform 1 respectively, a cutting assembly is arranged on the inner wall of the lifting groove 4, a fixing assembly is arranged inside the moving groove b3, and a material receiving assembly is arranged on the right side of the back side of the processing platform 1;
the cutting assembly comprises an air cylinder 101 installed on the upper surface of the inner wall of the lifting groove 4, the telescopic end of the air cylinder 101 is fixedly connected with the upper surface of a sliding plate 102, the front side of the lower surface of the sliding plate 102 is fixedly connected with the upper surface of a tool rest 103, and the left side surface and the right side surface of the inner wall of the tool rest 103 are detachably connected with the left side surface and the right side surface of a blade 104 respectively.
Specifically, the left side surface and the right side surface of the sliding plate 102 are respectively connected with the left side surface and the right side surface of the inner wall of the lifting groove 4 in a sliding manner, the front surface of the processing platform 1 is fixedly connected with the back surface of the bearing plate 7, and the position of the bearing plate 7 corresponds to the position of the blade 104;
the air cylinder 101 drives the sliding plate 102, the tool rest 103 and the blade 104 to move downwards, the sliding plate 102 is connected with the left side surface and the right side surface of the inner wall of the lifting groove 4 in a sliding mode, the tool rest 103 and the blade 104 are limited, and dislocation of the blade 104 in the moving process is avoided.
Specifically, the feeding assembly comprises a screw a51 rotatably connected with the lower surface of the inner wall of a moving groove a2, a threaded sleeve a54 is connected to the outer surface of the screw a51 in a threaded manner, the front surface of the threaded sleeve a54 is rotatably connected with the back surface of a driven wheel a52, a servo motor a55 is installed on the back surface of the processing platform 1, an output shaft of the servo motor a55 penetrates through a bearing and a rotating shaft which are clamped on the back surface of the processing platform 1 and is fixedly connected with the back surface of the driving wheel a53, and the position of the driving wheel a53 corresponds to the position of the driven wheel a 52;
the threaded column a is rotated to drive the threaded sleeve a54 to move downwards, the threaded sleeve a54 moves downwards to drive the driven wheel a52 to move downwards, the distance between the driven wheel a53 and the driving wheel a53 is adjusted, and the servo motor a55 drives the driving wheel a53 to rotate to convey and feed the coil conducting wires.
Specifically, the fixing assembly comprises a screw b61 rotatably connected with the lower surface of the inner wall of the moving groove b3, the outer surface of the screw b61 is in threaded connection with a threaded sleeve b64, the front surface of the threaded sleeve b64 is rotatably connected with the back surface of the driven wheel b62, two servo motors b65 are respectively installed on the back surface of the processing platform 1, an output shaft of the servo motor b65 penetrates through a bearing and a rotating shaft which are clamped on the back surface of the processing platform 1 and is fixedly connected with the back surface of the driving wheel b63, and the position of the driving wheel b63 corresponds to the position of the driven wheel b 62;
two threaded columns b are rotated to drive two threaded sleeves b64 to move downwards, two threaded sleeves b64 move downwards to drive two driven wheels b62 to move downwards, the distance between the two driven wheels b62 and two driving wheels b63 is adjusted, a servo motor b65 is started to drive two driving wheels b63 to rotate, two driving wheels b rotate to convey coil leads, and the coil leads are fixed and tightened through the two driving wheels b63 and the two driven wheels b 62.
Specifically, the material receiving assembly comprises a servo motor c97 arranged on the right side of the back of the processing platform 1, an output shaft of the servo motor c97 penetrates through a bearing and a rotating shaft which are clamped on the back of the processing platform 1 and is fixedly connected with the back of a material collecting disc 91, four telescopic grooves 92 are symmetrically formed in the front of the material collecting disc 91, the lower surface of the inner wall of each telescopic groove 92 is fixedly connected with the lower surface of a spring 96, the upper surface of the spring 96 is fixedly connected with the lower surface of a connecting block 93, the left side surface and the right side surface of the connecting block 93 are slidably connected with the left side surface and the right side surface of the inner wall of the telescopic groove 92, the front of the connecting block 93 is fixedly connected with the back of a top block 94, and the outer surface of the top block 94 is movably clamped with the inner wall of a take-up reel 95;
four kicking blocks 94 of pulling are close to each other, place take-up reel 95 in collection charging tray 91 center department, and spring 96 promotes kicking block 94 and fixes the inner wall of take-up reel 95, and servo motor c97 drives collection charging tray 91 rotatory, and collection charging tray 91 rotatory drive connecting block 93 and kicking block 94 are rotatory, and the rotatory take-up reel 95 that drives of kicking block 94 rotates, collects the coil wire.
Specifically, the front surface of the processing platform 1 is detachably connected with the back surface of a dust collection box 8, and the position of the dust collection box 8 corresponds to the position of the pressure bearing plate 7;
the cylinder 101 drives the blade 104 to move downwards to cut the coil wire, dregs generated after cutting fall on the surface of the bearing plate 7, and are swept into the dust collection box 8 to be collected in a centralized manner when being cleaned, so that people can conveniently collect and recycle the dregs.
Specifically, the left side surface and the right side surface of the threaded sleeve a54 and the threaded sleeve b64 are fixedly connected with the opposite surfaces of the two limit plates a11 and the limit plate b12 respectively, and the surfaces, far away from the two limit plates a11 and the limit plate b12, of the two limit plates a11 and the limit plate b12 are connected with the left side surface and the right side surface of the inner wall of the movable groove a2 and the movable groove b3 in a sliding mode respectively;
the limiting plate a11 and the limiting plate b12 can limit the threaded sleeve a54 and the threaded sleeve b64, and the threaded sleeve a54 and the threaded sleeve b64 are prevented from shaking in the moving process.
The utility model discloses a theory of operation and use flow:
the utility model, when in use;
the threaded column a is rotated to drive the threaded sleeve a54 to move downwards, the threaded sleeve a54 moves downwards to drive the driven wheel a52 to move downwards, the distance between the threaded sleeve a53 and the driving wheel a53 is adjusted, the servo motor a55 drives the driving wheel a53 to rotate to convey and feed coil conducting wires, the two threaded columns b are rotated to drive the two threaded sleeves b64 to move downwards, the two threaded sleeves b64 move downwards to drive the two driven wheels b62 to move downwards, the distance between the two driven wheels b62 and the two driving wheels b63 is adjusted, the servo motor b65 is started to drive the two driving wheels b63 to rotate, the two driving wheels b rotate to convey the coil conducting wires, and meanwhile, the coil conducting wires are fixedly tightened through the two driving wheels b63 and the two driven wheels b 62;
the cylinder 101 drives the sliding plate 102, the tool rest 103 and the blade 104 to move downwards, the blade 104 cuts a coil conducting wire above the bearing plate 7, the servo motor c97 drives the material collecting disc 91 to rotate, the material collecting disc 91 rotates to drive the connecting block 93 and the ejector block 94 to rotate, and the ejector block 94 rotates to drive the take-up disc 95 to rotate to collect the coil conducting wire.
It is well within the skill of those in the art to implement, without undue experimentation, the present invention does not relate to software and process improvements, as related to circuits and electronic components and modules.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described above, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (7)
1. The utility model provides an air core coil processingequipment, includes processing platform (1), its characterized in that: the left side of the front of the processing platform (1) is provided with a moving groove a (2), the inner wall of the moving groove a (2) is provided with a feeding assembly, the front of the processing platform (1) is respectively provided with a lifting groove (4) and two moving grooves b (3), the inner wall of the lifting groove (4) is provided with a cutting assembly, a fixing assembly is arranged inside the moving groove b (3), and the right side of the back of the processing platform (1) is provided with a material receiving assembly;
the cutting assembly comprises a cylinder (101) installed on the upper surface of the inner wall of the lifting groove (4), the telescopic end of the cylinder (101) is fixedly connected with the upper surface of a sliding plate (102), the front side of the lower surface of the sliding plate (102) is fixedly connected with the upper surface of a tool rest (103), and the left side surface and the right side surface of the inner wall of the tool rest (103) are detachably connected with the left side surface and the right side surface of a blade (104) respectively.
2. An air-core coil processing apparatus according to claim 1, wherein: the left side surface and the right side surface of the sliding plate (102) are respectively in sliding connection with the left side surface and the right side surface of the inner wall of the lifting groove (4), the front surface of the machining platform (1) is fixedly connected with the back surface of the bearing plate (7), and the position of the bearing plate (7) corresponds to the position of the blade (104).
3. An air-core coil processing apparatus according to claim 1, wherein: the feeding assembly comprises a screw rod a (51) rotatably connected with the lower surface of the inner wall of the moving groove a (2), the outer surface of the screw rod a (51) is in threaded connection with a threaded sleeve a (54), the front surface of the threaded sleeve a (54) is rotatably connected with the back surface of the driven wheel a (52), a servo motor a (55) is mounted at the back surface of the processing platform (1), an output shaft of the servo motor a (55) penetrates through a bearing and a rotating shaft which are clamped on the back surface of the processing platform (1) and fixedly connected with the back surface of the driving wheel a (53), and the position of the driving wheel a (53) corresponds to the position of the driven wheel a (52).
4. An air-core coil processing apparatus according to claim 1, wherein: fixed subassembly includes screw rod b (61) of being connected with moving groove b (3) inner wall lower surface rotation, the surface threaded connection of screw rod b (61) has thread bush b (64), the front of thread bush b (64) is connected with the back rotation from driving wheel b (62), two servo motor b (65) are installed respectively to the back of processing platform (1), the output shaft of servo motor b (65) passes the bearing of processing platform (1) back joint and the back rigid coupling of pivot and action wheel b (63), the position of action wheel b (63) is corresponding with the position from driving wheel b (62).
5. An air-core coil processing apparatus according to claim 1, wherein: receive the material subassembly including installing servo motor c (97) on processing platform (1) back right side, the output shaft of servo motor c (97) passes the bearing of processing platform (1) back joint and the back rigid coupling of pivot and collecting tray (91), four expansion tank (92) have been seted up to the front symmetry of collecting tray (91), the lower surface of expansion tank (92) inner wall and the lower surface rigid coupling of spring (96), the upper surface of spring (96) and the lower surface rigid coupling of connecting block (93), the left and right sides face sliding connection of the left and right sides face of connecting block (93) and expansion tank (92) inner wall, the front of connecting block (93) and the back rigid coupling of kicking block (94), the surface of kicking block (94) and the inner wall activity joint of take-up reel (95).
6. An air-core coil processing apparatus as claimed in claim 1, wherein: the front surface of the processing platform (1) is detachably connected with the back surface of the dust collection box (8), and the position of the dust collection box (8) corresponds to the position of the pressure bearing plate (7).
7. An air-core coil processing apparatus according to claim 3, wherein: the left side surface and the right side surface of the threaded sleeve a (54) and the threaded sleeve b (64) are fixedly connected with the opposite surfaces of the two limiting plates a (11) and the two limiting plates b (12), and the surfaces, far away from the limiting plates a (11) and the limiting plates b (12), of the two limiting plates a (11) and the two limiting plates b (12) are connected with the left side surface and the right side surface of the inner wall of the moving groove a (2) and the inner wall of the moving groove b (3) in a sliding mode.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202123360277.XU CN217507103U (en) | 2021-12-29 | 2021-12-29 | Hollow coil processing device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202123360277.XU CN217507103U (en) | 2021-12-29 | 2021-12-29 | Hollow coil processing device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN217507103U true CN217507103U (en) | 2022-09-27 |
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ID=83342324
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202123360277.XU Active CN217507103U (en) | 2021-12-29 | 2021-12-29 | Hollow coil processing device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN217507103U (en) |
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2021
- 2021-12-29 CN CN202123360277.XU patent/CN217507103U/en active Active
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