CN114986587B - Hybrid circuit part manufacturing device applied to energy-saving equipment assembly - Google Patents

Abstract

The invention relates to the technical field of circuit board production attachments, in particular to a hybrid circuit component manufacturing device used in energy-saving equipment assembly, including a bottom plate, a roller and a moving seat. The outer wall of the cylinder is provided with a chute structure, and the moving seat is elastically slidably installed on the bottom plate. The end of the moving seat facing the roller is fixedly provided with a guide column, and the end of the guide column facing away from the moving seat is slidably installed in the chute structure. A platform is fixedly arranged on the seat, an eccentric wheel is fixedly arranged at one end of the roller coaxially, a sliding seat is arranged horizontally sliding above the platform, and a cutting assembly is fixedly arranged on the sliding seat. In the present invention, with the rotation of the roller, through the cooperation of the chute structure and the guide column, the moving seat drives the platform to move horizontally to realize the loading of circuit board raw materials, with a high degree of automation and effectively reduce the labor intensity of the staff ,Improve work efficiency.

Description

Hybrid circuit parts manufacturing equipment for energy-saving equipment assembly

technical field

The invention relates to the technical field of auxiliary devices for producing circuit boards, in particular to a hybrid circuit part manufacturing device used in energy-saving equipment assembly.

Background technique

The circuit board is a very important part of the hybrid circuit components. In the process of producing the circuit board, the circuit board raw material needs to be cut according to the specified size. At present, the way to cut the circuit board raw material is to first cut the circuit board The raw material is fixed on the workbench, and then the staff cuts the circuit board raw material with a cutter in hand. However, the existing method of cutting the circuit board manually cuts the circuit board, and the labor intensity of the staff is relatively high, resulting in their work. less efficient.

Contents of the invention

The main purpose of the present invention is to provide a hybrid circuit component manufacturing device used in energy-saving equipment assembly, so as to effectively solve the problems pointed out in the background technology.

In order to achieve the above object, the technical scheme adopted in the present invention is:

The hybrid circuit parts manufacturing device applied to the assembly of energy-saving equipment includes a bottom plate, a roller and a moving seat. The moving seat is elastically slidably installed on the bottom plate, and one end of the moving seat facing the roller is fixedly provided with a guide column, and the end of the guiding column facing away from the moving seat is slidably installed in the chute structure, and the moving seat is fixedly provided with A platform, one end of the roller is fixedly arranged with an eccentric wheel coaxially, and a sliding seat is horizontally slidably arranged above the platform, and the end of the sliding seat facing the eccentric wheel is in sliding contact with the peripheral outer wall of the eccentric wheel, and the sliding seat A cutting assembly is fixedly arranged on the top.

Further, the chute structure includes a helical part, an arc part and a straight part, the helical part is located in the upper half of the outer peripheral wall of the roller, the arc part is located in the lower half of the outer peripheral wall of the roller, and the One end of the arc portion communicates with one end of the helix portion, the other end of the arc portion communicates with the other end of the helix portion through a linear chute, and the end of the outer wall of the eccentric wheel near the center of the circle faces the highest point of the helix portion, so The end of the peripheral outer wall of the eccentric wheel away from the center of the circle faces the lowest point of the arc portion.

Further, a support plate is fixedly arranged on the bottom plate, and a guide plate is slidably inserted through the support plate, and a limit plate is fixedly arranged at one end of the guide plate facing away from the eccentric wheel, and the bottom end of the guide plate is close to the eccentric wheel A fixed block is fixedly arranged at the position, the bottom end of the fixed block is fixedly connected with the top end of the sliding seat, a first spring is arranged between the fixed block and the supporting plate, and an installation groove is arranged at the bottom end of the sliding seat; The cutting assembly includes a first motor, the first motor is fixedly installed in the installation groove, the output end of the first motor is provided with an output shaft, and the end of the output shaft facing away from the first motor is fixedly provided with a cutting knife.

Further, a guide rail is fixedly arranged on the bottom plate, the moving seat is slidably installed on the guide rail, a fixed plate is fixedly arranged on the bottom plate, a sliding column is slid through the fixed plate, and the sliding column moves toward One end of the seat is fixedly connected with the moving seat, a second spring is fixedly arranged between the fixed plate and the moving seat, and the second spring is sleeved outside the sliding column, and the end of the sliding column facing away from the moving seat is fixedly provided with a bezel.

Further, two stabilizing plates are arranged on the bottom plate, the positions of the two stabilizing plates are symmetrical, a top plate is fixedly arranged on the top of the two stabilizing plates, a cylinder is fixedly arranged on the top plate, and the output end of the cylinder is arranged There is a telescopic shaft, the telescopic shaft slides through the top plate, the end of the telescopic shaft facing away from the cylinder is fixedly provided with a pressure plate, the end of the pressure plate facing away from the telescopic shaft is provided with anti-slip lines, and the top plate is fixedly provided with a mounting bracket, Described air cylinder is fixed on the top plate by mounting frame.

Further, a support frame is fixedly arranged on the bottom plate, a rotating shaft is rotatably arranged on the support frame, the roller is fixedly sleeved on the rotating shaft, a through hole is provided at the center of the eccentric wheel, and the through hole The inner diameter of the hole is larger than the outer diameter of the rotating shaft, a second motor is fixedly arranged on the base plate, a transmission shaft is arranged at the output end of the second motor, and a driving wheel is fixedly arranged at the end of the transmission shaft facing away from the second motor, so A driven wheel is provided on the fixed sleeve on the outer circumference wall of the rotating shaft, and a belt is provided on the transmission sleeve of the driving wheel and the driven wheel.

Further, stoppers are fixedly arranged at positions near the two ends of the top of the guide rail.

Further, the sliding seat is provided with an arc-shaped structure at one end facing the eccentric wheel, the arc-shaped structure of the sliding seat is in contact with the peripheral outer wall of the eccentric wheel, and the contact form between the sliding seat and the eccentric wheel is a line contact.

After adopting above-mentioned technical scheme, the beneficial effect of the present invention is:

Firstly, the circuit board raw materials are placed on the platform. With the rotation of the roller, through the cooperation of the chute structure and the guide column, the moving seat drives the platform to move horizontally to realize the loading of the circuit board raw materials. When the platform reaches the designated position After that, the eccentric wheel drives the cutting assembly to reciprocate once, and automatically completes the cutting of the circuit board raw materials. The degree of automation is high, which effectively reduces the labor intensity of the staff and improves work efficiency.

Description of drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the following will briefly introduce the drawings that need to be used in the description of the embodiments or the prior art. Obviously, the accompanying drawings in the following description are only These are some embodiments described in the present invention. Those skilled in the art can also obtain other drawings based on these drawings without creative work.

Fig. 1 is a schematic perspective view of the obliquely looking down structure of the right front top angle of the present invention;

Fig. 2 is a schematic front plan view of the structure of the present invention;

Fig. 3 is a schematic perspective view of the partial structure at the sliding seat of the present invention, looking obliquely downward at the left front top angle;

Fig. 4 is the schematic perspective view of the connection of the bottom plate, stabilizing plate, top plate, cylinder, telescopic shaft, pressing plate and mounting frame of the present invention, the right rear top angle looking obliquely downward;

Fig. 5 is a schematic top view of the overall structure of the present invention;

Reference signs: 1, bottom plate; 2, roller; 3, moving seat; 4, guide column; 5, platform; 6, eccentric wheel; 7, sliding seat; 8, spiral part; 9, arc part; 10, 11. Support plate; 12. Guide plate; 13. Limit plate; 14. Fixed block; 15. First spring; 16. First motor; 17. Output shaft; 18. Cutting knife; 19. Guide rail; 20, fixed plate; 21, sliding column; 22, second spring; 23, baffle plate; 24, stable plate; 25, top plate; 26, cylinder; 27, telescopic shaft; 28, pressure plate; Mounting frame; 31, support frame; 32, rotating shaft; 33, through hole; 34, second motor; 35, transmission shaft; 36, driving wheel; 37, driven wheel; 38, belt; 39, block.

Detailed ways

The specific implementation manners of the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. The following examples are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

In the hybrid circuit component manufacturing device applied to the assembly of energy-saving equipment of the present invention, the installation, connection or setting methods of all the above-mentioned components are common mechanical methods, and the specific structures, models and coefficient indexes of all the components are Its self-contained technology can be implemented as long as it can achieve its beneficial effect, so it will not be repeated.

For the hybrid circuit component manufacturing device applied to the assembly of energy-saving equipment of the present invention, unless otherwise specified, the orientation words included in the term, such as "up and down, left and right, front and back, inside and outside, and vertical and horizontal", only represent the normal use of the term Orientation in the state, or the common name understood by those skilled in the art, and should not be considered as a limitation of this term. The number and order of the elements are used only for the distinction of names, and the term "comprises", "comprises" or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method, article, or An apparatus includes not only those elements, but also other elements not expressly listed or inherent in such a process, method, article, or apparatus.

As shown in Figure 1-5, the hybrid circuit component manufacturing device used in the assembly of energy-saving equipment includes a bottom plate 1, a roller 2 and a moving seat 3, and the roller 2 is installed on the bottom plate 1 horizontally and rotated. The outer wall is provided with a chute structure, the moving seat 3 is elastically slidably installed on the bottom plate 1, the end of the moving seat 3 facing the roller 2 is fixedly provided with a guide column 4, and the end of the guiding column 4 facing away from the moving seat 3 is slidably installed on the chute In the structure, a platform 5 is fixedly arranged on the moving seat 3, an eccentric wheel 6 is fixedly arranged on one end of the roller 2 coaxially, and a sliding seat 7 is installed horizontally above the platform 5, and the sliding seat 7 faces one end of the eccentric wheel 6 and the eccentric The peripheral outer wall of the wheel 6 is in sliding contact, and a cutting assembly is fixedly arranged on the sliding seat 7 .

During use, the circuit board raw material is first placed on the platform 5, and with the rotation of the roller 2, through the cooperation of the chute structure and the guide column 4, the moving seat 3 drives the platform 5 to move horizontally to realize the circuit board For raw material feeding, when the platform 5 reaches the designated position, the eccentric wheel 6 drives the cutting assembly to reciprocate once, and automatically completes the cutting of the circuit board raw material. The degree of automation is high, which effectively reduces the labor intensity of the staff and improves work efficiency.

As a preference of the above embodiment, the chute structure includes a helical part 8, an arc part 9 and a straight part 10, the helical part 8 is located at the upper half of the outer circumferential wall of the roller 2, and the arc part 9 is located at the lower part of the outer circumferential wall of the roller 2. Half part, one end of the arc portion 9 communicates with one end of the spiral portion 8, the other end of the arc portion 9 communicates with the other end of the spiral portion 8 through a linear chute, and the end of the outer wall of the circumference of the eccentric wheel 6 near the center of the circle faces the spiral portion 8 The highest point of the eccentric wheel 6 peripheral wall away from the center of the circle toward the lowest point of the arc portion 9 .

During use, when the guide post 4 is located at the junction of the straight part 10 and the helical part 8, the platform 5 is at the initial position at this time, and during the rotation of the roller 2, the guide post 4 first slides along the helical part 8, so that the guiding The column 4 slides horizontally, and the guide column 4 drives the moving seat 3, the platform 5 and the circuit board material on the platform 5 to move horizontally. When the guide column 4 slides from the spiral part 8 to the arc part 9, the roller 2 still Continue to rotate, while the platform 5 remains still. At this time, under the action of the eccentric wheel 6, the cutting assembly reciprocates once to realize the cutting of the circuit board raw material. Slide into the straight part 10, at this time the moving seat 3 returns to the initial position under the elastic reset force, the staff only needs to remove the cut circuit board on the platform 5 and place the new circuit board raw material on the platform 5 That is, the loading and cutting of the circuit board can be automatically completed by mechanical means, with a high degree of automation and high work efficiency.

As a preference of the above-mentioned embodiment, a support plate 11 is fixedly arranged on the bottom plate 1, and a guide plate 12 is slidably inserted through the support plate 11, and a limit plate 13 is fixedly arranged on the end of the guide plate 12 facing away from the eccentric wheel 6, and the bottom of the guide plate 12 The end is fixedly provided with a fixed block 14 near the position of the eccentric wheel 6, the bottom end of the fixed block 14 is fixedly connected with the top end of the sliding seat 7, the first spring 15 is arranged between the fixed block 14 and the support plate 11, and the bottom end of the sliding seat 7 is arranged There is an installation groove; the cutting assembly includes a first motor 16, the first motor 16 is fixedly installed in the installation groove, the output end of the first motor 16 is provided with an output shaft 17, and the end of the output shaft 17 facing away from the first motor 16 is fixedly provided with a cutting Knife 18.

During use, during the rotation of the eccentric wheel 6, due to the structural characteristics of the eccentric wheel 6, the sliding seat 7 reciprocates in translation, the sliding seat 7 drives the cutting assembly to move back and forth, and the first motor 16 in the cutting assembly drives the cutting knife 18 to rotate , the circuit board material is cut by the reciprocating cutting knife 18, which has a high degree of automation and high work efficiency.

As a preference of the above-mentioned embodiment, the base plate 1 is fixedly provided with a guide rail 19, the movable seat 3 is slidably installed on the guide rail 19, the base plate 1 is fixedly provided with a fixed plate 20, and the fixed plate 20 slides through and is provided with a sliding column 21. One end of 21 facing the moving seat 3 is fixedly connected with the moving seat 3, a second spring 22 is fixedly arranged between the fixed plate 20 and the moving seat 3, and the second spring 22 is sleeved outside the sliding column 21, and the sliding column 21 faces away from the moving seat One end of 3 is fixedly provided with baffle plate 23.

During use, the moving seat 3 slides along the guide rail 19. During the horizontal movement of the moving seat 3, when the guide column 4 slides into the straight part 10, due to the force of the elastic deformation of the second spring 22, the moving The seat 3 returns to the initial position to complete a feeding and cutting operation, and the work efficiency is high.

As a preferred embodiment of the foregoing, the base plate 1 is provided with two stabilizing plates 24, the positions of the two stabilizing plates 24 are symmetrical, the tops of the two stabilizing plates 24 are fixedly provided with a top plate 25, the top plate 25 is fixedly provided with a cylinder 26, and the output of the cylinder 26 is One end of the telescopic shaft 27 is provided with a telescopic shaft 27, which slides through the top plate 25, and one end of the telescopic shaft 27 facing away from the cylinder 26 is fixedly provided with a pressing plate 28, and one end of the pressing plate 28 facing away from the telescopic shaft 27 is provided with anti-slip lines 29, and the top plate 25 is fixedly arranged There is a mounting frame 30, and the cylinder 26 is fixed on the top plate 25 by the mounting frame 30.

During use, when the moving seat 3 and the platform 5 are driven to reach the designated station, at this time, the cylinder 26 drives the pressing plate 28 to move downward through the telescopic shaft 27, and the pressing plate 28 moves downward to contact with the raw material of the circuit board. The pressing plate 28 compresses the circuit board material on the platform 5 , and the effect of the anti-skid pattern 29 can enhance the compression effect on the circuit board material and improve the reliability of use.

As a preference of the above embodiment, a support frame 31 is fixedly arranged on the bottom plate 1, a rotating shaft 32 is arranged on the supporting frame 31 for rotation, the roller 2 is fixedly sleeved on the rotating shaft 32, and a through hole 33 is provided at the center of the eccentric wheel 6 , the inner diameter of the through hole 33 is greater than the outer diameter of the rotating shaft 32, the base plate 1 is fixedly provided with a second motor 34, the output end of the second motor 34 is provided with a transmission shaft 35, and the end of the transmission shaft 35 facing away from the second motor 34 is fixedly provided with a The driving wheel 36 is fixedly provided with a driven wheel 37 on the peripheral outer wall of the rotating shaft 32 , and the driving wheel 36 and the driven wheel 37 are provided with a belt 38 on the driving sleeve.

During use, the second motor 34 drives the rotating shaft 32 to rotate through the driving wheel 36, the driven wheel 37 and the belt 38, and the rotating shaft 32 drives the roller 2 and the eccentric wheel 6 to rotate synchronously, thereby realizing the feeding and cutting of the circuit board raw materials. Improve work efficiency.

As a preference of the above embodiment, stoppers 39 are fixedly arranged at positions close to the two ends of the top of the guide rail 19 .

During use, the stopper 39 can limit the position of the moving base 3, prevent the moving base 3 from detaching from the guide rail 19, and improve the reliability of use.

As a preference of the above embodiment, the sliding seat 7 is provided with an arc-shaped structure towards one end of the eccentric wheel 6, and the arc-shaped structure of the sliding seat 7 is in contact with the peripheral outer wall of the eccentric wheel 6, and the contact form between the sliding seat 7 and the eccentric wheel 6 is a line touch.

During use, the arc-shaped structure makes the contact form between the sliding seat 7 and the eccentric wheel 6 a line contact, which can reduce frictional resistance and improve ride comfort.

The above is only a preferred embodiment of the present invention, it should be pointed out that for those of ordinary skill in the art, without departing from the technical principle of the present invention, some improvements and modifications can also be made, these improvements and modifications It should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a be applied to mixed circuit spare part manufacturing installation of energy-saving equipment, its characterized in that includes bottom plate (1), roller (2) and removes seat (3), roller (2) are transversely rotated and are installed on bottom plate (1), be provided with spout structure on the circumference outer wall of roller (2), remove seat (3) elasticity slidable mounting on bottom plate (1), remove seat (3) towards the fixed guide post (4) that is provided with of one end of roller (2), the guide post (4) are carried forward the one end slidable mounting of moving seat (3) in spout structure, remove fixed platform (5) that are provided with on seat (3), the one end coaxial fixed of roller (2) is provided with eccentric wheel (6), the horizontal sliding of platform (5) top is provided with sliding seat (7), the one end of sliding seat (7) towards eccentric wheel (6) and the circumference outer wall sliding contact of eccentric wheel (6), fixedly on sliding seat (7) are provided with cutting assembly; the sliding groove structure comprises a spiral part (8), an arc line part (9) and a straight line part (10), wherein the spiral part (8) is positioned at the upper half part of the circumferential outer wall of the roller (2), the arc line part (9) is positioned at the lower half part of the circumferential outer wall of the roller (2), one end of the arc line part (9) is communicated with one end of the spiral part (8), the other end of the arc line part (9) is communicated with the other end of the spiral part (8) through the straight line part (10), one end, close to the center of a circle, of the circumferential outer wall of the eccentric wheel (6) faces to the highest point of the spiral part (8), and one end, far away from the center of the circle, of the circumferential outer wall of the eccentric wheel (6) faces to the lowest point of the arc line part (9); the utility model discloses a movable seat, including bottom plate (1), fixed guide rail (19) that is provided with on bottom plate (1), movable seat (3) slidable mounting is on guide rail (19), fixed plate (20) are provided with on bottom plate (1), slip run through on fixed plate (20) is provided with sliding column (21), sliding column (21) are towards the one end of movable seat (3) and movable seat (3) fixed connection, fixed second spring (22) that are provided with between fixed plate (20) and movable seat (3), second spring (22) cover is established in sliding column (21) outside, sliding column (21) are provided with baffle (23) in the one end of movable seat (3) dorsad fixed.

2. The manufacturing device for the hybrid circuit parts applied to energy-saving equipment assembly according to claim 1, wherein a supporting plate (11) is fixedly arranged on the bottom plate (1), a guide plate (12) is arranged on the supporting plate (11) in a sliding penetrating manner, a limiting plate (13) is fixedly arranged at one end, opposite to the eccentric wheel (6), of the guide plate (12), a fixed block (14) is fixedly arranged at the position, close to the eccentric wheel (6), of the bottom end of the guide plate (12), the bottom end of the fixed block (14) is fixedly connected with the top end of the sliding seat (7), a first spring (15) is arranged between the fixed block (14) and the supporting plate (11), and an installation groove is formed in the bottom end of the sliding seat (7);

the cutting assembly comprises a first motor (16), the first motor (16) is fixedly arranged in the mounting groove, an output shaft (17) is arranged at the output end of the first motor (16), and a cutting knife (18) is fixedly arranged at one end, opposite to the first motor (16), of the output shaft (17).

3. The hybrid circuit part manufacturing device applied to energy-saving equipment assembly according to claim 1, wherein two stabilizing plates (24) are arranged on the bottom plate (1), the positions of the two stabilizing plates (24) are symmetrical, a top plate (25) is fixedly arranged at the top end of each stabilizing plate (24), an air cylinder (26) is fixedly arranged on each top plate (25), an output end of each air cylinder (26) is provided with a telescopic shaft (27), the telescopic shafts (27) penetrate through the top plate (25) in a sliding mode, a pressing plate (28) is fixedly arranged at one end, opposite to the air cylinders (26), of each telescopic shaft (27), anti-skidding patterns (29) are arranged at one end, opposite to the telescopic shafts (27), of each pressing plate (28), an installation frame (30) is fixedly arranged on each top plate (25), and each air cylinder (26) is fixedly arranged on the top plate (25) through the installation frame (30).

4. The manufacturing device for the hybrid circuit parts applied to energy-saving equipment assembly according to claim 1, wherein a supporting frame (31) is fixedly arranged on the bottom plate (1), a rotating shaft (32) is rotatably arranged on the supporting frame (31), the roller (2) is fixedly sleeved on the rotating shaft (32), a through hole (33) is formed in the circle center position of the eccentric wheel (6), the inner diameter of the through hole (33) is larger than the outer diameter of the rotating shaft (32), a second motor (34) is fixedly arranged on the bottom plate (1), a transmission shaft (35) is arranged at the output end of the second motor (34), a driving wheel (36) is fixedly arranged at one end, opposite to the second motor (34), of the transmission shaft (35), a driven wheel (37) is fixedly sleeved on the outer circumferential wall of the rotating shaft (32), and a belt (38) is sleeved on the driving wheel (36) and the driven wheel (37).

5. The hybrid circuit component manufacturing apparatus applied to the assembly of energy-saving equipment according to claim 4, wherein stoppers (39) are fixedly provided at positions near both end portions of the top end of the guide rail (19).

6. The manufacturing device of the hybrid circuit component applied to the assembly of the energy-saving equipment according to claim 1, wherein one end of the sliding seat (7) facing the eccentric wheel (6) is provided with an arc structure, the arc structure of the sliding seat (7) is contacted with the circumferential outer wall of the eccentric wheel (6), and the contact mode of the sliding seat (7) and the eccentric wheel (6) is line contact.

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