CN113023360A - Fixing mechanism for capacitor machining - Google Patents

Abstract

The invention discloses a fixing mechanism for capacitor machining, which belongs to the field of capacitor machining and comprises a workbench, wherein a cylinder is arranged inside the workbench, a second movable arm is connected to the output end of the cylinder through a pin, a first movable arm is connected to the tail part of the cylinder through a pin, first connecting rods are respectively connected to the tops of the first movable arm and the second movable arm through pins, the front end of each first connecting rod is movably connected with a sliding block through a rotating shaft, and a restraining groove for the sliding of the sliding block is formed in the top of the workbench. A portal frame structure is formed by a support and a rack, a capacitor plate used for clamping a capacitor is installed on the portal frame structure, the capacitor plate is connected to the rack through a connecting plate and a movable sleeve, the capacitor plate is driven by the portal frame structure to move front and back, the capacitor can be installed at any point on the circuit board along the width direction, a drive is arranged on the movable sleeve, the drive drives a gear to move on the rack in a meshing mode through a motor, and therefore transverse displacement of the movable sleeve is achieved.

Description

Fixing mechanism for capacitor machining

Technical Field

The invention belongs to the technical field of fixing mechanisms for capacitor machining, and particularly relates to a fixing mechanism for capacitor machining.

Background

The capacitor is an element for storing electric quantity and electric energy, when a voltage is applied between two plates of the capacitor, the capacitor stores electric charge, the capacitance of the capacitor is equal to the ratio of the electric quantity on one conductive plate to the voltage between the two plates in value, and the capacitor plays an important role in circuits such as tuning, bypassing, coupling, filtering and the like, and is generally used in circuit boards in many ways.

In the processing process of installing the capacitor on the circuit board, the capacitor needs to be held by hand for righting, then the pin is fixed by using a soldering device, the capacitor is very inconvenient to operate by one hand due to small volume, the fixing device adopted at present only clamps and fixes the capacitor through a clamping seat, the shape and the size of the capacitor are different, the common fixing device is easy to loosen in the processing process of the capacitor due to the use of the common fixing device, the fixing device (CN108637937A) for processing based on the coupling capacitor disclosed by Chinese patent is convenient for two thread blocks to synchronously move back and forth through the thread block sleeved on the surface of the torsion bar and the thread which is arranged on the surface of the torsion bar and has opposite directions, and the electric push rod is convenient for driving the restrictive moving block to slide along a ramp groove at the bottom of the restrictive moving block through the restrictive moving block and the driven sliding seat which is connected with the restrictive moving block in, make the follower slide remove along the gag lever post, thereby the convenience is adjusted the height of spacing seat, move through the telescopic link, be convenient for drive wide angle alignment jig action through the guide bar, and then can carry out multidirectional fine setting as required, improve the fixed effect to the article, solve above-mentioned problem, but the condenser generally carries out the tin soldering with the circuit board, the less above-mentioned device structure of volume is too complicated can shelter from the condenser, lead to the condenser to be difficult to and the circuit board contacts, when connecting simultaneously, the circuit board also need fix, prevent that the clamping mechanism of condenser from touching the circuit board at the in-process that carries out the displacement condenser, cause the circuit board displacement, lead to aligning the failure, or the condenser connection that the circuit board displacement caused breaks away from predetermined mounting point one-level condenser and connects the slope.

Disclosure of Invention

Aiming at the problem of processing and fixing the existing capacitor, the invention provides a fixing mechanism for processing the capacitor, which comprises the steps of fixing and clamping the capacitor and fixing a circuit board, so that the problem that the connection between the capacitor and the circuit board is influenced by a complex clamping structure due to the small volume of the capacitor is solved, and the problem of offset of the circuit board after collision is solved.

In order to solve the above problems, the present invention adopts the following technical solutions.

The utility model provides a fixed establishment of condenser processing usefulness, includes the workstation, the inside of workstation is equipped with the cylinder, and the output end pin joint of cylinder has the second digging arm, the afterbody pin joint of cylinder has first digging arm, and the top of first digging arm and second digging arm all the pin joint has first connecting rod, and the front end of first connecting rod has the slider through pivot swing joint, and the workstation top has been seted up and has been supplied the gliding restriction groove of slider.

Preferably, two splint all have been welded to the relative one end of slider, and the splint inboard symmetry on the slider that the second digging arm tip is connected is equipped with the overlap joint piece, and the splint correspondence on the slider that first digging arm tip is connected has seted up the through-hole.

Preferably, the inside top center department of workstation is equipped with the gag lever post, and the activity cover has been cup jointed on the gag lever post in the activity, the both sides of activity cover all are equipped with the engaging lug, and the pin junction has the second connecting rod on the engaging lug, the terminal integrated into one piece of second connecting rod has the round pin splicing piece.

Preferably, the centers of the first movable arm and the second movable arm are both provided with connecting arms, and the connecting arms are both connected to the pin joint piece.

Preferably, the top both sides of workstation have seted up the spout, and sliding connection has the support in the spout, the top of support is connected with the rack.

Preferably, the movable sleeve is movably sleeved on the rack, the motor is installed at the top of the movable sleeve, the gear is sleeved at the driving end of the motor, and the through hole for the gear to engage with the rack is formed in the top of the movable sleeve.

Preferably, one side of the movable sleeve is connected with a connecting plate, the tail end of the connecting plate is connected with a capacitor plate, and movable plates are symmetrically arranged in the capacitor plate.

Preferably, a spring is arranged between the outer side of the movable plate and the inner side of the capacitor plate, and the movable plate is provided with fixing holes with different diameters.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the invention, the cylinder, the first movable arm, the second movable arm, the connecting rod, the sliding block and the clamping plate on the sliding block form a mechanism for fixing the circuit board, when the capacitor is installed on the circuit board, the mechanism can ensure that the circuit board cannot shift during installation, and prevent the circuit board from deviating from a preset position due to the touch of a welding device, so that the capacitor is prevented from being installed with position deviation and angle inclination, and the specific operation process of the mechanism is as follows: the bottoms of a first movable arm and a second movable arm which are movably connected with the head and the tail of the cylinder are enabled to move outwards through the stretching of the cylinder, the centers of the first movable arm and the second movable arm are movably connected through a connecting arm, so that the first movable arm and the second movable arm are in a lever structure, when the lower ends of the first movable arm and the second movable arm move outwards, the upper ends of the first movable arm and the second movable arm move relatively and are mutually closed to form a clamping force, the sliding blocks are arranged at the tops of the first movable arm and the second movable arm, the clamping force of the relative movement is in a horizontal state by utilizing the sliding blocks and a restraint groove, and on the same straight line, meanwhile, in order to adapt to circuit boards with different lengths, clamping plates are connected at the end parts of the sliding blocks, the circuit boards are fixed through the clamping force of the clamping plates, and meanwhile, because the circuit boards are thinner, the clamping mechanisms are, or the too big application of force causes destruction to the circuit board periphery, consequently sets up two overlapping pieces on a splint, and the circuit board is directly placed on the overlapping piece, sets up the through-hole that supplies the overlapping piece to pass through on another splint, can enough hold up the circuit board during two splint relative motion like this and also can press from both sides tightly the circuit board.

(2) According to the invention, the limiting rod, the movable sleeve, the connecting lug, the second connecting rod and the pin joint piece form an assembly for restraining the first movable arm and the second movable arm, so that the first movable arm and the second movable arm form a lever structure, the tops of the first movable arm and the second movable arm can be mutually closed to finish clamping when the bottoms of the first movable arm and the second movable arm move outwards only when the first movable arm and the second movable arm form a lever structure, and the flow of restraining the assembly is as follows: the linking arm of first digging arm and second digging arm center department passes through the round pin splicing and is connected with the second connecting rod, and when cylinder promoted first digging arm and second digging arm bottom outwards movement, the linking arm pulled the movable sleeve through the second connecting rod and slides down on the gag lever post, at this in-process: the first movable arm and the second movable arm are always constrained by the connecting arm, so that the tops of the first movable arm and the second movable arm are close to each other.

(3) In the invention, a portal frame structure is formed by a bracket and a rack and slides longitudinally through a chute arranged at the top of a worktable, a capacitor plate for clamping a capacitor is arranged on the portal frame structure and is connected on the rack through a connecting plate and a movable sleeve, so that the portal frame structure drives the capacitor plate to displace forwards and backwards to meet the requirement of the installation of the capacitor at any point of a circuit board along the width direction, meanwhile, in order to meet the requirement of the installation of the capacitor at any point of the circuit board along the length direction, a drive is arranged on the movable sleeve, the drive drives a gear to move on the rack in a meshing way through a motor, thereby finishing the transverse displacement of the movable sleeve, meanwhile, as the capacitor has two shapes of a cylinder shape and a rectangle shape, in order to ensure the stability during clamping, a movable plate is arranged in the capacitor plate, and a circular fixed hole is arranged on the movable plate, the clamping device is used for clamping a cylindrical capacitor, the rectangular capacitor is directly clamped by other parts of the movable plate, and the movable plate provides clamping force by utilizing a spring.

Drawings

FIG. 1 is a schematic structural diagram of a fixing mechanism for capacitor processing according to the present invention;

FIG. 2 is a schematic view of a partially enlarged structure of a fixing mechanism for processing a capacitor according to the present invention;

FIG. 3 is a schematic structural view of a fixing mechanism of a worktable for processing a capacitor according to the present invention;

FIG. 4 is a schematic view of the overall structure of a fixing mechanism of a working table for capacitor processing according to the present invention;

FIG. 5 is a schematic structural view of a restraint assembly of a fixing mechanism of a working table for capacitor processing according to the present invention;

FIG. 6 is a schematic diagram of a capacitor plate structure for capacitor processing according to the present invention;

fig. 7 is a schematic sectional view of a capacitor plate for capacitor processing according to the present invention.

The corresponding relationship between the reference numbers of the figures and the names of the components in the figures is as follows: 1. a rack; 2. a support; 3. a chute; 4. a work table; 5. a first movable arm; 6. a slider; 7. a capacitive plate; 8. a connecting plate; 9. a limiting groove; 10. a motor; 11. a gear; 12. a movable sleeve; 13. a splint; 14. a lap joint sheet; 15. a second movable arm; 16. a through groove; 17. a first link; 18. a cylinder; 19. a limiting rod; 20. connecting arm force; 21. connecting lugs; 22. a second link; 23. a movable sleeve; 24. a pin tab; 25. a movable plate; 26. a fixing hole; 27. a spring.

Detailed Description

The invention is further described below in connection with specific embodiments of the invention.

In the diagrams 2 and 4, a fixing mechanism for capacitor processing comprises a workbench 4, the workbench 4 is used for providing a connecting fulcrum when an operation platform and other components are assembled, a cylinder 18 is arranged inside the workbench 4, the cylinder 18 is used for power output of a circuit board clamping mechanism, an output end of the cylinder 18 is in pin connection with a second movable arm 15, a tail part of the cylinder 18 is in pin connection with a first movable arm 5, the tops of the first movable arm 5 and the second movable arm 15 are both in pin connection with a first connecting rod 17, the front end of the first connecting rod 17 is movably connected with a sliding block 6 through a rotating shaft, a restraining groove for sliding of the sliding block 6 is formed in the top of the workbench 4, the bottoms of the first movable arm 5 and the second movable arm 15 which are movably connected at the head and the tail of the cylinder 18 are both outwards displaced through extension of the cylinder 18, and the first movable arm 5 and the second movable arm 15 are actually in a lever structure, therefore, when the lower ends of the first movable arm 5 and the second movable arm 15 are displaced outwards, the upper ends of the first movable arm 5 and the second movable arm 15 move relatively to each other, and a clamping force is formed when the upper ends of the first movable arm 5 and the second movable arm 15 move relatively to each other, the sliding block 6 is mounted at the top of the first movable arm 5 and the top of the second movable arm 15, the clamping force of the relative movement is in a horizontal state by utilizing the sliding block 6 and the restraint groove, and the circuit board is fixed on the same straight line.

In fig. 3, the opposite ends of the two sliding blocks 6 are welded with clamping plates 13, and the inner sides of the clamping plates 13 on the sliding blocks 6 connected with the end parts of the second movable arms 15 are symmetrically provided with overlapping plates 14, and the clamping plate 13 on the sliding block 6 connected with the end part of the first movable arm 5 is correspondingly provided with a through hole, in order to adapt to circuit boards with different lengths, a clamping plate 13 is connected at the end part of the slide block 6, the circuit board is fixed by the clamping force of the clamping plate 13, meanwhile, because the circuit board is thinner, the clamping mechanism directly placed on the working table surface is difficult to contact, or the periphery of the circuit board is damaged due to excessive force application, therefore, two lapping plates 14 are arranged on one clamping plate 13, the circuit board is directly placed on the lapping plates 14, a through hole for the lapping plates 14 to pass through is arranged on the other clamping plate 13, therefore, when the two clamping plates 13 move relatively, the circuit board can be supported and clamped.

In fig. 5, a limiting rod 19 is disposed at the center of the top end of the inside of the workbench 4, a movable sleeve 23 is movably sleeved on the limiting rod 19, two sides of the movable sleeve 23 are both provided with connecting lugs 21, the connecting lugs 21 are in pin connection with a second connecting rod 22, a pin connecting piece 24 is integrally formed at the tail end of the second connecting rod 22, connecting arms 20 are disposed at the centers of the first movable arm 5 and the second movable arm 15, and the connecting arms 20 are both connected to the pin connecting piece 24, only when the first movable arm 5 and the second movable arm 15 become a lever structure, the tops of the first movable arm 5 and the second movable arm 15 can move outwards while being close to each other to complete clamping, so that a constraint mechanism is required to constrain the connecting arms 20 at the centers of the first movable arm 5 and the second movable arm 15 to be connected with the second connecting rod 22 through the pin connecting piece 24, when the cylinder 18 pushes the bottoms of the first movable arm 5 and the second movable arm 15 to move outwards, the connecting arm 20 pulls the movable sleeve 23 to slide downwards on the limiting rod 19 through, the first movable arm 5 and the second movable arm 15 are always constrained during this process by the connecting arm 20 so that their tops come close to each other.

In fig. 1 and 2, the two sides of the top of the worktable 4 are provided with chutes 3, the chutes 3 are connected with a bracket 2 in a sliding manner, the top of the bracket 2 is connected with a rack 1, a movable sleeve 12 is movably sleeved on the rack 1, a motor 10 is installed on the top of the movable sleeve 12, a gear 11 is sleeved on the driving end of the motor 10, the top of the movable sleeve 12 is provided with a through hole for the gear 11 to engage with the rack 1, a portal frame structure is formed by the bracket 2 and the rack 1, and the sliding groove 3 arranged on the top of the worktable 4 is used for longitudinal sliding, so that the whole capacitor clamping mechanism completes the longitudinal movement on the worktable 4, and finally the installation of the capacitor at any point on the circuit board along the width direction is satisfied, and meanwhile, in order to satisfy the installation of the capacitor at any point on the circuit board along the length direction, the movable sleeve 12 is provided with a drive which drives the gear 11 to engage, thereby completing the lateral displacement of the field to the activity, 12.

In fig. 6 and 7, one side of the movable sleeve 12 is connected with a connecting plate 8, the end of the connecting plate 8 is connected with a capacitance plate 7, a movable plate 25 is symmetrically arranged in the capacitance plate 7, a spring 27 is arranged between the outer side of the movable plate 25 and the inner side of the capacitance plate 7, and a fixing hole 26 with different diameters is formed in the movable plate 25, the movable plate 25 in the capacitance plate 7 clamps the capacitor by using the resilience of the spring 27, and meanwhile, as the capacitor has two shapes of a cylinder and a rectangle, in order to ensure the stability during clamping, a circular fixing hole 26 is formed in the movable plate 25 according to the standard volume of the actual capacitor, so as to clamp the cylindrical capacitor, and the rectangular capacitor is directly clamped by using other parts of the.

The working principle is as follows: when in use, the capacitor is taken out and placed on the movable plate 25 in the capacitor plate 7, the movable plate 25 in the capacitor plate 7 clamps the capacitor by using the rebounding force of the spring 27, meanwhile, as the capacitor has two shapes of a cylindrical shape and a rectangular shape, in order to ensure the stability in clamping, the movable plate 25 is provided with a circular fixing hole 26 according to the standard volume of the actual capacitor for clamping the cylindrical capacitor, and the rectangular capacitor is directly clamped by other parts of the movable plate 25, then the circuit board is placed on the lapping plate 14, the extending of the air cylinder 18 causes the bottoms of the first movable arm 5 and the second movable arm 15 which are movably connected at the head and the tail of the air cylinder 18 to move outwards, as the centers of the first movable arm 5 and the second movable arm 15 are movably connected through the connecting arm, so that the first movable arm and the second movable arm become a lever structure, when the lower ends of the first movable arm 5 and the second movable arm 15 both move outwards, the upper ends of the two movable arms move relatively to each other to form a clamping force when the two movable arms move close to each other, the sliding block 6 is arranged at the tops of the first movable arm 5 and the second movable arm 15, the clamping force of the relative movement is kept in a horizontal state by utilizing the sliding block 6 and the restriction groove, and on the same straight line, meanwhile, in order to adapt to circuit boards with different lengths, the end part of the sliding block 6 is connected with a clamping plate 13, the circuit board is fixed by the clamping force of the clamping plate 13, the circuit board is directly placed on a lapping plate 14 of the clamping plate 13, a through hole for the lapping plate 14 to pass through is arranged on the other clamping plate 13, so that the circuit board can be supported and clamped when the two clamping plates 13 move relatively, then the clamped capacitor is displaced according to the installation position, the bracket 2 is directly pushed to perform longitudinal displacement in the sliding groove 3 at first, and the whole capacitor, finally, the capacitor can be mounted at any point of the circuit board in the width direction, and meanwhile, in order to meet the requirement of mounting the capacitor at any point of the circuit board in the length direction, a drive is arranged on the movable sleeve 12 and drives the gear 11 to move on the rack 1 in a meshing manner through the motor 10, so that the transverse displacement of the movable sleeve 12 is completed.

While the invention has been described in further detail in connection with specific embodiments thereof, it will be understood that the invention is not limited thereto, and that various other modifications and substitutions may be made by those skilled in the art without departing from the spirit of the invention, which should be considered to be within the scope of the invention as defined by the appended claims.

Claims (8)

1. The utility model provides a fixed establishment of condenser processing usefulness, includes workstation (4), its characterized in that: the inside of workstation (4) is equipped with cylinder (18), and the output end pin joint of cylinder (18) has second digging arm (15), the afterbody pin joint of cylinder (18) has first digging arm (5), and the top of first digging arm (5) and second digging arm (15) all the pin joint has first connecting rod (17), and the front end of first connecting rod (17) has slider (6) through pivot swing joint, and workstation (4) top is seted up and is supplied gliding restraint groove of slider (6).

2. The fixing mechanism for capacitor processing according to claim 1, wherein: two splint (13) have all been welded to the one end that slider (6) are relative, and splint (13) inboard symmetry on slider (6) that second digging arm (15) tip is connected is equipped with overlap joint piece (14), and splint (13) on slider (6) that first digging arm (5) tip is connected have seted up the through-hole correspondingly.

3. The fixing mechanism for capacitor processing according to claim 2, wherein: the utility model discloses a multi-functional quick-witted, including workstation (4), the inside top center department of workstation (4) is equipped with gag lever post (19), and the activity has cup jointed movable sleeve (23) on gag lever post (19), the both sides of movable sleeve (23) all are equipped with engaging lug (21), and the round pin is connected with second connecting rod (22) on engaging lug (21), the terminal integrated into one piece of second connecting rod (22) has pin joint piece (24).

4. A fixing mechanism for capacitor processing according to claim 1 or 3, characterized in that: the center of the first movable arm (5) and the center of the second movable arm (15) are both provided with connecting arms (20), and the connecting arms (20) are both connected to the pin connecting pieces (24).

5. The fixing mechanism for capacitor processing according to claim 1, wherein: the top both sides of workstation (4) have been seted up spout (3), and sliding connection has support (2) in spout (3), the top of support (2) is connected with rack (1).

6. The fixing mechanism for capacitor processing according to claim 1, wherein: the movable sleeve (12) is movably sleeved on the rack (1), the motor (10) is installed at the top of the movable sleeve (12), the gear (11) is sleeved at the driving end of the motor (10), and the through hole for the gear (11) to be meshed with the rack (1) is formed in the top of the movable sleeve (12).

7. The fixing mechanism for capacitor processing according to claim 6, wherein: one side of the movable sleeve (12) is connected with a connecting plate (8), the tail end of the connecting plate (8) is connected with a capacitance plate (7), and movable plates (25) are symmetrically arranged in the capacitance plate (7).

8. The fixing mechanism for capacitor processing according to claim 7, wherein: a spring (27) is arranged between the outer side of the movable plate (25) and the inner side of the capacitance plate (7), and the movable plate (25) is provided with fixing holes (26) with different diameters.

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