CN117842688A - Clamping lifting mechanism of cartridge clip to be tested and corresponding cartridge clip type automatic discharging device - Google Patents

Abstract

The invention provides a clamping lifting mechanism of a cartridge clip to be tested and a corresponding cartridge clip type automatic blanking device. The clamping and lifting mechanism of the cartridge clip to be tested comprises a clamping component of the board to be tested, a telescopic component of the board to be tested and a lifting component of the board to be tested. The clamping assembly of the board to be tested is used for clamping the cartridge clip, and the two ends of the cartridge clip are opened along the longitudinal direction. The board to be tested telescopic assembly is connected to the board to be tested clamping assembly and used for controlling the board to be tested clamping assembly to move transversely. The board lifting assembly to be tested is connected to the board telescopic assembly to be tested and used for controlling the board telescopic assembly to be tested and the board clamping assembly to be tested to move vertically. The cartridge clip type automatic discharging device comprises the cartridge clip clamping lifting mechanism to be tested. The empty cartridge clip can be taken away from the empty cartridge clip conveying mechanism of the board to be tested, the cartridge clip can be moved up and down, the cartridge clip is filled with the circuit board through the track conveying mechanism before discharging, and finally the cartridge clip filled with the circuit board is placed on the board to be tested receiving mechanism without manual assistance, so that the automation degree is high, and the working efficiency is effectively improved.

Description

Clamping lifting mechanism of cartridge clip to be tested and corresponding cartridge clip type automatic discharging device

The application is a divisional application of the original application, the application date of the original application is 2023, 05 and 30 days, the application number is 2023106300723, and the invention is named as a cartridge clip type automatic blanking device.

Technical Field

The invention relates to the technical field of blanking equipment, in particular to a clamping lifting mechanism of a cartridge clip to be tested and a corresponding cartridge clip type automatic blanking device.

Background

In an automated processing or assembly line, a blanking mechanism for blanking is often required after the circuit board is processed. In the prior art, the blanking mechanism lacks an important automation module, more working procedures needing manual assistance are needed, the automation degree is low, the blanking efficiency is low, and the labor intensity of operators is high.

Therefore, it is necessary to provide a clamping lifting mechanism for a cartridge clip to be tested and a corresponding cartridge clip type automatic discharging device for solving the above technical problems.

Disclosure of Invention

The invention provides a clamping lifting mechanism for a clip to be tested and a corresponding clip type automatic discharging device, which can take off an empty clip from an empty clip conveying mechanism for the board to be tested, move the clip up and down so as to fill the clip with a circuit board through a track conveying mechanism before discharging, and finally place the clip filled with the circuit board on a receiving mechanism for the board to be tested without manual assistance, thereby having high degree of automation and effectively improving the working efficiency.

The technical scheme of the invention is as follows:

the utility model provides a cartridge clip clamping and lifting mechanism that awaits measuring for with the empty cartridge clip conveying mechanism's of corresponding board that awaits measuring discharge end and the pan feeding end adjacent setting of board receiving mechanism that awaits measuring that corresponds, cartridge clip clamping and lifting mechanism that awaits measuring includes:

the clamping assembly of the board to be tested is used for clamping the cartridge clip, the two ends of the cartridge clip along the longitudinal direction are opened, and the cartridge clip is used for bearing the corresponding circuit board to be tested conveyed by the front discharging track conveying mechanism;

the board to be tested telescopic assembly is connected with the board to be tested clamping assembly and is used for controlling the board to be tested clamping assembly to transversely move so as to take off empty clips from the corresponding empty clip conveying mechanisms of the board to be tested and place clips filled with the circuit boards to be tested on the corresponding board to be tested receiving mechanisms; the method comprises the steps of,

the board to be tested lifting assembly is connected to the board to be tested telescopic assembly and used for controlling the board to be tested telescopic assembly and the board to be tested clamping assembly to move vertically.

In the clamping and lifting mechanism of the cartridge clip to be tested, the telescopic component of the board to be tested and the clamping component of the board to be tested are positioned on the same side of the lifting component of the board to be tested.

In the clamping and lifting mechanism of the cartridge clip to be tested, the clamping component of the board to be tested is positioned above the telescopic component of the board to be tested.

In the clamping lifting mechanism of the to-be-tested cartridge clip, the corresponding blank cartridge clip conveying mechanism and the corresponding blank receiving mechanism of the to-be-tested cartridge clip are both used for conveying the cartridge clip along the transverse direction, and the clamping opening of the to-be-tested cartridge clip assembly faces the corresponding blank receiving mechanism and the corresponding blank cartridge clip conveying mechanism along the transverse direction.

In the clamping and lifting mechanism of the cartridge clip to be tested, the telescopic component of the board to be tested comprises a telescopic driving piece, a telescopic driving block, a linear guide rail, two connecting plates and an upper plate; the telescopic driving piece is a cylinder arranged along the transverse direction and is used for driving the telescopic driving block to move along the transverse direction; the linear guide rail is connected with the telescopic driving piece and the telescopic driving block; the two connecting plates are parallel and are oppositely arranged along the longitudinal direction and are connected with the telescopic driving piece, and one connecting plate is also connected with the lifting assembly of the board to be tested; the upper plate is fixedly connected to the top ends of the two connecting plates so as to form a movable space of the to-be-tested plate clamping assembly.

In the clamping lifting mechanism of the cartridge clip to be tested, the clamping component of the board to be tested comprises a cylinder barrel, two groups of piston rods and two groups of clamping wheels; the cylinder is connected with the telescopic driving block, one group of the piston rods vertically movably protrudes out of the upper end of the cylinder, the other group of the piston rods vertically movably protrudes out of the lower end of the cylinder, and the two groups of the clamping wheels are respectively connected with the two groups of the piston rods and extend towards the corresponding to-be-detected board blank cartridge clip conveying mechanism and the corresponding to-be-detected board receiving mechanism along the transverse direction.

In the clamping and lifting mechanism of the cartridge clip to be tested, the clamping and lifting mechanism of the cartridge clip to be tested also comprises a limiting block which is connected with the telescopic component of the board to be tested and used for limiting the cartridge clip so that the cartridge clip moves to the same position.

The other technical scheme of the invention is as follows:

the cartridge clip type automatic discharging device comprises a frame, a front discharging track conveying mechanism, an empty cartridge clip conveying mechanism, a receiving mechanism and a clamping lifting mechanism, wherein the front discharging track conveying mechanism, the empty cartridge clip conveying mechanism and the receiving mechanism are all arranged on the frame; the front discharging track conveying mechanism is positioned at one side of the clamping and lifting mechanism of the cartridge clip to be tested along the longitudinal direction and is used for conveying the circuit board into the cartridge clip clamped by the clamping and lifting mechanism of the cartridge clip to be tested; the empty cartridge clip conveying mechanism of board that awaits measuring with the direction of delivery of board receiving mechanism that awaits measuring is horizontal, and both arrange along vertical parallel, the empty cartridge clip conveying mechanism's of board that awaits measuring discharge end and the pan feeding end of board receiving mechanism that awaits measuring all with the adjacent setting of cartridge clip centre gripping elevating system that awaits measuring, the empty cartridge clip conveying mechanism of board that awaits measuring is used for the empty cartridge clip of cartridge clip centre gripping elevating system that awaits measuring carries, the board receiving mechanism that awaits measuring is used for accepting and carrying the cartridge clip that awaits measuring cartridge clip centre gripping elevating system centre gripping fills the circuit board that awaits measuring.

In the cartridge clip type automatic discharging device, the track conveying mechanism before discharging comprises:

two side rails which are parallel and oppositely arranged;

the two transmission assemblies are respectively arranged on the two side rails and are used for conveying the circuit board; the method comprises the steps of,

the track push plate assembly comprises a limit post, a sliding block, a rotating block, an extension spring and a push plate driving piece, wherein the sliding block is arranged on the inner side of the side track in a sliding manner along the longitudinal direction, the sliding block comprises a first position and a second position on the sliding track, the rotating block is rotationally connected with the sliding block, the extension spring is connected with the sliding block and the rotating block, the extension spring is used for providing elastic force to enable the rotating block to rotate upwards, the limit post is fixed on the inner side of the side track, the limit post enables the rotating block to rotate downwards, the rotating block is enabled to be lower than a circuit board, the push plate driving piece is connected with the sliding block and used for driving the sliding block to slide between the first position and the second position along the longitudinal direction, the rotating block is located under the limit post when the sliding block is located at the second position, the rotating block is separated from the limit post, and the sliding block is enabled to slide from the first position to move away from the second position, and the circuit board is enabled to be contacted with the circuit board.

In the cartridge clip type automatic blanking device, each transmission assembly comprises a conveyor belt, and the track conveying mechanism before discharging further comprises a track pressurizing assembly which comprises a fixed block, a movable block, a guide shaft, a pressing wheel and a compression spring; the fixed block is fixed on the side track, the fixed block is provided with a movable groove, the guide shaft is vertically arranged in the movable groove, the movable block is vertically movably arranged in the movable groove and sleeved on the guide shaft, a step hole is vertically arranged in the movable block, the pressing wheel is rotationally connected with the movable block and is adjacently arranged with the conveying belt, the compression spring is sleeved on the guide shaft, one end of the compression spring is positioned in the step hole, the other end of the compression spring is abutted against the side wall of the movable groove, and the elasticity of the compression spring enables the movable block to move downwards to press the circuit board to the conveying belt so as to increase friction force between the circuit board and the conveying belt.

Compared with the prior art, the invention has the beneficial effects that: according to the clamping lifting mechanism of the to-be-tested cartridge clip and the corresponding automatic cartridge clip discharging device, in the working process, the to-be-tested cartridge clip is conveyed in the transverse direction through the empty cartridge clip conveying mechanism of the to-be-tested cartridge clip to the direction close to the clamping lifting mechanism of the to-be-tested cartridge clip, the to-be-tested board telescopic assembly drives the to-be-tested board clamping assembly to transversely extend to the discharging end of the empty cartridge clip conveying mechanism of the to-be-tested board and clamp the empty cartridge clip, then the to-be-tested board telescopic assembly drives the to-be-tested board clamping assembly to transversely retract, the track conveying mechanism before discharging conveys the circuit board to the cartridge clip clamped by the to-be-tested board clamping assembly, the to-be-tested board lifting assembly drives the cartridge clip to vertically move so as to fill the cartridge clip with the circuit board, the to-be-tested board telescopic assembly drives the to-be-tested board clamping assembly to transversely extend and place the cartridge clip filled with the circuit board to the feeding end of the to be-tested board receiving mechanism, and the to-be-tested board receiving mechanism transversely outputs the cartridge clip. Through the clip centre gripping elevating system that awaits measuring, can follow the empty clip of board that awaits measuring conveying mechanism to reciprocate the clip, with the clip with full circuit board of track conveying mechanism before the ejection of compact, put the clip that fills up the circuit board on the board receiving mechanism that awaits measuring at last, need not manual work and assist, degree of automation is high, has effectively improved work efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments are briefly described below, and the drawings in the following description are only drawings corresponding to some embodiments of the present invention.

Fig. 1 is a schematic diagram of the overall structure of a clip type automatic blanking device according to a preferred embodiment of the present invention.

Fig. 2 is a schematic top view of a clip type automatic blanking device according to a preferred embodiment of the present invention.

Fig. 3 is a schematic structural view of a track conveying mechanism before discharging of the cartridge clip type automatic discharging device according to the preferred embodiment of the present invention.

Fig. 4 is a schematic structural view of a rail pressing assembly of a clip type automatic blanking device according to a preferred embodiment of the present invention.

Fig. 5 is an exploded view of a rail pressing assembly of a clip type automatic blanking device according to a preferred embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a post-discharge rail conveying mechanism and a clip clamping lifting mechanism to be tested of the clip type automatic discharging device according to the preferred embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a clamping lifting mechanism of a cartridge clip to be tested of the cartridge clip type automatic blanking device according to the preferred embodiment of the present invention.

Fig. 8 is a schematic view of the structure of a clip of the clip type automatic blanking device according to the preferred embodiment of the present invention.

Fig. 9 is a schematic side view of a clip of the clip type automatic blanking device according to the preferred embodiment of the present invention.

Wherein,

1. the machine frame is provided with a machine frame,

2. the working platform is provided with a working platform,

3. a track conveying mechanism before discharging,

31. a side rail is provided with a plurality of side rails,

32. a transmission component 321, a conveyor belt 322, a driving wheel, a 323 and a driven wheel,

33. track push plate assembly 331, limit column 332, sliding block 333, rotating block 334, extension spring 335, push plate driving piece,

34. rail pressing assembly 341, fixed block 3411, movable groove 342, movable block 343, guide shaft 344, pressing wheel 345, compression spring,

35. a width-adjusting screw rod,

4. a discharging and grabbing arm for grabbing the plate,

5. the cartridge clip to be tested clamps the lifting mechanism,

51. the board to be tested clamps the components 511, the cylinder barrel 512, the piston rod 513 and the clamping wheel,

52. the board to be tested is telescopic component 521, telescopic driving piece 522, telescopic driving block 523, linear guide rail 524, connecting plate 525, upper plate,

53. a board to be tested lifting assembly 531, a lifting driving member 532 and a lifting driving block,

54. the limiting block is arranged on the upper surface of the frame,

6. a conveying mechanism for empty cartridges of boards to be tested,

7. a material receiving mechanism of a plate to be measured,

8. the cartridge clip is provided with a plurality of clips,

81. side plates 811, clamping grooves 812, strip-shaped holes,

82. a top plate 821, a first sub-plate 822, a second sub-plate,

9. a track conveying mechanism after discharging,

10. the good board clip clamps the lifting mechanism,

20. a good plate empty spring clamp conveying mechanism,

30. a good plate receiving mechanism,

40. the NG plate placement mechanism is provided with a positioning mechanism,

50. stacking, receiving and placing mechanisms.

In the drawings, like structural elements are denoted by like reference numerals.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms of directions used in the present invention, such as "up", "down", "front", "back", "left", "right", "inside", "outside", "side", "top" and "bottom", are used for explaining and understanding the present invention only with reference to the orientation of the drawings, and are not intended to limit the present invention.

The words "first," "second," and the like in the terminology of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance and not as limiting the order of precedence.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

The existing blanking mechanism is low in automation degree, more procedures requiring manual assistance are needed, the blanking efficiency is low, and the labor intensity of operators is high.

The following is a preferred embodiment of a clip type automatic blanking device provided by the invention, which can solve the technical problems.

Referring to fig. 1-9, a clip type automatic discharging device according to a preferred embodiment of the present invention includes a frame 1, and a working platform 2, a pre-discharging track conveying mechanism 3, a discharging gripping arm 4, a clip clamping lifting mechanism 5, a clip empty conveying mechanism 6, and a clip receiving mechanism 7 all disposed on the frame 1. The working platform 2 and the front discharging rail conveying mechanism 3 are transversely arranged, and the front discharging rail conveying mechanism 3 and the clip clamping lifting mechanism 5 to be tested are longitudinally arranged; the conveying directions of the to-be-detected board blank cartridge clip conveying mechanism 6 and the to-be-detected board receiving mechanism 7 are transverse, and the to-be-detected board blank cartridge clip conveying mechanism 6 and the to-be-detected board receiving mechanism 7 are vertically arranged in parallel, and the discharging end of the to-be-detected board blank cartridge clip conveying mechanism 6 and the feeding end of the to-be-detected board receiving mechanism 7 are positioned on the same side. The working platform 2 is used for placing the processed circuit board. The track conveying mechanism 3 before discharging is used for receiving and conveying the circuit board on the working platform 2. The discharging grabbing arm 4 is used for moving the circuit board from the working platform 2 to the discharging front rail conveying mechanism 3.

The clamping lifting mechanism 5 of the to-be-tested cartridge clip is arranged adjacent to the discharge end of the empty cartridge clip conveying mechanism 6 of the to-be-tested board and the feed end of the material receiving mechanism 7 of the to-be-tested board. The clamping and lifting mechanism 5 for the cartridge clip to be tested comprises a clamping component 51 for the board to be tested, a telescopic component 52 for the board to be tested and a lifting component 53 for the board to be tested. The board clamping component 51 to be tested is used for clamping the cartridge clip 8, the two ends of the cartridge clip 8 are open along the longitudinal direction, the cartridge clip 8 is used for bearing the circuit board to be tested conveyed by the track conveying mechanism 3 before discharging, the board telescopic component 52 to be tested is connected to the board clamping component 51 to be tested and used for controlling the board clamping component 51 to be tested to move along the transverse direction so as to take off the empty cartridge clip 8 from the empty cartridge clip conveying mechanism 6 to be tested, and the cartridge clip 8 filled with the circuit board to be tested is placed on the board to be tested receiving mechanism 7 to be tested. The board lifting assembly 53 is connected to the board stretching assembly 52, and is used for controlling the board stretching assembly 52 and the board clamping assembly 51 to move vertically.

The board lifting assembly 53 to be measured is fixed on the frame 1, and the board telescopic assembly 52 to be measured and the board clamping assembly 51 to be measured are located on the same side of the board lifting assembly 53 to be measured, so that the board lifting assembly 53 to be measured drives the board telescopic assembly 52 to be measured and the board clamping assembly 51 to be measured to move upwards together. The board clamping component 51 to be tested is located above the board telescopic component 52 to be tested, so that the board telescopic component 52 to be tested can provide a certain supporting force for the board clamping component 51 to be tested, and stability of the board clamping component 51 to be tested after clamping the cartridge clip 8 is guaranteed. When the board to be tested telescopic assembly 52 drives the board to be tested clamping assembly 51 to move transversely, the clamping opening of the board to be tested clamping assembly 51 can be made to penetrate into the board to be tested empty clip conveying mechanism 6 or the board to be tested receiving mechanism 7, so that the clips 8 can be clamped or put down. The clamping opening of the board clamping assembly 51 to be tested is opened and closed vertically so as to clamp the cartridge clip 8 from the upper end and the lower end.

The lifting component 53 for the board to be tested comprises a lifting driving piece 531 and a lifting driving block 532, wherein the lifting driving piece 531 is vertically arranged and fixed on the frame 1, and is used for driving the lifting driving block 532 to vertically move. The lifting driving piece 531 is a servo motor module arranged vertically, so that control is facilitated, and vertical movement stability is improved.

The board to be measured telescoping assembly 52 includes a telescoping drive 521, a telescoping drive block 522, a linear guide 523, and two connecting plates 524, and an upper plate 525. The telescopic driving piece 521 is a cylinder arranged along the transverse direction and is used for driving the telescopic driving block 522 to move along the transverse direction, and the linear guide rail 523 is connected with the telescopic driving piece 521 and the telescopic driving block 522, so that the telescopic driving block 522 slides stably. The two connecting plates 524 are parallel and oppositely arranged along the longitudinal direction and are connected with the telescopic driving piece 521, wherein one connecting plate 524 is also connected with the lifting driving block 532, so that the lifting driving block 532 drives the telescopic driving piece 521 to move along the vertical direction. The upper plate 525 is fixedly connected to the top ends of the two connecting plates 524, and can form a movable space of the board clamping assembly 51 to be tested, so as to prevent the movement of the board clamping assembly 51 to be tested from being interfered by other objects.

The board clamping assembly 51 to be tested is disposed between two connecting plates 524, and includes a cylinder 511, two sets of piston rods 512 and two sets of clamping wheels 513, where the cylinder 511 is connected to a telescopic driving block 522, so that the telescopic driving block 522 can drive the cylinder 511 to move in a lateral direction. One group of piston rods 512 vertically movably protrude from the upper end of the cylinder barrel 511, the other group of piston rods 512 vertically movably protrude from the lower end of the cylinder barrel 511, and two groups of clamping wheels 513 are respectively connected with the two groups of piston rods 512 and transversely extend towards the blank cartridge clip conveying mechanism 6 to be tested and the blank receiving mechanism 7 to be tested. The board to be tested clamping assembly 51 is driven to move transversely by the board to be tested telescopic assembly 52, so that two groups of clamping wheels 513 can extend into the upper side and the lower side of the cartridge clip 8 respectively, two groups of piston rods 512 retract inwards simultaneously, the two groups of clamping wheels 513 are driven to approach each other to clamp the cartridge clip 8, the two groups of piston rods 512 extend outwards simultaneously, and the two groups of clamping wheels 513 are driven to move away from each other to loosen the cartridge clip 8. The above structure stabilizes the holding of the clip 8 by the holding wheel 513.

The empty magazine conveying mechanism 6 of the board to be tested is used for conveying empty magazines 8. The board receiving mechanism 7 to be tested is used for conveying the cartridge clips 8 filled with the circuit boards to be tested. In each figure, x is transverse, y is longitudinal, z is vertical, and the three directions are mutually perpendicular.

In the clip type automatic blanking device, in the working process, a circuit board on a working platform 2 is moved onto a pre-discharging track conveying mechanism 3 through a discharging grabbing arm 4, a blank clip 8 is conveyed in the transverse direction through a blank clip conveying mechanism 6 in the direction close to a blank clip lifting mechanism 5, a blank clip assembly 52 is driven to transversely extend to the discharging end of the blank clip conveying mechanism 6 and clip the blank clip 8, then the blank clip assembly 52 is driven to transversely retract the blank clip assembly 51, the pre-discharging track conveying mechanism 3 conveys the circuit board into the clip 8 clamped by the blank clip assembly 51, the blank clip 8 is driven to vertically move by a blank clip lifting assembly 53 to fill the blank clip 8 with the circuit board, the blank clip assembly 52 is driven to transversely extend and place the blank clip 8 filled with the circuit board into the feeding end of a blank clip receiving mechanism 7, and the blank clip 8 is transversely output by the blank clip mechanism 7. The cartridge clip type automatic blanking device can automatically input the empty cartridge clip 8, automatically load the circuit board on the working platform 2 into the cartridge clip 8 and then output the circuit board, and has high blanking efficiency without manual assistance.

Referring to fig. 1 and 2, the clip type automatic discharging device further includes a post-discharge rail conveying mechanism 9, a good board clip clamping lifting mechanism 10, a good board empty clip conveying mechanism 20, and a good board receiving mechanism 30. The post-discharge rail conveying mechanism 9 is connected above the plate telescopic assembly 52 to be tested and is used for receiving and conveying the good plates conveyed by the pre-discharge rail conveying mechanism 3. The good board clip clamping and lifting mechanism 10 is arranged adjacent to the discharge end of the discharged track conveying mechanism 9, the good board clip clamping and lifting mechanism 10 comprises a good board clamping assembly, a good board telescopic assembly and a good board lifting assembly, the good board clamping assembly is used for clamping the clip 8, the clip 8 is used for bearing a good board conveyed by the discharged track conveying mechanism 9, the good board telescopic assembly is connected to the good board clamping assembly and used for controlling the good board clamping assembly to move transversely so as to take the empty clip 8 out of the good board empty clip conveying mechanism 20, and the clip 8 filled with the good board is placed on the good board collecting mechanism 30; the good board lifting assembly is connected to the good board telescopic assembly and used for controlling the good board telescopic assembly and the good board clamping assembly to move vertically. The specific structure of the good board clip clamping and lifting mechanism 10 can refer to the clip clamping and lifting mechanism 5 to be tested, and the two structures are the same.

The conveying directions of the good board empty spring clamp conveying mechanism 20 and the good board receiving mechanism 30 are transverse, and the good board empty spring clamp conveying mechanism 20 and the good board receiving mechanism 30 are vertically arranged in parallel, and the discharging end of the good board empty spring clamp conveying mechanism 20 and the feeding end of the good board receiving mechanism 30 are positioned on the same side and are adjacent to the good board spring clamp clamping lifting mechanism 10.

In the above structure, when the circuit board is a good board, the good board on the working platform 2 is moved to the pre-discharging track conveying mechanism 3 by the discharging grabbing arm 4, the post-discharging track conveying mechanism 9 is driven by the to-be-detected board lifting component 53 to vertically move, so that the post-discharging track conveying mechanism 9 is flush with the pre-discharging track conveying mechanism 3, the good board is conveyed to the post-discharging track conveying mechanism 9 from the pre-discharging track conveying mechanism 3, the empty magazine 8 is conveyed in the transverse direction by the good board empty magazine conveying mechanism 20 towards the direction close to the good board magazine clamping lifting mechanism 10, the good board clamping component drives the good board clamping component to transversely move, the empty magazine 8 is clamped by the good board clamping component from the good board empty magazine conveying mechanism 20 and is retracted, the good board is conveyed to the magazine 8 clamped by the post-discharging track conveying mechanism 9, the good board lifting component drives the magazine 8 to vertically move, the good board clamping component drives the good board clamping component to transversely move, the full magazine 8 is placed on the good board collecting mechanism 30, and the good board is transversely output. By adopting the structure, empty cartridge clips 8 can be automatically input, good plates on the working platform 2 are automatically arranged in the cartridge clips 8 and then output, manual assistance is not needed, the discharging efficiency is high, and the good plates and the plates to be tested can be separately output.

Referring to fig. 3, the pre-discharge rail conveying mechanism 3 includes two side rails 31, two transmission assemblies 32, and a rail push plate assembly 33. The two side rails 31 are arranged in parallel and opposite. Two transmission assemblies 32 are respectively provided on the two side rails 31 for conveying the circuit board. The track push plate assembly 33 includes a limit post 331, a slider 332, a rotational block 333, a tension spring 334, and a push plate driver 335. The slider 332 is slidably disposed inside the side rail 31 in the longitudinal direction, and the slider 332 includes a first position and a second position on its sliding track. The rotating block 333 is rotatably connected with the sliding block 332, and the extension spring 334 connects the sliding block 332 and the rotating block 333, and the extension spring 334 is used for providing elastic force to enable the rotating block 333 to rotate upwards. The limiting post 331 is fixed on the inner side of the side rail 31, and the limiting post 331 makes the rotating block 333 rotate downwards, so that the rotating block 333 is lower than the circuit board. The push plate driver 335 is coupled to the slider 332 for driving the slider 332 longitudinally between a first position and a second position. When the sliding block 332 is located at the first position, the rotating block 333 is located below the limiting post 331, and when the sliding block 332 is located at the second position, the rotating block 333 is separated from the limiting post 331. The slider 332 slides from the first position to the second position such that the rotational block 333 contacts the end surfaces of the circuit boards, pushing the circuit boards away from the two drive assemblies 32. The push plate driver 335 may be a pneumatic cylinder. In fig. 3, two drive assemblies 32 convey the circuit board to the right, and a turning block 333 pushes the circuit board to the right.

In the above structure, when the circuit board is normally conveyed through the two transmission assemblies 32, the push plate driving member 335 drives the rotating block 333 to move below the limiting post 331, and the limiting post 331 makes the rotating block 333 rotate downwards, so that the rotating block 333 is lower than the circuit board, and the conveying of the circuit board is not affected. When the circuit board is about to completely leave the two transmission assemblies 32, the push plate driving member 335 drives the rotating block 333 to move, and the rotating block 333 is rotated upwards by the extension spring 334, so that the rotating block 333 contacts with the end surface of the circuit board, thereby pushing the circuit board. During the process of conveying the circuit board, the two transmission assemblies 32 cannot push the circuit board into the clip 8 completely because the two transmission assemblies 32 do not completely enter the clip 8 when the tail end of the circuit board leaves the two transmission assemblies 32, and the circuit board can be pushed into the clip 8 completely through the track push plate assembly 33.

The front discharging rail conveying mechanism 3 further comprises an inductor which is arranged at the discharging end of the front discharging rail conveying mechanism 3 and is used for inducing the circuit board, and when the inductor cannot induce the circuit board, the rotating block 333 extends out of the bottom of the limiting column 331 to push the circuit board. In the above structure, the rotating block 333 is controlled to be protruded at an appropriate time by a signal from the sensor, and the circuit board is pushed into the cartridge clip 8 completely.

Referring to fig. 3, 4 and 5, each transmission assembly 32 includes a conveyor belt 321, and the pre-discharge rail conveying mechanism 3 further includes a rail pressurizing assembly 34 including a fixed block 341, a movable block 342, a guide shaft 343, a pressing wheel 344 and a compression spring 345. Fixed block 341 is fixed on side rail 31, fixed block 341 is provided with movable groove 3411, guide shaft 343 is vertically arranged in movable groove 3411, movable block 342 is vertically movably arranged in movable groove 3411 and sleeved on guide shaft 343, step holes are vertically arranged in movable block 342, pinch roller 344 is rotationally connected with movable block 342 and is adjacently arranged with conveyor belt 321, compression spring 345 is sleeved on guide shaft 343, one end of compression spring 345 is positioned in the step holes, the other end of compression spring 345 is abutted against the side wall of movable groove 3411, the elasticity of compression spring 345 enables movable block 342 to move downwards, and circuit board is pressed against conveyor belt 321 through pinch roller 344, so that friction force between the circuit board and conveyor belt 321 is increased. In the above structure, the resilient force of the compression spring 345 drives the movable block 342 to move downward along the guide shaft 343, thereby driving the pressing wheel 344 to move downward, and pressing the circuit board against the conveyor belt 321, so as to increase the friction between the circuit board and the conveyor belt 321, and prevent the circuit board from slipping on the conveyor belt 321. Pinch roller 344 is rotatable to prevent jamming of the circuit board.

Referring to fig. 3, each transmission assembly 32 further includes a driving wheel 322 and a driven wheel 323, the driving wheel 322 is located at a feeding end of the transmission assembly 32, and the driven wheel 323 is located at a discharging end of the transmission assembly 32. The driving wheel 322 and the driven wheel 323 are respectively rotatably arranged at two ends of the side rail 31, and the conveyer 321 is sleeved on the driving wheel 322 and the driven wheel 323. The track pressing assemblies 34 are four, wherein two pressing wheels 344 are oppositely arranged and are positioned between the driving wheel 322 and the driven wheel 323, and the other two pressing wheels 344 are oppositely arranged and are opposite to the driven wheel 323. In the above structure, the two pressing wheels 344 between the driving wheel 322 and the driven wheel 323 are pressed to the circuit board, so that the circuit board is given smaller pressure, the pressing wheels 344 above the two driven wheels 323 are pressed to the circuit board, and the pressing wheels 323 and the pressing wheels 344 are matched to give larger pressure to the circuit board, so that the circuit board is pressed more tightly and is conveyed smoothly.

With continued reference to fig. 3, the pre-discharge rail conveying mechanism 3 further includes a width adjusting screw 35 connected to the two side rails 31, the width adjusting screw 35 being used for adjusting the distance between the two transmission assemblies 32. In the above structure, the distance between the two transmission assemblies 32 can be adjusted by the width adjusting screw rod 35 so as to adapt to different plate widths.

The structure of the post-discharge rail conveying mechanism 9 is the same as that of the pre-discharge rail conveying mechanism 3, and will not be described in detail here.

Referring to fig. 7, the clip clamping lifting mechanism 5 further includes a limiting block 54 connected to the board telescopic assembly 52 for limiting the clip 8, so that the clip 8 moves to the same position. By adopting the structure, the positions of the clips 8 when the clips are retracted do not need to be repeatedly adjusted, so that the positions of the clips 8 when the clips are retracted each time are matched with the track conveying mechanism 3 before discharging, and the circuit board is convenient to convey.

Referring to fig. 2, the clip type automatic blanking device further includes an NG board placement mechanism 40 disposed on the frame 1 and located between the working platform 2 and the pre-discharging rail conveying mechanism 3. With the above structure, if the circuit board is an NG board, the circuit board can be moved from the work platform 2 to the NG board placing mechanism 40 by the discharging board grabbing arm 4.

With continued reference to fig. 2, the clip type automatic discharging device further includes a stacking and receiving and placing mechanism 50 disposed on the frame 1 and disposed adjacent to a side of the pre-discharging rail conveying mechanism 3 opposite to the working platform 2. With the above-described structure, if the circuit boards are allowed to be stacked for storage, the discharging gripper arm 4 moves the circuit boards from the work platform 2 to the stacking and receiving placement mechanism 50.

Referring to fig. 8 and 9, the clip 8 includes two side plates 81 and two top plates 82, the two side plates 81 are parallel and opposite to each other, the two top plates 82 are parallel and opposite to each other, and the two side plates 81 and the two top plates 82 are connected into a frame structure with two open ends. The inner side of the side plate 81 is provided with a plurality of clamping grooves 811, the plurality of clamping grooves 811 are arranged at intervals vertically, and the length direction of each clamping groove 811 is longitudinal for bearing the edge of the circuit board. With the above structure, when the track conveying mechanism 3 before discharging conveys the boards to be detected into the clips 8 one by one, the board lifting component 53 to be detected controls the clips 8 to move the same height each time, and when the track conveying mechanism 9 after discharging conveys the good boards into the clips 8 one by one, the board lifting component controls the clips 8 to move the same height each time, so that the control is facilitated.

The top plate 82 includes a first sub-board 821 and a second sub-board 822, which are slidably disposed along a longitudinal direction, a threaded hole is provided on the first sub-board 821, a U-shaped groove is provided on the second sub-board 822, the second sub-board 822 is disposed outside the first sub-board 821, and the threaded hole is communicated with the U-shaped groove. In the above structure, the first and second sub-boards 821 and 822 may be fixed by screws penetrating through the U-shaped grooves and the screw holes. The distance between the two side plates 81 can be adjusted to accommodate circuit boards of different widths by adjusting the positions of the threaded holes in the U-shaped grooves.

Referring to fig. 8, both ends of the clamping groove 811 are provided with chamfers for facilitating introduction of the circuit board. With this structure, the circuit board can be put into the clip 8 more quickly and accurately.

Referring to fig. 8, the side plate 81 is provided with a plurality of bar-shaped holes 812, and the bar-shaped holes 812 are parallel to the clamping grooves 811 and are staggered. In the above structure, the strip-shaped hole 812 can reduce the weight of the clip 8, and does not interfere with the clip groove 811, and does not affect the placement of the circuit board into the clip 8.

The working process of the cartridge clip type automatic blanking device of the preferred embodiment of the invention comprises the following steps:

1. when the circuit board is a board to be tested:

1. the circuit board on the working platform 2 is moved to the front discharging track conveying mechanism 3 through the discharging grabbing arm 4;

2. the empty cartridge clips 8 are conveyed along the transverse direction to the direction close to the cartridge clip clamping lifting mechanism 5 by the empty cartridge clip conveying mechanism 6 of the board to be tested;

3. the board to be measured telescopic assembly 52 drives the board to be measured clamping assembly 51 to transversely extend to the discharging end of the board to be measured empty cartridge clip conveying mechanism 6 and clips the empty cartridge clips 8, then the board to be measured telescopic assembly 52 drives the board to be measured clamping assembly 51 to transversely retract, and the cartridge clips 8 retract to the same position each time through the limiting block 54;

4. the track conveying mechanism 3 before discharging conveys the circuit board into the cartridge clips 8 clamped by the clamping assembly through the transmission assembly 32, and presses the circuit board to the conveying belt 321 through the pinch roller 344 so as to increase friction between the circuit board and the conveying belt 321 and prevent the circuit board from slipping on the conveying belt 321;

5. when the circuit board is about to be separated from the transmission assembly 32 and is not completely in the cartridge clip 8, the track push plate assembly 33 pushes the circuit board away from the transmission assembly 32 through the rotating block 333 and enables the circuit board to completely enter the cartridge clip 8;

6. the board lifting component 53 to be tested drives the cartridge clip 8 to move vertically so as to fill the cartridge clip 8 with the circuit board;

7. the board to be tested telescopic assembly 52 drives the board to be tested clamping assembly 51 to extend transversely and place the cartridge clip 8 filled with the circuit board to the feeding end of the board to be tested receiving mechanism 7, and the board to be tested receiving mechanism 7 outputs the cartridge clip 8 transversely;

2. when the circuit board is a good board:

1. the circuit board on the working platform 2 is moved to the front discharging track conveying mechanism 3 through the discharging grabbing arm 4;

2. the plate to be tested lifting component 53 drives the discharging rear rail conveying mechanism 9 to move vertically, so that the discharging rear rail conveying mechanism 9 is flush with the discharging front rail conveying mechanism 3, and a good plate is conveyed from the discharging front rail conveying mechanism 3 to the discharging rear rail conveying mechanism 9;

3. the empty magazine conveying mechanism 20 conveys the empty magazine 8 in the transverse direction to the direction close to the empty magazine clamping lifting mechanism 10;

4. the good board telescopic assembly drives the good board clamping assembly to move transversely, and the good board clamping assembly clamps the empty cartridge clips 8 from the good board empty cartridge clip conveying mechanism 20 and retreats;

5. the track conveying mechanism 9 conveys the good plates to the cartridge clips 8 clamped by the good plate clamping assembly after discharging;

6. the good board lifting assembly drives the cartridge clip 8 to move vertically, and the cartridge clip 8 is filled with good boards;

7. the good board retracting assembly drives the good board holding assembly to move in the transverse direction, places the cartridge clips 8 filled with the good boards on the good board receiving mechanism 30, and outputs the cartridges in the transverse direction.

3. When the circuit board is an NG board: the circuit board is moved from the work platform 2 to the NG board placement mechanism 40 by the outfeed gripper arm 4.

4. When the circuit boards are allowed to be stored in a stacking way, the circuit boards are moved from the working platform 2 to the stacking and receiving and placing mechanism 50 by the discharging grabbing arm 4.

Thus, the working process of the cartridge clip type automatic blanking device of the preferred embodiment is completed.

According to the cartridge clip type automatic blanking device, in the working process, a circuit board on a working platform is moved onto a front discharging track conveying mechanism through a discharging grabbing arm, an empty cartridge clip is conveyed in the transverse direction through a to-be-tested board empty cartridge clip conveying mechanism towards the direction close to a to-be-tested cartridge clip clamping lifting mechanism, a to-be-tested board telescopic assembly drives the to-be-tested board clamping assembly to transversely extend to the discharging end of the to-be-tested board empty cartridge clip conveying mechanism and clamp the empty cartridge clip, then the to-be-tested board telescopic assembly drives the to-be-tested board clamping assembly to transversely retract, the front discharging track conveying mechanism conveys the circuit board to the cartridge clip clamped by the to-be-tested board clamping assembly, the to-be-tested board lifting assembly drives the cartridge clip to vertically move so as to fill the circuit board, the to-be-tested board telescopic assembly drives the to-be-tested board clamping assembly to transversely extend and place the cartridge clip filled with the circuit board at the feeding end of the to-be-tested board receiving mechanism, and the to-be-tested board receiving mechanism transversely outputs the cartridge clip. The cartridge clip type automatic blanking device can automatically input empty cartridges, automatically load circuit boards on the working platform into the cartridges and output the cartridges, does not need manual assistance, and has high blanking efficiency.

In summary, although the present invention has been described with reference to the preferred embodiments, the scope of the invention is not limited thereto, and any person skilled in the art who is skilled in the art should make equivalent substitutions or modifications according to the technical scheme of the present invention within the scope of the present invention.

Claims (10)

1. The utility model provides a cartridge clip clamping and lifting mechanism that awaits measuring, its characterized in that is used for setting up adjacent with the empty cartridge clip conveying mechanism's of corresponding board that awaits measuring discharge end and the pan feeding end of the board receiving mechanism that awaits measuring that corresponds, cartridge clip clamping and lifting mechanism that awaits measuring includes:

the clamping assembly of the board to be tested is used for clamping the cartridge clip, the two ends of the cartridge clip along the longitudinal direction are opened, and the cartridge clip is used for bearing the corresponding circuit board to be tested conveyed by the front discharging track conveying mechanism;

the board to be tested telescopic assembly is connected with the board to be tested clamping assembly and is used for controlling the board to be tested clamping assembly to transversely move so as to take off empty clips from the corresponding empty clip conveying mechanisms of the board to be tested and place clips filled with the circuit boards to be tested on the corresponding board to be tested receiving mechanisms; the method comprises the steps of,

the board to be tested lifting assembly is connected to the board to be tested telescopic assembly and used for controlling the board to be tested telescopic assembly and the board to be tested clamping assembly to move vertically.

2. The cartridge clip holding and lifting mechanism of claim 1, wherein the board to be tested telescoping assembly and the board to be tested holding assembly are located on the same side of the board to be tested lifting assembly.

3. The cartridge clip holding and lifting mechanism as recited in claim 2, wherein the board to be tested holding assembly is located above the board to be tested telescoping assembly.

4. The cartridge clip holding and lifting mechanism to be tested according to claim 1, wherein the corresponding empty cartridge clip conveying mechanism to be tested and the corresponding empty cartridge clip conveying mechanism to be tested both convey cartridges in the transverse direction, and the holding opening of the cartridge clip assembly to be tested faces the corresponding empty cartridge clip conveying mechanism to be tested and the corresponding empty cartridge clip conveying mechanism to be tested in the transverse direction.

5. The clip holding and lifting mechanism according to claim 1, wherein the board to be tested telescopic assembly comprises a telescopic driving piece, a telescopic driving block, a linear guide rail, two connecting plates and an upper plate; the telescopic driving piece is a cylinder arranged along the transverse direction and is used for driving the telescopic driving block to move along the transverse direction; the linear guide rail is connected with the telescopic driving piece and the telescopic driving block; the two connecting plates are parallel and are oppositely arranged along the longitudinal direction and are connected with the telescopic driving piece, and one connecting plate is also connected with the lifting assembly of the board to be tested; the upper plate is fixedly connected to the top ends of the two connecting plates so as to form a movable space of the to-be-tested plate clamping assembly.

6. The cartridge clip holding lifting mechanism to be tested according to claim 5, wherein the board to be tested holding assembly comprises a cylinder, two groups of piston rods and two groups of holding wheels; the cylinder is connected with the telescopic driving block, one group of the piston rods vertically movably protrudes out of the upper end of the cylinder, the other group of the piston rods vertically movably protrudes out of the lower end of the cylinder, and the two groups of the clamping wheels are respectively connected with the two groups of the piston rods and extend towards the corresponding to-be-detected board blank cartridge clip conveying mechanism and the corresponding to-be-detected board receiving mechanism along the transverse direction.

7. The clip holding and lifting mechanism to be tested according to claim 1, further comprising a limiting block connected to the board telescopic assembly to be tested for limiting the clip so that the clip moves to the same position.

8. The cartridge clip type automatic blanking device is characterized by comprising a frame, a front discharging track conveying mechanism, an empty cartridge clip conveying mechanism and a receiving mechanism, wherein the front discharging track conveying mechanism, the empty cartridge clip conveying mechanism and the receiving mechanism are all arranged on the frame, and the cartridge clip clamping lifting mechanism to be detected is arranged on the frame; the front discharging track conveying mechanism is positioned at one side of the clamping and lifting mechanism of the cartridge clip to be tested along the longitudinal direction and is used for conveying the circuit board into the cartridge clip clamped by the clamping and lifting mechanism of the cartridge clip to be tested; the empty cartridge clip conveying mechanism of board that awaits measuring with the direction of delivery of board receiving mechanism that awaits measuring is horizontal, and both arrange along vertical parallel, the empty cartridge clip conveying mechanism's of board that awaits measuring discharge end and the pan feeding end of board receiving mechanism that awaits measuring all with the adjacent setting of cartridge clip centre gripping elevating system that awaits measuring, the empty cartridge clip conveying mechanism of board that awaits measuring is used for the empty cartridge clip of cartridge clip centre gripping elevating system that awaits measuring carries, the board receiving mechanism that awaits measuring is used for accepting and carrying the cartridge clip that awaits measuring cartridge clip centre gripping elevating system centre gripping fills the circuit board that awaits measuring.

9. The clip type automatic discharging device according to claim 8, wherein said pre-discharging rail conveying mechanism comprises:

two side rails which are parallel and oppositely arranged;

the two transmission assemblies are respectively arranged on the two side rails and are used for conveying the circuit board; the method comprises the steps of,

the track push plate assembly comprises a limit post, a sliding block, a rotating block, an extension spring and a push plate driving piece, wherein the sliding block is arranged on the inner side of the side track in a sliding manner along the longitudinal direction, the sliding block comprises a first position and a second position on the sliding track, the rotating block is rotationally connected with the sliding block, the extension spring is connected with the sliding block and the rotating block, the extension spring is used for providing elastic force to enable the rotating block to rotate upwards, the limit post is fixed on the inner side of the side track, the limit post enables the rotating block to rotate downwards, the rotating block is enabled to be lower than a circuit board, the push plate driving piece is connected with the sliding block and used for driving the sliding block to slide between the first position and the second position along the longitudinal direction, the rotating block is located under the limit post when the sliding block is located at the second position, the rotating block is separated from the limit post, and the sliding block is enabled to slide from the first position to move away from the second position, and the circuit board is enabled to be contacted with the circuit board.

10. The clip type automatic discharging device according to claim 9, wherein each of said transmission assemblies comprises a conveyor belt, said pre-discharge rail conveying mechanism further comprises a rail pressurizing assembly comprising a fixed block, a movable block, a guide shaft, a pressing wheel and a compression spring; the fixed block is fixed on the side track, the fixed block is provided with a movable groove, the guide shaft is vertically arranged in the movable groove, the movable block is vertically movably arranged in the movable groove and sleeved on the guide shaft, a step hole is vertically arranged in the movable block, the pressing wheel is rotationally connected with the movable block and is adjacently arranged with the conveying belt, the compression spring is sleeved on the guide shaft, one end of the compression spring is positioned in the step hole, the other end of the compression spring is abutted against the side wall of the movable groove, and the elasticity of the compression spring enables the movable block to move downwards to press the circuit board to the conveying belt so as to increase friction force between the circuit board and the conveying belt.