CN210411576U - Detection equipment with vibration dish - Google Patents

Abstract

The utility model discloses a detection device with a vibration disk, which comprises a frame and the vibration disk, a working platform is arranged on the machine frame, a transmission track connected with the vibration disc is arranged on the working platform, a certain angle is formed between the working platform and the bottom surface of the machine frame, thereby enabling the materials to move along the transmission track under the driving of the self gravity, the transmission track is provided with a steering mechanism, the steering mechanism comprises a first detection camera and a rotating assembly, the rotating assembly comprises a steering driving motor, a rotary table and a first lifting cylinder, the first detection camera is used for identifying the placing direction of the material, the first lifting cylinder can prevent the material from moving through the positioning piece, the steering driving motor drives the material to steer through the rotary table, so that the material is in a direction convenient to detect.

Description

Detection equipment with vibration dish

Technical Field

The utility model relates to a check out test set field especially relates to a vibration dish check out test set.

Background

With the rapid development of technology, electronic information products are becoming increasingly popular, which leads to an increasing demand for IC chips. At present the IC chip generally need carry out the detection of multichannel process before leaving the factory, detection equipment generally need be used to the detection of IC chip, the equipment that has now to be used for the IC chip to detect has many to carry out the material loading through the vibration dish, but the vibration dish material loading is the material loading at random, can't distinguish the direction of material in the material loading, if the material direction is reversed, detection mechanism just can't discern the detection to the material, this detection equipment that just leads to through the vibration dish material loading generally can arrange special personnel to carry out the manual work to the direction of material and turn to, need consume the manpower.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses a check out test set with vibration dish can discern the direction of material to carry out automatic steering to the material according to the discernment condition.

The utility model discloses a check out test set with vibration dish, including frame and vibration dish, be provided with work platform in the frame, work platform with there is certain angle between the bottom surface of frame, the last transmission track that is provided with of work platform, the orbital top of transmission with the discharge gate intercommunication of vibration dish, be provided with steering mechanism on the transmission track, steering mechanism includes first detection camera and rotating assembly, the direction of the material on the first discernment station of first detection camera distinguishable, rotating assembly is including turning to driving motor, revolving stage and first lift cylinder, first lift cylinder accessible setting element is in the material location on the revolving stage, it can drive to turn to driving motor the revolving stage is rotatory certain angle, will the material turns to.

Furthermore, an included angle between the working platform and the bottom surface is an acute angle.

Further, still include detection mechanism, detection mechanism is including detecting the guide rail, it blocks the cylinder to be provided with on the detection guide rail and detects separation cylinder, detection die clamping cylinder and detection, detect separation cylinder with it blocks the cylinder and stops respectively through the setting element the material is in it removes to detect on the guide rail, it sets up to detect die clamping cylinder detect separation cylinder with it blocks between the cylinder to detect, it detects the material that is located on the detection station through detecting golden finger to detect die clamping cylinder.

Furthermore, the number of the detection mechanisms is two, the detection mechanisms are arranged in parallel, an upper distribution component is arranged above the two detection mechanisms, a lower distribution component is arranged below the two detection mechanisms, the upper distribution component is used for conveying the materials on the conveying track to the two detection guide rails respectively, the lower distribution component is used for distributing the materials after detection, the upper distribution component and the lower distribution component both comprise a distribution motor and a distribution guide rail, a distribution sliding block is arranged on the distribution guide rail, a distribution shuttle is connected to the distribution sliding block, the distribution guide rail is perpendicular to the detection guide rail, and the distribution motor drives the distribution sliding block to slide along the distribution guide rail through a belt so as to drive the distribution shuttle to move along the distribution guide rail.

Furthermore, a material distributing and positioning cylinder is arranged on the material distributing shuttle and is used for positioning the material in the material distributing shuttle through a positioning piece.

Further, still include unloading guide rail and defective products unloading mechanism, divide the material subassembly to transport the material respectively to unloading guide rail or defective products unloading mechanism according to the measuring condition down, defective products unloading mechanism sets up one side of unloading guide rail.

Furthermore, defective product unloading mechanism includes conduction module, locating component and defective product receiving pipe, the one end of defective product receiving pipe can stretch into in the conduction module, locating component is used for right defective product receiving pipe fixes, divide down the material subassembly and can pass through the conduction module defective product material reaches in the defective product receiving pipe.

Further, be provided with braid letter sorting mechanism on the unloading guide rail, braid letter sorting mechanism includes the carrier band, gets to expect that subassembly, second detect camera and letter sorting subassembly, be provided with on the unloading guide rail and get the material level, get to expect that the subassembly can with it places to get the material on the material level in the accepting groove of carrier band, second detect camera is used for detecting the appearance of the material in the accepting groove, letter sorting subassembly basis the second detects the detection condition of camera and is right the material in the accepting groove sorts.

Further, still include receiving agencies, receiving agencies includes a plurality of yields and receives the material pipe, the yields receive the material pipe with the bottom intercommunication of unloading guide rail for collect the yields material in the unloading guide rail.

The technical scheme of the utility model, compared with the prior art, beneficial effect is:

the transmission track sets up on work platform to there is certain angle between the bottom surface of work platform and frame, and then makes the material can follow the transmission orbital motion under the effect of self gravity, the direction of the material on first discernment station can be discerned to first detection camera, and when the material direction was correct, the material can continue to move along the transmission track, and when the material direction was wrong, first lift cylinder passed through the setting element with the material location on the revolving stage, turned to driving motor and driven the corresponding angle of carousel removal rotates the material to the correct direction, resumes along the transmission rail transport again, can turn to the material automatically, reduces the consumption of manpower.

Drawings

FIG. 1 is a schematic view of the overall structure of a detection apparatus;

FIG. 2 is a schematic structural view of a steering mechanism and a transfer rail;

FIG. 3 is a schematic structural view of a detection mechanism;

FIG. 4 is a schematic structural view of the feeding assembly;

FIG. 5 is a schematic structural view of a defective product blanking mechanism;

FIG. 6 is an exploded view of the conductive assembly;

FIG. 7 is a schematic structural view of a braid sorting mechanism;

FIG. 8 is a schematic structural view of a material pick-and-place assembly;

fig. 9 is a schematic diagram of a sorter assembly.

Description of the figures

100. A detection device; 10. a frame; 11. a working platform; 12. an upper distributing component; 121. a material distributing motor; 122. a material distributing guide rail; 123. a material distributing slide block; 124. a material distributing shuttle; 1241. a first guide rail groove; 125. a material distributing and positioning cylinder; 13. a lower material distributing assembly; 20. a vibrating pan; 30. a transfer track; 31. a cover plate; 32. a first identification station; 33. a second transfer detaching cylinder; 40. a steering mechanism; 41. a first detection camera; 411. a first camera support; 42. a rotating assembly; 421. a steering drive motor; 422. a turntable; 423. a first lifting cylinder; 4231. a gear member; 43. a first positioning cylinder; 44. a first transfer separation cylinder; 50. a detection mechanism; 51. detecting a guide rail; 511. detecting a station; 52. detecting a separation cylinder; 53. detecting a clamping cylinder; 531. detecting a golden finger; 54. detecting a blocking cylinder; 55. a third transfer detaching cylinder; 60. blanking guide rails; 61. taking a material level; 62. a clamping cylinder; 621. a clamping block; 70. a defective product discharging mechanism; 71. a conductive component; 711. a fixing plate; 7111. a second guide rail groove; 712. fixing the cover plate; 72. a positioning assembly; 721. a clamping plate; 7211. a first clamping member; 722. a fixed block; 7221. a second clamping member; 80. a braid sorting mechanism; 81. a braiding platform; 82. carrying a belt; 83. a material taking and placing component; 831. a first suction head; 84. a second detection camera; 841. a second camera support; 85. a sorting assembly; 851. moving the sliding table in a three-axis manner; 852. a second suction head; 86. a waste bin; 90. a material receiving mechanism; 91. a material receiving bracket; 92. and a good product receiving pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it should be noted that when one component is considered to be "connected" to another component, it may be directly connected to the other component or intervening components may exist. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It should also be noted that, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly and can include, for example, fixed connections, removable connections, or integral connections; either mechanically or electrically, and may be internal to both elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

It should be further noted that in the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which is only for the convenience of describing the present invention and simplifying the description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, the utility model discloses a check out test set 100 with vibration dish, including frame 10, vibration dish 20, transmission track 30, steering mechanism 40, detection mechanism 50, unloading guide rail 60 and defective products unloading mechanism 70, place the material that a plurality of detected in the vibration dish 20 and wait to detect, vibration dish 20 can transmit the material to transmission track 30 on, steering mechanism 40 can be right opposite direction's on the transmission track 30 material turns to, detection mechanism 50 is used for right the material detects, and the material of yields by unloading guide rail 60 continues to next station conveying, and the defective products material then by defective products unloading mechanism 70 carries out the collection processing.

Be provided with work platform 11 on the frame 10, work platform 11 with there is certain angle between the bottom surface of frame 10, vibration dish 20 sets up on the top surface of frame 10, be provided with on the work platform 11 transmission track 30, transmission track 30's top with the discharge gate of vibration dish 20 is connected, vibration dish 20 conveys the material to transmission track 30 on through the vibration, because work platform 11 with there is certain angle between the bottom surface, so the material can be followed according to self gravity transmission track 30 slides. In this embodiment, the angle between the working platform 11 and the bottom surface of the frame 10 is an acute angle, which is more convenient for the material to slide along the conveying track 30. The top of transmission track 30 is provided with apron 31, can prevent the material is followed slide out on the transmission track 30, apron 31 can set up the work through-hole as required, and it is right to be convenient for all the other mechanisms the material in the transmission track 30 is handled.

As shown in fig. 2, when the vibrating plate 20 conveys the material into the conveying track 30, the placing direction of the material cannot be controlled, and when the material is conveyed in the conveying track 30, the placing direction of the material is divided into two states, one is a forward state, which can be conveniently detected by the detecting mechanism 50, and the other is a reverse state, which requires the steering mechanism 40 to steer the material. The steering mechanism 40 includes a first detection camera 41 and a rotating component 42, the first detection camera 41 is fixed on the working platform 11 through a first camera bracket 411, the conveying track 30 is provided with a first recognition station 32 and is located below the first detection camera 41, and the first detection camera 41 can detect the direction of the material on the first recognition station 32. A first positioning cylinder 43 is arranged below the first identification station 32, a positioning block is connected to an output shaft of the first positioning cylinder 43, the first positioning cylinder 43 can drive the positioning block to penetrate through the transmission rail 30, and the material on the first identification station 32 is tightly pushed against the cover plate 31, so that the material is prevented from moving, and the first detection camera 41 can conveniently identify the material. After the first detection camera 41 identifies the material, the first positioning cylinder 43 drives the positioning block to return, and the material continues to move along the conveying track 30.

A first conveying separation cylinder 44 is arranged above the first detection camera 41, when a material is on the first recognition station 32, the first conveying separation cylinder 44 prevents the material from entering the first recognition station 32 through a positioning part, when the material on the first recognition station 32 continues to slide 30 along the conveying track, the first conveying separation cylinder 44 returns, and subsequent materials can enter the first recognition station 32.

When the material is in the forward state, the material may pass through the rotating assembly 42 and continue to move, and when the material is in the reverse state, the material may be positioned on the rotating assembly 42, and the rotating assembly 42 may drive the material to rotate by a certain angle, so that the material is in the forward state, in this embodiment, the angle is 180 degrees. Rotating assembly 42 is including turning to driving motor 421, revolving stage 422 and first lift cylinder 423, turn to driving motor 421 with work platform 11 fixed connection, can drive revolving stage 422 rotates, first lift cylinder 423 accessible gear piece 4231 prevents the material to continue to remove, it drives to turn to driving motor 421 the revolving stage rotates 180 degrees, makes the material turns to, the material can continue to follow the transmission track 30 slides, first lift cylinder 423 drives gear piece 4231 return.

As shown in fig. 3, the detecting mechanism 50 is disposed below the conveying track 30, and the detecting mechanism 50 is used for detecting the materials passing through the conveying track 30. The detection mechanism 50 includes a detection guide 51, and the material passing through the transfer rail 30 may enter the detection guide 51. The detection guide rail 51 is provided with a detection separation cylinder 52, a detection clamping cylinder 53 and a detection blocking cylinder 54, the detection clamping cylinder 53 is arranged between the detection separation cylinder 52 and the detection blocking cylinder 54, and the detection separation cylinder 52 is arranged above the detection clamping cylinder 53. The detection guide rail 51 is provided with a detection station 511, the position of the detection clamping cylinder 53 corresponds to the detection station 511, and when the material moves to the detection station 511, the detection clamping cylinder 53 detects the material on the detection station 511 through a detection golden finger 531. When there is a material on the detection station 511, the detection separation cylinder 52 prevents other materials from entering the detection station 511 through a positioning element, and the detection blocking cylinder 54 prevents the material on the detection station 511 from leaving the detection station 511 through a positioning element. After the detection of the material on the detection station 511 is completed, the detection blocking cylinder 54 returns, the material on the detection station 511 continues to slide along the detection guide rail 51, the detection separation cylinder 52 returns, and the subsequent material can move into the detection station 511.

Referring to fig. 4 in conjunction with fig. 1, in this embodiment, in order to improve the working efficiency of the apparatus, there are two detecting mechanisms 50, and the two detecting mechanisms 50 are arranged in parallel. An upper distributing assembly 12 is disposed between the two detecting mechanisms 50 and the conveying track 30, the upper distributing assembly 12 can convey the materials to the two detecting mechanisms 50 respectively, the upper distributing assembly 12 includes a distributing motor 121 and a distributing guide rail 122, the distributing guide rail 122 is perpendicular to the detecting guide rails 51, a distributing slider 123 is disposed on the distributing guide rail 122, a distributing shuttle 124 is fixed on the distributing slider 123, the distributing motor 121 drives the distributing slider 123 to move along the distributing guide rail 122 through a belt, so as to drive the distributing shuttle 124 to move along the distributing guide rail 122, and the distributing shuttle 124 can convey the materials passing through the conveying track 30 to the two detecting guide rails 51 respectively.

In this embodiment, the feed shuttle 124 is provided with a first guide slot 1241, and the material in the conveying track 30 can enter the first guide slot 1241 of the feed shuttle 124 and can slide along the first guide slot 1241. The material distributing shuttle 124 is provided with a material distributing and positioning cylinder 125, and the material distributing and positioning cylinder 125 can prevent the material from continuously sliding along the first guide rail groove 1241 through a positioning part. When the feed shuttle 124 moves to the corresponding position, the feed positioning cylinder 125 returns, and the material can move into the detection guide 51 through the first guide groove 1241.

Referring to fig. 2, a second conveying and separating cylinder 33 is disposed at the bottom end of the conveying track 30, the second conveying and separating cylinder 33 prevents the material from moving along the conveying track 30 through a positioning member, and when the material separating shuttle 124 moves to a position corresponding to the conveying track 30, the second conveying and separating cylinder 33 returns, and the material enters the first guide groove 1241 of the material separating shuttle 124.

In this embodiment, the below that detects guide rail 51 is provided with unloading guide rail 60 and defective products unloading mechanism 70, unloading guide rail 60 is used for conveying the material of yields to next station, defective products unloading mechanism 70 is used for collecting the defective products material, defective products unloading mechanism 70 sets up one side of unloading guide rail 60. A lower distributing component 13 is arranged between the blanking guide rail 60 and the detecting mechanism 50, the structure of the lower distributing component 13 is the same as that of the upper distributing component 12, and the lower distributing component 13 can respectively convey detected materials to the blanking guide rail 60 or move the detected materials to the defective blanking mechanism 70 according to the detection condition. The lower end of the detection guide rail 51 is provided with a third conveying and separating cylinder 55, and the third conveying and separating cylinder 55 controls the conveying of the materials on the detection track 51 through a positioning piece.

As shown in fig. 5, the defective product blanking mechanism 70 includes a conduction assembly 71, a positioning assembly 72 and a defective product receiving tube 73, the positioning assembly 72 can position the defective product receiving tube 73 on the working platform 11, one end of the defective product receiving tube 73 extends into the conduction assembly 71, and the lower distributing assembly 13 transfers the material into the defective product receiving tube 73 through the conduction assembly 71. As shown in fig. 6, the conducting assembly 71 includes a fixing plate 711 and a fixing cover plate 712, a second guide rail groove 7111 is disposed on the fixing plate 711, the fixing cover plate 712 is disposed above the fixing plate 711, a top end of the defective product receiving tube 73 can extend into a space between the fixing plate 711 and the fixing cover plate 712 and correspond to the second guide rail groove 7111, and the lower distributing assembly 13 can convey the material into the second guide rail groove 7111 and transmit the material into the defective product discharging tube 73 through the second guide rail groove 7111. In this embodiment, the number of the second rail grooves 7111 is six, and they are arranged in parallel with each other.

The positioning assembly 72 includes a clamping plate 721 and a fixing block 722, a first clamping member 7211 is disposed on the clamping plate 721, a second clamping member 7221 is disposed on the fixing block 722, and the defective discharge pipe 73 passes through the space between the clamping plate 721 and the fixing block 722, and is fixed by the first clamping member 7211 and the second clamping member 7221.

The detection equipment can braid the materials which are detected to be good products, and the materials need to be braided and sorted before being braided. Be provided with braid letter sorting mechanism 80 on unloading guide rail 60, braid letter sorting mechanism 80 includes carrier band 82, gets to put material subassembly 83, second detection camera 84 and letter sorting subassembly 85, carrier band 82, get to put material subassembly 83, second detection camera 84 and letter sorting subassembly 85 all set up on braid platform 81, braid platform 81 with work platform 11 fixed connection, be provided with on the unloading guide rail 60 and get the material level 61, it can with to get material subassembly 83 get the material on the material level 61 and place in the accepting groove of carrier band 82. As shown in fig. 8, the material taking and placing assembly 83 is provided with a first suction head 831 for gripping the material. Get the both sides of material level 61 and be provided with die clamping cylinder 62, die clamping cylinder 62 accessible presss from both sides tight piece 621 will the material location is in get on the material level 61, be convenient for get drop feed mechanism 83 and acquire the material.

The braiding platform 81 is provided with a second identification station, the second detection camera 84 is fixed above the second identification station through a second camera support 841, the accommodating grooves on the carrier tape 82 can be moved to the second identification station one by one, and the second detection camera 84 can detect materials on the second identification station. In this embodiment, the second detection camera 84 is used to identify the shape of the material. When the shape of the material is qualified, a braiding mechanism on a braiding platform can braid the material; when the shape of the material is unqualified, the sorting assembly 85 can move the material on the second identification station into a waste bucket 86, the waste bucket 86 is arranged below the braiding platform 81, and a through hole communicated with the opening of the waste bucket 86 is arranged on the braiding platform 81. As shown in fig. 9, a three-axis moving slide 851 and a second suction head 852 are disposed on the sorting assembly 85, and the three-axis moving slide 851 grabs the material through the second suction head 852 and can drive the material to move.

Referring to fig. 1, a material receiving mechanism 90 is disposed below the discharging guide 60, a material receiving bracket 91 and a good product receiving tube 92 are disposed on the material receiving mechanism 90, the good product receiving tube 92 is fixed on the working platform 11 through the material receiving bracket 91, and the top of the good product receiving tube 92 corresponds to the bottom opening of the discharging guide 60. When the qualified product does not need to be braided, the material can move downwards through the blanking guide rail 60 until entering the good product receiving pipe 92. The non-defective products receive 92 pipes are used for receiving materials detected as non-defective products.

The present invention can be designed in various embodiments and modifications without departing from the spirit and scope of the present invention in its broadest sense, and the above-described embodiments are intended to illustrate the present invention, but not to limit the scope of the present invention.

Claims (9)

1. The utility model provides a check out test set with vibration dish, includes frame and vibration dish, its characterized in that, be provided with work platform in the frame, work platform with there is certain angle between the bottom surface of frame, the last transmission track that is provided with of work platform, the orbital top of transmission with the discharge gate intercommunication of vibration dish, be provided with steering mechanism on the transmission track, steering mechanism includes first detection camera and rotating assembly, the direction of the material on the first discernment station of first detection camera distinguishable, rotating assembly is including turning to driving motor, revolving stage and first lift cylinder, first lift cylinder accessible setting element is in the material location on the revolving stage, it can drive to turn to driving motor the revolving stage is rotatory certain angle, will the material turns to.

2. The detecting apparatus with the vibrating disk as claimed in claim 1, wherein an angle between said work platform and said bottom surface is an acute angle.

3. The detection device with the vibrating disk as claimed in claim 1, further comprising a detection mechanism, wherein the detection mechanism comprises a detection guide rail, the detection guide rail is provided with a detection separation cylinder, a detection clamping cylinder and a detection blocking cylinder, the detection separation cylinder and the detection blocking cylinder respectively prevent the material from moving on the detection guide rail through a positioning member, the detection clamping cylinder is arranged between the detection separation cylinder and the detection blocking cylinder, and the detection clamping cylinder detects the material on the detection station through a detection golden finger.

4. A test device with a vibrating disk, according to claim 3, characterized in that said test means are two in number, and are arranged in parallel, an upper material distributing component is arranged above the two detection mechanisms, a lower material distributing component is arranged below the two detection mechanisms, the upper distributing component is used for respectively conveying the materials on the conveying track to the two detection guide rails, the lower material distributing component is used for distributing the detected materials, the upper material distributing component and the lower material distributing component both comprise material distributing motors and material distributing guide rails, the material distributing guide rail is provided with a material distributing slide block which is connected with a material distributing shuttle, the material distributing guide rail is vertical to the detection guide rail, the material distributing motor drives the material distributing sliding block to slide along the material distributing guide rail through a belt, and then drives the material distributing shuttle to move along the material distributing guide rail.

5. The detecting apparatus with the vibrating disk as claimed in claim 4, wherein the distributing shuttle is provided with a distributing positioning cylinder, and the distributing positioning cylinder positions the material in the distributing shuttle through a positioning member.

6. The detection device with the vibrating disk according to claim 5, further comprising a blanking guide rail and a defective product blanking mechanism, wherein the lower material distribution assembly can transport the material to the blanking guide rail or the defective product blanking mechanism respectively according to the detection condition, and the defective product blanking mechanism is arranged on one side of the blanking guide rail.

7. The detection equipment with the vibrating disk as claimed in claim 6, wherein the defective product blanking mechanism comprises a conduction assembly, a positioning assembly and a defective product receiving pipe, one end of the defective product receiving pipe can extend into the conduction assembly, the positioning assembly is used for fixing the defective product receiving pipe, and the defective product material can be transmitted into the defective product receiving pipe through the conduction assembly by the blanking assembly.

8. The detecting apparatus with the vibrating tray as claimed in claim 7, wherein the feeding guide rail is provided with a braid sorting mechanism, the braid sorting mechanism includes a carrier tape, a material taking and placing component, a second detecting camera and a sorting component, the feeding guide rail is provided with a material taking position, the material taking and placing component can place the material on the material taking position into the receiving slot of the carrier tape, the second detecting camera is used for detecting the shape of the material in the receiving slot, and the sorting component sorts the material in the receiving slot according to the detection condition of the second detecting camera.

9. The detection device with the vibrating disk as claimed in claim 7, further comprising a material receiving mechanism, wherein the material receiving mechanism comprises a plurality of good product receiving pipes, and the good product receiving pipes are communicated with the bottom of the blanking guide rail and used for receiving good product materials in the blanking guide rail.

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