CN211669311U - Automatic withstand voltage test machine - Google Patents
Automatic withstand voltage test machine Download PDFInfo
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- CN211669311U CN211669311U CN201922365697.3U CN201922365697U CN211669311U CN 211669311 U CN211669311 U CN 211669311U CN 201922365697 U CN201922365697 U CN 201922365697U CN 211669311 U CN211669311 U CN 211669311U
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Abstract
The utility model discloses an automatic withstand voltage test machine relates to the technical field of withstand voltage test machine, which comprises a frame, the vibration dish, blow burring mechanism, rotatory station switching mechanism, first linear module, high pressure resistant anchor clamps mechanism and second linear module all are located the platform of frame, the vibration dish, blow burring mechanism and rotatory station switching mechanism and set up side by side on the platform in proper order, first linear module is installed on the platform along the X axle direction, high pressure resistant anchor clamps mechanism is located one side of rotatory station switching mechanism, the second linear module is installed on the platform along the Y axle direction. The utility model discloses a many equipment integrations are in the same place and carry out centralized control to reach the purpose that has not only saved area but also improved equipment stability, the insulating nature of detection blister tray that can be full-automatic improves work efficiency.
Description
Technical Field
The utility model relates to a technical field of withstand voltage test machine especially relates to an automatic withstand voltage test machine.
Background
Involve the blister supporting plate in the packing field, the blister supporting plate of many article types need carry out high voltage insulation test through high voltage insulation tester, goes to ensure whether the insulating nature of product reaches the requirement of regulation, and the high voltage insulation nature test of the blister supporting plate of prior art needs the workman manually to carry out insulation test at high voltage resistant anchor clamps, and work efficiency is low, test cycle length.
SUMMERY OF THE UTILITY MODEL
To the problem of above-mentioned production, an object of the utility model is to provide an automatic withstand voltage test machine.
In order to realize the purpose, the utility model discloses the technical scheme who takes does:
an automatic withstand voltage test machine, comprising: the device comprises a rack, a vibrating disc, a blowing deburring mechanism, a rotary station switching mechanism, a first linear module, a high-pressure-resistant clamp mechanism and a second linear module; vibration dish, the deburring mechanism that blows, rotatory station switching mechanism, first linear module, high pressure resistant anchor clamps mechanism and second linear module all are located on the platform of frame, the vibration dish blow the deburring mechanism with rotatory station switching mechanism sets up side by side in proper order on the platform, first linear module is installed along the X axle direction on the platform, high pressure resistant anchor clamps mechanism is located one side of rotatory station switching mechanism, the second linear module is installed along the Y axle direction on the platform, the second linear module is located the opposite side of rotatory station switching mechanism.
The automatic pressure-resistant testing machine is characterized in that an outlet end of the vibration disc is connected with an external channel, the air blowing deburring mechanism is located on one side, close to the external channel, of the vibration disc, and the first linear module is located on the same side of the vibration disc, the air blowing deburring mechanism and the rotary station switching mechanism.
The automatic pressure resistance testing machine is characterized in that the blowing deburring mechanism comprises: the box body is of a cuboid hollow structure, and a top plate of the box body is provided with a plurality of through holes; the blowing head is arranged on the top plate of the box body and is connected with an air pipe; the box is collected to the bits of wool, the box setting is collected to the bits of wool is in bottom in the box, the box is collected to the bits of wool is located under a plurality of through-holes.
The automatic pressure resistance testing machine comprises: the shell of the stepping motor is fixed on the platform, and the rotating shaft of the stepping motor faces upwards; the upper end of a rotating shaft of the stepping motor is detachably connected with the middle part of the rotating platform; a product clamp disposed on an upper surface of the rotary table.
The automatic pressure-resistant testing machine is characterized in that the rotating table is circular, four grooves are uniformly formed in the circumference of the side wall of the rotating table, the four grooves penetrate through the rotating table in the vertical direction, and four product clamps are arranged on the four grooves respectively.
The automatic pressure-resistant testing machine is characterized in that the high-pressure-resistant clamp mechanism comprises: the upper clamp comprises an upper support frame, an upper air cylinder and an upper electrode module, the upper support frame is fixed on the platform, the shell of the upper air cylinder is fixed on the upper support frame, the upper electrode module is fixed on a piston rod of the upper air cylinder, and the upper electrode module is positioned right above the rotating table; the lower fixture comprises a lower support frame, a lower air cylinder and a lower electrode module, the lower support frame is fixed on the platform, an outer shell of the lower air cylinder is fixed on the lower support frame, the lower electrode module is fixed on a piston rod of the lower air cylinder, the lower electrode module is located under the rotary table, and the upper electrode module and the lower electrode module are opposite.
The automatic pressure-resistant testing machine is characterized in that two second linear modules are arranged, and two collecting boxes are arranged between the two second linear module supports.
In the automatic pressure-resistant testing machine, the first linear module and the second linear modules are all HIWIN brand KK6010P-500a 1.
The utility model discloses owing to adopt above-mentioned technique, make it compare the positive effect that has with prior art and be:
1. the utility model discloses automatic withstand voltage test machine is in the same place and carry out centralized control through many equipment integrations to reach the purpose that has not only saved area but also improved equipment stability, the practicality is strong.
2. The utility model discloses automatic withstand voltage test machine can be full-automatic detection plastic uptake tray's insulating nature, reduces the human cost, improves work efficiency.
Drawings
Fig. 1 is an isometric view of the automatic pressure resistance testing machine of the present invention.
Fig. 2 is a front view of the automatic pressure resistance testing machine of the present invention.
Fig. 3 is a rear view of the automatic pressure resistance testing machine of the present invention.
Fig. 4 is a right side view of the automatic pressure resistance testing machine of the present invention.
Fig. 5 is a left side view of the automatic pressure resistance testing machine of the present invention.
Fig. 6 is a plan view of the automatic pressure resistance testing machine of the present invention.
In the drawings: 1. a frame; 11. a platform; 12. ground feet; 2. a vibrating pan; 21. a hopper; 22. a pulse electromagnet; 23. a spring plate; 24. an outer channel; 3. a blowing deburring mechanism; 31. a box body; 311. a top plate; 3111. a through hole; 32. a blowing head; 4. rotating the station switching mechanism; 41. a stepping motor; 42. a rotating table; 43. a product clamp; 5. a high pressure resistant clamp mechanism; 51. an upper clamp; 511. an upper support frame; 512. an upper cylinder; 513. an upper electrode module; 52. a lower clamp; 521. a lower support frame; 522. a lower cylinder; 523. a lower electrode module; 6. a first linear module; 7. a second linear module; 8. and a collection box.
Detailed Description
The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.
Fig. 1 is an axial view of an automatic pressure resistance tester of the present invention; FIG. 2 is a front view of the automatic pressure resistance tester of the present invention; fig. 3 is a rear view of the automatic pressure resistance tester of the present invention; fig. 4 is a right side view of the automatic pressure resistance testing machine of the present invention; fig. 5 is a left side view of the automatic pressure resistance testing machine of the present invention; fig. 6 is a plan view of the automatic pressure resistance testing machine of the present invention.
Referring to fig. 1, an automatic pressure resistance tester according to a preferred embodiment is shown, which includes: the device comprises a rack 1, a vibrating disk 2, a blowing deburring mechanism 3, a rotary station switching mechanism 4, a first linear module 6, a high-pressure-resistant clamp mechanism 5 and a second linear module 7.
Wherein, the vibration disk 2, the air blowing deburring mechanism 3, the rotary station switching mechanism 4, the first linear module 6, the high pressure resistant fixture mechanism 5 and the second linear module 7 are all positioned on a platform 11 of the frame 1, the upper surface of the platform 11 is rectangular, the length direction of the upper surface of the platform 11 is the X-axis direction, the width direction of the upper surface of the platform 11 is the Y-axis direction, the vibration disk 2, the air blowing deburring mechanism 3 and the rotary station switching mechanism 4 are sequentially arranged on the platform 11 side by side along the length direction of the platform 11, the vibration disk 2 is used for sequencing a plurality of plastic uptake trays to be tested under high pressure, the plastic uptake trays can generate burrs and burrs to be attached to products in the cutting process of a punch press, the air blowing deburring mechanism 3 is used for removing the burrs and burrs on the plastic uptake trays, the rotary station switching mechanism 4 is used for driving the plastic uptake trays thereon to rotate, first linear module 6 is installed on platform 11 along the X axle direction, first linear module 6 is used for driving the blister supporting plate at vibration dish 2, the burring mechanism 3 of blowing, transport between the rotatory station switching mechanism 4, high pressure resistant fixture mechanism 5 is located one side of rotatory station switching mechanism 4, high pressure resistant fixture mechanism 5 is used for testing the insulating nature of blister supporting plate, second linear module 7 is installed on platform 11 along the Y axle direction, second linear module 7 is located the opposite side of rotatory station switching mechanism 4, second linear module 7 is used for taking off the blister supporting plate that has tested and categorised putting.
Referring to fig. 1 and 2, the vibration tray 2 may be a conventional vibration tray, the vibration tray 2 of this embodiment includes a hopper 21 and a pulse electromagnet 22 disposed at the bottom of the hopper 21, an inner rail (not shown) spirally rising is disposed on the inner wall of the hopper 21, a spring plate 23 obliquely disposed is connected to the outer wall of the hopper 21, the pulse electromagnet 22 drives the hopper 21 to vibrate up and down in the vertical direction, the spring plate 23 drives the hopper 21 to perform torsional vibration around the central axis, a blister tray of the hopper 21 rises along the inner rail, and passes through the screening or posture change of the inner rail during the rising process, the blister tray can be unified according to the requirements of assembly or processing, disorder workpieces are automatically, orderly, directionally arranged, neatly and accurately conveyed to the next process by vibration, an outer channel 24 is connected to an outlet end of the upper portion of the inner rail, and the outer channel 24 is disposed, carry to outside passageway 24 after the plastic uptake tray is accomplished in the track sequencing including, divide into two passageways through the baffle in the outside passageway 24, blow and burr-grinding mechanism 3 and be located the one side that vibration dish 2 is close to outside passageway 24, first linear module 6 is located vibration dish 2, blow with one side of burr-grinding mechanism 3 and rotatory station switching mechanism 4, be convenient for with the plastic uptake tray at vibration dish 2, blow and remove between burr-grinding mechanism 3 and the rotatory station switching mechanism 4 and move, first linear module 6 absorbs the plastic uptake tray of outside passageway 24 and transports to blow and burr-grinding mechanism 3 and carry out the burring processing, then first linear module 6 transports the plastic uptake tray to rotatory station switching mechanism 4 on.
Referring to fig. 2 and 6, the blow deburring mechanism 3 includes: box 31, blow head 32 and bits collection box (not shown in the figure), box 31 is the hollow structure of cuboid, a plurality of through-holes 3111 have been seted up on the roof 311 of box 31, blow head 32 sets up on the roof 311 of box 31, blow head 32 is connected with trachea (not shown in the figure), blow head 32 is towards the middle part of roof 311, the bottom of box setting in box 31 is collected to the bits, the bits are collected to the bits and are located a plurality of through-holes 3111 under, first linear module 6 transports the blister tray to the roof 311 of box 31 on, the outside compressed air source is connected to the trachea, remove the bits and the burr on the clearance blister tray through blow head 32 blowout compressed air, the bits and the burr that blow down fall into the bits collection box through a plurality of through-holes 3111.
Further, referring to fig. 3, 4 and 6, the rotary station switching mechanism 4 includes: step motor 41, revolving stage 42 and product anchor clamps 43, step motor 41's casing is fixed on platform 11, step motor 41's pivot is towards the top, the upper end of step motor 41's pivot can be dismantled with revolving stage 42's middle part and be connected, product anchor clamps 43 set up the upper surface at revolving stage 42, product anchor clamps 43 have insulating nature, be used for bearing blister tray, the blister tray after clearance is transported to product anchor clamps 43 on first linear module 6 with the roof 311 of box 31 in, step motor 41's pivot drives revolving stage 42 and rotates, switch the station.
Further optimize above-mentioned embodiment, the shape of revolving stage 42 is circular, along the even four recesses of having seted up on the circumference of revolving stage 42 lateral wall, four recesses all run through revolving stage 42 along vertical direction, are provided with four product anchor clamps 43 on the four recesses respectively, and the recess can make the lower surface of product anchor clamps 43 not laminate with revolving stage 42.
As shown in fig. 3, 4, 5 and 6, the high-pressure resistant clamping mechanism 5 includes: the device comprises an upper clamp 51 and a lower clamp 52, wherein the upper clamp 51 and the lower clamp 52 are respectively connected to positive and negative electrodes of a high-voltage insulation tester of Chroma brand, the upper clamp 51 comprises an upper support frame 511, an upper air cylinder 512 and an upper electrode module 513, the upper support frame 511 is fixed on a platform 11, a shell of the upper air cylinder 512 is fixed on the upper support frame 511, the upper electrode module 513 is fixed on a piston rod of the upper air cylinder 512, and the upper electrode module 513 is positioned right above a rotating table 42; the lower fixture 52 comprises a lower support frame 521, a lower cylinder 522 and a lower electrode module 523, the lower support frame 521 is fixed on the platform 11, a housing of the lower cylinder 522 is fixed on the lower support frame 521, the lower electrode module 523 is fixed on a piston rod of the lower cylinder 522, the lower electrode module 523 is located right below the rotating table 42, the upper electrode module 513 and the lower electrode module 523 are opposite, and the upper electrode module 513 and the lower electrode module 523 are respectively connected with positive and negative electrodes of the high-voltage insulation tester.
Further optimize above-mentioned embodiment, the material of the conducting part of upper clamp 51 and lower clamp 52 is copper, insulating part adopts the high-pressure insulation board, greatly improved the test stability and the security of product, when the plastic uptake tray that awaits measuring changes to the test station, the piston rod shrink of upper cylinder 512 drives upper electrode module 513 and product anchor clamps 43 contact, the piston rod extension of lower cylinder 522 drives lower electrode module 523 and product anchor clamps 43 contact, then high-pressure insulation tester discharges and carries out high-pressure test to the plastic uptake tray on product anchor clamps 43, the test time is three seconds, the piston rod extension of upper cylinder 512 after the test is accomplished, the piston rod shrink of lower cylinder 522, make upper electrode module 513 and lower electrode module 523 all break away from with product anchor clamps 43.
In this embodiment, according to the insulation test of blister supporting plate, be the waste product that is unqualified, what meet the requirements is the finished product, is provided with two second linear module 7, and two second linear module 7 are used for collecting finished product and waste product respectively, are provided with two collecting box 8 between two second linear module 7 supports, and two collecting box 8 are used for accomodating finished product and waste product respectively.
Still, first linear module 6 and two second linear module 7 are KK6010P-500A1 model of HIWIN brand, snatch the blister supporting plate through driving soft suction nozzle, and the fully automatic insulating nature that detects the blister supporting plate reduces the human cost, improves work efficiency.
Further, vibration dish 2, the burring mechanism of blowing 3, rotatory station switching mechanism 4, first linear module 6, resistant high pressure fixture mechanism 5 and second linear module 7 all are connected with control system, and control system controls each part collaborative work.
In addition, a plurality of feet 12 are provided at the lower end of the frame 1, and the feet 12 support the frame 1.
The work flow of the present invention is explained below:
s1: the plastic suction trays are placed in a vibration tray 2, and the vibration tray 2 sorts the plastic suction trays and conveys the plastic suction trays to an external channel 24 in a row and tidily;
s2: the first linear module 6 conveys the plastic suction tray in the external channel 24 to the box body 31, and the blowing head 32 sprays compressed air to clean the plastic suction tray;
s3: the first linear module 6 conveys the blister tray on the box body 31 into the product clamp 43 on the rotating platform 42, and the rotating shaft of the stepping motor 41 drives the rotating platform 42 to rotate, so that the blister tray is positioned on a station between the upper electrode module 513 and the lower electrode module 523;
s4: the upper clamp 51 and the lower clamp 52 are respectively connected with a positive electrode and a negative electrode of a high-voltage insulation tester to perform insulation test on the plastic suction tray;
s5: if the blister tray is a finished product, the rotating shaft of the stepping motor 41 drives the rotating table 42 to rotate to a station at one side of the second linear module 7 for collecting the finished product, and the finished product is placed into the collecting box 8 for collecting the finished product;
s6: if the blister tray is a waste product, the rotating shaft of the stepping motor 41 drives the rotating table 42 to rotate to a station at one side of the second linear module 7 for collecting the waste product, and the product is put into the collecting box 8 for collecting the waste product.
The above is only a preferred embodiment of the present invention, and not intended to limit the scope of the invention, and it should be appreciated by those skilled in the art that various equivalent substitutions and obvious changes made in the specification and drawings should be included within the scope of the present invention.
Claims (8)
1. An automatic withstand voltage test machine is characterized by comprising: the device comprises a rack (1), a vibrating disc (2), a blowing deburring mechanism (3), a rotary station switching mechanism (4), a first linear module (6), a high-pressure-resistant clamp mechanism (5) and a second linear module (7);
wherein, vibration dish (2), the burring mechanism of blowing (3), rotatory station switching mechanism (4), first linear module (6), high pressure resistant anchor clamps mechanism (5) and second linear module (7) all are located on platform (11) of frame (1), vibration dish (2) blow burring mechanism (3) with rotatory station switching mechanism (4) set up side by side in proper order on platform (11), install along the X axle direction first linear module (6) on platform (11), high pressure resistant anchor clamps mechanism (5) are located one side of rotatory station switching mechanism (4), install along the Y axle direction second linear module (7) on platform (11), second linear module (7) are located the opposite side of rotatory station switching mechanism (4).
2. The automatic pressure resistance testing machine as claimed in claim 1, wherein an external channel (24) is connected to an outlet end of the vibration disk (2), the air blowing deburring mechanism (3) is located on one side of the vibration disk (2) close to the external channel (24), and the first linear module (6) is located on the same side of the vibration disk (2), the air blowing deburring mechanism (3) and the rotary station switching mechanism (4).
3. The automatic pressure resistance testing machine as claimed in claim 1, wherein the air-blowing deburring mechanism (3) comprises:
the refrigerator comprises a refrigerator body (31), wherein the refrigerator body (31) is of a cuboid hollow structure, and a top plate (311) of the refrigerator body (31) is provided with a plurality of through holes (3111);
the blowing head (32), the blowing head (32) is arranged on the top plate (311) of the box body (31), and the blowing head (32) is connected with an air pipe;
the box is collected to the bits of wool, the box setting is collected to the bits of wool is in bottom in box (31), the box is collected to the bits of wool is located under a plurality of through-holes (3111).
4. The automatic pressure resistance testing machine according to claim 1, wherein the rotary station switching mechanism (4) comprises:
the shell of the stepping motor (41) is fixed on the platform (11), and the rotating shaft of the stepping motor (41) faces upwards;
the upper end of a rotating shaft of the stepping motor (41) is detachably connected with the middle part of the rotating table (42);
a product clamp (43), the product clamp (43) being disposed on an upper surface of the rotary table (42).
5. The automatic pressure-resistant testing machine as claimed in claim 4, wherein the rotating table (42) is circular, four grooves are uniformly formed along the circumference of the side wall of the rotating table (42), the four grooves are vertically penetrated through the rotating table (42), and four product clamps (43) are respectively disposed on the four grooves.
6. The automatic pressure resistance testing machine according to claim 5, wherein the high pressure resistance jig mechanism (5) comprises:
the upper clamp (51) comprises an upper support frame (511), an upper air cylinder (512) and an upper electrode module (513), the upper support frame (511) is fixed on the platform (11), the shell of the upper air cylinder (512) is fixed on the upper support frame (511), the upper electrode module (513) is fixed on the piston rod of the upper air cylinder (512), and the upper electrode module (513) is positioned right above the rotating table (42);
the lower clamp (52) comprises a lower support frame (521), a lower air cylinder (522) and a lower electrode module (523), the lower support frame (521) is fixed on the platform (11), a shell of the lower air cylinder (522) is fixed on the lower support frame (521), the lower electrode module (523) is fixed on a piston rod of the lower air cylinder (522), the lower electrode module (523) is located under the rotating table (42), and the upper electrode module (513) is opposite to the lower electrode module (523).
7. The automatic pressure resistance tester according to claim 6, wherein there are two second linear modules (7), and two collecting boxes (8) are provided between the two second linear module (7) supports.
8. The automatic pressure resistance tester according to claim 7, wherein the first linear die set (6) and the second linear die set (7) are both HIWIN brand model KK6010P-500A 1.
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CN201922365697.3U CN211669311U (en) | 2019-12-25 | 2019-12-25 | Automatic withstand voltage test machine |
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CN201922365697.3U CN211669311U (en) | 2019-12-25 | 2019-12-25 | Automatic withstand voltage test machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115228842A (en) * | 2022-09-01 | 2022-10-25 | 浙江金连接科技股份有限公司 | Automatic cleaning device and method for rotary probe sleeve |
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2019
- 2019-12-25 CN CN201922365697.3U patent/CN211669311U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115228842A (en) * | 2022-09-01 | 2022-10-25 | 浙江金连接科技股份有限公司 | Automatic cleaning device and method for rotary probe sleeve |
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