CN216560908U - Insulating withstand voltage test equipment of KDCX circuit breaker - Google Patents

Insulating withstand voltage test equipment of KDCX circuit breaker Download PDF

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Publication number
CN216560908U
CN216560908U CN202123311953.4U CN202123311953U CN216560908U CN 216560908 U CN216560908 U CN 216560908U CN 202123311953 U CN202123311953 U CN 202123311953U CN 216560908 U CN216560908 U CN 216560908U
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cylinder
product
plate
jacking
testing
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谢建宏
杨洲
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Suzhou New Vision Automation Technology Co ltd
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Suzhou New Vision Automation Technology Co ltd
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Abstract

The utility model belongs to the technical field of circuit breaker testing, in particular to KDCX circuit breaker insulation voltage withstand test equipment which comprises a lower rack and an upper rack arranged at the top end of the lower rack, wherein a pneumatic two-link piece is arranged in the lower rack, a three-color lamp and a touch screen are respectively arranged on the upper rack, a stainless steel plate is also arranged at the top end of the lower rack, and insulation stations and voltage withstand stations which are distributed at intervals are arranged on the stainless steel plate; the conveying direction of the conveying mechanism is perpendicular to the conveying direction of the product conveying line and the conveying direction of the jig return line, and the product pushing mechanism is positioned below the conveying mechanism and used for receiving the products conveyed by the conveying mechanism; the insulation and voltage resistance test equipment for the circuit breaker is suitable for automatic detection equipment of an assembly line, and effectively reduces the labor intensity of personnel and the operation difficulty; the working efficiency is greatly improved, and the beat is effectively quickened by adopting automatic equipment; multi-level product testing can be achieved.

Description

Insulating withstand voltage test equipment of KDCX circuit breaker
Technical Field
The utility model belongs to the technical field of breaker testing, and particularly relates to a KDCX breaker insulation withstand voltage testing device.
Background
The circuit breaker is a switching device which can close, bear and break current under normal loop conditions and can close, bear and break current under abnormal loop conditions within a specified time, the circuit breaker is divided into a high-voltage circuit breaker and a low-voltage circuit breaker according to the using range of the circuit breaker, the dividing of high and low voltage boundary lines is fuzzy, the circuit breaker is generally called as a high-voltage electrical appliance with the voltage of more than 3kV, due to the high-speed development of the electronic product industry, the electronic product industry is promoted to meet market requirements, and the circuit breaker requirements are greatly increased for meeting the production requirements of new products.
The circuit breaker is used as a common electrical element, and the insulation performance test and the voltage endurance test of the circuit breaker are crucial to the reliable use of the circuit breaker, but the traditional detection is usually carried out manually, and the manual operation is relatively troublesome and takes a long time.
SUMMERY OF THE UTILITY MODEL
In order to solve the problems in the prior art, the utility model provides the KDCX circuit breaker insulation and voltage resistance test equipment which can conveniently and rapidly detect the insulation and voltage resistance of the circuit breaker, reduce the labor intensity of workers and improve the labor efficiency.
In order to achieve the purpose, the utility model provides the following technical scheme: the KDCX circuit breaker insulation withstand voltage test equipment comprises a lower rack and an upper rack arranged at the top end of the lower rack, wherein a pneumatic two-link piece is arranged in the lower rack, a three-color lamp and a touch screen are respectively arranged on the upper rack, a stainless steel plate is also arranged at the top end of the lower rack, and insulation stations and withstand voltage stations which are distributed at intervals are arranged on the stainless steel plate;
the parts of the insulating station and the voltage-resistant station are consistent, the insulating station and the voltage-resistant station both comprise a positioning jacking mechanism, a carrying mechanism, a product pushing mechanism and a power-on testing mechanism, a jig plate loaded with a product and a product conveying line and a jig return line for conveying the returned jig plate are further respectively mounted on the lower rack, and the product conveying line can pass through the insulating station and the voltage-resistant station when conveying the jig plate loaded with the product;
the conveying direction of the conveying mechanism is perpendicular to the conveying direction of the product conveying line and the conveying direction of the jig return line, and the product pushing mechanism is located below the conveying mechanism to receive the products conveyed by the conveying mechanism;
the positioning jacking mechanism is used for jacking the jig plate loaded with the product so as to be grabbed and conveyed by the carrying mechanism;
the electrifying test mechanism and the product pushing mechanism are arranged at intervals and are opposite to the test station of the product pushing mechanism.
As a preferred technical scheme, the device further comprises a blocking and distributing mechanism, the blocking and distributing mechanism comprises a blocking cylinder A, a non-return assembly, a distributing cylinder and an in-place detection photoelectric sensor, the blocking cylinder A, the non-return assembly and the distributing cylinder are all mounted on the top surface of the stainless steel plate and located on the inner side of the product conveying line, the blocking cylinder A and the distributing cylinder are arranged at intervals, and the non-return assembly is located between the blocking cylinder A and the distributing cylinder; the in-place detection photoelectric sensor is installed on the product conveying line.
As a preferred technical scheme of the utility model, the positioning jacking mechanism comprises a supporting plate, a jacking plate and a jacking cylinder, the supporting plate is installed on the stainless steel plate, the jacking plate is positioned right above the supporting plate, the jacking cylinder is installed on the bottom surface of the supporting plate, and a piston rod of the jacking cylinder penetrates through the supporting plate and then is fixedly connected with the jacking plate so as to drive the jacking plate to drive the jig plate to ascend or descend; and a pin is arranged on the top surface of the jacking plate.
As a preferred technical scheme of the utility model, a guide post is further fixed on the bottom surface of the jacking plate, and the guide post penetrates through the supporting plate; and the stainless steel plate is also provided with a blocking cylinder B positioned on one side of the jacking plate.
As a preferred technical scheme of the utility model, the carrying mechanism comprises a support frame, a carrying module, a mounting seat, a taking and placing lifting cylinder and a pneumatic clamping jaw, the carrying module is transversely mounted on the stainless steel plate by using the support frame, the mounting seat is mounted on a sliding block of the carrying module, the taking and placing lifting cylinder is mounted on the mounting seat, and the pneumatic clamping jaw is connected with a piston rod of the taking and placing lifting cylinder and used for grabbing a product and is controlled by the taking and placing lifting cylinder to move in the vertical direction.
As a preferred technical scheme of the utility model, the product pushing mechanism comprises a fixed seat, a pushing cylinder, an opening cylinder and a closing cylinder, wherein the fixed seat is installed on the stainless steel plate, and the pushing cylinder is installed on the fixed seat and is opposite to the testing station so as to push a product placed on the testing station to move towards the direction of the power-on testing mechanism; the opening cylinder and the closing cylinder are both arranged on the top surface of the stainless steel plate and are distributed oppositely.
As a preferred technical scheme of the present invention, the energization testing mechanism includes a base, a lower suspension plate, an energization testing pushing cylinder, a movable frame, an energization testing compensation cylinder and a testing probe, wherein the base is fixed on the top surface of the stainless steel plate, the lower suspension plate is movably mounted on the base, the energization testing pushing cylinder is mounted on the base, and a piston rod of the energization testing pushing cylinder is fixedly connected with the lower suspension plate; the end of suspension board is fixed with the suspension board extension board down, the adjustable shelf movable mounting be in on the suspension board extension board, circular telegram test compensation cylinder is installed on the suspension board extension board, just circular telegram test compensation cylinder's piston rod with adjustable shelf fixed connection, the test probe is installed on the adjustable shelf and just to the test station.
Compared with the prior art, the utility model has the beneficial effects that: the circuit breaker insulation and voltage resistance test equipment is suitable for assembly line automatic detection equipment, and effectively reduces the labor intensity and operation difficulty of personnel; the working efficiency is greatly improved, and the beat is effectively quickened by adopting automatic equipment; multi-level product testing can be achieved.
Drawings
The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a schematic top view of the mechanism assembly of the present invention;
FIG. 3 is a schematic top view of the blocking and separating mechanism of the present invention;
FIG. 4 is a schematic front view of a positioning and jacking mechanism according to the present invention;
FIG. 5 is a front view of the carrying mechanism of the present invention;
FIG. 6 is a schematic top view of the product pushing mechanism of the present invention;
FIG. 7 is a schematic top view of the power-on test mechanism of the present invention;
in the figure: 1. a lower frame; 2. an upper frame; 3. a three-color lamp; 4. a touch screen; 5. two pneumatic connecting pieces; 6. a stainless steel plate; 7. a product conveying line; 8. a jig return line; 9. a material blocking and distributing mechanism; 91. blocking the cylinder A; 92. a check assembly; 93. a material distributing cylinder; 94. detecting a photoelectric sensor in place; 10. positioning the jacking mechanism; 101. a support plate; 102. a jacking plate; 103. jacking a cylinder; 104. a pin; 105. a blocking cylinder B; 106. a guide post; 11. a carrying mechanism; 111. a support frame; 112. a carrying module; 113. a mounting seat; 114. taking and placing a lifting cylinder; 115. a pneumatic clamping jaw; 12. a product pushing mechanism; 121. a fixed seat; 122. a push cylinder; 123. a brake separating cylinder; 124. a closing cylinder; 13. a power-on test mechanism; 131. a base; 132. a lower suspension plate; 133. electrifying to test the pushing cylinder; 134. a movable frame; 135. electrifying the test compensation cylinder; 136. testing the probe; 137. the suspension plate extends the board.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-7, the present invention provides the following technical solutions: the KDCX circuit breaker insulation voltage withstand test equipment comprises a lower rack 1 and an upper rack 2 arranged at the top end of the lower rack 1, wherein a pneumatic two-way piece 5 is arranged in the lower rack 1, a three-color lamp 3 and a touch screen 4 are respectively arranged on the upper rack 2, a stainless steel plate 6 is also arranged at the top end of the lower rack 1, and insulation stations and voltage withstand stations which are distributed at intervals are arranged on the stainless steel plate 6; the parts of the insulating station and the voltage-resistant station are consistent, the insulating station and the voltage-resistant station both comprise a positioning jacking mechanism 10, a carrying mechanism 11, a product pushing mechanism 12 and an electrifying testing mechanism 13, a product conveying line 7 and a jig return line 8 for conveying a jig plate loaded with a product and conveying an empty jig plate are further respectively mounted on the lower rack 1, and the product conveying line 7 can pass through the insulating station and the voltage-resistant station when conveying the jig plate loaded with the product; the conveying direction of the conveying mechanism 11 is perpendicular to the conveying direction of the product conveying line 7 and the jig return line 8, and the product pushing mechanism 12 is located below the conveying mechanism 11 to receive the products conveyed by the conveying mechanism 11; the positioning jacking mechanism 10 is used for jacking the jig plate loaded with the product so as to be grabbed and conveyed by the carrying mechanism 11; the electrifying testing mechanism 13 is arranged at a distance from the product pushing mechanism 12 and is opposite to the testing station of the product pushing mechanism 12.
This equipment both can make full automatic equipment and be applied to the assembly line on, realize multistage product test, can make unit equipment again, and the manual work is put the material and is realized semi-automatic product test, introduces for example on this embodiment is applied to the assembly line to making full automatic equipment, and the product is accomplished the action characteristic test back at this equipment of using promptly, continues to be carried by product transfer chain 7 towards next process, when whole tests are accomplished the back, sends back empty tool board by tool return line 8.
The tool board that the loading has the product that awaits measuring is carried by product transfer chain 7, when reacing location climbing mechanism 10, by location climbing mechanism 10 jack-up tool board, and transport mechanism 11 action was carried the product to the test station department of product push mechanism 12 this moment, and after the product transport, product push mechanism 12 pushed the product to corresponding position, awaits the testing, and the test is realized to the work of last electrification test mechanism 13.
After the test is finished, the power-on test mechanism 13 returns to the original position, the product pushing mechanism 12 returns to the original position, the conveying mechanism 11 conveys the product back to the jig plate, the positioning jacking mechanism 10 retracts, and the jig plate flows to the next station on the product conveying line 7 for testing.
The insulating station and the voltage-resistant station have the same accessories, the testing principle is the same, theoretically, there is no difference between the sequence of the testing, the embodiment is explained by taking the insulating test as an example, and after all the tests are completed, the jig plate continues to flow to the next station on the product conveying line 7.
Specifically, as shown in fig. 1, fig. 2, and fig. 3, in this embodiment, the material blocking and separating mechanism 9 is further included, and the material blocking and separating mechanism 9 includes a blocking cylinder a91, a check assembly 92, a material separating cylinder 93, and an in-place detection photoelectric sensor 94, where the blocking cylinder a91, the check assembly 92, and the material separating cylinder 93 are all installed on the top surface of the stainless steel plate 6 and located inside the product conveying line 7, the blocking cylinder a91 and the material separating cylinder 93 are arranged at an interval, and the check assembly 92 is located between the blocking cylinder a91 and the material separating cylinder 93; the in-place detection photoelectric sensor 94 is installed on the product conveying line 7, when a front product is conveyed to the position of the positioning jacking mechanism 10 on the product conveying line 7, the in-place detection photoelectric sensor 94 detects an in-place signal of the product, sends an instruction to the system, prevents the cylinder A91 from extending out, blocks a later jig plate, works when two or more jig plates are left at the position, and jacks up the rear jig plate to ensure that only one jig plate is allowed to flow to the position of the positioning jacking mechanism 10 when a next product is detected.
The check assembly 92 prevents the jig plate from accidentally flowing back, and comprises a check plate mounted on the top surface of the stainless steel plate 6 by using a spring, the top surface of the check plate is designed to be an inclined surface, in the conveying process of the jig plate, the jig plate contacts the inclined surface of the check plate firstly, the thrust of the jig plate to the inclined surface generates a component force for enabling the check plate to move downwards, meanwhile, the spring on the lower part is contracted, the jig plate reliably crosses the check plate, then, the spring enables the check plate to move upwards to reset, so that the blocking is formed, the accidental return of the jig plate is avoided, the spring is not shown in the attached drawing, and the check plate is shown in the attached drawings 2 and 3.
Specifically, according to fig. 1, fig. 2 and fig. 4, in this embodiment, the positioning jacking mechanism 10 includes a supporting plate 101, a jacking plate 102 and a jacking cylinder 103, the supporting plate 101 is installed on the stainless steel plate 6, the jacking plate 102 is located right above the supporting plate 101, the jacking cylinder 103 is installed on the bottom surface of the supporting plate 101, and a piston rod of the jacking cylinder 103 penetrates through the supporting plate 101 and then is fixedly connected with the jacking plate 102 to drive the jig plate to ascend or descend; the pins 104 are installed on the top surface of the jacking plate 102, after the jig plate reaches the position of the positioning jacking mechanism 10, the jacking cylinder 103 acts to jack the jig plate by using the jacking plate 102, the pins 104 are used for accurately jacking the jig plate, and the rough positioning of a product in the jig can be ensured.
Specifically, according to fig. 1, fig. 2 and fig. 4, in this embodiment, the guide posts 106 are further fixed on the bottom surface of the lifting plate 102, and the guide posts 106 penetrate through the supporting plate 101, so as to improve the stability of the lifting plate 102; a dam cylinder B105 is further attached to the stainless steel plate 6 on the side of the lifting plate 102 to limit the lifting range of the lifting plate 102.
Specifically, as shown in fig. 1, fig. 2 and fig. 5, in this embodiment, the carrying mechanism 11 includes a support frame 111, a carrying module 112, a mounting base 113, a picking and placing lifting cylinder 114 and a pneumatic clamping jaw 115, the carrying module 112 is transversely mounted on the stainless steel plate 6 by using the support frame 111, the mounting base 113 is mounted on a slider of the carrying module 112, the picking and placing lifting cylinder 114 is mounted on the mounting base 113, the pneumatic clamping jaw 115 is connected to a piston rod of the picking and placing lifting cylinder 114 for grabbing a product and is controlled by the picking and placing lifting cylinder 114 to move in a vertical direction, after a jig plate is jacked up to a fixed height by the jacking cylinder 103, the carrying module 112 is activated to move the pneumatic clamping jaw 115 right above the product, the pneumatic clamping jaw 115 is lowered by the picking and placing lifting cylinder 114 to a certain height until the product is clamped by the pneumatic clamping jaw 115, and then the pneumatic clamping jaw 115 is lifted by the picking and placing lifting cylinder 114, meanwhile, the carrying module 112 is started to transport the product to the upper part of the testing station, the picking and placing lifting cylinder 114 lowers the height of the pneumatic clamping jaw 115, and the pneumatic clamping jaw 115 releases the product to the testing station.
Specifically, according to fig. 1, fig. 2 and fig. 6, in this embodiment, the product pushing mechanism 12 includes a fixing seat 121, a pushing cylinder 122, a switching-off cylinder 123 and a switching-on cylinder 124, the fixing seat 121 is installed on the stainless steel plate 6, and the pushing cylinder 122 is installed on the fixing seat 121 and faces the testing station for pushing the product placed on the testing station to move toward the direction of the energizing testing mechanism 13; the opening cylinder 123 and the closing cylinder 124 are both installed on the top surface of the stainless steel plate 6 and are distributed relatively, the product pushing mechanism 12 is started after the product reaches the testing station, and the product is pushed to the corresponding position by means of the pushing cylinder 122 to wait for testing.
Specifically, according to fig. 1, fig. 2 and fig. 7, in this embodiment, the energization testing mechanism 13 includes a base 131, a lower suspension plate 132, an energization testing pushing cylinder 133, a movable frame 134, an energization testing compensation cylinder 135 and a testing probe 136, the base 131 is fixed on the top surface of the stainless steel plate 6, the lower suspension plate 132 is movably installed on the base 131, the energization testing pushing cylinder 133 is installed on the base 131, and a piston rod of the energization testing pushing cylinder 133 is fixedly connected to the lower suspension plate 132; a suspension plate extension plate 137 is fixed at the end of the lower suspension plate 132, a movable frame 134 is movably mounted on the suspension plate extension plate 137, an energization test compensation cylinder 135 is mounted on the suspension plate extension plate 137, a piston rod of the energization test compensation cylinder 135 is fixedly connected with the movable frame 134, a test probe 136 is mounted on the movable frame 134 and faces a test station, an energization test pushing cylinder 133 pushes the lower suspension plate 132 to move so as to realize the tight fit between the test probe 136 and a product contact, the energization test compensation cylinder 135 can drive the test probe 136 to move by pushing the movable frame 134 to move so as to realize the product compatibility test with different main contacts of a product, an opening cylinder 123 and a closing cylinder 124 are respectively started according to requirements to carry out opening and closing test on the product, after the test is completed, the energization test mechanism 13 returns to the original position, the product pushing mechanism 12 returns to the original position, the carrying mechanism 11 moves the product back into a jig plate, the positioning jacking mechanism 10 retracts, and the jig plate flows to the next station for testing on the product conveying line 7.
The working principle and the using process of the utility model are as follows: according to the insulation and voltage resistance test equipment for the circuit breaker, the circuit breaker is manually fed, a product is placed in the jig plate, the jig plate loaded with the product to be tested is conveyed by the product conveying line 7, when the product reaches the positioning jacking mechanism 10, the jacking cylinder 103 acts, the jig plate is jacked by the jacking plate 102, the jig plate is accurately jacked by the pin 104, meanwhile, the in-place signal of the product is detected by the in-place detection photoelectric sensor 94, an instruction is sent to the system, the cylinder A91 is prevented from extending out, the rear jig plate is prevented from being stretched out, when two or more jig plates are left at the position, the material distributing cylinder 93 works to jack the rear jig plate, and only one jig plate is allowed to flow to the position of the positioning jacking mechanism 10 when the next product is detected;
after the jig plate is jacked to a fixed height by the jacking cylinder 103, the carrying module 112 is started, the pneumatic clamping jaw 115 is moved to a position right above a product, the pneumatic clamping jaw 115 is lowered by a certain height by virtue of the taking and placing lifting cylinder 114 until the product is clamped by the pneumatic clamping jaw 115, then the pneumatic clamping jaw 115 is lifted by virtue of the taking and placing lifting cylinder 114, meanwhile, the carrying module 112 is started to transport the product to the upper part of a test station, the taking and placing lifting cylinder 114 lowers the height of the pneumatic clamping jaw 115, and the pneumatic clamping jaw 115 releases the product to the test station;
the product pushing mechanism 12 is started after the product reaches the test station, and pushes the product to a corresponding position by means of the pushing cylinder 122 to wait for the test;
finally, the power-on test mechanism 13 is started, the power-on test pushing cylinder 133 pushes the lower suspension plate 132 to move, so that the test probe 136 is tightly attached to a product contact, the power-on test compensation cylinder 135 can drive the test probe 136 to move by pushing the movable frame 134 to move, so that product compatibility tests with different lengths of main contacts of products are realized, and the opening cylinder 123 and the closing cylinder 124 are respectively started as required to perform opening and closing tests on the products;
after the test is completed, the power-on test mechanism 13 returns to the original position, the product pushing mechanism 12 returns to the original position, the conveying mechanism 11 conveys the product back to the jig plate, the positioning jacking mechanism 10 retracts, and the jig plate flows to the next station for testing on the product conveying line 7.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

  1. KDCX circuit breaker dielectric withstand voltage test equipment, include lower frame (1) and install last frame (2) on lower frame (1) top install pneumatic two antithetical couplet spare (5) in lower frame (1) install tricolor lamp (3) and touch-sensitive screen (4) on going up frame (2) respectively, its characterized in that: a stainless steel plate (6) is further mounted at the top end of the lower rack (1), and insulating stations and voltage-resistant stations which are distributed at intervals are mounted on the stainless steel plate (6);
    the parts of the insulating station and the pressure-resistant station are consistent, the insulating station and the pressure-resistant station both comprise a positioning jacking mechanism (10), a carrying mechanism (11), a product pushing mechanism (12) and an electrifying testing mechanism (13), a product conveying line (7) and a jig return line (8) which are used for conveying jig plates loaded with products and conveying empty jig plates are further respectively installed on the lower rack (1), and the product conveying line (7) can pass through the insulating station and the pressure-resistant station when conveying the jig plates loaded with the products;
    the conveying direction of the conveying mechanism (11) is perpendicular to the conveying direction of the product conveying line (7) and the conveying direction of the jig return line (8), and the product pushing mechanism (12) is located below the conveying mechanism (11) to receive products conveyed by the conveying mechanism (11);
    the positioning jacking mechanism (10) is used for jacking the jig plate loaded with the product so as to be grabbed and conveyed by the carrying mechanism (11);
    the electrifying test mechanism (13) and the product pushing mechanism (12) are arranged at intervals and are opposite to the test station of the product pushing mechanism (12).
  2. 2. The KDCX breaker withstand voltage insulation test equipment of claim 1, characterized in that: the stainless steel product separating device is characterized by further comprising a blocking and distributing mechanism (9), wherein the blocking and distributing mechanism (9) comprises a blocking cylinder A (91), a non-return assembly (92), a distributing cylinder (93) and an in-place detection photoelectric sensor (94), the blocking cylinder A (91), the non-return assembly (92) and the distributing cylinder (93) are all mounted on the top surface of the stainless steel plate (6) and located on the inner side of the product conveying line (7), the blocking cylinder A (91) and the distributing cylinder (93) are arranged at intervals, and the non-return assembly (92) is located between the blocking cylinder A (91) and the distributing cylinder (93); the in-place detection photoelectric sensor (94) is arranged on the product conveying line (7).
  3. 3. The KDCX breaker withstand voltage insulation test equipment of claim 1, characterized in that: the positioning jacking mechanism (10) comprises a supporting plate (101), a jacking plate (102) and a jacking cylinder (103), the supporting plate (101) is installed on the stainless steel plate (6), the jacking plate (102) is located right above the supporting plate (101), the jacking cylinder (103) is installed on the bottom surface of the supporting plate (101), and a piston rod of the jacking cylinder (103) penetrates through the supporting plate (101) and then is fixedly connected with the jacking plate (102) to drive the jig plate to ascend or descend; and a pin (104) is arranged on the top surface of the jacking plate (102).
  4. 4. The KDCX circuit breaker withstand voltage test equipment of claim 3, wherein: a guide post (106) is further fixed on the bottom surface of the jacking plate (102), and the guide post (106) penetrates through the support plate (101); and a blocking cylinder B (105) positioned on one side of the jacking plate (102) is also arranged on the stainless steel plate (6).
  5. 5. The KDCX breaker withstand voltage insulation test equipment of claim 1, characterized in that: transport mechanism (11) include support frame (111), transport module (112), mount pad (113), get and put lift cylinder (114) and pneumatic clamping jaw (115), transport module (112) utilize support frame (111) to install along transversely on stainless steel plate (6), mount pad (113) are installed on the slider of transport module (112), get and put lift cylinder (114) and install on mount pad (113), pneumatic clamping jaw (115) with the piston rod of getting and putting lift cylinder (114) is connected and is used for snatching the product and quilt get and put lift cylinder (114) control and remove along vertical direction.
  6. 6. The KDCX breaker withstand voltage insulation test equipment of claim 1, characterized in that: the product pushing mechanism (12) comprises a fixed seat (121), a pushing cylinder (122), an opening cylinder (123) and a closing cylinder (124), the fixed seat (121) is installed on the stainless steel plate (6), and the pushing cylinder (122) is installed on the fixed seat (121) and is opposite to the testing station so as to push a product placed on the testing station to move towards the direction of the electrifying testing mechanism (13); the opening cylinders (123) and the closing cylinders (124) are arranged on the top surface of the stainless steel plate (6) and distributed oppositely.
  7. 7. The KDCX breaker withstand voltage insulation test equipment of claim 1, characterized in that: the electrification testing mechanism (13) comprises a base (131), a lower suspension plate (132), an electrification testing pushing cylinder (133), a movable frame (134), an electrification testing compensation cylinder (135) and a testing probe (136), wherein the base (131) is fixed on the top surface of the stainless steel plate (6), the lower suspension plate (132) is movably installed on the base (131), the electrification testing pushing cylinder (133) is installed on the base (131), and a piston rod of the electrification testing pushing cylinder (133) is fixedly connected with the lower suspension plate (132); the tip of suspension board (132) is fixed with suspension board extension board (137) down, adjustable shelf (134) movable mounting be in on suspension board extension board (137), circular telegram test compensation cylinder (135) are installed on suspension board extension board (137), just the piston rod of circular telegram test compensation cylinder (135) with adjustable shelf (134) fixed connection, test probe (136) are installed on adjustable shelf (134) and just to testing the station.
CN202123311953.4U 2021-12-27 2021-12-27 Insulating withstand voltage test equipment of KDCX circuit breaker Active CN216560908U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123311953.4U CN216560908U (en) 2021-12-27 2021-12-27 Insulating withstand voltage test equipment of KDCX circuit breaker

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123311953.4U CN216560908U (en) 2021-12-27 2021-12-27 Insulating withstand voltage test equipment of KDCX circuit breaker

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Publication Number Publication Date
CN216560908U true CN216560908U (en) 2022-05-17

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Application Number Title Priority Date Filing Date
CN202123311953.4U Active CN216560908U (en) 2021-12-27 2021-12-27 Insulating withstand voltage test equipment of KDCX circuit breaker

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114280473A (en) * 2021-12-27 2022-04-05 苏州新视野自动化科技有限公司 KDCX circuit breaker low resistance test equipment
CN114280474A (en) * 2021-12-27 2022-04-05 苏州新视野自动化科技有限公司 KDCX circuit breaker action characteristic test equipment
CN116499732A (en) * 2023-06-29 2023-07-28 山东神驰重工机械有限公司 Automatic testing device for traction seat

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114280473A (en) * 2021-12-27 2022-04-05 苏州新视野自动化科技有限公司 KDCX circuit breaker low resistance test equipment
CN114280474A (en) * 2021-12-27 2022-04-05 苏州新视野自动化科技有限公司 KDCX circuit breaker action characteristic test equipment
CN116499732A (en) * 2023-06-29 2023-07-28 山东神驰重工机械有限公司 Automatic testing device for traction seat
CN116499732B (en) * 2023-06-29 2023-11-21 山东神驰重工机械有限公司 Automatic testing device for traction seat

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