High voltage and electrical property detection mechanism of network transformer production equipment
Technical Field
The utility model belongs to the technical field of network transformer production, concretely relates to network transformer production facility high pressure and electrical property detection mechanism.
Background
The network transformer is a common soft magnetic electromagnetic component, and is widely applied to various fields. The high voltage and electrical property detection mechanism is a step for detecting the high voltage and electrical property of the network transformer and is also an important step in the processing of the network transformer. At present, the two detections need to position the network transformer and drive the detection component to operate. The two functions are generally completed by different mechanisms, and the design is relatively dispersed, so that the requirement of actual production cannot be met.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that just to above-mentioned prior art not enough, provide a network transformer production facility and production technology, can realize the propulsion that network transformer detected and network transformer's location, guarantee going on smoothly that high pressure and electrical property detected.
The utility model adopts the technical proposal that: the high-voltage and electrical property detection mechanism comprises a high-voltage and electrical property detection installation bottom plate and a plurality of high-voltage and electrical property detection stand columns arranged at the top of the high-voltage and electrical property detection installation bottom plate, wherein the upper surfaces of the high-voltage and electrical property detection stand columns are provided with high-voltage and electrical property detection bottom plates, the middle parts of the upper surfaces of the high-voltage and electrical property detection bottom plates are provided with a plurality of high-voltage and electrical property detection test jigs distributed along the X-axis direction and used for placing a network transformer, the positions, located on two sides of the high-voltage and electrical property detection test jigs, of the upper surfaces of the high-voltage and electrical property detection bottom plates are provided with at least one high-voltage and electrical property detection slide rail distributed along the Y-axis direction, the top of the high-voltage and electrical property detection slide rail is provided with a high-voltage and electrical property detection movable plate, and the number of the high-voltage and electrical property detection slide plate is consistent with the number of the high-voltage and electrical property detection test jigs The high-voltage and electrical property detection device comprises a high-voltage and electrical property detection probe board, wherein a high-voltage detection probe or an electrical property detection probe is arranged at one end, close to a high-voltage and electrical property detection test fixture, of the high-voltage and electrical property detection probe board, a high-voltage and electrical property detection propulsion assembly which is respectively connected with a high-voltage and electrical property detection movable plate and drives the high-voltage and electrical property detection movable plate to move along a high-voltage and electrical property detection slide rail is arranged below a high-voltage and electrical property detection bottom plate, and a high-voltage and electrical property detection positioning assembly for positioning a network transformer is further arranged below the high-voltage and electrical property detection bottom plate.
In one embodiment, the inside of each of the high voltage and electrical property detection test jigs is provided with a high voltage and electrical property product detection optical fiber.
In one embodiment, the high voltage and electrical detection propulsion assembly comprises a high voltage and electrical detection propulsion cylinder and a high voltage and electrical detection propulsion connecting arm, the high voltage and electrical detection propulsion connecting arms are two and are respectively connected with the high voltage and electrical detection moving plate, and the output end of the high voltage and electrical detection propulsion cylinder is respectively connected with the two high voltage and electrical detection propulsion connecting arms and drives the two high voltage and electrical detection propulsion connecting arms to open and close.
In one embodiment, the high voltage and electrical property detection positioning assembly comprises a high voltage and electrical property detection positioning cylinder and a high voltage and electrical property detection positioning mounting plate which is arranged below the high voltage and electrical property detection bottom plate and corresponds to the position of the high voltage and electrical property detection test fixture, the upper surface of the high voltage and electrical property detection positioning mounting plate is provided with high voltage and electrical property detection positioning vertical plates which are consistent with the high voltage and electrical property detection test fixture in quantity and extend to the inner side of the corresponding high voltage and electrical property detection test fixture, and the piston rod end of the high voltage and electrical property detection positioning cylinder is connected with the high voltage and electrical property detection positioning mounting plate through a high voltage and electrical property detection positioning connecting plate.
The beneficial effects of the utility model reside in that:
1. the high-voltage and electrical property detection propulsion assembly and the high-voltage and electrical property detection positioning assembly are matched with each other, so that the propulsion of the network transformer detection and the positioning of the network transformer can be realized, and the smooth proceeding of the high-voltage and electrical property detection is ensured;
2. the arrangement of the high-voltage and electrical product detection optical fiber can detect whether a network transformer exists in real time, so that the whole mechanism can run smoothly.
Drawings
FIG. 1 is a schematic structural view of the present invention;
fig. 2 is the utility model discloses high pressure and electrical property detection impels subassembly and high pressure and electrical property detection locating component schematic structure.
In the figure: 611. a high voltage and electrical detection mounting base plate; 612. a high voltage and electrical detection column; 613. a high voltage and electrical detection backplane; 614. a high voltage and electrical property detection test fixture; 615. detecting the slide rail in a high-voltage and electrical mode; 616. a high voltage and electrical detection slider; 617. a high voltage and electrical detection moving plate; 618. a high voltage and electrical property detection probe card; 619. a high voltage or electrical detection probe; 6110. a high voltage and electrical detection propulsion assembly; 6111. a high voltage and electrical property detection positioning component; 6112. high voltage and electrical product detection optical fibers; 61101. detecting and propelling the cylinder by high voltage and electrical property; 61102. the high-voltage and electrical detection propulsion connecting arm; 61111. a high-voltage and electrical detection positioning cylinder; 61112. the high-voltage and electrical property detection positioning mounting plate; 61113. detecting and positioning the vertical plate by high voltage and electrical property; 61114. high pressure and electrical property detection location connecting plate.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.
As shown in fig. 1 and fig. 2, a high voltage and electrical property detection mechanism of a network transformer production equipment comprises a high voltage and electrical property detection installation bottom plate 611 and a plurality of high voltage and electrical property detection upright posts 612 arranged on the top of the high voltage and electrical property detection installation bottom plate 611, a high voltage and electrical property detection bottom plate 613 is arranged on the upper surface of a plurality of the high voltage and electrical property detection upright posts 612, a plurality of high voltage and electrical property detection test jigs 614 distributed along the X-axis direction are arranged in the middle of the upper surface of the high voltage and electrical property detection bottom plate 613 for placing a network transformer 11, at least one high voltage and electrical property detection slide rail 615 distributed along the Y-axis direction is arranged on the upper surface of the high voltage and electrical property detection bottom plate 613 at two sides of the high voltage and electrical property detection test jig 614, a high voltage and electrical property detection moving plate 617 is arranged on the top of at least one high voltage and electrical property detection slide rail 615 through a high voltage and electrical property detection slide block 616 sliding relative to the high voltage and electrical property detection slide rail 615, the top of the high voltage and electrical detection moving plate 617 is provided with high voltage and electrical detection probe plates 618 with the same number as the high voltage and electrical detection test jigs 614, one end of the high voltage and electrical detection probe plates 618 near the high voltage and electrical detection test jigs 614 is provided with high voltage detection probes or electrical detection probes 619, a high voltage and electrical detection propulsion assembly 6110 connected with the high voltage and electrical detection moving plate 617 respectively and driving the high voltage and electrical detection moving plate 617 to displace along the high voltage and electrical detection slide rail 615 is arranged below the high voltage and electrical detection bottom plate 613, and a high voltage and electrical detection positioning assembly 6111 for positioning the network transformer 11 is further arranged below the high voltage and electrical detection bottom plate 613.
In this embodiment, the high voltage and electrical property detection testing jig 614 is provided with a high voltage and electrical property product detection optical fiber 6112 inside.
In this embodiment, the high voltage and electrical detection propulsion assembly 6110 includes a high voltage and electrical detection propulsion cylinder 61101 and a high voltage and electrical detection propulsion connecting arm 61102, the high voltage and electrical detection propulsion connecting arms 61102 are two and are respectively connected to the high voltage and electrical detection moving plate 617, and the output end of the high voltage and electrical detection propulsion cylinder 61101 is respectively connected to the two high voltage and electrical detection propulsion connecting arms 61102 and drives the two high voltage and electrical detection propulsion connecting arms 61102 to open and close.
In this embodiment, the high-voltage and electrical-property detecting and positioning assembly 6111 includes a high-voltage and electrical-property detecting and positioning cylinder 61111 and a high-voltage and electrical-property detecting and positioning mounting plate 61112 disposed below the high-voltage and electrical-property detecting bottom plate 613 and corresponding to the high-voltage and electrical-property detecting and testing jig 614, the high-voltage and electrical-property detecting and positioning risers 61113 are disposed on the upper surface of the high-voltage and electrical-property detecting and positioning mounting plate 61112, the number of the high-voltage and electrical-property detecting and positioning risers is consistent with that of the high-voltage and electrical-property detecting and testing jig 614 and extends to the inner side of the corresponding high-voltage and electrical-property detecting and testing jig 614, and the piston rod end of the high-voltage and electrical-property detecting and positioning cylinder 61111 is connected to the high-voltage and electrical-property detecting and positioning mounting plate 61112 through the high-voltage and electrical-property detecting and positioning connection plate 61114.
The mechanism is positioned between a pin arranging machine of the network transformer production equipment and a laser printing component of the network transformer production equipment, and is a detection execution component of a high-voltage and electrical property detection component of the network transformer production equipment. In an initial state, the piston rod end of the high voltage and electrical property detecting and positioning cylinder 61111 is in an extended state, and the high voltage and electrical property detecting and positioning vertical plate 61113 has a larger distance from the inner cavity of the high voltage and electrical property detecting and testing fixture 614, so that the network transformer can be conveniently placed. Meanwhile, the high voltage and electrical detection pushing connecting arm 61102 of the high voltage and electrical detection pushing assembly 6110 is in an open state, and the high voltage and electrical detection probe board 618 and the high voltage detection probe or the electrical detection probe 619 have a certain distance from the high voltage and electrical detection testing fixture 614. At the beginning of the test, the network transformer is placed in the corresponding high voltage and electrical property testing fixture 614. The piston rod end of the high voltage and electrical property detecting and positioning cylinder 61111 retracts, and the high voltage and electrical property detecting and positioning connecting plate 61114 drives the high voltage and electrical property detecting and positioning mounting plate 61112 to displace, so as to drive the high voltage and electrical property detecting and positioning vertical plate 61113 to position the network transformer. Then, the high voltage and electrical property detection propulsion cylinder 61101 drives the high voltage and electrical property detection propulsion connecting arm 61102 to close, so as to drive the high voltage and electrical property detection probe board 618 and the high voltage detection probe or electrical property detection probe 619 to approach and contact with the network transformer inside the high voltage and electrical property detection test fixture 614, and the high voltage detection probe or electrical property detection probe 619 performs high voltage detection and electrical property detection on the network transformer.
The mechanism can realize high-voltage detection and electrical detection by arranging different probes, so that the structure can be arranged into one set or two sets to meet the test requirement.
The X-axis direction is the length direction of the network transformer production equipment. The Y-axis direction is the width direction of the network transformer production equipment.
The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.