CN215491588U - Copper bar automatic measuring equipment - Google Patents
Copper bar automatic measuring equipment Download PDFInfo
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- CN215491588U CN215491588U CN202121145096.2U CN202121145096U CN215491588U CN 215491588 U CN215491588 U CN 215491588U CN 202121145096 U CN202121145096 U CN 202121145096U CN 215491588 U CN215491588 U CN 215491588U
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- control suction
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Abstract
The utility model discloses automatic measuring equipment for a copper bar, which comprises a fixed main control suction seat, and a detection mechanism and an auxiliary mechanism which are arranged on the fixed main control suction seat; the detection mechanism is arranged above the auxiliary mechanism; the detection mechanism comprises a horizontal telescopic rule and a regulation and control assembly arranged on the horizontal telescopic rule, and the horizontal telescopic rule is movably arranged in the fixed main control suction seat; the regulation and control subassembly includes gomphosis jack-post, electronic capstan, tensile measuring plate, the flexible traction frame of triangle, ultrasonic detector, arc frame slide rail, rotating slider, jacking are surveyed the post, are turned over and are revolved flexible traction frame and rotating measuring plate, the gomphosis jack-post is located horizontal telescopic ruler below. The utility model is convenient to ensure the level of the horizontal telescopic ruler through the vertical lifting support column so as to ensure the accuracy of data measurement, the detection mechanism performs detection and omnibearing measurement by taking the fixed main control suction seat as a unique base point, a measurement result is obtained at one time, and the measurement is carried out in a multi-direction synchronous manner, so that the measurement efficiency is greatly improved.
Description
Technical Field
The utility model relates to the technical field of measuring tools, in particular to automatic measuring equipment for a copper bar.
Background
Copper bar alias copper bus, copper bar or copper busbar, ground connection copper bar are a heavy current conducting product, are the long conductor of rectangle or chamfer (fillet) rectangle by the cross-section of copper product preparation, and electrician's copper bar has following advantage: the copper bar has low resistivity, large bending degree and the like, plays a role in conveying current and connecting electrical equipment in a circuit, is widely applied to the electrical equipment, particularly a complete set of distribution equipment, is commonly used for electrical engineering such as high and low voltage electrical appliances, switch contacts, distribution equipment, bus ducts and the like, and is also widely used for super-large current electrolytic smelting engineering such as metal smelting, electrochemical plating, chemical caustic soda and the like.
The difficulty of copper bar manufacturing lies in measuring, and the measuring device of copper bar needs to look for a plurality of basic points when measuring at present and measures the relative dimension and be calculating, and the measuring result error that reachs is great, often leads to the copper bar that produces to use, and the rejection rate is high, and this method measurement of efficiency is lower.
The existing measuring device has low measuring efficiency and large error of the obtained measuring result, so that the copper bar manufactured according to the measuring result is frequently reworked and reworked, and the waste of raw materials is caused.
SUMMERY OF THE UTILITY MODEL
The utility model mainly aims to provide automatic measuring equipment for a copper bar, which can effectively solve the problems that in the background art, the measuring efficiency of a measuring device is low, the error of the obtained measuring result is large, and the copper bar manufactured according to the measuring result needs to be reworked and reworked frequently, so that the waste of raw materials is caused.
In order to achieve the purpose, the utility model adopts the technical scheme that: an automatic measuring device for copper bars comprises a fixed main control suction seat, a detection mechanism and an auxiliary mechanism, wherein the detection mechanism and the auxiliary mechanism are arranged on the fixed main control suction seat; the detection mechanism is arranged above the auxiliary mechanism;
the detection mechanism comprises a horizontal telescopic rule and a regulation and control assembly arranged on the horizontal telescopic rule, and the horizontal telescopic rule is movably arranged in the fixed main control suction seat;
the regulating and controlling assembly comprises an embedded shaft column, an electric rotary disc, a stretching measuring plate, a triangular telescopic traction frame, an ultrasonic detector, an arc frame slide rail, a rotating slide block, a jacking detection column, a turning telescopic traction frame and a rotating measuring plate, wherein the embedded shaft column is arranged below the horizontal telescopic ruler; the three electric rotating discs are vertically arrayed on the embedded shaft column and are respectively movably connected with the embedded shaft column; the three stretching measurement plates are respectively connected with the three electric rotating discs; the two ultrasonic detectors are respectively connected with the fixed main control suction seat through two triangular telescopic traction frames; the arc frame slide rail is arranged above the fixed main control suction seat; the arc frame slide rail is of a hollow structure; the rotating slide block is movably arranged in the arc frame slide rail; the two jacking detection columns are arranged above the rotating slide block at a certain angle; the turning telescopic traction frame is erected above the arc frame slide rail along the central axis; the two rotating measuring plates are connected through a turning telescopic traction frame.
Preferably, the two triangular telescopic traction frames are respectively arranged on two side surfaces of the fixed main control suction seat, and the two ultrasonic detectors are movably arranged on the two triangular telescopic traction frames.
Preferably, the embedded shaft column is connected with the fixed main control suction seat through a horizontal telescopic ruler, and the arc frame slide rail is attached to the upper surface of the fixed main control suction seat.
Preferably, two jacking detection columns are provided with two circular caulking grooves at the center of one surface close to the two rotating measurement plates, and one ends of the rotating measurement plates with the rotating columns are respectively attached to the two circular caulking grooves and are respectively movably connected with the two jacking detection columns.
Preferably, the auxiliary mechanism comprises a supporting component, and the supporting component is arranged below the adjusting component; the supporting assembly comprises a vertical lifting supporting column and a fixing supporting frame, and the vertical lifting supporting column is arranged below the horizontal telescopic ruler and is perpendicular to the horizontal telescopic ruler; the fixed support frame is arranged below the fixed main control suction seat.
Preferably, the support assembly further comprises a connecting mounting frame, and the connecting mounting frame is arranged below the turning telescopic traction frame; the turning telescopic traction frame is connected with the fixed main control suction seat through a connecting mounting frame.
Preferably, the vertical lift bracing column further comprises a stability maintaining rib plate, the stability maintaining rib plate is of a triangular prism structure, and the stability maintaining rib plate is arranged at one end, far away from the horizontal extension rule, of the vertical lift bracing column.
Compared with the prior art, the utility model provides automatic measuring equipment for copper bars, which has the following beneficial effects:
the utility model is convenient for fixing the whole device and controlling the adjusting component to measure by fixing the main control suction seat, is convenient for measuring the data in front of the main control suction seat by driving the electric rotary disc and the stretching measuring plate to move forwards by the horizontal telescopic ruler, is convenient for measuring the data in front of the main control suction seat by the stretching measuring plate rotating along with the electric rotary disc, is convenient for measuring the data in front of the front end by the stretching measuring plate rotating, is convenient for detecting and feeding back the data in the periphery of the main control suction seat by the micro-rotation of the ultrasonic detector drawn by the triangular telescopic traction frame, is convenient for measuring the data in the periphery of the main control suction seat, is convenient for measuring the data in two sides of the main control suction seat by drawing the rotating measuring plate by the turning telescopic traction frame to shrink, is convenient for measuring the data in two sides of the main control suction seat, and is convenient for ensuring the level of the horizontal telescopic ruler by the vertical lifting supporting columns, with the accuracy of guaranteeing data measurement, inhale the seat through fixed master control and regard as only basic point, detection mechanism surveys and all-round measurement, once only reachs measuring result, and diversified synchronous measurement, measurement of efficiency promotes greatly.
Drawings
FIG. 1 is a schematic view of an external overall structure of an automatic measuring device for copper bars according to the present invention;
fig. 2 is a schematic external isometric structure of an automatic measuring device for copper bars according to the present invention;
FIG. 3 is a schematic view of an adjusting assembly of the automatic measuring equipment for copper bars of the present invention;
FIG. 4 is a schematic view of a supporting assembly of the automatic measuring equipment for copper bars of the present invention;
fig. 5 is a cross-sectional view at the position of fig. 4A-a of the automatic measuring equipment for the copper bar of the present invention.
In the figure: 1. fixing a main control suction seat; 2. a horizontal extension rule; 3. embedding the shaft column; 4. an electric rotating disc; 5. stretching the measuring plate; 6. a triangular telescopic traction frame; 7. an ultrasonic detector; 8. an arc frame slide rail; 9. rotating the sliding block; 10. jacking the detection column; 11. turning over the telescopic traction frame; 12. rotating the measuring plate; 13. a vertical lifting support column; 14. a fixing support frame; 15. connecting a mounting frame; 16. and (5) maintaining the stable rib plates.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.
Referring to fig. 1 to 5, the present invention is an automatic measuring device for copper bars, which includes a fixed main control suction seat 1, and a detection mechanism and an auxiliary mechanism disposed on the fixed main control suction seat 1; the detection mechanism is arranged above the auxiliary mechanism; the whole device is conveniently fixed and the adjusting assembly is controlled to measure by fixing the main control suction seat 1, the detection mechanism detects and measures in all directions by taking the main control suction seat 1 as a unique base point, a measurement result is obtained at one time, multi-direction synchronous measurement is realized, and the measurement efficiency is greatly improved;
the detection mechanism comprises a horizontal telescopic ruler 2 and a regulation and control assembly arranged on the horizontal telescopic ruler 2, and the horizontal telescopic ruler 2 is movably arranged in the fixed main control suction seat 1; the electric rotary disc 4 and the stretching measuring plate 5 are driven to move forwards through the horizontal telescopic ruler 2, so that data in front of the fixed main control suction seat 1 can be measured conveniently;
the regulating and controlling assembly comprises an embedded shaft column 3, an electric rotary disc 4, a stretching measuring plate 5, a triangular telescopic traction frame 6, an ultrasonic detector 7, an arc frame slide rail 8, a rotating slide block 9, a jacking detecting column 10, a turning telescopic traction frame 11 and a rotating measuring plate 12, and the embedded shaft column 3 is arranged below the horizontal telescopic ruler 2; the three electric rotating discs 4 are vertically arrayed on the embedded shaft column 3 and are respectively movably connected with the embedded shaft column 3; the three stretching measurement plates 5 are respectively connected with the three electric rotating discs 4; the two ultrasonic detectors 7 are respectively connected with the fixed main control suction seat 1 through two triangular telescopic traction frames 6; the arc frame slide rail 8 is arranged above the fixed main control suction seat 1; the arc frame slide rail 8 is of a hollow structure; the rotating slide block 9 is movably arranged in the arc frame slide rail 8; two jacking detection columns 10 are arranged above the rotating slide block 9 at a certain angle; the turning telescopic traction frame 11 is erected above the arc frame slide rail 8 along the central axis; the two rotating measuring plates 12 are connected through a turning telescopic traction frame 11; the data around the front end can be conveniently measured along with the rotation of the electric rotating disc 4 through the stretching measuring plate 5, and the jacking detection column 10 is driven to move in a rotating way by sliding the rotating slide block 9 along the arc frame slide rail 8 through an arc line, so that the data around the upper part of the main control suction seat 1 can be conveniently measured and fixed.
Two triangular telescopic traction frames 6 are respectively arranged on two side surfaces of the fixed main control suction seat 1, and two ultrasonic detectors 7 are movably arranged on the two triangular telescopic traction frames 6.
The embedded shaft column 3 is connected with the fixed main control suction seat 1 through the horizontal telescopic ruler 2, and the arc frame slide rail 8 is attached to the upper surface of the fixed main control suction seat 1; the ultrasonic detector 7 is drawn by the triangular telescopic traction frame 6 to carry out micro-rotation, so that the surrounding situation of the fixed main control suction seat 1 can be conveniently detected and fed back, and the fixed main control suction seat 1 can be conveniently measured according to the distribution situation of the obstacles.
Two circular caulking grooves are formed in the positions, close to the centers of the surfaces of the two rotating measuring plates 12, of the two jacking detecting columns 10, one ends, provided with rotating columns, of the two rotating measuring plates 12 are respectively attached to the two circular caulking grooves and are respectively movably connected with the two jacking detecting columns 10; the rotating and stretching traction frame 11 is turned to shrink and draw the rotating and stretching measurement plate 12 to rotate, so that the data on the two sides of the main control suction seat 1 can be conveniently measured and fixed.
The auxiliary mechanism comprises a supporting component, and the supporting component is arranged below the adjusting component; the supporting component comprises a vertical lifting support column 13 and a fixing support frame 14, wherein the vertical lifting support column 13 is arranged below the horizontal telescopic ruler 2 and is vertical to the horizontal telescopic ruler 2; the fixed support frame 14 is arranged below the fixed main control suction seat 1; the horizontal telescopic ruler 2 is convenient to ensure the level through the vertical lifting stay 13 so as to ensure the accuracy of data measurement.
The supporting assembly further comprises a connecting mounting frame 15, and the connecting mounting frame 15 is arranged below the turning telescopic traction frame 11; the turning telescopic traction frame 11 is connected with the fixed main control suction seat 1 through a connecting installation frame 15.
The vertical lifting stay 13 further comprises a stability maintaining rib plate 16, the stability maintaining rib plate 16 is of a triangular prism structure, and the stability maintaining rib plate 16 is arranged at one end, far away from the horizontal extension rule 2, of the vertical lifting stay 13.
The working principle of the utility model is as follows:
the utility model relates to an automatic measuring device for copper bars, wherein an electric rotary disc 4 is NT02RA200M, an ultrasonic detector 7 is L1(TTL output), a fixed main control suction seat 1 is fixed at the center of the open side of an electric cabinet in an adsorbing way, a fixed support frame 14 is tightly attached to the inner wall of the cabinet, a horizontal telescopic rule 2 is stretched to drive a vertical lifting support column 13 to move forwards to the center in the cabinet, the vertical lifting support column 13 moves downwards to be attached to the ground to ensure the horizontal of the horizontal telescopic rule 2, a triangular telescopic traction frame 6 drives the ultrasonic detector 7 to detect, the devices in the cabinet are distributed and scanned, information is transmitted back to the fixed main control suction seat 1, after the fixed main control suction seat 1 is processed, the electric rotary disc 4 is controlled to rotate to drive a stretching measuring plate 5 to rotate, meanwhile, stretching measuring surrounding data is measured, a rotary slide block 9 rotates along an arc frame slide rail 8, a jacking detecting column 10 rotates and jacks up, collect the upper data in the cabinet, turn over the flexible traction frame 11 shrink of whirling, pull rotation measuring plate 12 and carry out the rotation, measure the interior both sides data of cabinet, inhale seat 1 through fixed master control and be only basic point, detection mechanism surveys and all-round measurement, once only reachs measuring result, and diversified synchronous measurement, and measurement of efficiency promotes greatly.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. The automatic measuring equipment for the copper bar is characterized by comprising a fixed main control suction seat (1), and a detection mechanism and an auxiliary mechanism which are arranged on the fixed main control suction seat (1); the detection mechanism is arranged above the auxiliary mechanism;
the detection mechanism comprises a horizontal telescopic ruler (2) and a regulation and control assembly arranged on the horizontal telescopic ruler (2), and the horizontal telescopic ruler (2) is movably arranged in the fixed main control suction seat (1);
the adjusting and controlling assembly comprises an embedded shaft column (3), an electric rotating disc (4), a stretching measuring plate (5), a triangular telescopic traction frame (6), an ultrasonic detector (7), an arc frame slide rail (8), a rotating slide block (9), a jacking detecting column (10), a turning telescopic traction frame (11) and a rotating measuring plate (12), and the embedded shaft column (3) is arranged below the horizontal telescopic ruler (2); the three electric rotating discs (4) are vertically arrayed on the embedded shaft column (3) and are respectively movably connected with the embedded shaft column (3); the three stretching measurement plates (5) are respectively connected with the three electric rotating discs (4); the two ultrasonic detectors (7) are respectively connected with the fixed main control suction base (1) through two triangular telescopic traction frames (6); the arc frame sliding rail (8) is arranged above the fixed main control suction seat (1); the arc frame sliding rail (8) is of a hollow structure; the rotating slide block (9) is movably arranged in the arc frame slide rail (8); the two jacking detection columns (10) are arranged above the rotating slide block (9) at a certain angle; the turning telescopic traction frame (11) is erected above the arc frame slide rail (8) along the central axis; the two rotating measuring plates (12) are connected through a turning telescopic traction frame (11).
2. The automatic measuring equipment of copper bar of claim 1, characterized in that: the two triangular telescopic traction frames (6) are respectively arranged on two side surfaces of the fixed main control suction seat (1), and the two ultrasonic detectors (7) are movably arranged on the two triangular telescopic traction frames (6).
3. The automatic measuring equipment of copper bar of claim 1, characterized in that: the embedded shaft column (3) is connected with the fixed main control suction seat (1) through the horizontal telescopic ruler (2), and the arc frame sliding rail (8) is attached to the upper surface of the fixed main control suction seat (1).
4. The automatic measuring equipment of copper bar of claim 1, characterized in that: two jacking detection columns (10) are close to two circular caulking grooves are formed in the center of one surface of the rotating measuring plate (12), one ends, with rotating columns, of the rotating measuring plates (12) are respectively attached to the two circular caulking grooves and are respectively movably connected with the two jacking detection columns (10).
5. The automatic measuring equipment of copper bar of claim 1, characterized in that: the auxiliary mechanism comprises a supporting component, and the supporting component is arranged below the adjusting component; the supporting assembly comprises a vertical lifting supporting column (13) and a fixing supporting frame (14), and the vertical lifting supporting column (13) is arranged below the horizontal telescopic ruler (2) and is perpendicular to the horizontal telescopic ruler (2); the fixed support frame (14) is arranged below the fixed main control suction seat (1).
6. The automatic measuring equipment of copper bar of claim 5, characterized in that: the support assembly further comprises a connecting mounting frame (15), and the connecting mounting frame (15) is arranged below the turning telescopic traction frame (11); the turning telescopic traction frame (11) is connected with the fixed main control suction seat (1) through a connecting mounting frame (15).
7. The automatic measuring equipment of copper bar of claim 5, characterized in that: the vertical lifting support column (13) further comprises a stability maintaining rib plate (16), the stability maintaining rib plate (16) is of a triangular prism structure, and the stability maintaining rib plate (16) is arranged at one end, far away from the horizontal extension rule (2), of the vertical lifting support column (13).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121145096.2U CN215491588U (en) | 2021-05-26 | 2021-05-26 | Copper bar automatic measuring equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121145096.2U CN215491588U (en) | 2021-05-26 | 2021-05-26 | Copper bar automatic measuring equipment |
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CN215491588U true CN215491588U (en) | 2022-01-11 |
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CN202121145096.2U Active CN215491588U (en) | 2021-05-26 | 2021-05-26 | Copper bar automatic measuring equipment |
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2021
- 2021-05-26 CN CN202121145096.2U patent/CN215491588U/en active Active
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