CN206505092U - A Microcomputer Speedometer Probe Micro-adjustment Device - Google Patents

Abstract

The utility model relates to a micro-adjustment device, a micro-adjustment device of computer tachymeter probe, including the computer tachymeter probe that is provided with sensor and signal cable, terminal box, by computer tachymeter probe protection tube, first, three computer tachymeter probe protection tube fasteners, have the second computer tachymeter probe protection tube fastener of roller flower nut, first, two, three, four O type sealing washer, first, two, three lock nut and the micro-adjustment support assembly that micro-adjustment support process adaptor constitutes. The utility model discloses in on-the-spot installation and debugging, when twisting the roller flower nut, can ensure computer tachymeter probe protection tube and sensor irrotational, prevent that signal cable from being broken. In addition, the sensor has the functions of sealing, protecting and preventing explosion.

Description

A Microcomputer Speedometer Probe Micro-adjustment Device

technical field

The utility model relates to a micro-adjustment device, in particular to a micro-computer speed measuring probe micro-adjustment device.

Background technique

The microcomputer speedometer probe is a sensor that uses the electromagnetic induction principle of a magnetoelectric sensor to convert the input motion speed into an induced potential output. It can convert the mechanical energy of the measured object into an easy-to-measure electrical signal without an auxiliary power supply. It is a passive sensor and uses a non-contact measurement method. Measurement display range: 0～9999r/min; 0～19999r/min; v-type can reach 10 ⁿ /min speed (n=5), used for high-speed centrifugal mechanical speed measurement 2. Measurement accuracy: absolute accuracy ±0.02%r/ min 3. Transmission output: 4～20mADC (or 1～5VDC) 4. Distance between sensor and speedometer: less than 300 meters 5. Power supply: 220v±10%, 50～60hz; power consumption: less than 6w; special power supply 127vAC±5%, 50～60hz6. Operating environment: temperature: 0～50℃; relative humidity: ≤85%; vibration coefficient ≤±0.005url/g 7. Load capacity: less than 500 ohms, special requirements can increase the load resistance Resistance 8. Equipped with XS12JK (XG series magnetic sensor.

The usual operating procedure is to install the metal toothed plate of the custom gear on the rotating shaft to be tested. The magnetic sensor should be firmly installed on the fixed bracket (the bracket can be installed on the equipment box), and the radial direction of the gear (or shaft) To) the gap is 0.5-1mm, and the adjustment operation in this gap is particularly difficult to control. In addition, in the process of installing the sensor, it is easy to cause the sensor signal cable to break. In order to solve this difficult problem, many different types of micro-adjustment brackets have been developed and designed, but they are not very ideal in practical applications.

Contents of the invention

In order to overcome the problems existing in the prior art, the purpose of the utility model is to provide a microcomputer speedometer probe micro-adjustment device. The device can ensure that the probe of the microcomputer speedometer is installed and debugged on site. When the screw nut is turned, it can ensure that the protection tube and sensor of the speedometer probe of the microcomputer do not rotate, preventing the signal cable from being broken. In addition, it also has the functions of sealing, protecting and explosion-proofing the sensor.

In order to achieve the purpose of the above invention and solve the problems existing in the prior art, the technical solution adopted by the utility model is: a microcomputer speedometer probe micro-adjustment device, including a microcomputer speedometer probe provided with a sensor and a signal cable, and a junction box , consisting of the microcomputer speedometer probe protection tube, the first and third microcomputer speedometer probe protection tube fasteners, the second microcomputer speedometer probe protection tube fastener with roller nuts, the first, second, third, and forty o Type sealing ring, the first, second and third lock nuts and the micro-adjustment bracket process adapter piece composed of the micro-adjustment bracket assembly, the first microcomputer velocimeter probe protection tube fasteners are respectively provided with roller flowers The second microcomputer velocimeter probe protection tube fastener and the third microcomputer velocimeter probe protection tube fastener of the nut, the first microcomputer velocimeter probe protection tube fastener is fastened to the third microcomputer velocimeter probe protection tube The gaps between the parts are connected by welding, and the second microcomputer speedometer probe protection tube fastener with rolling nut is provided with a microcomputer speedometer probe protection tube, and the first lock nut is used to connect the microcomputer speedometer probe The protection tube is locked, and then the first ○-shaped sealing ring is inserted at the lower end of the microcomputer speedometer probe protection tube to the bottom of the third microcomputer speedometer probe protection tube fastener, and then screwed into the micro-adjustment bracket process adapter The microcomputer velocimeter probe and the signal cable penetrate the microcomputer velocimeter probe protection tube, the signal cable passes through the upper end of the microcomputer velocimeter probe protection tube, and then put the 3rd O-type sealing ring on the lower end of the microcomputer velocimeter probe, And lock it through the third lock nut, the other end of the probe of the microcomputer speedometer is connected with the signal cable; the upper part of the micro-adjustment bracket assembly and the signal cable are penetrated from the junction box process interface, and then inserted into the spring pad and the second lock nut, and use the second lock nut to lock and fix the micro-adjustment bracket assembly and the junction box; pass the signal cable through the electrical outlet hole of the junction box, and screw on the 40-type sealing ring that has been inserted the junction box cover and lock it with locking screws.

The upper threaded outer surface of the microcomputer velocimeter probe protection tube has a 4mm wide groove, and coincides with the upper 4mm wide convex pin key of the first microcomputer velocimeter probe protection tube fastener, which is used to twist the roller When screwing the nut, make sure that the protective tube of the microcomputer speedometer probe and the sensor do not rotate.

The beneficial effects of the utility model are: a microcomputer velocimeter probe micro-adjustment device, including a microcomputer velocimeter probe provided with a sensor and a signal cable, a junction box, a microcomputer velocimeter probe protection tube, first and third microcomputer velocimeter probe protection tubes Pipe fasteners, second microcomputer speedometer probe protection pipe fasteners with rolling nuts, first, second, third, and 40-type sealing rings, first, second, third lock nuts and micro-adjustment bracket process Micro-adjustment bracket assembly composed of adapters. Compared with the prior art, the utility model can ensure that the probe protection tube and the sensor of the microcomputer velocimeter do not rotate during on-site installation and debugging when the screw nut is turned, preventing the signal cable from being broken. In addition, it also has the functions of sealing, protecting and explosion-proofing the sensor.

Description of drawings

Fig. 1 is the structural representation of the utility model.

In the figure: 1. Microcomputer speedometer probe, 2. Junction box, 3. Microcomputer speedometer probe protection tube, 4. Fastener for the first microcomputer speedometer probe protection tube, 4a, second microcomputer speed measurement with roller nut Instrument probe protection tube fasteners, 4b, the third microcomputer speed meter probe protection tube fasteners, 5, the first ○-type sealing ring, 5a, the second ○-type sealing ring, 5b, the third ○-type sealing ring, 5c The fourth ○ sealing ring, 6, the first lock nut, 6a, the second lock nut, 6b, the third lock nut, 7, the micro-adjustment bracket process adapter, 8, the junction box cover, 9, the lock Tightening screw, 10, signal cable, 11, spring pad.

detailed description

Below in conjunction with accompanying drawing, the utility model is further described.

As shown in Figure 1, a microcomputer velocimeter probe micro-adjustment device includes a microcomputer velocimeter probe 1 provided with a sensor and a signal cable 10, a junction box 2, a microcomputer velocimeter probe protection tube 3, first and third microcomputer speed measurement Meter probe protection tube fasteners 4, 4b, second microcomputer velocimeter probe protection tube fasteners 4a with rolling nuts, first, second, third, and 40-type sealing rings 5, 5a, 5b, 5c, The first, second, third lock nuts 6, 6a, 6b and the micro-adjustment bracket assembly composed of the micro-adjustment bracket process adapter 7, the first microcomputer velocimeter probe protection tube fastener 4 is respectively provided with belt The second microcomputer velocimeter probe protection tube fastener 4a and the third microcomputer velocimeter probe protection tube fastener 4b with roller nuts, the first microcomputer velocimeter probe protection tube fastener 4 and the third microcomputer velocimeter The gap between the instrument probe protection tube fasteners 4b is connected by welding, and the microcomputer speedometer probe protection tube 3 is arranged in the second microcomputer speedometer probe protection tube fastener 4a with a roller nut, and the second microcomputer speedometer probe protection tube 3 is adopted. A locking nut 6 locks the microcomputer speedometer probe protection tube 3, and then inserts the first ○-shaped sealing ring 5 to the third microcomputer speedometer probe protection tube fastener 4b at the lower end of the microcomputer speedometer probe protection tube 3 The bottom is screwed into the micro-adjustment bracket process adapter 7; the microcomputer velocimeter probe 1 and the signal cable 10 penetrate into the microcomputer velocimeter probe protection tube 3, and the signal cable 10 is connected from the upper end of the microcomputer velocimeter probe protection tube 3 Pass it out, then put the 3rd O-type sealing ring 5b on the lower end of the microcomputer speedometer probe 1, and lock it through the third lock nut 6b, and the other end of the microcomputer speedometer probe 1 is connected with the signal cable 10; The upper half of the micro-adjustment bracket assembly and the signal cable 10 are passed through the junction box 2 process interface, and then inserted into the spring pad 11 and the second lock nut 6a, and the second lock nut 6a is used to lock the micro-adjustment bracket assembly Lock and fix with the junction box 2; pass the signal cable 10 through the electrical outlet hole of the junction box 2, screw on the junction box cover 8 that has been inserted into the fourth ○-type sealing ring 5c, and lock it with the locking screw 9. The upper threaded outer surface of the microcomputer velocimeter probe protection tube 3 has a 4mm wide groove, and coincides with the upper 4mm wide convex pin key of the first microcomputer velocimeter probe protection tube fastener 4, for screwing When moving the screw nut, ensure that the microcomputer velocimeter probe protection tube 3 and the sensor do not rotate.

Claims (2)

1. A microcomputer velocimeter probe micro-adjustment device, comprising a microcomputer velocimeter probe provided with a sensor and a signal cable, a junction box, a microcomputer velocimeter probe protection tube, the first and third microcomputer velocimeter probe protection tube fasteners, The second microcomputer velocimeter probe protection tube fastener with rolling nut, the first, second, third, and 40-type sealing rings, the first, second, and third lock nuts, and the micro-adjustment bracket process adapter. The micro-adjustment bracket assembly is characterized in that: the first microcomputer speedometer probe protection tube fastener is respectively provided with a second microcomputer speedometer probe protection tube fastener with a roller nut and a third microcomputer speedometer probe protection tube fastener. Probe protection tube fastener, the gap between the first microcomputer velocimeter probe protection tube fastener and the third microcomputer velocimeter probe protection tube fastener is connected by welding, and the second The microcomputer velocimeter probe protection tube fastener is provided with a microcomputer velocimeter probe protection tube, and the first locking nut is used to lock the microcomputer velocimeter probe protection tube, and then the lower end of the microcomputer velocimeter probe protection tube is inserted into the first ○-shaped sealing ring to the bottom of the third microcomputer speedometer probe protection tube fastener, and then screwed into the micro-adjustment bracket process adapter; the microcomputer speedometer probe and signal cable penetrate the microcomputer speedometer probe protection tube, The signal cable passes through the upper end of the protective tube of the microcomputer speedometer probe, and then puts a 30-type sealing ring on the lower end of the microcomputer speedometer probe, and locks it through the third locking nut. The other end of the microcomputer speedometer probe It is connected with the signal cable; the upper part of the micro-adjustment bracket assembly and the signal cable are passed through the junction box process interface, and then inserted into the spring stop pad and the second lock nut, and the second lock nut is used to lock the micro-adjustment The bracket assembly and the junction box are locked and fixed; pass the signal cable through the electrical outlet hole of the junction box, screw on the junction box cover that has been inserted into the 40-type sealing ring, and lock it with the anti-open cover screw. 2. A microcomputer velocimeter probe micro-adjustment device according to claim 1, characterized in that: the upper threaded outer surface of the microcomputer velocimeter probe protection tube has a 4mm wide groove, and is connected with the first microcomputer velocimeter. The upper part of the probe protection tube fastener is matched with the 4mm wide convex pin key, which is used to ensure that the probe protection tube and sensor of the microcomputer velocimeter do not rotate when the roller nut is screwed.