Be used for the docking facilities between clinograph rotation and spacing wave cable
Technical field
The present invention relates to a kind of docking facilities, relate in particular to a kind of docking facilities that is used between clinograph rotation and spacing wave cable.
Background technology
Like Fig. 1, clinograph 100 comprises probe 110, signal cable 120, artificial readout instrument the 130, the 1st plug 140 and the 1st socket 150.
Its connection mode is:
Probe 110 links to each other with artificial readout instrument 130 through socket 150 backs on the artificial readout instrument 130 of plug 140 insertions at signal cable 120 and terminal thereof.The measuring-signal of the probe 110 that move up and down this moment just can show on artificial readout instrument 130, thereby accomplishes manual measurement.
If signal cable 120 is on the spiral cylinder that rotates; 110 can measure up and down easily automatically although pop one's head in, and the skewer head 140 of the signal cable 120 on the spiral cylinder that rotates directly skewer is gone in the socket 150 on the static artificial readout instrument 130.
If add the docking facilities between a sound signal cable, can accomplish the signal cable 120 of rotation and the butt joint between the fixing signal cable 120 in the centre.
Summary of the invention
The object of the invention just is to overcome the shortcoming and defect that prior art exists, and a kind of docking facilities that is used between clinograph rotation and spacing wave cable is provided.
The objective of the invention is to realize like this:
Docking facilities is made up of circular insulating board, fixing hole, copper ring, roller shaft, resilient contact and contact shoe and the 2nd socket and the 2nd plug;
On circular insulating board; Be disposed with fixing hole, concentric copper ring and roller shaft from outside to inside; The 2nd socket is connected respectively with several copper rings through several in signal cable heart yearns; Be arranged on corresponding with the several copper rings respectively closely contact of the end conducting of the several resilient contacts on the contact shoe, be connected successively before and after the other end of several resilient contacts, signal cable, the 2nd plug 168 and the artificial readout instrument.
Its operation principle is:
Signal cable is on the spiral cylinder; The 1st plug skewer is gone on the 2nd socket of docking facilities; And be connected with artificial readout instrument again after going into the 1st socket by the 2nd plug skewer, so far accomplish being connected of cable that probe rotates and static artificial readout instrument, pop one's head in to go up and down along with the rotation of spiral cylinder; Its measuring-signal can get into artificial readout instrument and carry out artificial reading, gets into data acquisition controller simultaneously and accomplishes measurement automatically.
The present invention has advantage and good effect:
1, can accomplish butt joint between the signal cable that rotates and the fixing signal cable, thereby realize the purpose that the probe automatic lifting is measured.
2, not only be suitable for the clinograph automatic measurement, also be applicable to the automatic measurement of similar artificial observation instrument.
Description of drawings
Fig. 1 is the former line graph of clinograph;
Fig. 2 is this line graph of clinograph;
Fig. 3 .1 is the structural front view of docking facilities, and Fig. 3 .2 is the A-A cutaway view of Fig. 3 .1.
Wherein:
The 100-clinograph,
The 110-probe, the 120-signal cable, the artificial readout instrument of 130-,
140-the 1st plug, 150-the 1st socket;
The 160-docking facilities,
The 161-circular insulating board, the 162-fixing hole, the 163-copper ring,
The 164-roller shaft, 165-resilient contact, 166-contact shoe;
167-the 2nd socket, 168-the 2nd plug.
Embodiment
Specify below in conjunction with accompanying drawing and embodiment:
1, like Fig. 2, this connection mode of clinograph is:
Probe 110, signal cable the 120, the 1st plug 140, docking facilities the 160, the 1st socket 150 are connected with artificial readout instrument 130 front and back successively; The measuring-signal of the probe 110 that realization moves up and down can show on artificial readout instrument 130; Accomplish manual measurement; Simultaneously can get into data acquisition controller, accomplish automatically and measure.
2, the structure of docking facilities 160
Like Fig. 3 .1,3.2, docking facilities 160 is made up of circular insulating board 161, fixing hole 162, copper ring 163, roller shaft 164, resilient contact 165 and contact shoe 166 and the 2nd socket 167 and the 2nd plug 168;
On circular insulating board 161; Be disposed with fixing hole 162, concentric copper ring 163 and roller shaft 164 from outside to inside; The 2nd socket 167 is connected respectively with several copper rings 163 through several heart yearns in the signal cable 120; An end that is arranged on the several resilient contacts 165 on the contact shoe 166 respectively with several copper ring 163 corresponding closely contact conductings, the other end of several resilient contacts 165, signal cable the 120, the 2nd plug 168 and artificial readout instrument 130 front and back are connected successively.