CH524145A - Test device for checking electrical circuits and locating contact faults within them - Google Patents

Description

  

  
 



  Test device for checking electrical circuits and locating contact faults within them
The present invention relates to a test device for checking electrical circuits and for localizing contact faults within the same, with two test probes which can be connected to the two poles of a power source and are held in insulated handles.



   The device according to the invention differs from these known devices in that an interrupter contact is built into each of the insulated handles of the test probes, which has both a fixed contact part connected to a plug cable and a movable movable part which is held at a distance from the fixed contact part by a spring and carries the test probe Contact part has that when the test probe is pressed onto a conductor to be tested it recedes against the action of the spring and comes into contact with the fixed contact part.



   The inventive design of the test device has the advantage that when the device connected to the network is not used temporarily, the test probes are not energized, so that any risk of injury from the electrical current is excluded if the test probes are accidentally touched.



   It is advantageous to arrange a sleeve-shaped extension made of insulating material, which encloses the test probe close to its front end in order to prevent the probe from touching the probe if the hand slips off the insulating handle. For the same purpose, a radially projecting protective plate can be attached to the front of the insulated handle.



   In the drawing, an example embodiment of a test probe provided with an insulated handle is shown in longitudinal section.



   A grip sleeve 1 made of insulating material serves as a test probe holder. In the rear end of the grip sleeve 1, a lining sleeve 2 made of insulating material is inserted up to the stop of its conical collar 2 '. The inner end of the chuck sleeve 2 has an inwardly protruding ring shoulder 2 ". The chuck sleeve 2 is firmly connected to the grip sleeve 1 by three grub screws 3 evenly distributed around the circumference. The latter grip through openings in the grip sleeve 1 in threaded bores in the ring shoulder 2" of the chuck sleeve 2 a. In the latter, a contact piece 4, z. B. made of brass up to the annular shoulder 2 ″. At the rear end of the contact piece 4, the plug cable 5 is connected, the core 5 'of which engages in an axial bore 6 of the contact piece 4 and is soldered therein.

  A pin 7 made of insulating material is pressed into the opening of the sleeve part protruding beyond the rear end of the contact piece 4. A contact screw 9 is inserted through a central bore 8 of the annular shoulder 2 ″ and screwed tightly in a threaded bore 10 of the contact piece 4 that is coaxial with the bore 8. In the front part of the grip sleeve 1, a contact piston 11 is displaceably guided, which opens out into a rod-shaped test tip 11 ′ at the front , and at the rear has a contact head 9 ″ which is offset in diameter and can be brought into contact with the head of the contact screw 9. The contact piston 11 is held in the position shown in the drawing in which the contact between the parts 9 and 11 "is interrupted by a compression spring 12, which is supported on the one hand on the annular shoulder 2" of the chuck sleeve 2 and on the other hand on the contact piston 11 is.

  An end piece 13 engages in the front end of the grip sleeve 1 and is firmly connected to the grip sleeve 1 by three grub screws 3 evenly distributed over the circumference. The end piece 13 consists of insulating material and has a central bore 14 which serves as a slide bearing for the rod-shaped test probe 11 '. The terminating piece 13 is provided with a sleeve-shaped extension 13 'which surrounds the test probe almost to its end and serves as a contact protection. A protective plate 13 ″ is arranged on the front end piece 13, which prevents the hand from sliding off the handle piece 1 when the test probe 11 'is pressed onto the conductor to be tested.

 

   The test device comprises two units of the test probe shown in the drawing, each of which is connected by a single-strand cable 5 to a connector not shown in the drawing. After connecting the plug to a power socket, the test device described is ready for use.

 

Claims (1)

PATENT CLAIM Test device for checking electrical circuits and for localizing contact faults within them, with two test probes which can be connected to the two poles of a power source and held in insulating handles, characterized in that an interrupter contact (9 ') is provided in each of the insulating handles (1) of the test probes (11') , 11 ") is installed, which has both a fixed contact part (4, 9) connected to a plug cable (5) and one that is held at a distance from the fixed contact part (4, 9) by a spring (12), the test probe (11 ') carrying movable contact part (11, 11 "), has that when the test tip (11) is pressed onto a conductor to be tested it retreats against the action of the spring (12) and thereby comes into contact with the fixed contact part (4, 9) comes. SUBCLAIMS 1. Testing device according to claim, characterized in that the fixed contact part (4, 9) is inserted into a lining sleeve (2) which is inserted into the insulating handle (1) and firmly connected to it by screws (3). 2. Test device according to dependent claim 1, characterized in that the fixed contact part (4, 9) has a contact screw (9) which penetrates a bore (8) of the chuck sleeve (2) and in a threaded bore (10) of a contact piece (4) is screwed in. 3. Test device according to dependent claims 1 and 2, characterized in that a coaxial bore is provided in the bore (8) of the chuck sleeve (2), into which an insulating pin (7) is pressed at the rear end of the chuck sleeve (2). 4. Testing device according to claim, characterized in that the movable contact part (11, 11 ") has a contact piston (11) guided axially displaceably in the insulating handle (1) and having one end facing the fixed contact part (4, 9) in diameter offset contact head (11 ") carries. 5. Test device according to claim and dependent claim 4, characterized in that the movable contact part (11 ") opens out at its end into a rod-shaped test probe (11 ') which is located in an axial bore (14) of an end piece arranged at the front of the insulating handle (1) (13) is slidably mounted from insulating material. 6. Test device according to dependent claim 5, characterized in that the terminating piece (13) has a sleeve-shaped extension (13 ') made of insulating material which encloses the test probe (11') up to close to its front end. 7. Testing device according to dependent claim 5, characterized in that a protective plate (13 ″) projecting radially from the insulating handle (1) is arranged in the region of the end piece (13).