Reciprocating spraying device for boron-coated gas detector electrode tube sensitive layers

[0030] Example 1:

[0031] A reciprocating apparatus for a sensitive layer of a boron gas detector electrode tube comprising a rack 1, further comprising a reciprocating drive mechanism, a moving plate 3, a rotating clamping mechanism, an inner spray mechanism, an outer spray mechanism.

[0032] The reciprocating drive mechanism, the moving plate 3 is provided on the rack 1, and the moving plate 3 is disposed above the rack 1. The moving plate 3 can be moved relative to the rack 1, such as a straight line movement along the length direction of the frame 1. The rotating clamping mechanism includes a first clamping member 401, a driving motor 402, a second clamp 403, a first clamping 401, and a second clamping member 403, a second clamping member 403, a second clamping member 403, a second clamping member 403. The head 404 and the corresponding rotating shaft 405 are configured, and each of the rotating shaft 405 is fixed to each of the clamps 404, and each of the rotating shafts 405 m

[0036] Example 2:

[0037] Based on the first embodiment, further technical solution is that the reciprocating drive mechanism includes a bidirectional motor 201, a gearbox 202, a drive wheel 203, a synchronous belt 204, a tension wheel 205, and a bidirectional motor 201 fixedly mounted one end of the rack 1. The tensioner 205 is mounted on the other end of the rack 1, and the replacement case 202 is fixed to the frame 1, and the output shaft of the bidirectional motor 201 is connected to the replacement case 202, the power output shaft of the replacement case 202 is connected to the drive wheel 203, thereby The dynamic commutation, the synchronous belt 204 connects the drive wheels 203, the tension wheel 205, and both ends of the synchronous belt 204 are respectively fixed, respectively, and the stud structure can be used. The synchronous belt 204 can use a conventional crawler structure that can be obtained by commercial purchase. Each of the connecting plates 206 is configured to

[0041] Example 3:

[0042] Based on the embodiment 2, a further technical solution further includes a mounting bottom plate 502, a second fastener 503, a second guide rod 504, an injecting gun support seat 505, and mounting the bottom plate 502 is fixed in the rack. 1 On, and the mounting the bottom plate 502 is located between the two first guide rods 208, the second fixing seat 503 is provided with two groups and is symmetrically fixed to the mounting bottom plate 502, each set of second fasteners 503 is two, the second guide rod 504 Symmetrical setting and corresponds to the second fastener 503, each of the second guide rods 504 is arranged perpendicular to each of the first guide rods 208. The inner coating gun support seat 505 slides to connect each of the second guide rods 504, and the two straight bearing can be fixed in the inner spray gun support seat 505 at each of the second guide rod 504. The nozzle of the inner layer gun 501 extends toward the electrode tube, and the oth