CN-224218452-U - Irradiation-resistant camera with fast-assembling structure

Abstract

The application relates to the technical field of cameras in high-irradiation environments, in particular to an irradiation-resistant camera with a fast-assembly structure, which comprises a camera body, a connector, a base and a locking part, wherein the connector is arranged at the top of the camera body, an insertion end is arranged on the connector, the base is provided with a slot into which the insertion end of the connector is inserted, and the locking part is arranged on the base, and is used for locking or releasing the connector on the base after the connector is inserted into the base. The application realizes quick locking and unlocking through pressing action, realizes quick assembly of the camera body through adopting the structure, and is very convenient and practical.

Inventors

• WU LINGHUA

Assignees

• 中科核泰技术(杭州)有限公司

Dates

Publication Date

20260508

Application Date

20250612

Claims (10)

1. 1. An irradiation-resistant video camera with a quick-assembly structure, comprising: A camera body (1); the connector (2) is arranged at the top of the camera body (1), and an insertion end (23) is arranged on the connector (2); A base (3) provided with a slot (31) into which the insertion end (23) of the connector (2) is inserted; And a locking part (4) arranged on the base (3); After the connector (2) is inserted into the base (3), the locking part (4) is used for locking or releasing the connector (2) on the base (3).
2. 2. Radiation-resistant camera with quick-assembly structure according to claim 1, characterized in that the locking part (4) is of a push-type lock structure, by pushing the locking part (4), the insertion end (23) of the connector (2) can be released in the base (3), and after the pushing external force to the locking part (4) is removed, the insertion end (23) of the connector (2) is locked in the base (3).
3. 3. The irradiation-resistant camera with the quick-mounting structure according to claim 2, wherein a lock hole (231) is formed in an insertion end (23) of the connector (2), a mounting hole (32) communicated with the slot (31) is formed in a side end of the base (3), and the locking part (4) comprises: The lock rod (41) is provided with a lock hook (411), the lock rod (41) is movably arranged in the mounting hole (32), one end of the lock rod (411) extends into the slot (31), and the other end extends out of the base (3); And an elastic return member (42) for driving the lock lever (41) to move and return; After the connector (2) is inserted into the base (3), the elastic reset piece (42) can drive the lock rod (41) to move, so that the lock hook (411) of the lock rod (41) stretches into the lock hole (231) of the connector (2) to limit the connector (2) to be separated from the base (3), the lock rod (41) is pressed, the elastic reset piece (42) is pressed, the lock rod (41) is enabled to move, and the lock hook (411) of the lock rod (41) is separated from the lock hole (231) to enable the connector (2) to be separated from the limit.
4. 4. A radiation-resistant camera with a quick-mounting structure as claimed in claim 3, characterized in that the inner wall of the mounting hole (32) is provided with a mounting groove (33) opened radially outwards, and the elastic restoring member (42) is a restoring spring sleeved on the lock rod (41) and positioned in the mounting groove (33).
5. 5. The irradiation-resistant camera with a quick-mounting structure as set forth in claim 4, wherein an annular baffle (412) is disposed radially outwards on the outer wall of the lock rod (41), the annular baffle (412) is located in the mounting groove (33), one end of the return spring is abutted against the annular baffle (412), and the other end is abutted against the bottom of the mounting groove (33).
6. 6. The radiation-resistant camera with a quick-mounting structure according to claim 5, wherein the locking portion (4) further comprises: The gland (43) is of a T-shaped hollow structure, the gland (43) is sleeved on one end of the lock rod (41) extending out of the base (3), and the large end of the gland (43) is in threaded connection with the mounting hole (32) of the base (3); Wherein, in a normal state, the return spring applies an external force to the annular baffle plate (412) to enable the lock rod (41) to move and enable the annular baffle plate (412) to be abutted against the gland (43).
7. 7. A radiation-resistant camera with a quick-mounting structure according to claim 3, characterized in that the latch hook (411) has a guiding inclined surface (4111), and in the process of inserting the connector (2) into the base (3), the insertion end (23) can apply an external force to the guiding inclined surface (4111) of the latch hook (411) so that the elastic restoring member (42) is compressed, and at the same time, the latch hook (411) is aligned with the latch hole (231) of the insertion end (23) after the latch hook (41) is completely inserted, and the elastic restoring member (42) restores the latch hook (41), and the latch hook (411) is inserted into the latch hole (231) of the insertion end (23).
8. 8. A radiation-resistant camera with a quick-mounting structure as claimed in claim 3, wherein the lock lever (41) is provided with a bar-shaped groove (403) arranged along the length direction of the lock lever, the base (3) is provided with a first limit hole communicated with the bar-shaped groove (403), a first limit rod (44) with an end part extending into the bar-shaped groove (403) is arranged in the first limit hole, and the first limit rod (44) is used for limiting the lock lever (41) to rotate.
9. 9. The irradiation-resistant camera with the fast-assembling structure according to claim 1, wherein a second limiting rod (24) is arranged on the connector (2), and a second limiting hole (34) for embedding the second limiting rod (24) is formed in the base (3).
10. 10. Radiation-resistant camera with a quick-fit structure according to any one of claims 1-9, characterized in that at least two of the insertion ends (23) are distributed evenly over the connection head (2) in the circumferential direction, and that the number of locking portions (4) corresponds to the number of insertion ends (23) and serves to lock or release the insertion ends (23) respectively.

Description

Irradiation-resistant camera with fast-assembling structure Technical Field The utility model relates to the technical field of cameras in high-irradiation environments, and more particularly relates to an irradiation-resistant camera with a fast-assembly structure. Background In recent years, the development of the nuclear industry in China is rapid, and a nuclear energy industry chain from exploration and exploitation of uranium ores, production and supply of nuclear fuel, nuclear power engineering construction and operation and finally spent fuel treatment is formed. In order to realize remote monitoring and operation of key equipment, key areas and key links of the nuclear industry, a certain number of radiation-resistant cameras are required to be configured in high radiation environments such as a nuclear power plant reactor factory, a nuclear waste storage area and a spent fuel treatment workshop. In a high irradiation environment, the service life of the irradiation-resistant camera is prolonged compared with other cameras, but the irradiation-resistant camera still needs to be regularly maintained and replaced. The traditional camera is generally fixed on a wall or other objects by bolts in a mounting mode, the mounting operation time is long, the influence is not great in a normal environment, but the longer the mounting operation time is in a high-irradiation environment, the more the personal safety of an operator is difficult to ensure, and therefore, the irradiation-resistant camera capable of improving the dismounting speed is necessary. Disclosure of utility model The utility model mainly aims to provide an irradiation-resistant camera with a fast-assembling structure, so as to solve the technical problems in the background art. In order to solve the technical problems, the utility model provides an irradiation-resistant camera with a fast-assembly structure, which comprises: A camera body; The connector is arranged at the top of the camera body and is provided with an insertion end; The base is provided with a slot for embedding the insertion end of the connector; The locking part is arranged on the base; After the connector is inserted into the base, the locking part is used for locking or releasing the connector on the base. In the above technical scheme, further, the locking part is a push type lock structure, through pressing the locking part, the insertion end of the connector can be released in the base, and after the external pressing force to the locking part is removed, the insertion end of the connector is locked in the base. In any of the above technical solutions, further, a lock hole is provided at an insertion end of the connector, a mounting hole communicated with the slot is provided at a side end of the base, and the locking portion includes: The locking rod is provided with a locking hook, the locking rod is movably arranged in the mounting hole, one end of the locking rod with the locking hook extends into the slot, and the other end of the locking rod extends out of the base; The elastic reset piece is used for driving the lock rod to move and reset; After the connector is inserted into the base, the elastic reset piece can drive the lock rod to move, so that the lock hook of the lock rod extends into the lock hole of the connector to limit the connector to be separated from the base, and the lock rod is pressed, the elastic reset piece is extruded and moves, and the lock hook of the lock rod is separated from the lock hole to enable the connector to be separated from the limit. In any of the above technical solutions, further, an inner wall of the mounting hole is provided with a mounting groove radially opened outwards, and the elastic reset piece is a reset spring sleeved on the lock rod and located in the mounting groove. In any of the above technical schemes, further, an annular baffle plate is arranged radially outwards on the outer wall of the lock rod, the annular baffle plate is positioned in the mounting groove, one end of the return spring is abutted against the annular baffle plate, and the other end of the return spring is abutted against the bottom of the mounting groove. In any of the above solutions, further, the locking portion further includes: The gland is of a T-shaped hollow structure, the gland is sleeved on one end of the lock rod extending out of the base, and the large end of the gland is in threaded connection with the mounting hole of the base; The reset spring applies external force to the annular baffle plate in a normal state, so that the lock rod moves and the annular baffle plate is abutted against the gland. In any of the above technical solutions, further, the latch hook has a guiding inclined plane, and in the process of inserting the connector into the base, the insertion end can apply an external force to the guiding inclined plane of the latch hook, so that the elastic reset piece is compressed, and meanwhile, the latch hook moves, a