Disclosure of Invention
Aiming at the technical problem, the invention provides the power distribution cabinet convenient to install, and solves the problems that the existing power distribution cabinet is not firm and convenient to install.
The technical scheme adopted by the invention is as follows: an easy-to-install power distribution cabinet comprises: the power distribution box comprises a power distribution box part, a turnover door part, a cylindrical fixing part, a plane fixing part and a sliding door part; the distribution box part can be arranged on the cylindrical fixed part and also can be arranged on the plane fixed part; the turnover door part is arranged in the distribution box part; the cylindrical fixing part can be fixed on the cylindrical object; the plane fixing part can be fixed on the plane; the sliding door part is arranged in the distribution box part.
Preferably, the electrical box portion comprises: the device comprises a square cabinet, an arc-shaped rod, a disc support, a circular fixing frame, a triangular sliding block, a cylindrical gear, a gear bevel gear set and a servo motor; an ammeter is arranged in the square cabinet, and a fan is arranged on the side surface of the square cabinet; the number of the arc-shaped rods is two, one end of each arc-shaped rod is fixedly connected with a gear, the gears are rotatably installed in grooves in the square cabinet, and the gears on the two arc-shaped rods are meshed with each other; the disc support is rotatably arranged in a groove in the square cabinet, and the disc support is provided with a groove; the round fixing frame is fixedly arranged in a groove in the square cabinet; the triangular sliding block is provided with a plurality of blocks, a cylinder on the triangular sliding block is arranged in a sliding groove on the disc bracket in a sliding manner, and the triangular sliding block is arranged in a sliding groove on the circular fixing frame in a sliding manner; the cylindrical gear is rotatably arranged on a shaft in the square cabinet and is meshed with the gear on one of the arc-shaped rods; the bevel gear set is rotatably arranged on a shaft in the square cabinet, an internal gear of the bevel gear set is meshed with the cylindrical gear, and an internal bevel gear of the bevel gear set is meshed with a gear on a motor shaft of the servo motor; the servo motor is fixedly arranged in a groove in the square cabinet, and a bevel gear is fixedly connected to a motor shaft of the servo motor.
Preferably, the flip gate part comprises: the device comprises a square frame A, a door plate A, a support rod A, a clamping block A and a cam A; the square frame A is movably arranged in a groove on the square cabinet; the door plate A is arranged on the square frame A, a safety lock is arranged on the door plate A, and a handle is arranged on the door plate A; the two support rods A are respectively arranged in the grooves in the square frame A in a sliding manner; four clamping blocks A are respectively and slidably arranged in the grooves in the square frame A, a top spring is arranged on each clamping block A, one end of each top spring is fixedly connected with the clamping block A, and the other end of each top spring is fixedly connected with the inner plane of the square frame A; cam A has two, rotates respectively and installs in the inside recess of square A, and cam A one side is equipped with the top spring, top spring one end and cam A fixed connection, the top spring other end and square A inside plane fixed connection.
Preferably, the cylindrical fixing portion includes: the device comprises a support frame, a clamping jaw, a metal rod, a threaded pipe A and a rotating rod; the supporting frame is provided with a groove; the number of the clamping jaws is four, the circular shafts in the middles of the clamping jaws are respectively and rotatably installed in the grooves in the supporting frame, and one ends of the two clamping jaws are fixedly connected with a threaded rod; the metal rod is rotatably arranged in a groove in the middle of the support frame, and two ends and the middle part of the metal rod are fixedly connected with a bevel gear; the middle of the threaded pipe A is fixedly connected with a bevel gear, and the bevel gear on the threaded pipe A is meshed with the bevel gears at two ends of the metal rod; the dwang rotates to be installed in the recess in the middle of the support frame, and bevel gear of dwang one end fixedly connected with, bevel gear and the bevel gear intermeshing in the middle of the metal pole, dwang one end is equipped with the recess.
Preferably, the plane fixing part includes: a square plate, a gear with a rod, a nail, a gear belt pulley group, a threaded pipe B, a square rod and a synchronous belt; the square plate is provided with a groove; the gear with the rod is rotatably arranged in a groove in the square plate, and one end of the gear with the rod is provided with a groove; four nails are arranged on the square rod in a sliding mode respectively, a groove is formed in one end of each nail, and threads are formed in the nails; four groups of gear belt pulley sets are respectively and rotatably arranged on the shaft in the square plate, and internal gears of the gear belt pulley sets are respectively meshed with internal gears of the gears with the rods; the four threaded pipes B are respectively rotatably arranged in the grooves in the square plates, threads are arranged in the threaded pipes B, the threads are matched with the threads on the nails, and a belt pulley is fixedly connected to each threaded pipe B; four square rods are arranged and are respectively and fixedly arranged in the grooves in the square plates; the synchronous belt is provided with four belt pulleys which are respectively coated on the nails and the belt pulley in the gear belt pulley group.
Preferably, the sliding door part comprises: the door frame comprises a square frame B, a door plate B, a support rod B, a cam B and a clamping block B; the square frame B is movably arranged in a groove on the square cabinet; the two door plates B are slidably arranged in the grooves in the square frame B, and a safety lock is arranged on each door plate B; the two support rods B are respectively arranged in the grooves in the square frame B in a sliding manner; the two cams B are respectively and rotatably arranged in the grooves in the square frame B; the four clamping blocks B are respectively and slidably mounted in the grooves in the square frame B, a top spring is arranged on each clamping block B, one end of each top spring is fixedly connected with the clamping block A, and the other end of each top spring is fixedly connected with the plane in the square frame A.
Compared with the prior art, the invention has the beneficial effects that:
1. in inserting the recess on the band pole gear with specific key, rotate the key area and take the rotation of band pole gear, band pole gear area gear belt pulley group rotates, and gear belt pulley group takes screwed pipe B to rotate through the hold-in range area, and screwed pipe B takes the nail to slide and fix to the plane, has saved the cost, has improved efficiency.
2. Insert the recess on the dwang through specific key, rotate the key and take the dwang to rotate, the dwang takes the metal pole to rotate, and the metal pole is taking screwed pipe A to rotate, and screwed pipe A takes the clamping jaw to clip the cylindrical object and fixes, has improved the installation effectiveness.
3. The bevel gear group is driven by the servo motor to rotate, the bevel gear group drives the cylindrical gear to rotate, the cylindrical gear drives the arc-shaped rod to rotate, the arc-shaped rod can encircle a person, and the person is prevented from losing the center of gravity and generating danger when being installed.
Detailed Description
The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in many ways other than those described herein, and it will be apparent to those skilled in the art that similar modifications can be made without departing from the spirit of the invention, and therefore the invention is not limited to the specific embodiments disclosed below.
In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "left", "right", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships conventionally placed when the products of the present invention are used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
Referring to fig. 1-18, an easy-to-install power distribution cabinet includes: the power distribution box comprises a power distribution box part 1, a turnover door part 2, a cylindrical fixing part 3, a plane fixing part 4 and a sliding door part 5; the distribution box part 1 can be arranged on the cylindrical fixed part 3 or the plane fixed part 4; the turnover door part 2 is arranged in the distribution box part 1; the cylindrical fixing portion 3 may be fixed to a cylindrical object; the plane fixing part 4 can be fixed on a plane; the sliding door part 5 is installed in the electric box part 1.
In an alternative embodiment of the invention, the electric box portion 1 comprises, in addition to the same parts as in the previous embodiment: the device comprises a square cabinet 101, an arc-shaped rod 102, a disc support 103, a circular fixing frame 104, a triangular sliding block 105, a cylindrical gear 106, a gear bevel gear set 107 and a servo motor 108; an ammeter is arranged in the square cabinet 101, and a fan is arranged on the side surface of the square cabinet; the number of the arc-shaped rods 102 is two, one end of each arc-shaped rod 102 is fixedly connected with a gear, the gears are rotatably installed in grooves in the square cabinet 101, and the gears on the two arc-shaped rods 102 are meshed with each other; the disc support 103 is rotatably arranged in a groove in the square cabinet 101, and the disc support 103 is provided with a groove; the round fixing frame 104 is fixedly arranged in a groove in the square cabinet 101; the triangular sliding block 105 is provided with a plurality of blocks, a cylinder on the triangular sliding block 105 is slidably arranged in a sliding groove on the disc support 103, and the triangular sliding block 105 is slidably arranged in a sliding groove on the circular fixing frame 104; the cylindrical gear 106 is rotatably arranged on a shaft in the square cabinet 101, and the cylindrical gear 106 is meshed with a gear on one arc-shaped rod 102; the bevel gear set 107 is rotatably arranged on a shaft in the square cabinet 101, a gear in the bevel gear set 107 is meshed with the cylindrical gear 106, and an inner bevel gear in the bevel gear set 107 is meshed with a gear on a motor shaft of the servo motor 108; the servo motor 108 is fixedly arranged in a groove in the square cabinet 101, and a bevel gear is fixedly connected to a motor shaft of the servo motor 108; specifically, through cover block terminal part 1 on the cylinder on cylinder fixed part 3 or plane fixed part 4, use specific key to insert in the recess on disc support 103, disc support 103 rotates, disc support 103 drives triangle sliding block 105 and slides and makes the card on the triangle sliding block 105 block in cylinder fixed part 3, the recess on the cylinder on plane fixed part 4, block terminal part 1 is fixed, drive through servo motor 108 and take gear bevel gear set 107 to rotate, gear bevel gear set 107 takes cylindrical gear 106 to rotate, cylindrical gear 106 takes arc pole 102 to rotate, arc pole 102 can encircle the people and embrace, it produces danger to lose the focus when preventing personnel from installing.
In an alternative embodiment of the present embodiment, the flip door section 2 comprises, in addition to the same components as the previous embodiment: the door frame comprises a square frame A201, a door plate A202, a support rod A203, a fixture block A204 and a cam A205; the square frame A201 is movably arranged in a groove on the square cabinet 101; the door panel A202 is installed on the square frame A201, a safety lock is arranged on the door panel A202, and a handle is arranged on the door panel A202; two support rods A203 are arranged and are respectively arranged in a groove in the square frame A201 in a sliding manner; four clamping blocks A204 are respectively slidably mounted in the grooves in the square frame A201, a top spring is arranged on each clamping block A204, one end of each top spring is fixedly connected with the clamping block A204, and the other end of each top spring is fixedly connected with the inner plane of the square frame A201; two cams A205 are respectively rotatably arranged in grooves in the square frame A201, one side of each cam A205 is provided with a top spring, one end of each top spring is fixedly connected with the cam A205, and the other end of each top spring is fixedly connected with the inner plane of the square frame A201; specifically, the square rack A201 is placed in a groove on the square cabinet 101, a specific key is inserted into the groove on one side of the cam A205, the cam A205 is pressed downwards and rotated to enable the cam A205 to push the supporting rod A203 upwards, the supporting rod A203 drives the fixture block A204 to push upwards to enable the fixture block A204 to be inserted into the groove in the square cabinet 101 for installation and fixation, and the installation speed is improved.
In an alternative embodiment of the invention, the cylindrical fixing part 3 comprises, in addition to the same parts as in the previous embodiment: a support frame 301, a clamping jaw 302, a metal rod 303, a threaded pipe A304 and a rotating rod 305; a groove is arranged on the support frame 301; four clamping jaws 302 are provided, the circular shafts in the middle of the clamping jaws 302 are respectively and rotatably arranged in the grooves on the supporting frame 301, and one end of each of the two clamping jaws 302 is fixedly connected with a threaded rod; the metal rod 303 is rotatably arranged in a groove in the middle of the support frame 301, and two ends and the middle of the metal rod 303 are fixedly connected with a bevel gear; two threaded pipes A304 are provided, one end of each threaded pipe A is fixedly connected with one end of each of the two clamping jaws 302, threads are arranged in the middle of each threaded pipe A304 and matched with the threads on the threaded rods at one ends of the two clamping jaws 302, a bevel gear is fixedly connected in the middle of each threaded pipe A304, and the bevel gears on the threaded pipes A304 are meshed with the bevel gears at two ends of the metal rod 303; the rotating rod 305 is rotatably installed in a groove in the middle of the support frame 301, one end of the rotating rod 305 is fixedly connected with a bevel gear, the bevel gear is meshed with the bevel gear in the middle of the metal rod 303, and one end of the rotating rod 305 is provided with a groove; specifically, a specific key is inserted into a groove on the rotating rod 305, the rotating key drives the rotating rod 305 to rotate, the rotating rod 305 drives the metal rod 303 to rotate, the metal rod 303 drives the threaded pipe a304 to rotate, and the threaded pipe a304 drives the clamping jaw 302 to clamp a cylindrical object to be fixed, so that the installation efficiency is improved.
In an alternative embodiment of the present invention, the plane fixing portion 4 includes, in addition to the same components as in the previous embodiment: a square plate 401, a toothed bar 402, a nail 403, a gear belt pulley set 404, a threaded pipe B405, a square bar 406 and a synchronous belt 407; a groove is arranged on the square plate 401; the gear with the rod 402 is rotatably arranged in a groove in the square plate 401, and one end of the gear with the rod 402 is provided with a groove; four nails 403 are slidably mounted on the square rod 406 respectively, a groove is formed in one end of each nail 403, and threads are formed in each nail 403; four groups of gear belt pulley sets 404 are respectively and rotatably arranged on the shaft in the square plate 401, and the internal gears of the gear belt pulley sets 404 are respectively meshed with the internal gears of the gear with a rod 402; four threaded pipes B405 are respectively rotatably arranged in the grooves in the square plate 401, threads are arranged in the threaded pipes B405, the threads are matched with the threads on the nails 403, and a belt pulley is fixedly connected to the threaded pipes B405; four square rods 406 are respectively and fixedly arranged in the grooves in the square plate 401; four synchronous belts 407 are respectively wrapped on the belt pulley on the nail 403 and the belt pulley in the gear belt pulley set 404; specifically, by inserting a specific key into a groove on the toothed bar 402, the specific key rotates the toothed bar 402, the toothed bar 402 rotates the toothed belt pulley set 404, the toothed belt pulley set 404 rotates the threaded pipe B405 through the synchronous belt 407, and the threaded pipe B405 slides and is fixed on a plane with the nail 403, so that the cost is saved, and the efficiency is improved.
In an alternative embodiment of the invention, the sliding door part 5 comprises, apart from the same elements as in the previous embodiment: a square frame B501, a door plate B502, a support rod B503, a cam B504 and a fixture block B505; the square frame B501 is movably arranged in a groove on the square cabinet 101; the two door panels B502 are slidably arranged in the groove in the square frame B501, and a safety lock is arranged on the door panel B502; two support rods B503 are respectively arranged in the groove in the square frame B501 in a sliding way; two cams B504 are respectively and rotatably arranged in a groove in the square frame B501; four clamping blocks B505 are respectively slidably mounted in a groove in the square frame B501, a top spring is arranged on the clamping block B505, one end of the top spring is fixedly connected with the clamping block A204, and the other end of the top spring is fixedly connected with the inner plane of the square frame A201; specifically, the square rack B501 is placed in a groove on the square cabinet 101, a specific key is inserted into the groove on one side of the cam B504, the cam B504 is pressed downwards and rotated to enable the cam B504 to push the supporting rod B503 upwards, the supporting rod B503 drives the fixture block B505 to push upwards to enable the fixture block B505 to be inserted into the groove in the square cabinet 101 for installation and fixation, and the installation speed is improved.
The working principle is as follows: when the nail is fixed on a plane, a specific key is inserted into a groove on the toothed bar 402, the toothed bar 402 is driven to rotate by rotating the key, the toothed bar 402 drives the toothed belt pulley set 404 to rotate, the toothed belt pulley set 404 drives the threaded pipe B405 to rotate through the synchronous belt 407, and the threaded pipe B405 drives the nail 403 to slide and be fixed on the plane;
sleeving a distribution box part 1 on a cylinder on a square plate 401, inserting a specific key into a groove on a disc support 103, rotating the disc support 103, driving a triangular sliding block 105 by the disc support 103 to slide so that a card on the triangular sliding block 105 is clamped in the groove on the cylinder on a cylinder fixing part 3 and a plane fixing part 4, fixing the distribution box part 1, driving a bevel gear set 107 to rotate by a servo motor 108, driving the bevel gear set 107 to rotate by a bevel gear set 106, driving an arc-shaped rod 102 to rotate by a cylindrical gear 106, and embracing a human ring by the arc-shaped rod 102 to prevent danger caused by loss of gravity center when people install;
placing the square rack A201 in a groove on the square cabinet 101, inserting a specific key into the groove on one side of the cam A205, pressing down and rotating the cam A205 to enable the cam A205 to push the supporting rod A203 upwards, enabling the supporting rod A203 to drive the fixture block A204 to push upwards to enable the fixture block A204 to be inserted into the groove in the square cabinet 101, and completing installation of the door;
when the cylinder is fixed, a specific key is inserted into a groove in a rotating rod 305, the rotating rod 305 is driven to rotate by rotating the key, a metal rod 303 is driven to rotate by the rotating rod 305, a threaded pipe A304 is driven to rotate by the metal rod 303, the threaded pipe A304 is driven to clamp a cylindrical object by a clamping jaw 302 to fix the cylindrical object, the distribution box part 1 is sleeved on the cylinder on a support frame 301, the specific key is inserted into the groove in a disc support 103, the disc support 103 is rotated, the disc support 103 drives a triangular sliding block 105 to slide, so that a clamping piece on the triangular sliding block 105 is clamped in the grooves in the cylinders on a cylindrical fixing part 3 and a plane fixing part 4, and the distribution box part 1 is fixed;
the square rack B501 is placed in a groove on the square cabinet 101, a specific key is inserted into the groove on one side of the cam B504, the cam B504 is pressed downwards and rotated to enable the cam B504 to push the support rod B503 upwards, the support rod B503 drives the fixture block B505 to push upwards to enable the fixture block B505 to be inserted into the groove in the square cabinet 101, installation and fixation are carried out, and assembly is completed.