Automatic three-dimensional parking garage
Abstract
The invention discloses a slab nozzle inspection equipment with artificial measurement error avoidance, and includes a base, a left-right symmetrical bracket is fixed on the upper side of the base, and an adjustment cavity is arranged in the base. The end surface of the bracket is provided with two sets of four parking spaces, and the present invention adopts a lead screw active pulley and a wire. The belt connection between the auxiliary pulleys of the levers realizes the synchronization of the rotation of the left and right lead screws and ensures the stability of the car when it moves up and down. The hydraulic power is provided to switch the power of the left and right parking spaces to ensure that the left and right parking spaces work independently, Using a one-way bearing structure, the power is switched by whether to rotate synchronously to ensure that each parking space works independently.
Claims
exact text as granted — not AI-modified1 . An automatic three-dimensional parking garage includes a base, and a left-right symmetrical bracket is fixedly arranged on the upper side of the base. An adjustment cavity is provided in the base, and two sets of four parking spaces are arranged in an array on the end surface of the bracket. No. 1 suspension bracket is fixed on the lower end surface of the parking chute, and a No. 1 connecting shaft is rotatably connected to the front side of the No. 1 suspension bracket. A connecting shaft, and the first connecting shaft is fixedly provided with a first pulley; a vehicle access device is provided on the front side of the No. 1 pulley, and the vehicle access device can be connected to the No. 2 connection shaft by rotating a roller disc connected to the No. 1 connection shaft, and is circular with the roller. The parking space lever which is slidably connected to the disk is rotated to the first lever which is connected to the parking space lever and is rotatably connected to the parking space chute. The parking space plate which is slidably connected to the parking space chute and is connected to the first lever is changed. The different movement state of the No. 1 lever drives the left and right movement to realize the vehicle unloading and loading; a limit device is provided on the parking space board, and the limit device can change the different movement states of the second leverage lever by rotating the four second levers connected to the parking space board to help fix the vehicle, and the top of the bracket A garage steel frame is fixedly installed, and a driving cavity is provided in the garage steel frame; a switch assembly is provided on the left inner wall of the driving chamber, and the switch assembly can be slidably connected to a hydraulic column on the right of the hydraulic cylinder through a hydraulic cylinder fixedly provided on the left inner wall of the driving chamber. The left and right movements switch the power connection to the left and right side garages. a screw motor is fixed to the inner wall of the top end of the driving cavity, and the left and right symmetrical symmetrical lead screws extending into the driving cavity are connected to the inner wall of the bottom end of the adjusting cavity. The upper end of the lead screw on the left side is power-connected and embedded in the inner wall of the top end of the drive cavity. The lead screw is threadedly connected to a bottom plate. A mobile motor is fixed in the first bottom plate. The upper side is provided with a power connection No. 3 connecting shaft. Two sets of one-way bearings installed opposite to each other are distributed from the top to the bottom. The upper side of the one-way bearing is fixed with a rotating disk. A second suspension bracket is fixedly arranged on the lower side of the rotating disc, and a car-board slide rail is fixedly arranged on the lower side of the second suspension bracket; a car plate moving device capable of controlling the movement of the parking plate is provided on the upper side of the car plate slide rail, and the car plate moving device can be fixedly installed in the place by sliding a slider connected to the slideway. The position of the barb plate on the slider pushes the parking space plate to realize the movement of the parking space plate.
2 . The automatic three-dimensional parking garage according to claim 1 , wherein a left-right symmetrical transmission shaft is rotatably connected to the inner wall of the lower end of the driving cavity, and the transmission shaft extends downward and is rotatably connected to the upper end surface of the base. The transmission shaft is oppositely installed with two sets of one-way bearings, the two sets of one-way bearings are provided with bevel gear sleeves, and the third side suspension is located on the right side of the first suspension bracket on the lower side of the parking space slideway. A bracket, the No. 3 suspension bracket is rotatably connected to a No. 4 connecting shaft, a No. 4 bevel gear is rotatably connected to the No. 4 connecting shaft, and a No. 3 pulley is rotatably connected to the front end of the No. 4 connecting shaft, and the No. 3 A belt is connected between the pulley and the No. 1 belt pulley, and a No. 4 suspension bracket near the lead screw is fixed on the lower side of the slideway, and a No. 5 rotation connection is provided on the No. 4 suspension bracket. A connecting shaft, a front end of the fifth connecting shaft is provided with a second bevel gear meshingly connected with the bevel gear sleeve, and a left side of the fourth suspension bracket is provided with a fifth suspension bracket fixedly connected to the parking track, The number five hanging branch The front side of the frame is rotatably connected with a No. 6 connecting shaft, and the No. 6 connecting shaft is fixedly provided with a No. 3 bevel gear meshingly connected with the No. 2 bevel gear, and a front side of the No. 3 bevel gear is provided at the No. 6 The No. 4 pulley at the front end of the No. connecting shaft, the No. 4 belt is connected between the No. 4 pulley and the No. 1 pulley, and the lead screw extends upward and into the driving cavity. The lead screw is dynamically connected to a lead screw motor fixedly disposed on the inner wall of the top end of the drive cavity. A lead screw pulley is provided on the lower side of the lead screw motor, and the lead screw on the right side is rotationally connected to the inner wall of the top of the drive cavity. A screw lead pulley is fixed on the upper side of the screw on the right side, and a screw lead belt is connected between the screw lead pulley and the screw lead pulley.
3 . The automatic three-dimensional parking garage according to claim 2 , wherein a belt is connected between the lead screw active pulley and the lead screw secondary pulley.
4 . The automatic three-dimensional parking garage according to claim 2 , characterized in that: two sets of the one-way bearings on the transmission shaft are oppositely installed.
5 . The automatic three-dimensional parking garage according to claim 1 , characterized in that: the parking plate can be slidably connected with the loading plate, and the parking plate is provided with left and right symmetrical loading plate slides, and the rotation The disk is provided with a left-right symmetrical rotating disk slide, and the vehicle-carrying plate slide and the rotating disk-slide can be slidably connected with the vehicle-carrying plate slide on the parking plate.
6 . The automatic three-dimensional parking garage according to claim 1 , characterized in that: the vehicle board moving device comprises a second floor which is fixedly arranged on the lower side of the second suspension bracket, and the second floor is rotatably connected to the second floor. There is a No. 7 connecting shaft, a No. 2 belt pulley is fixed on the No. 7 connecting shaft, and a No. 3 lever, which is located on the upper side of the No. 2 belt pulley, is fixed on the No. 7 connecting shaft The upper hinge is connected with a No. 4 lever rotatably connected to the slider, and a belt is connected between the No. 2 pulley and the one-way bearing on the upper side of the No. 1 base plate.
7 . The automatic three-dimensional parking garage according to claim 1 , characterized in that the switch assembly includes a motor fixedly arranged on the right side of the hydraulic column, and a right side of the motor is provided with a horizontal drive shaft connected by power, so The right end of the horizontal drive shaft is rotatably connected to the drive slider, and a drive slide is slidably connected to the drive slider on the right inner wall of the drive cavity. A vertical bevel gear that is symmetrical and located to the right of the motor.
8 . The automatic three-dimensional parking garage according to claim 1 , wherein the one-way bearing includes a bearing box rotatably connected to the transmission shaft, and the bearing box is meshed with the first bevel gear, A rotating cavity is provided in the bearing box, twelve rotating teeth are provided on an inner wall of the rotating cavity, a rotating wheel is disposed in the rotating cavity on the transmission shaft, and six annular arrays are arranged on the rotating wheel. A push rod, and the thrust rod is rotatably connected to the runner. A bearing spring is provided between the thrust rod and the runner, and the thrust rod can abut the rotating teeth.
9 . The automatic three-dimensional parking garage according to claim 1 , wherein the limit device comprises a fifth lever which is rotatably connected to the second lever, and a load is provided between the second lever and the parking plate. Car plate spring.
10 . The automatic three-dimensional parking garage according to claim 9 , wherein the fifth lever is a protruding structure.Cited by (0)
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