CN112511756B - Energy-saving tracking type monitoring camera equipment - Google Patents

Abstract

The invention discloses an energy-saving tracking type monitoring camera device, which comprises a box body, wherein the box body is provided with a monitoring area with a left opening, the lower side wall of the monitoring area is communicated with a first working cavity, the upper side wall of the monitoring area is communicated with a second working cavity, a first transmission cavity is communicated between the first working cavity and the second working cavity, the first transmission cavity is positioned at the rear side of the monitoring area and is communicated with the monitoring area, the first working cavity is provided with three pedals in a sliding manner, and the three pedals are distributed in a left-right array manner. The monitoring range is increased.

Description

Energy-saving tracking type monitoring camera equipment

Technical Field

The invention relates to the technical field of photographic equipment, in particular to energy-saving tracking type monitoring camera equipment.

Background

The traditional monitoring camera is arranged on the upper side of a wall body and is constantly in a working state, so that people cannot frequently enter and exit places such as rooms such as storerooms and data rooms, and the like, and the camera is constantly in a starting state, so that the resource waste is caused, the camera is kept in the air for a long time, dust is easily accumulated, and the normal work and the service life are influenced.

Disclosure of Invention

In order to solve the above problems, the present embodiment provides an energy-saving tracking type monitoring camera device, comprising a box body, wherein the box body is provided with a monitoring area with a left opening, the lower side wall of the monitoring area is communicated with a first working chamber, the upper side wall of the monitoring area is communicated with a second working chamber, a first transmission chamber is communicated between the first working chamber and the second working chamber, the first transmission chamber is positioned at the rear side of the monitoring area and is communicated with the monitoring area, the first working chamber is slidably provided with three pedals which are distributed in a left-right array manner, the upper ends of the pedals are positioned in the monitoring area, the lower side wall of the first working chamber is communicated with three sliding grooves which are distributed in a left-right array manner, the sliding grooves are slidably provided with sliding rods, the upper ends of the sliding rods are positioned in the first working chamber and are fixedly connected with the lower ends of the pedals, and telescopic springs are connected between the sliding rods and the sliding grooves, the rear end of the sliding rod is positioned in the first working cavity and is fixedly provided with a driving rack, the left side wall of the first working cavity is rotatably provided with a driven shaft, the driven shaft is fixedly provided with a main belt wheel and a first driven gear, the main belt wheel is positioned on the left side of the first driven gear, the first driven gear is meshed and connected with the driving rack on the leftmost side, the driven shaft is rotatably provided with a driven sleeve shaft positioned on the right side of the first driven gear, the driven sleeve shaft is fixedly provided with two second driven gears, the two second driven gears are respectively meshed and connected with the two driving racks on the right side, the side wall of the second working cavity is rotatably provided with a screw rod, the screw rod is fixedly provided with a lifting gear, the lower side of the screw rod is in threaded connection with a lifting block positioned on the lower side of the lifting gear, and the lifting block is in sliding connection with the rear side wall of the second working cavity and the front side wall of the second working cavity, the lifting block is provided with a camera cavity with a leftward opening and a downward opening, a rotating shaft is rotatably arranged between the camera cavity and the second working cavity, the rotating shaft is positioned in the second working cavity and fixedly provided with a rotating gear, the rotating shaft is positioned in the camera cavity and fixedly provided with a camera, the left end of the camera is positioned in the second working cavity, the side wall of the second working cavity is communicated with a second transmission cavity, the second transmission cavity is positioned at the rear side of the screw rod and is provided with a sliding block in a sliding manner, a first connecting spring is connected between the upper end of the sliding block and the second transmission cavity, the rear end of the sliding block is fixedly provided with a driven rack, the lower end of the sliding block is rotatably provided with a moving shaft, the lower end of the moving shaft is positioned in the second working cavity, the moving shaft is positioned in the second working cavity and is fixedly provided with a moving gear, and the moving gear is positioned at the upper side of the lifting gear, the left side wall of the second transmission cavity is rotatably provided with a belt wheel shaft, the belt wheel shaft is located on the rear side of the sliding block, a driving gear and a first belt wheel are fixedly arranged on the belt wheel shaft, the driving gear is located on the right side of the first belt wheel, and the driving gear is meshed with the driven rack.

Beneficially, a transmission shaft is rotatably arranged between the left side wall and the right side wall of the first working cavity, a second belt wheel and a secondary belt wheel are fixedly arranged on the transmission shaft, the second belt wheel is located on the right side of the secondary belt wheel, the main belt wheel is connected with the secondary belt wheel through a belt, the second belt wheel is connected with the driving gear through a belt, the main belt wheel drives the secondary belt wheel to rotate through a belt, and the second belt wheel drives the driving gear to rotate through the belt.

Advantageously, the rear side wall of the second working chamber is provided with a spring groove in a communicating manner, the spring groove is provided with a moving block in a sliding manner, the front end of the moving block is positioned in the second working cavity, a second connecting spring is connected between the moving block and the spring groove, a moving rack is fixedly arranged at the lower end of the moving block in the second working cavity, a connecting shaft is rotatably arranged at the front end of the moving block, a movable bevel gear and a half gear are fixedly arranged on the connecting shaft, the half gear is positioned at the front side of the movable bevel gear, a bevel gear shaft is rotatably arranged on the left side wall of the second working cavity, a connecting gear and a main bevel gear are fixedly arranged on the bevel gear shaft, the connecting gear is positioned on the right side of the main bevel gear, and the connecting gear drives the moving block to move forwards through the moving rack, so that the connecting shaft is driven to move forwards, and the half gear and the moving bevel gear move forwards.

Beneficially, a worm wheel shaft is rotatably arranged on the lower side wall of the first working cavity, the upper end of the worm wheel shaft is located in the second working cavity, an auxiliary bevel gear is fixedly arranged in the second working cavity and is in meshed connection with the main bevel gear, a first worm wheel is fixedly arranged on the worm wheel shaft in the first working cavity, a worm is rotatably arranged on the rear side wall of the first working cavity and is in meshed connection with the first worm wheel, a second worm wheel is fixedly arranged on the worm and is in meshed connection with the driven sleeve shaft through a worm wheel and a worm, and the second worm wheel drives the worm to rotate, so that the worm wheel shaft is driven to rotate through the first worm wheel.

Beneficially, a motor is fixedly arranged at the upper end of the second working cavity, the motor is located on the rear side of the second transmission cavity, the lower end of the motor is in power connection with a power shaft, a power gear and a power bevel gear are fixedly arranged on the power shaft, the power gear is located on the upper side of the power bevel gear, the power gear is located on the lower side of the movable gear, the power bevel gear is located on the front side of the movable bevel gear, and the power shaft drives the power gear and the power bevel gear to rotate.

The invention has the beneficial effects that: the invention is suitable for walkway areas in front of some unusual rooms, when no person is in the room, the monitoring camera is in a standby state, more electricity is saved, and the monitoring camera is in a hidden space, so that the cleanness of the monitoring camera can be kept, the service life of the monitoring camera is prolonged, when the room needs to be used, the monitoring is automatically started, and the monitoring is carried out by following a user, so that the monitoring range is enlarged.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic diagram of the overall structure of an energy-saving tracking type monitoring camera device according to the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

FIG. 3 is a schematic diagram of B-B in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an energy-saving tracking type monitoring camera device, which comprises a box body 11, wherein the box body 11 is provided with a monitoring area 12 with a leftward opening, the lower side wall of the monitoring area 12 is communicated with a first working chamber 14, the upper side wall of the monitoring area 12 is communicated with a second working chamber 34, a first transmission chamber 45 is communicated between the first working chamber 14 and the second working chamber 34, the first transmission chamber 45 is positioned at the rear side of the monitoring area 12 and is communicated with the monitoring area 12, the first working chamber 14 is provided with three pedals 13 in a sliding manner, the three pedals 13 are distributed in a left-right array manner, the upper end of each pedal 13 is positioned in the monitoring area 12, the lower side wall of the first working chamber 14 is provided with three sliding grooves 18 in a communicating manner, the three sliding grooves 18 are distributed in a left-right array manner, the sliding grooves 18 are provided with sliding rods 19 in a sliding manner, the upper ends of the sliding rods 19 are positioned in the first working chamber 14 and are fixedly connected with the lower ends of the pedals 13, the sliding rod 19 and the sliding groove 18 are connected to be provided with a telescopic spring 17, the rear end of the sliding rod 19 is located in the first working chamber 14 and fixedly provided with a driving rack 25, the left side wall of the first working chamber 14 is provided with a driven shaft 15 in a rotating manner, the driven shaft 15 is fixedly provided with a main belt wheel 16 and a first driven gear 64, the main belt wheel 16 is located on the left side of the first driven gear 64, the first driven gear 64 is meshed with the driving rack 25 on the leftmost side and connected with the driven shaft, the driven shaft 15 is provided with a driven sleeve shaft 20 located on the right side of the first driven gear 64 in a rotating manner, the driven sleeve shaft 20 is fixedly provided with two second driven gears 42, the two second driven gears 42 are respectively meshed with the two driving racks 25 on the right side and connected with each other, the side wall of the second working chamber 34 is provided with a screw 31 in a rotating manner, and the screw 31 is fixedly provided with a lifting gear 32, the lower side of the screw 31 is in threaded connection with a lifting block 30 positioned on the lower side of the lifting gear 32, the lifting block 30 is in sliding connection with the rear side wall of the second working cavity 34 and the front side wall of the second working cavity 34, the lifting block 30 is provided with a camera cavity 29 with a leftward opening and a downward opening, a rotating shaft 28 is rotatably arranged between the camera cavity 29 and the second working cavity 34, the rotating shaft 28 is fixedly provided with a rotating gear 41 in the second working cavity 34, the rotating shaft 28 is fixedly provided with a camera 26 in the camera cavity 29, the left end of the camera 26 is positioned in the second working cavity 34, the upper side wall of the second working cavity 34 is communicated with a second transmission cavity 65, the second transmission cavity 65 is positioned on the rear side of the screw 31, the second transmission cavity 65 is provided with a sliding block 62 in a sliding manner, and a first connecting spring 59 is connected between the upper end of the sliding block 62 and the second transmission cavity 65, a driven rack 61 is fixedly arranged at the rear end of the sliding block 62, a moving shaft 63 is rotatably arranged at the lower end of the sliding block 62, the lower end of the moving shaft 63 is positioned in the second working chamber 34, a moving gear 33 is fixedly arranged in the second working chamber 34, the moving gear 33 is positioned on the upper side of the lifting gear 32, a pulley shaft 60 is rotatably arranged on the left side wall of the second transmission chamber 65, the pulley shaft 60 is positioned at the rear side of the sliding block 62, a driving gear 58 and a first pulley 57 are fixedly arranged on the pulley shaft 60, the driving gear 58 is positioned on the right side of the first pulley 57, and the driving gear 58 is meshed with the driven rack 61.

Advantageously, a transmission shaft 23 is rotatably disposed between the left and right side walls of the first working chamber 14, a second pulley 27 and a secondary pulley 43 are fixedly disposed on the transmission shaft 23, the second pulley 27 is located at the right side of the secondary pulley 43, the primary pulley 16 is connected with the secondary pulley 43 through a belt, the second pulley 27 is connected with the driving gear 58 through a belt 39, the primary pulley 16 drives the secondary pulley 43 to rotate through a belt, and the secondary pulley 27 drives the driving gear 58 to rotate through the belt 39.

Beneficially, a spring groove 48 is provided in the rear side wall of the second working chamber 34 in a communicating manner, a moving block 50 is slidably provided in the spring groove 48, the front end of the moving block 50 is located in the second working chamber 34, a second connecting spring 49 is provided between the moving block 50 and the spring groove 48 in a connecting manner, a moving rack 47 is fixedly provided at the lower end of the moving block 50 located in the second working chamber 34, an engaging shaft 51 is rotatably provided at the front end of the moving block 50, a moving bevel gear 52 and a half gear 40 are fixedly provided on the engaging shaft 51, the half gear 40 is located in front of the moving bevel gear 52, a bevel gear shaft 35 is rotatably provided on the left side wall of the second working chamber 34, an engaging gear 46 and a main bevel gear 37 are fixedly provided on the bevel gear shaft 35, the engaging gear 46 is located on the right side of the main bevel gear 37, the engaging gear 46 drives the moving block 50 to move forward through the moving rack 47, thereby driving the engaging shaft 51 to move forward, and causing the half gear 40 and the moving bevel gear 52 to move forward.

Advantageously, a worm wheel shaft 38 is rotatably disposed on the lower side wall of the first working chamber 14, the upper end of the worm wheel shaft 38 is located in the second working chamber 34, a secondary bevel gear 36 is fixedly disposed in the second working chamber 34, the secondary bevel gear 36 is in meshing connection with the primary bevel gear 37, a first worm wheel 44 is fixedly disposed in the first working chamber 14 on the worm wheel shaft 38, a worm 22 is rotatably disposed on the rear side wall of the first working chamber 14, the worm 22 is in meshing connection with the first worm wheel 44, a second worm wheel 21 is fixedly disposed on the worm 22, the second worm wheel 21 is in meshing connection with the driven sleeve shaft 20 through the worm wheel and the worm wheel, and the second worm wheel 21 drives the worm 22 to rotate, so that the worm wheel shaft 38 is driven to rotate by the first worm wheel 44.

Advantageously, an electric motor 56 is fixedly arranged at the upper end of the second working chamber 34, the electric motor 56 is positioned at the rear side of the second transmission chamber 65, a power shaft 55 is connected to the lower end of the electric motor 56 in a power mode, a power gear 54 and a power bevel gear 53 are fixedly arranged on the power shaft 55, the power gear 54 is positioned at the upper side of the power bevel gear 53, the power gear 54 is positioned at the lower side of the moving gear 33, the power bevel gear 53 is positioned at the front side of the moving bevel gear 52, and the power shaft 55 drives the power gear 54 and the power bevel gear 53 to rotate.

The following describes in detail the usage steps of an energy-saving tracking type monitoring camera apparatus in the present document with reference to fig. 1 to 3:

in the initial state, the camera 26 is located in the second working chamber 34, the pedal 13 and the slide rod 19 are located at the uppermost side, the extension spring 17 is in the initial state, the moving block 50 is located at the rearmost side, the slide block 62 is located at the uppermost side, and the right side wall of the monitoring area 12 is connected with a room to be monitored;

when the device is used, the starting motor 56 drives the power shaft 55 to rotate, the power shaft 55 drives the power gear 54 and the power bevel gear 53 to rotate, when a person enters the monitoring area 12, the leftmost pedal 13 is stepped on, the slide rod 19 at the leftmost pedal 13 is stressed to descend, the expansion spring 17 is compressed, the slide rod 19 drives the first driven gear 64 to rotate through the driving rack 25, the first driven gear 64 drives the driven shaft 15 to rotate, the driven shaft 15 drives the main belt pulley 16 to rotate, the main belt pulley 16 drives the auxiliary belt pulley 43 to rotate, so that the second belt pulley 27 is driven to rotate through the transmission shaft 23, the second belt pulley 27 drives the first belt pulley 57 to rotate through the belt 39, the first belt pulley 57 drives the driving gear 58 to rotate through the belt pulley shaft 60, so that the slide block 62 is driven to move downwards through the driven rack 61, the moving shaft 63 and the moving gear 33 move downwards, the moving gear 33 is meshed with the lifting gear 32 and the power gear 54, the power gear 54 drives the lifting gear 32 to rotate through the moving gear 33, the lifting gear 32 drives the screw 31 to rotate, thereby driving the lifting block 30 to move downwards to the lowest side, the camera 26 is completely positioned in the monitoring area 12 and monitors the leftmost pedal 13, the rotating shaft 28 and the rotating gear 41 move downwards to the lowest side, a person moves leftwards to leave the leftmost pedal 13, the leftmost pedal 13 and the sliding rod 19 move upwards and return under the action of the expansion spring 17, thereby driving the sliding block 62 to move upwards and return, the moving gear 33 is separated from the lifting gear 32 and the power gear 54, the person moves onto the middle pedal 13, the middle pedal 13 and the sliding rod 19 are forced to fall, the expansion spring 17 is compressed, the middle sliding rod 19 drives the left second driven gear 42 to rotate through the middle driving rack 25, thereby driving the driven sleeve shaft 20 to rotate, the driven sleeve shaft 20 drives the right second driven gear 42 and the second worm wheel 21 to rotate, the second worm wheel 21 drives the first worm wheel 44 to rotate through the worm 22, the first worm wheel 44 drives the secondary bevel gear 36 to rotate through the worm wheel shaft 38, the secondary bevel gear 36 drives the main bevel gear 37 to rotate, so that the engaging gear 46 is driven to rotate through the bevel gear shaft 35, the engaging gear 46 drives the moving block 50 to move forward through the moving rack 47, the second connecting spring 49 is stretched, the engaging shaft 51, the moving bevel gear 52 and the half gear 40 move forward, so that the power bevel gear 53 is engaged with the moving bevel gear 52, the half gear 40 is engaged with the rotating gear 41, the power bevel gear 53 drives the moving bevel gear 52 to rotate, so that the half gear 40 is driven to rotate through the engaging shaft 51, the half gear 40 drives the rotating gear 41 to rotate, the rotating gear 41 drives the camera 26 to rotate through the rotating shaft 28, so that the camera 26 monitors the middle pedal 13, when a person steps on the rightmost pedal 13, the rightmost driving rack 25 keeps the second driven gear 42 in a normal position, so that the moving block 50 keeps moving forward, the half gear 40 keeps meshed with the rotating gear 41, the camera 26 is driven to rotate, the rightmost pedal 13 is monitored, when a person leaves the rightmost pedal 13, the pedal 13 and the sliding rod 19 are reset under the action of the telescopic spring 17, the half gear 40 is separated from the rotating gear 41, and the motor 56 is stopped;

when a person steps on the rightmost pedal 13 again, the starting motor 56 drives the power shaft 55 to rotate reversely, the power bevel gear 53 and the power gear 54 rotate reversely, the rightmost pedal 13 and the rightmost sliding rod 19 move downwards to drive the power bevel gear 53 to be meshed with the moving bevel gear 52, the second connecting spring 49 is meshed with the rotating gear 41 to drive the camera 26 to rotate reversely, when the person leaves the pedal 13 in the middle, the camera 26 resets, the moving block 50 moves backwards to reset, when the person steps on the leftmost pedal 13, the moving gear 33 is meshed with the lifting gear 32 and the power gear 54, the power gear 54 drives the lifting gear 32 to rotate reversely through the moving gear 33, the screw 31 rotates reversely to drive the lifting block 30 to move upwards into the second working cavity 34, and the equipment returns to the initial state.

The invention has the beneficial effects that: the invention is suitable for walkway areas in front of some unusual rooms, when no person is in the room, the monitoring camera is in a standby state, more electricity is saved, and the monitoring camera is in a hidden space, so that the cleanness of the monitoring camera can be kept, the service life of the monitoring camera is prolonged, when the room needs to be used, the monitoring is automatically started, and the monitoring is carried out by following a user, so that the monitoring range is enlarged.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. The utility model provides an energy-saving tracking formula surveillance camera equipment, includes the box, its characterized in that: the box body is provided with a monitoring area with a leftward opening, a first working chamber is communicated with the lower side wall of the monitoring area, a second working chamber is communicated with the upper side wall of the monitoring area, a first transmission chamber is communicated between the first working chamber and the second working chamber and is positioned at the rear side of the monitoring area and communicated with the monitoring area, three pedals are arranged in the first working chamber in a sliding manner and distributed in a left-right array manner, the upper end of each pedal is positioned in the monitoring area, three sliding chutes are communicated with the lower side wall of the first working chamber and distributed in a left-right array manner, sliding grooves are provided with sliding rods in a sliding manner, the upper ends of the sliding rods are positioned in the first working chamber and fixedly connected with the lower ends of the pedals, telescopic springs are connected between the sliding rods and the sliding chutes, and driving racks are fixedly arranged in the first working chamber at the rear ends of the sliding rods, the left side wall of the first working cavity is rotatably provided with a driven shaft, the driven shaft is fixedly provided with a main belt wheel and a first driven gear, the main belt wheel is positioned on the left side of the first driven gear, the first driven gear is meshed with the leftmost driving rack, the driven shaft is rotatably provided with a driven sleeve shaft positioned on the right side of the first driven gear, the driven sleeve shaft is fixedly provided with two second driven gears, the two second driven gears are respectively meshed with the two driving racks on the right side, the upper side wall of the second working cavity is rotatably provided with a screw rod, the screw rod is fixedly provided with a lifting gear, the lower side of the screw rod is in threaded connection with a lifting block positioned on the lower side of the lifting gear, the lifting block is in sliding connection with the rear side wall of the second working cavity and the front side wall of the second working cavity, and is provided with a camera cavity with a left opening and a downward opening, a rotating shaft is rotatably arranged between the camera cavity and the second working cavity, a rotating gear is fixedly arranged in the second working cavity, a camera is fixedly arranged in the camera cavity, the left end of the camera is arranged in the second working cavity, a second transmission cavity is communicated with the side wall of the second working cavity and is arranged at the rear side of the screw rod, a sliding block is arranged in the second transmission cavity in a sliding manner, a first connecting spring is connected between the upper end of the sliding block and the second transmission cavity, a driven rack is fixedly arranged at the rear end of the sliding block, a moving shaft is rotatably arranged at the lower end of the sliding block, the lower end of the moving shaft is arranged in the second working cavity, a moving gear is fixedly arranged in the second working cavity and is arranged at the upper side of the lifting gear, and a belt wheel shaft is rotatably arranged on the left side wall of the second transmission cavity, the belt wheel shaft is positioned at the rear side of the sliding block, a driving gear and a first belt wheel are fixedly arranged on the belt wheel shaft, the driving gear is positioned at the right side of the first belt wheel, and the driving gear is meshed with the driven rack; the transmission shaft is arranged between the left side wall and the right side wall of the first working cavity in a rotating mode, a second belt wheel and an auxiliary belt wheel are fixedly arranged on the transmission shaft, the second belt wheel is located on the right side of the auxiliary belt wheel, the main belt wheel is connected with the auxiliary belt wheel through a belt, and the second belt wheel is connected with the driving gear through a belt.

2. An energy-saving tracking type monitoring camera apparatus according to claim 1, characterized in that: the second working chamber rear side wall intercommunication is equipped with the spring groove, the spring groove slides and is equipped with the movable block, the movable block front end is located in the second working chamber, the movable block with it is equipped with second coupling spring to connect between the spring groove, the movable block lower extreme is located the second working chamber internal fixation is equipped with the removal rack, the movable block front end rotates and is equipped with links up the axle, it is equipped with removal bevel gear and semi-gear to link up epaxial fixedly, semi-gear is located remove bevel gear front side, second working chamber left side wall rotates and is equipped with the bevel gear axle, fixedly on the bevel gear axle be equipped with linking gear and main bevel gear, linking gear is located main bevel gear right side.

3. An energy-saving tracking type monitoring camera apparatus according to claim 2, characterized in that: the side wall rotates under the first working chamber and is equipped with worm-gear shaft, worm-gear shaft upper end is located in the second working chamber, worm-gear shaft is located the fixed vice bevel gear that is equipped with in second working chamber, vice bevel gear with main bevel gear meshing is connected, worm-gear shaft is located the fixed first worm wheel that is equipped with in first working chamber, first working chamber rear side wall rotates and is equipped with the worm, the worm with first worm wheel meshing is connected, the fixed second worm wheel that is equipped with on the worm, the second worm wheel with driven sleeve shaft passes through worm gear and worm meshing and is connected.

4. An energy-saving tracking type monitoring camera apparatus according to claim 3, characterized in that: the motor is fixedly arranged at the upper end of the second working cavity, the motor is located on the rear side of the second transmission cavity, the lower end of the motor is in power connection with a power shaft, a power gear and a power bevel gear are fixedly arranged on the power shaft, the power gear is located on the upper side of the power bevel gear, the power gear is located on the lower side of the movable gear, and the power bevel gear is located on the front side of the movable bevel gear.

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