CN116876387B - Banister machine case - Google Patents

Abstract

The application discloses a barrier gate case, and relates to the technical field of barrier gate cases. The application includes; the box body is internally provided with a baffle plate, the interior of the box body is divided into a first installation cavity and a second installation cavity through the baffle plate, a driving motor is installed in the second installation cavity, an output shaft is installed on the driving motor, and the output shaft penetrates through the second installation cavity to be located outside and is used for being connected with the baffle plate; the connecting mechanism is rotatably arranged in the box body and positioned in the second mounting cavity. According to the application, the staff can move the foot-stepping part in a foot-stepping mode, so that the connecting mechanism can be rotated by matching with the linkage part, and the output shaft can be indirectly rotated, so that the rotation of the baffle plate is realized.

Description

Banister machine case

Technical Field

The application relates to the technical field of barrier gate cases, in particular to a barrier gate case.

Background

The barrier gate in the market at present is generally controlled in an electric mode, but when power is off or other power failures occur, the barrier gate may lose control, so that the barrier plate cannot ascend or descend, and the passing of vehicles is affected. In addition, in some special occasions, such as power failure or emergency situations, manual control of the barrier gate is required, some standby manual operation modes already exist in the market at present, and the most common hand operation mode is a hand operation mode, but the hand operation standby manual operation mode requires a user to manually rotate a crank to control the lifting and lowering of the barrier gate, so that the operation is inconvenient, requires great effort and time, and is easy to cause hand fatigue of the user.

Disclosure of Invention

The application aims at: in order to solve the problems that in the background technology, a hand-operated standby manual operation mode requires a user to manually rotate a crank to control the ascending and descending of a barrier gate, the operation is inconvenient, large effort and time are required, and hand fatigue of the user is easy to cause, the application provides a barrier gate case.

The application adopts the following technical scheme for realizing the purposes:

a barrier gate enclosure comprising;

the box body is internally provided with a baffle plate, the interior of the box body is divided into a first installation cavity and a second installation cavity through the baffle plate, a driving motor is installed in the second installation cavity, an output shaft is installed on the driving motor, and the output shaft penetrates through the second installation cavity to be located outside and is used for being connected with the baffle plate;

the connecting mechanism is rotatably arranged in the box body and positioned in the second mounting cavity, and the connecting mechanism is detachably connected with the output shaft;

The adjusting mechanism is arranged on the second mounting cavity and is provided with a pedal part and a linkage part, the linkage part is linked with the connecting mechanism and the pedal part, and when the pedal part moves, the connecting mechanism is rotated through the linkage part;

And the rebound mechanism is arranged in the second installation cavity and connected with the pedal part and used for resetting the pedal part.

Further, the connecting mechanism comprises a rotating sleeve rotatably installed in the box body, the rotating sleeve is coaxial with the output shaft, a positioning plate is slidably installed on the rotating sleeve, a positioning groove is formed in the outer peripheral side of the output shaft, an adjusting piece for driving the positioning plate to move is installed on the outer peripheral side of the rotating sleeve, and the linkage part acts on the rotating sleeve.

Further, two connecting boxes are symmetrically arranged on the outer periphery side of the rotating sleeve, the two positioning plates are respectively and slidably arranged in the connecting boxes, an adjusting screw is rotatably arranged on the outer periphery side of the rotating sleeve, a threaded plate is sleeved on the adjusting screw, and a forcing rod is hinged between the threaded plate and the positioning plates.

Further, the interlock portion is including rotating the rolling disc of installing on the box, the eccentric structure of one side of rolling disc has the pole, vertical slidable mounting has the drive plate in the box, the sliding tray has been seted up to the level on the drive plate, the pole with the sliding tray slip is tangent, it has the interlock pole to articulate on the drive plate, the free end eccentric hinge of interlock pole is in on the rolling sleeve, pedal portion with install drive assembly between the rolling disc, works as pedal portion removes, through drive assembly so that the rolling disc rotates.

Further, the transmission assembly comprises a ratchet gear which is rotatably mounted on the box body, a mounting plate is vertically and slidably mounted on the box body, a plurality of mounting grooves are vertically formed in the mounting plate, wedge plates are horizontally and slidably mounted on the mounting grooves, a reset spring is mounted between the wedge plates and the mounting grooves, the ratchet gear is connected with the rotating disc through a transmission piece, and when the pedal part moves, the mounting plate moves vertically.

Further, the transmission piece comprises a worm wheel arranged on the rotating disc, a worm meshed with the worm wheel is rotatably arranged on the box body, and a bevel gear assembly is arranged between the worm and the ratchet wheel.

Further, the pedal part comprises a pedal plate vertically arranged on the box body, a transmission plate is vertically rotatably arranged on the box body, a transmission rod is hinged between the transmission plate and the pedal plate, a connecting rod is constructed on the transmission plate, a connecting plate is constructed on the mounting plate, a transmission groove is horizontally formed in the connecting plate, and the connecting rod is tangent to the transmission groove in a sliding manner.

Further, the rebound mechanism comprises a mounting sleeve mounted on the box body, a mounting rod is mounted on the mounting sleeve in a vertical sliding mode, the top of the mounting rod is connected with the pedal plate, and a homing spring is mounted between the mounting rod and the mounting sleeve.

Further, the locating plate includes slidable mounting be in movable plate in the connection box, install conflict shell fragment on the movable plate, conflict shell fragment is kept away from the limiting plate is installed to one side of movable plate, the limiting plate is used for inserting and establishes in the constant head tank, the movable plate with the compel movable rod is articulated.

Further, the output shaft is including installing the actuating lever on the actuating motor, the actuating lever is located outside one end structure and is the rectangle, the slip cap is equipped with a slip section of thick bamboo on the actuating lever, two perforation have been seted up on the actuating lever, the screw thread has been screwed in on the slip section of thick bamboo threaded rod, the power pole is installed in the rotation on the box, power pole one end is located outside and is connected with the sideboard, rectangular channel has been seted up to the one end of power pole, the constant head tank is seted up on the power pole.

The beneficial effects of the application are as follows:

According to the application, the staff can move the foot-stepping part in a foot-stepping mode, so that the connecting mechanism can be rotated by matching with the linkage part, and the output shaft can be indirectly rotated to realize the rotation of the baffle plate.

Drawings

FIG. 1 is a schematic perspective view of the present application;

FIG. 2 is a schematic view of a portion of the structure of the present application;

FIG. 3 is a partial perspective cross-sectional view of FIG. 2 in accordance with the present application;

FIG. 4 is a further partial perspective cross-sectional view of FIG. 3 in accordance with the present application;

FIG. 5 is an enlarged view of the structure of FIG. 3B in accordance with the present application;

FIG. 6 is an enlarged view of the structure of FIG. 4 at C in accordance with the present application;

FIG. 7 is another partial perspective cross-sectional view of FIG. 3 in accordance with the present application;

FIG. 8 is a block diagram of the interior of the enclosure of the present application;

FIG. 9 is a schematic view of the present application from another perspective of FIG. 8;

FIG. 10 is an illustration of the output shaft structure of the present application;

FIG. 11 is an enlarged view of the structure of FIG. 8A in accordance with the present application;

Reference numerals: 1. a case; 2. a partition plate; 3. a first mounting cavity; 4. a second mounting cavity; 5. a driving motor; 6. a connecting mechanism; 601. a rotating sleeve; 602. a positioning plate; 6021. a moving plate; 6022. a limiting plate; 603. a positioning groove; 604. an adjusting member; 6041. a connection box; 6042. adjusting a screw; 6043. a thread plate; 6044. a forcing rod; 6045. a pressing spring plate; 7. a foot step part; 701. a pedal; 702. a drive plate; 703. a transmission rod; 704. a connecting rod; 705. a connecting plate; 706. a transmission groove; 8. a rebound mechanism; 801. a mounting sleeve; 802. a mounting rod; 803. a return spring; 9. a linkage part; 901. a rotating disc; 902. a post; 903. a driving plate; 904. a sliding groove; 905. a linkage rod; 10. a transmission assembly; 1001. a ratchet gear; 1002. a mounting plate; 1003. a mounting groove; 1004. wedge plate; 1005. a return spring; 1006. a transmission member; 10061. a worm wheel; 10062. a worm; 10063. a bevel gear assembly; 11. an output shaft; 1101. a driving rod; 1102. a sliding cylinder; 1103. perforating; 1104. a threaded rod; 1105. a power lever; 1106. rectangular grooves.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application.

As shown in fig. 1-11, a barrier gate chassis according to an embodiment of the present application includes;

The box body 1, the baffle plate 2 is installed in the box body 1, the interior of the box body 1 is divided into a first installation cavity 3 and a second installation cavity 4 through the baffle plate 2, a driving motor 5 is installed in the second installation cavity 4, the second installation cavity 4 can be used for arranging a circuit, an output shaft 11 is installed on the driving motor 5, and the output shaft 11 penetrates through the second installation cavity 4 to be located outside and is used for being connected with a baffle plate; when the driving motor 5 is started, the output shaft 11 rotates, and when the output shaft 11 rotates, the baffle plate is driven to rotate;

the connecting mechanism 6 is rotatably arranged in the box body 1 and positioned in the second mounting cavity 4, and the connecting mechanism 6 is detachably connected with the output shaft 11;

the adjusting mechanism is arranged on the second mounting cavity 4 and is provided with a pedal part 7 and a linkage part 9, the linkage part 9 is linked with the connecting mechanism 6 and the pedal part 7, and when the pedal part 7 moves, the connecting mechanism 6 is rotated through the linkage part 9; when the box body 1 is powered off, a worker only needs to step on the stepping part 7, so that the stepping part 7 can move, the connecting mechanism 6 can rotate through the linkage part 9 in the moving process of the stepping part 7, and the connecting mechanism 6 can be connected with the output shaft 11, so that the output shaft 11 can be indirectly driven to rotate, and the rotation of the baffle plate is realized;

The rebound mechanism 8 is arranged in the second installation cavity 4 and is connected with the pedal 7 and used for resetting the pedal 7, and when the pedal 7 is stepped on by the foot by the staff to move the pedal 7, the rebound mechanism 8 can enable the pedal 7 to move and reset at the moment, so that the staff can conveniently continue to step on the pedal 7;

The specific theory of operation, when driving motor 5 drive output shaft 11 rotates, coupling mechanism 6 at this moment is not connected with output shaft 11, when driving motor 5 unexpected outage, this moment the staff can make coupling mechanism 6 and output shaft 11 connection through coupling mechanism 6, then the staff only need pedal portion 7, pedal portion 7 removes and can make coupling mechanism 6 rotate through linking portion 9 this moment, coupling mechanism 6 is when rotating, because coupling mechanism 6 is connected with output shaft 11 this moment, coupling mechanism 6 rotates and can make output shaft 11 rotate, thereby indirect drive block rotates, and after pedal portion 7 moves to the maximum stroke, can make pedal portion 7 remove through rebound mechanism 8 this moment and reset, thereby make things convenient for the staff to continue pedal portion 7, compare the mode of adopting manual rotation crank, through pedal mode more convenient, because people most shank strength is bigger than hand strength, and the endurance is longer, thereby staff's intensity of labour has been reduced.

As shown in fig. 4, 5 and 8, in some embodiments, the connection mechanism 6 includes a rotating sleeve 601 rotatably mounted in the case 1, the rotating sleeve 601 is coaxial with the output shaft 11, a positioning plate 602 is slidably mounted on the rotating sleeve 601, a positioning groove 603 is formed on the outer peripheral side of the output shaft 11, an adjusting member 604 for driving the positioning plate 602 to move is mounted on the outer peripheral side of the rotating sleeve 601, the linking portion 9 acts on the rotating sleeve 601, that is, when the output shaft 11 of the driving motor 5 normally rotates, the positioning plate 602 at this time is not connected with the positioning groove 603, when the driving motor 5 is powered off, the positioning plate 602 can be moved through the adjusting member 604 at this time, the positioning plate 602 can be inserted in the positioning groove 603 when the positioning plate 602 moves, and when the rotating sleeve 601 is subsequently driven to rotate, the positioning plate 602 can be rotated when the rotating sleeve 601 rotates, so that the output shaft 11 is rotated in cooperation with the positioning groove 603.

As shown in fig. 4, 5 and 8, in some embodiments, two connection boxes 6041 are symmetrically installed on the outer periphery of the rotating sleeve 601, the number of positioning plates 602 is two, and the two connection boxes 6041 are respectively slidably installed in the connection boxes 6041, an adjusting screw 6042 is rotatably installed on the outer periphery of the rotating sleeve 601, a threaded plate 6043 is sleeved on the adjusting screw 6042, a forcing rod 6044 is hinged between the threaded plate 6043 and the positioning plates 602, and the two positioning plates 602 are arranged, so that when the positioning plates 602 are inserted into the positioning grooves 603, the positioning plates 602 are more stable, when the positioning plates 602 are required to be inserted into the positioning grooves 603, the adjusting screw 6042 is rotated at the moment, because the threaded plate 6043 is hinged with the forcing rod 6044, when the adjusting screw 6042 is rotated, the threaded plate 6043 can move along the axial direction of the adjusting screw 6042, the threaded plate 6044 can be driven to move in the moving process, because one end of the forcing rod 6044 is hinged on the positioning plates 602, when the threaded plate 6043 moves, the two forcing plates 6044 can be made to be closer to each other or kept away from each other by the two positioning plates 602 when the two positioning plates 602 are required to be more convenient to be inserted into the positioning grooves 603.

As shown in fig. 4 to 8, in some embodiments, the linkage part 9 includes a rotating disc 901 rotatably mounted on the case 1, one surface of the rotating disc 901 is eccentrically configured with a post 902, a driving plate 903 is vertically slidably mounted in the case 1, a sliding groove 904 is horizontally formed on the driving plate 903, the post 902 is slidably tangent to the sliding groove 904, a linkage rod 905 is hinged on the driving plate 903, a free end of the linkage rod 905 is eccentrically hinged on the rotating sleeve 601, a transmission assembly 10 is mounted between the pedal 7 and the rotating disc 901, when the pedal 7 moves, the rotating disc 901 is rotated by the transmission assembly 10, that is, when the pedal 7 is stepped on, the rotating disc 901 is continuously rotated by the transmission assembly 10, the post 902 is rotated when the rotating disc 901 is rotated, because the post 902 is slidably tangent to the sliding groove 904, when the rotating disc 901 is continuously rotated, relative to the rotating disc 901, the post 902 moves in the sliding groove 904 and rotates along the axis thereof, so that the rotating disk 901 rotates to move the driving plate 903 vertically through the post 902, the driving plate 903 moves to move the linkage rod 905, because one end of the linkage rod 905 is hinged on the rotating disk 901, the driving plate 903 rotates the rotating disk 901 through the linkage rod 905 when moving, so that the rotating disk 901 rotates the output shaft 11 through rotating the positioning plate 602, and it is required to say that the rotating angle of the rotating sleeve 601 is ninety degrees, that is, when the rotating disk 901 rotates one round, the driving plate 903 reciprocates a stroke at this time, so that the rotating sleeve 601 rotates ninety degrees, so that the blocking plate rotates to the horizontal or vertical direction, that is, the working personnel only needs to continuously step on the foot pedal 7 to continuously rotate the rotating disk 901, so that the driving plate 903 vertically reciprocates, the use is more convenient.

As shown in fig. 6 and 8, in some embodiments, the transmission assembly 10 includes a ratchet gear 1001 rotatably mounted on the case 1, a mounting plate 1002 is vertically slidably mounted on the case 1, a plurality of mounting grooves 1003 are vertically formed on the mounting plate 1002, a wedge plate 1004 is horizontally slidably mounted on the plurality of mounting grooves 1003, a return spring 1005 is mounted between the wedge plate 1004 and the mounting grooves 1003, the ratchet gear 1001 is connected with the rotating plate 901 through a transmission member 1006, when the pedal 7 moves, the mounting plate 1002 is vertically moved, that is, the mounting plate 1002 can be vertically moved by the pedal 7, the inclined surface of the wedge plate 1004 is in contact with the inclined surface of the ratchet gear 1001 when the mounting plate 1002 moves vertically upwards, so that the wedge plate 1004 can be moved in the case mounting plate 1002, and then when the mounting plate 1002 moves downwards, the bottom plane of the wedge plate 1004 can be in contact with the plane of the ratchet gear 1001, so that the ratchet gear 1001 is driven to rotate, the rotating plate 901 can rotate through the transmission member 1006, so that the rotating plate 901 can be continuously rotated, when the pedal 1002 is continuously moved by the pedal 7, the rebound mechanism 8 can continuously move upwards, that the mounting plate 1002 can continuously move with the inclined surface of the pedal 1002, that the mounting plate 1002 can continuously move upwards, that the rebound mechanism can be continuously moved by the rebound mechanism 8.

As shown in fig. 8, 9 and 11, in some embodiments, the transmission member 1006 includes a worm wheel 10061 mounted on a rotating disc 901, a worm 10062 engaged with the worm wheel 10061 is rotatably mounted on the case 1, a bevel gear assembly 10063 is mounted between the worm 10062 and the ratchet wheel 1001, the bevel gear assembly 10063 is two bevel gears, one bevel gear is connected with the worm 10062, the other bevel gear is connected with the ratchet wheel 1001, when the ratchet wheel 1001 rotates, the worm 10062 rotates the worm wheel 10061 when the worm wheel 10062 rotates, the worm wheel 10061 is connected with the rotating disc 901, the rotating disc 901 rotates due to the connection of the worm wheel 10061 and the worm wheel 10061, and the blocking plate does not move downward by itself due to the gravity of the blocking plate when the mounting plate 1002 is from bottom to top, so that the safety is further improved, and the blocking plate is prevented from accidentally falling when a worker steps on the foot pedal 7.

As shown in fig. 3 and 4, in some embodiments, the pedal 7 includes a pedal 701 vertically mounted on the case 1, a transmission plate 702 is vertically rotatably mounted on the case 1, a transmission rod 703 is hinged between the transmission plate 702 and the pedal 701, a connection rod 704 is configured on the transmission plate 702, a connection plate 705 is configured on the mounting plate 1002, a transmission groove 706 is horizontally formed on the connection plate 705, the connection rod 704 is in sliding tangency with the transmission groove 706, that is, when a worker pedals the pedal 701, at this time, downward movement of the pedal 701 causes the transmission rod 703 hinged on the pedal 701 to move downward, because the transmission rod 703 is hinged with the transmission plate 702, the transmission plate 702 is indirectly driven to move by the transmission rod 704 when the pedal 701 moves, because the connection rod 704 is in sliding tangency with the transmission groove 706 when the transmission plate 704 rotates, the connection rod 704 moves relatively when the transmission groove 706 moves and rotates along the self axis, so that the transmission plate 702 is forced to move vertically by the connection rod 704 when the connection plate 705 rotates, and the mounting plate 1002 is caused to move vertically by the connection plate 1002.

As shown in fig. 2-4, in some embodiments, the rebound mechanism 8 includes a mounting sleeve 801 mounted on the case 1, a mounting rod 802 is vertically slidably mounted on the mounting sleeve 801, the top of the mounting rod 802 is connected with the pedal 701, a homing spring 803 is mounted between the mounting rod 802 and the mounting sleeve 801, when the pedal 701 moves downward, the mounting rod 802 moves downward at this time, so that the homing spring 803 is compressed, when the pedal 701 moves downward to the maximum limit, a worker does not apply force to the pedal 701 at this time, the homing spring 803 resets, so that the pedal 701 moves upward, so that the pedal 701 resets, and thus the worker only needs to move the pedal 701 downward, thereby saving more effort.

As shown in fig. 5, fig. 8 and fig. 9, in some embodiments, the positioning plate 602 includes a moving plate 6021 slidably mounted in the connection box 6041, an abutting elastic sheet 6045 is mounted on the moving plate 6021, one side of the abutting elastic sheet 6045 away from the moving plate 6021 is mounted with a limiting plate 6022, the limiting plate 6022 is used for being inserted in the positioning groove 603, the moving plate 6021 is hinged with the forcing rod 6044, the abutting elastic sheet 6045 is designed such that when the limiting plate 6022 is required to be inserted in the positioning groove 603 and the limiting plate 6022 does not correspond to the positioning groove 603, at this time, the moving plate 6021 is moved after the adjusting screw 6042, because the moving plate 6021 is connected with the abutting elastic sheet 6045, the abutting elastic sheet 6045 is connected with the limiting plate 6022, so that the moving plate 6021 moves, thereby the limiting plate 6022 is abutted on the periphery side of the output shaft 11, at this time, the abutting elastic sheet 6045 is in a compressed state, and then the foot treads the rotating sleeve 601 rotates until the limiting plate 6022 is opposite to the positioning groove 603, thereby the elastic sheet 6022 is clamped in the positioning groove 603, and the elastic sheet is clamped in the positioning groove 6022 more conveniently.

As shown in fig. 8-10, in some embodiments, the output shaft 11 includes a driving rod 1101 mounted on the driving motor 5, one end of the driving rod 1101 located outside is configured to be rectangular, a sliding sleeve 1102 is slidably sleeved on the driving rod 1101, two through holes 1103 are formed on the driving rod 1101, a threaded rod 1104 is screwed into the sliding sleeve 1102, a power rod 1105 is rotatably mounted on the box 1, one end of the power rod 1105 is located outside and connected with a blocking plate, a rectangular groove 1106 is formed at one end of the power rod 1105, a positioning groove 603 is formed on the power rod 1105, when the output shaft 11 needs to be manually rotated, the threaded rod 1104 is screwed out, then the sliding sleeve 1102 is slid, the sliding sleeve 1102 is separated from the rectangular groove 1106, then the threaded rod 1104 is screwed into the corresponding through hole 1103, so that the driving rod 1101 is separated from the power rod 1105, then a limiting plate 6022 is moved to be clamped in the positioning groove 6022, when the rotating sleeve 601 rotates, the power rod 1105 is only rotated, the driving rod connected with the driving motor 5 is not rotated, and thus the torque of the driving plate 1101 is prevented from being further manually driven by a worker when the driving plate 1101 is required to be driven.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (6)

1. The utility model provides a banister machine case which characterized in that includes;

the box body (1), box body (1) internally mounted has baffle (2), through baffle (2) in order to divide into first installation cavity (3) and second installation cavity (4) with box body (1) inside, install driving motor (5) in second installation cavity (4), install output shaft (11) on driving motor (5), output shaft (11) pass second installation cavity (4) and are located the outside, and it is used for being connected with the barrier;

The connecting mechanism (6) is rotatably arranged in the second mounting cavity (4), and the connecting mechanism (6) is detachably connected with the output shaft (11);

The adjusting mechanism is arranged on the second mounting cavity (4) and is provided with a foot pedal part (7) and a linkage part (9), the linkage part (9) is linked with the connecting mechanism (6) and the foot pedal part (7), and when the foot pedal part (7) moves, the connecting mechanism (6) is rotated through the linkage part (9);

The rebound mechanism (8) is arranged in the second installation cavity (4) and is connected with the pedal part (7) and used for resetting the pedal part (7);

The connecting mechanism (6) comprises a rotating sleeve (601) rotatably installed in the box body (1), the rotating sleeve (601) is coaxial with the output shaft (11), a positioning plate (602) is slidably installed on the rotating sleeve (601), a positioning groove (603) is formed in the outer peripheral side of the output shaft (11), an adjusting piece (604) for driving the positioning plate (602) to move is installed in the outer peripheral side of the rotating sleeve (601), and the linkage part (9) acts on the rotating sleeve (601);

The linkage part (9) comprises a rotating disc (901) rotatably mounted on the box body (1), a post rod (902) is eccentrically arranged on one surface of the rotating disc (901), a driving plate (903) is vertically and slidably mounted in the box body (1), a sliding groove (904) is horizontally formed in the driving plate (903), the post rod (902) is slidably tangent to the sliding groove (904), a linkage rod (905) is hinged to the driving plate (903), the free end of the linkage rod (905) is eccentrically hinged to the rotating sleeve (601), a transmission assembly (10) is mounted between the pedal part (7) and the rotating disc (901), and when the pedal part (7) moves, the rotating disc (901) rotates through the transmission assembly (10);

The transmission assembly (10) comprises a ratchet gear (1001) rotatably mounted on the box body (1), a mounting plate (1002) is vertically and slidably mounted on the box body (1), a plurality of mounting grooves (1003) are vertically formed in the mounting plate (1002), wedge plates (1004) are horizontally and slidably mounted on the mounting grooves (1003), a reset spring (1005) is mounted between the wedge plates (1004) and the mounting grooves (1003), the ratchet gear (1001) is connected with the rotating plate (901) through a transmission piece (1006), and when a pedal part (7) moves, the mounting plate (1002) vertically moves;

The pedal part (7) comprises a pedal plate (701) vertically arranged on the box body (1), a transmission plate (702) is vertically arranged on the box body (1) in a rotating mode, a transmission rod (703) is hinged between the transmission plate (702) and the pedal plate (701), a connecting rod (704) is constructed on the transmission plate (702), a connecting plate (705) is constructed on the mounting plate (1002), a transmission groove (706) is horizontally formed in the connecting plate (705), and the connecting rod (704) is tangent to the transmission groove (706) in a sliding mode.

2. The banister machine case according to claim 1, wherein two connecting boxes (6041) are symmetrically installed on the outer periphery side of the rotating sleeve (601), the number of the positioning plates (602) is two, the positioning plates are respectively installed in the connecting boxes (6041) in a sliding mode, an adjusting screw (6042) is rotatably installed on the outer periphery side of the rotating sleeve (601), a threaded plate (6043) is sleeved on the adjusting screw (6042), and a forcing rod (6044) is hinged between the threaded plate (6043) and the positioning plates (602).

3. The barrier enclosure of claim 1, wherein the transmission member (1006) includes a worm wheel (10061) mounted on the rotating disc (901), a worm (10062) engaged with the worm wheel (10061) is rotatably mounted on the enclosure (1), and a bevel gear assembly (10063) is mounted between the worm (10062) and the ratchet wheel (1001).

4. A barrier gate housing according to claim 1, wherein the rebound mechanism (8) comprises a mounting sleeve (801) mounted on the housing (1), a mounting rod (802) is vertically slidably mounted on the mounting sleeve (801), the top of the mounting rod (802) is connected with the pedal (701), and a return spring (803) is mounted between the mounting rod (802) and the mounting sleeve (801).

5. The barrier gate case according to claim 2, wherein the positioning plate (602) comprises a moving plate (6021) slidably mounted in the connection box (6041), an abutting elastic sheet (6045) is mounted on the moving plate (6021), a limiting plate (6022) is mounted on one side, away from the moving plate (6021), of the abutting elastic sheet (6045), the limiting plate (6022) is used for being inserted into the positioning groove (603), and the moving plate (6021) is hinged with the forcing rod (6044).

6. The barrier gate case according to claim 1, wherein the output shaft (11) comprises a driving rod (1101) mounted on the driving motor (5), one end of the driving rod (1101) located outside is rectangular, a sliding sleeve is arranged on the driving rod (1101) and provided with a sliding cylinder (1102), two through holes (1103) are formed in the driving rod (1101), a threaded rod (1104) is screwed into the sliding cylinder (1102), a power rod (1105) is rotatably mounted on the case (1), one end of the power rod (1105) is located outside and connected with the barrier, a rectangular groove (1106) is formed in one end of the power rod (1105), and a positioning groove (603) is formed in the power rod (1105).