CN209854601U - Wide-channel intelligent gate - Google Patents

Abstract

The utility model discloses a wide passageway intelligence floodgate machine, including metal sensor, worm gear motor, electro-magnet sucking disc, motor shaft sleeve, outer fin, interior fin, floodgate machine right side upper cover, casing main part, wide passageway intelligence floodgate machine core, infrared correlation sensor and support column, it is exactly wing floodgate base, core bottom plate, motor cabinet, electro-magnet fixing base, electro-magnet sucking disc seat, fin pendulum rod base to support the main part, and double wing piece actuating mechanism installs in supporting the main part, and floodgate machine right side upper cover is fixed in casing main part top, wide passageway intelligence floodgate machine core is fixed in the casing main part, and infrared correlation sensor fixes in the casing main part. The utility model discloses, powerful, the effect is accurate, and sets up inside and outside brake lining, reduces the volume of floodgate machine.

Description

Wide-channel intelligent gate

Technical Field

The utility model relates to a floodgate machine technical field specifically is a wide passageway intelligence floodgate machine.

Background

Along with social development and change, the gate is a high-tech product mainly aiming at carrying out intelligent management on personnel channels, is fine in processing, complete in function and high in grade, and is mainly used for high-grade places such as high-grade districts, intelligent buildings, hotels, subways, wharfs and convention places. The intelligent barrier-free personnel passing control system is a set of rapid barrier-free personnel passing control system with powerful functions and is ideal equipment for realizing intelligent personnel passing management. However, wide channel gates on the market can be made wider in order to meet the requirement of channel width, so that the attractiveness is influenced, and the requirement on the field is greatly increased. In addition, the phenomena of inaccurate detection caused by too small number of sensors are common in the gate machines on the market.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a wide passageway intelligence floodgate machine possesses powerful, and the effect is accurate, and sets up inside and outside brake lining, reduces the advantage of the volume of floodgate machine, solves nevertheless wide passageway floodgate machine on the market and requires all can be with the comparison width that the floodgate machine was done in order to satisfy the passageway width, does so not only to have influenced pleasing to the eye, also great increase the requirement to the place. In addition, the gate machines on the market have the common problem that the detection is inaccurate due to the small number of sensors.

In order to achieve the above object, the utility model provides a following technical scheme: a wide-channel intelligent gate comprises a metal sensor, a worm gear speed reducing motor, an electromagnet sucker, a motor shaft sleeve, an outer wing, an inner wing, a right upper cover of the gate, a shell main body, a wide-channel intelligent gate movement, an infrared correlation sensor and a support column, wherein the support main body is a wing gate base, a movement base plate, a motor base, an electromagnet fixing base, an electromagnet sucker base and a wing oscillating bar base, a double-wing driving mechanism is arranged on the support main body, and comprises the metal sensor, an induction screw, the worm gear speed reducing motor, a rocker, an electromagnet, a joint bearing assembly, the electromagnet sucker, a buffer shaft, a connecting rod shaft, a crank body, a motor shaft rod, a motor shaft sleeve, a rocker shaft, an outer wing, an inner wing connecting rod shaft C, a wing oscillating bar, an inner wing connecting rod C, an inner wing connecting rod shaft D and, The inner wing piece connecting rod C is connected with the wing piece swing rod base through an inner wing piece connecting rod shaft D, the inner wing piece connecting rod C is connected with the wing piece swing rod base through an inner wing piece connecting rod C, the wing piece swing rod is fixedly connected with the electromagnet sucker base through an electromagnet sucker seat, the electromagnet sucker seat is connected with a joint sucker bearing assembly and an electromagnet sucker seat through a buffer shaft, the electromagnetic suction disc seat is connected with the electromagnet in an attraction mode, the electromagnet is fixedly connected with the electromagnet fixing seat, the electromagnet fixing seat is fixedly connected with a rocker, the rocker is connected with the wing swing rod base through a rocker shaft, the rocker is connected with a connecting rod through a connecting rod shaft, the connecting rod is connected with a crank body through a crank shaft, the crank body is connected with a motor shaft sleeve and a worm gear speed reducing motor through a motor shaft rod, the worm gear speed reducing motor is fixedly connected with the motor seat, and the metal sensor is fixedly connected with the wing swing rod base.

Preferably, the upper right cover of the gate is fixed above the shell main body, the wide-channel intelligent gate movement is fixed in the shell main body, and the infrared correlation sensor is fixed in the shell main body.

Preferably, the motor drive controller controls the worm gear speed reduction motor to stop working by sensing the approach of the screw to the metal sensor.

Preferably, the metal sensor is a proximity switch sensor, when the sensing screw approaches the sensing area of the switch, the switch can send out an electrical command rapidly without contact and pressure or spark, the position and the stroke of the movement mechanism can be accurately reflected, and the positioning precision, the operating frequency, the service life, the convenience of installation and adjustment and the applicability to severe environments of the movement mechanism cannot be compared with those of a common mechanical travel switch.

Preferably, a machine core bottom plate is fixed on the lower surface of the motor base, ejection springs are welded at four corners of the lower surface of the machine core bottom plate, a wing gate base is welded on the lower surface of the machine core bottom plate, a limiting block is welded on the wing gate base, the supporting columns are movably inserted into the limiting block, the top ends of the supporting columns are movably inserted into the lower surfaces of the ejection springs, and the bottom ends of the supporting columns are fixed on the inner wall of the machine shell main body through mounting nails.

Preferably, the worm gear speed reduction motor is controlled by generating a PWM wave through a motor driving controller.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the utility model discloses a worm gear speed reduction motor its characteristics lie in that mechanical structure is compact, the volume appearance is light and handy, small-size high-efficient, heat exchange performance is good, the heat dissipation is fast, the installation is simple and easy, nimble light and swift, superior performance, easy to maintain maintenance, operate steadily, the noise is little, durable, usability are strong, adopt the totally enclosed structure, prevent inside dust gets into the motor, fail safe nature is big.

2. The utility model discloses use joint bearing assembly to increase electromagnet chuck's aligning function and buffer function avoid appearing electromagnet chuck seat bending dimension causes incorrectly the electro-magnet can't with electromagnet chuck actuation perhaps the crank smart work piece machining dimension such as connecting rod has the mistake and causes the problem of motor stalling, great improvement electromagnet chuck's flexibility and reliability are high.

3. When the double-wing door is closed and people or objects are clamped, the electromagnet is automatically powered off because the metal sensor cannot sense the induction screw in 3S, and when the double-wing door falls to the lowest point, the electromagnet is automatically powered on, and under the motion that the worm gear and worm reduction motor drives the crank and the oscillating bar, the electromagnet and the electromagnet sucker are attracted again to close the brake.

Drawings

Fig. 1 is a schematic structural view of a wide-channel intelligent gate movement of the present invention;

fig. 2 is a schematic structural view of the wide-channel intelligent gate movement of the present invention;

fig. 3 is a schematic structural view of the wide-channel intelligent gate movement of the present invention;

FIG. 4 is a schematic view of the external structure of the wide-channel intelligent gate of the present invention;

fig. 5 is a schematic view of the damping connection structure between the wing gate base and the casing body of the present invention.

In the figure: 1. a wing gate base; 2. a machine core bottom plate; 3. a motor base; 4. a metal sensor; 5. an induction screw; 6. a worm gear reduction motor; 7. a rocker; 8. an electromagnet fixing seat; 9. an electromagnet; 10. an articulating bearing assembly; 11. an electromagnet chuck; 12. an electromagnet sucker seat; 13. a buffer shaft; 14. a connecting rod; 15. a crank shaft; 16. a crank body; 17. a motor shaft lever; 18. a motor shaft sleeve; 19. a rocker shaft; 20. a double-wing connecting shaft; 21. an outer wing panel; 22. an inner fin; 23. a base of a wing swing rod; 24. inner wing link shaft C; 25. a wing swing link; 26. an inner wing connecting rod C; 27. an inner wing link shaft D; 28. an inner wing connecting rod D; 29. an inner wing connecting rod shaft A; 30. an inner wing connecting rod B; 31. an inner wing connecting rod shaft B; 32. an inner wing connecting rod A; 33. a motor drive controller; 34. a link shaft; 35. a gate right upper cover; 36. a case main body; 37. a wide channel intelligent gate movement; 38. an infrared correlation sensor; 39. ejecting a spring; 40. a support pillar; 41. a limiting block; 42. and (6) installing the nail.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element to which the reference is made must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, and for example, "connected" may be either fixedly connected or detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 5, the present invention provides an embodiment: a wide-channel intelligent gate comprises a metal sensor 4, a worm and gear speed-reducing motor 6, an electromagnet sucker 11, a motor shaft sleeve 18, an outer wing 21, an inner wing 22, a gate right upper cover 35, a shell main body 36, a wide-channel intelligent gate movement 37, an infrared correlation sensor 38 and a support pillar 40, wherein the support main body is a wing gate base 1, a movement bottom plate 2, a motor base 3, an electromagnet fixing base 8, an electromagnet sucker base 12 and a wing swing rod base 23, a double-wing driving mechanism is arranged on the support main body, and the double-wing driving mechanism comprises the metal sensor 4, an induction screw 5, the worm and gear speed-reducing motor 6, a swing rod 7, an electromagnet 9, a joint bearing assembly 10, the electromagnet sucker 11, a buffer shaft 13, a connecting rod 14, a connecting rod shaft 34, a crank body 16, a motor shaft rod 17, the motor shaft sleeve 18, a swing rod shaft 19, the outer wing 21, the inner wing 22 and an inner wing connecting rod, The wing swing rod 25, the inner wing connecting rod C26, the inner wing connecting rod shaft D27, the inner wing connecting rod D28, the inner wing connecting rod shaft A29, the inner wing connecting rod B30, the inner wing connecting rod shaft B31, the inner wing connecting rod A32, the motor drive controller 3 and the connecting rod shaft 34.

The outer wing 21 and the inner wing 22 are connected through a double-wing connecting shaft 20, the outer wing 21 and the wing swing rod 25 are fixedly connected, the wing swing rod 25 is connected with a wing swing rod base 23 through a rocker shaft 19, the inner wing 22 is connected with an inner wing connecting rod shaft A29, an inner wing connecting rod shaft A29 is connected with an inner wing connecting rod B30, an inner wing connecting rod B30 is fixedly connected with an inner wing connecting rod B30 through an inner wing connecting rod shaft A29, an inner wing connecting rod B30 is connected with an inner wing connecting rod C26 through an inner wing connecting rod shaft D27, an inner wing connecting rod C26 is connected with the wing swing rod base 23 through an inner wing connecting rod shaft C24, the wing swing rod 25 is fixedly connected with an electromagnet seat 12, the electromagnet sucker seat 12 is connected with a joint bearing assembly 10 and an electromagnet sucker seat 12 through a buffer shaft 13, the sucker seat 12 is connected with an electromagnet 9 in a suction mode, the electromagnet 9 is fixedly connected with an electromagnet 8, and the fixed seat 8 is fixedly connected with a rocker 7, the rocker 7 is connected with the wing swing rod base 23 through a rocker shaft 19, the rocker 7 is connected with the connecting rod 14 through a connecting rod shaft 34, the connecting rod 14 is connected with the crank body 16 through a crank shaft 15, the crank body 16 is connected with the motor shaft sleeve 18 and the worm gear reduction motor 6 through a motor shaft rod 17, the worm gear reduction motor 6 is fixedly connected with the motor base 3, and the metal sensor 4 is fixedly connected with the wing swing rod base 23. The upper right gate cover 35 is fixed above the main case body 36, the wide-channel intelligent gate movement 37 is fixed in the main case body 36, and the infrared correlation sensor 38 is fixed in the main case body 36.

The motor drive controller 33 controls the stop of the worm gear reduction motor 6 by sensing the approach of the screw 5 to the metal sensor 4. The metal sensor 4 is a proximity switch sensor, and when the sensing screw 5 is close to the sensing area of the switch, the switch can rapidly send out an electrical command without contact, pressure and spark, and accurately reflect the position and the stroke of the movement mechanism.

The lower fixed surface of motor cabinet 3 has core bottom plate 2, and the welding of the lower surface four corners position department of core bottom plate 2 has ejecting spring 39, and the welding of core bottom plate 2 lower surface has wing floodgate base 1, and the welding has stopper 41 on the wing floodgate base 1, and support column 40 activity is pegged graft in stopper 41, and the top activity of support column 40 is pegged graft at ejecting spring 39's lower surface, and the bottom of support column 40 is passed through the mounting nail 42 and is fixed at the inner wall of casing main part 36, plays absorbing effect.

The worm gear motor 6 is controlled by generating a PWM wave by the motor drive controller 33. The utility model discloses a worm gear speed reduction motor 6 its characteristics lie in that mechanical structure is compact, the volume appearance is light and handy, small-size high-efficient, heat exchange performance is good, the heat dissipation is fast, the installation is simple and easy, nimble light and swift, superior performance, easy to maintain overhaul, operate steadily, the noise is little, durable, usability are strong, adopt the totally enclosed structure, prevent inside dust gets into the motor, fail safe nature is big.

The utility model discloses use joint bearing assembly 10 to increase electro-magnet sucking disc 11's aligning function and buffer function, avoid appearing electro-magnet sucking disc seat 12 bending size incorrect cause electro-magnet 9 can't have the mistake with electro-magnet sucking disc 11 actuation or smart work piece machining dimension such as crank body 16, connecting rod 14 and cause the problem of motor locked rotor, great improvement electro-magnet sucking disc 11's flexibility and reliability height.

When the double-wing door is closed and people or objects are clamped, the electromagnet 9 is automatically powered off because the metal sensor 4 in the 3S cannot sense the induction screw 5, and when the double-wing door falls to the lowest point, the electromagnet 9 is automatically powered on, and the electromagnet 9 and the electromagnet sucker 11 are attracted again to close the brake under the motion of the crank body 16 and the oscillating bar driven by the worm and gear speed reducing motor 6.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a wide passageway intelligence floodgate machine, includes metal sensor (4), worm gear motor (6), electro-magnet sucking disc (11), motor shaft cover (18), outer fin (21), interior fin (22), floodgate machine right side upper cover (35), casing main part (36), wide passageway intelligence floodgate machine core (37), infrared correlation sensor (38) and support column (40), its characterized in that: the supporting main body is a wing gate base (1), a machine core bottom plate (2), a motor base (3), an electromagnet fixing base (8), an electromagnet sucker base (12) and a wing swing rod base (23), the double-wing driving mechanism is installed on the supporting main body and comprises a metal sensor (4), an induction screw (5), a worm gear speed reduction motor (6), a rocker (7), an electromagnet (9), a joint bearing assembly (10), an electromagnet sucker (11), a buffer shaft (13), a connecting rod (14), a connecting rod shaft (34), a crank body (16), a motor shaft lever (17), a motor shaft sleeve (18), a rocker shaft (19), an outer wing (21), an inner wing (22), an inner wing connecting rod shaft C (24), a wing swing rod (25), an inner wing connecting rod C (26), an inner wing connecting rod shaft D (27), an inner wing connecting rod D (28) and a shaft, An inner wing connecting rod shaft A (29), an inner wing connecting rod B (30), an inner wing connecting rod shaft B (31), an inner wing connecting rod A (32), a motor drive controller (33) and a connecting rod shaft (34), wherein the outer wing (21) and the inner wing (22) are connected through a double-wing connecting shaft (20), the outer wing (21) and the wing oscillating rod (25) are fixedly connected, the wing oscillating rod (25) is connected with a wing oscillating rod base (23) through a rocker shaft (19), the inner wing (22) is connected with the inner wing connecting rod shaft A (29), the inner wing connecting rod shaft A (29) is connected with the inner wing connecting rod B (30), the inner wing connecting rod B (30) is fixedly connected with the inner wing connecting rod B (30) through the inner wing connecting rod shaft A (29), and the inner wing connecting rod B (30) is connected with the inner wing connecting rod C (26) through an inner wing connecting rod shaft D (27), the inner wing connecting rod C (26) is connected with the wing swing rod base (23) through an inner wing connecting rod shaft C (24), the wing swing rod (25) is fixedly connected with the electromagnet sucker seat (12), the electromagnet sucker seat (12) is connected with the joint bearing assembly (10) and the electromagnet sucker seat (12) through a buffer shaft (13), the electromagnet sucker seat (12) is connected with the electromagnet (9) in a suction mode, the electromagnet (9) is fixedly connected with the electromagnet fixing seat (8), the electromagnet fixing seat (8) is fixedly connected with a rocker (7), the rocker (7) is connected with the wing swing rod base (23) through a rocker shaft (19), the rocker (7) is connected with the worm connecting rod (14) through a connecting rod shaft (34), the connecting rod (14) is connected with the crank body (16) through a crank shaft (15), and the crank body (16) is connected with the motor shaft sleeve (18) and the worm gear motor (6) through a motor shaft rod (17) And the worm gear and worm reduction motor (6) is fixedly connected with the motor base (3), and the metal sensor (4) is fixedly connected with the wing swing rod base (23).

2. The wide-channel intelligent gate machine according to claim 1, characterized in that: the gate right upper cover (35) is fixed above the shell main body (36), the wide-channel intelligent gate movement (37) is fixed in the shell main body (36), and the infrared correlation sensor (38) is fixed in the shell main body (36).

3. The wide-channel intelligent gate machine according to claim 1, characterized in that: the motor driving controller (33) controls the stop work of the worm gear speed reducing motor (6) by sensing the approach of the screw (5) to the metal sensor (4).

4. The wide-channel intelligent gate machine according to claim 1, characterized in that: the metal sensor (4) is a proximity switch sensor, when the sensing screw (5) is close to the sensing area of the switch, the switch can send out an electric command rapidly without contact, pressure and spark, and the position and the stroke of the movement mechanism are accurately reflected.

5. The wide-channel intelligent gate machine according to claim 1, characterized in that: the motor cabinet (3) lower fixed surface has core bottom plate (2), and the welding of the lower surface four corners position department of core bottom plate (2) has ejecting spring (39), and core bottom plate (2) lower surface welding has wing floodgate base (1), and the welding has stopper (41) on wing floodgate base (1), support column (40) activity is pegged graft in stopper (41), and the top activity of support column (40) is pegged graft at the lower surface of ejecting spring (39), and the bottom of support column (40) is passed through mounting nail (42) and is fixed the inner wall at casing main part (36).

6. The wide-channel intelligent gate machine according to claim 1, characterized in that: the worm gear and worm speed reducing motor (6) is controlled by generating PWM (pulse-width modulation) waves through a motor driving controller (33).