CN210868526U - Heat radiator for banister core - Google Patents

Abstract

The utility model discloses a heat abstractor of banister core relates to heat abstractor technical field has solved the relatively poor problem of radiating effect. The technical key points are as follows: the power transmission box comprises a box body, a driven sealing cylinder, a driven piston block, drive assembly and baffle, the box is equipped with the heat dissipation window that is blocked by the baffle, driven piston block fixedly connected with stretch out driven sealing cylinder and with baffle articulated driven piston rod, driven sealing cylinder's lateral wall intercommunication has first hose and second hose, first hose and second hose all communicate with drive assembly, drive assembly is connected with the banister pole, be equipped with the elastic component that orders about the baffle and block the heat dissipation window between baffle and the box, the driven piston block is equipped with the air vent. The angle of the baffle is adjusted according to the working state of the barrier gate movement, so that dust is prevented from entering the box body on the premise of ensuring the heat dissipation requirement of the heat dissipation barrier gate movement, a better heat dissipation effect is achieved, and the heat dissipation barrier gate movement is suitable for being applied to outdoor places such as open-air parking lots, high-speed toll stations and open-air square security inspection ports.

Description

Heat radiator for banister core

Technical Field

The utility model relates to a heat abstractor technical field, especially a heat abstractor of banister core.

Background

The barrier gate is a device capable of controlling people flow and traffic flow, and comprises a box body, a barrier gate core and a barrier gate rod, wherein the barrier gate core is provided with a core shaft for driving the barrier gate rod to rotate. Barriers are commonly found in roads, parking lots, security checkpoints and the like, and therefore, many barriers need to be arranged outdoors for use. The motor and other parts capable of generating a large amount of heat are arranged in most of the conventional barriers, so that the barrier core needs to dissipate heat during working, and the heat dissipated by the barrier core is discharged to the outside of the barrier through flowing air by arranging vent holes in most of the barriers in the market. And because often there is more dust in the open air, the dust gets into inside the banister and adheres to on the banister core through the air vent easily, influences the radiating effect of banister core. Therefore, the problem of poor heat dissipation effect exists in the prior art.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above disadvantages of the prior art, the present invention provides a heat dissipation device for a barrier gate movement, which has a better heat dissipation effect.

The utility model provides a technical scheme that its technical problem adopted is:

a heat dissipation device of a barrier gate movement comprises a box body, a driven sealing cylinder, a driven piston block, a driving assembly and a baffle plate, the driven sealing cylinder and the baffle are rotationally connected with the box body, the box body is provided with a heat radiation window blocked by the baffle, the driven piston block is positioned in the driven sealing cylinder and is in sliding connection with the driven sealing cylinder, the driven piston block is fixedly connected with a driven piston rod which extends out of the driven sealing cylinder and is hinged with the baffle plate, the side wall of the driven sealing cylinder is communicated with a first hose and a second hose, the distance between the first hose and the second hose in the sliding direction of the driven piston block is larger than the width of the driven piston block, the first hose and the second hose are both communicated with a driving component, the driving component is connected with the barrier gate rod, an elastic piece for driving the baffle to block the heat dissipation window is arranged between the baffle and the box body, and the driven piston block is provided with a vent hole.

As a further improvement of the utility model: the drive assembly includes initiative sealing cylinder and initiative piston piece, and initiative sealing cylinder rotates with the box to be connected, the initiative piston piece is located initiative sealing cylinder and initiative piston piece and initiative sealing cylinder sliding connection, initiative piston piece fixedly connected with stretch out initiative sealing cylinder and with the banister pole articulated initiative piston rod, first hose and second hose all communicate with initiative sealing cylinder, first hose and second hose are greater than the width of initiative piston piece at the ascending interval of initiative piston piece slip direction.

As a further improvement of the utility model: the diameter of the driving sealing cylinder is larger than that of the driven sealing cylinder.

As a further improvement of the utility model: damping cotton is arranged in the vent holes.

As a further improvement of the utility model: the box is equipped with the intake pipe with the inside intercommunication of box, the box is installed and is located the inlet fan of intake pipe department, the one end slope that the intake pipe is close to the box outside is downward, the intake pipe is equipped with the dust screen.

As a further improvement of the utility model: the heat dissipation window and the air inlet pipe are respectively positioned at the upper part and the lower part of the box body.

As a further improvement of the utility model: the box fixed mounting has the button switch with inlet fan electric connection, button switch is equipped with the inclined plane with the baffle butt.

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

when the barrier gate core does not drive the barrier gate rod to rotate, the heat emitted by the barrier gate core is less, the temperature of the barrier gate core can be controlled without radiating through the radiating window, and at the moment, the radiating window is blocked by the baffle plate, so that dust entering the box body can be effectively reduced, the dust is prevented from attaching to the barrier gate core and influencing the normal radiating of the barrier gate core, and the radiating effect is improved; when banister core drive banister pole rotated, the heat that the banister core gived off was more, and rethread gangway gate pole drive assembly injects the air into from the sealed section of thick bamboo of this moment, makes the baffle can not block the heat dissipation window, and then has reached better radiating effect.

The angle of the baffle plate is adjusted according to the working state of the barrier gate movement by the heat dissipation device, so that dust can be effectively prevented from entering the box body on the premise of ensuring the heat dissipation requirement of the heat dissipation barrier gate movement, and a better heat dissipation effect is achieved. The method is very suitable for outdoor places such as open-air parking lots, high-speed toll stations, open-air square security inspection ports and the like.

The orientation of intake pipe makes by the inspiratory air of air intake fan need upwards flow in the intake pipe, and the action of gravity can order about the dust and drop downwards to play the effect that prevents the dust and pass through the intake pipe, further prevent in the dust gets into the box, prevent that the dust from attaching to on the banister core, further improve the radiating effect.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment;

fig. 2 is a schematic structural view illustrating a case where the heat dissipation window is not blocked by the blocking plate in this embodiment.

Reference numerals: 11. a box body; 12. a baffle plate; 13. an elastic member; 14. a heat dissipation window; 15. a barrier gate bar; 21. an air inlet pipe; 22. an air intake fan; 23. a dust screen; 24. a push button switch; 25. a bevel; 31. a driven sealing cylinder; 32. a driven piston block; 33. a driven piston rod; 34. a vent hole; 35. damping cotton; 41. an active sealing cylinder; 42. a master piston block; 43. an active piston rod; 44. a first hose; 45. a second hose.

Detailed Description

The invention will now be further described with reference to the accompanying drawings, in which:

example (b):

a heat dissipation device of a barrier gate movement comprises a box body 11, a driven sealing cylinder 31, a driven piston block 32, a driving assembly and a baffle plate 12, wherein the driven sealing cylinder 31 and the baffle plate 12 are rotatably connected with the box body 11, the box body 11 is provided with a heat dissipation window 14 blocked by the baffle plate 12, the driven piston block 32 is positioned in the driven sealing cylinder 31, the driven piston block 32 is in sliding connection with the driven sealing cylinder 31, the driven piston block 32 is fixedly connected with a driven piston rod 33 which extends out of the driven sealing cylinder 31 and is hinged with the baffle plate 12, the side wall of the driven sealing cylinder 31 is communicated with a first hose 44 and a second hose 45, the distance between the first hose 44 and the second hose 45 in the sliding direction of the driven piston block 32 is larger than the width of the driven piston block 32, the first hose 44 and the second hose 45 are both communicated with the driving assembly, the driving assembly is connected with a gate rod 15, an elastic element 13 which drives the baffle plate 12 to block the heat dissipation window 14 is arranged between the baffle plate 12 and, in this embodiment, the elastic member 13 is a torsion spring having two ends fixedly connected to the baffle 12 and the housing 11, respectively, and the driven piston block 32 is provided with a vent hole 34.

The driving assembly comprises a driving sealing cylinder 41 and a driving piston block 42, the driving sealing cylinder 41 is rotatably connected with the box body 11, the driving piston block 42 is positioned in the driving sealing cylinder 41, the driving piston block 42 is slidably connected with the driving sealing cylinder 41, the driving piston block 42 is fixedly connected with a driving piston rod 43 which extends out of the driving sealing cylinder 41 and is hinged with the barrier gate rod 15, the first hose 44 and the second hose 45 are both communicated with the driving sealing cylinder 41, and the distance between the first hose 44 and the second hose 45 in the sliding direction of the driving piston block 42 is greater than the width of the driving piston block 42.

Damping cotton 35 is arranged in the vent hole 34.

The speed of air passing through the vent hole 34 can be reduced through the damping cotton 35, so that the time that the baffle 12 cannot block the heat dissipation window 14 after the barrier gate movement stops working is prolonged, the time that the barrier gate movement discharges heat quickly is prolonged, and the heat dissipation effect of the barrier gate movement is further improved.

The box 11 is equipped with the intake pipe 21 with the inside intercommunication of box 11, and intake pipe 21 one end and atmosphere intercommunication, box 11 install the air intake fan 22 that is located intake pipe 21 department, and the one end slope that intake pipe 21 is close to the box 11 outside is downward, and intake pipe 21 is equipped with dust screen 23.

The heat radiation window 14 and the intake duct 21 are respectively located at upper and lower portions of the case 11.

The air entering the box body 11 through the air inlet pipe 21 flows to the upper part of the box body 11 from the lower part of the box body 11 and is exhausted out of the box body 11 through the heat dissipation window 14, so that the flowing distance of the air in the box body 11 is increased, the heat exchange efficiency of the barrier gate movement and the air in the box body 11 is improved, and the heat dissipation effect is improved.

A push switch 24 electrically connected to the intake fan 22 is fixedly mounted on the housing 11, and the push switch 24 has an inclined surface 25 abutting against the baffle 12.

The diameter of the driving seal cylinder 41 is larger than that of the driven seal cylinder 31. When making certain volume of air flow from initiative sealing cylinder 41 to driven sealing cylinder 31, the displacement of driven piston block 32 is greater than the displacement of initiative piston block 42 to it is faster to make driven piston block 32 and driven piston rod 33 drive the velocity of motion of baffle 12, and then makes baffle 12 can be faster rotate to the state that can not block heat dissipation window 14, improves the radiating effect.

The embodiment has the following advantages:

when the barrier gate movement does not drive the barrier gate rod 15 to rotate, the barrier gate movement emits less heat, and the baffle 12 is driven by the elastic part 13 to block the heat dissipation window 14. Prevent that the dust from getting into box 11 through heat dissipation window 14 and attaching to the banister core when the banister core is out of work to play the effect that improves the radiating effect.

When the barrier gate movement drives the barrier gate rod 15 to rotate, the heat emitted by the barrier gate movement is more, the barrier gate rod 15 drives the driving assembly to inject air into the driven sealing barrel 31 through the first hose 44 or the second hose 45, and the air flow injected into the driven sealing barrel 31 by the driving assembly is larger than the air flow at the air vent 34, so that the driven piston block 32 in the driven sealing barrel 31 drives the driven piston rod 33 to move under the pushing of the air, the driven piston rod 33 drives the baffle plate 12 hinged with the driven piston rod 33 to rotate on the box body 11, and the baffle plate 12 and the heat radiation window 14 are staggered. The baffle plate 12 can not block the heat dissipation window 14, so that heat can be dissipated through the heat dissipation window 14 when the barrier gate movement dissipates more heat, and the effect of guaranteeing the heat dissipation effect is achieved. When the driven piston block 32 is not located between the connection of the first hose 44 and the driven seal cylinder 31 and the connection of the second hose 45 and the driven seal cylinder 31 during the process of driving the barrier rod 15 to rotate by the barrier gate movement, air can directly circulate in the first hose 44 and the second hose 45 without further pushing the driven piston block 32 to move, so that the limit positions of the movement of the driven piston block 32 are the connection of the first hose 44 and the driven seal cylinder 31 and the connection of the second hose 45 and the driven seal cylinder 31.

After banister core drive banister pole 15 rotated extremely the extreme position, banister core stop drive banister pole 15 and rotate, the heat that banister core gived off this moment is less, elastic component 13 orders about baffle 12 and rotates to the direction that is close to heat dissipation window 14, in this process, the slow flow of air through air vent 34 in the driven sealed section of thick bamboo 31, make elastic component 13 can order about the slow rotation of baffle 12, and make baffle 12 can get back to the position that blocks heat dissipation window 14, prevent that the dust from getting into in box 11 and adhering to the banister core through heat dissipation window 14 when the banister core is out of work, thereby play the effect that improves the radiating effect. Because there is certain hysteresis quality in the heat of banister core through the air exhaust to the box 11 outside, the heat on the banister core needs certain time just can discharge to the box 11 outside promptly, consequently can be through the slow rotation of baffle 12, prolongs the baffle 12 and can not block the time of heat dissipation window 14 after the banister core stop work to the time of the quick exhaust heat of banister core has been prolonged, further improves the radiating effect of banister core.

When the barrier gate core does not drive the barrier gate rod 15 to rotate, the heat emitted by the barrier gate core is less, the temperature of the barrier gate core can be controlled without radiating through the opening of the radiating window 14, at the moment, the radiating window 14 is blocked by the baffle 12, the dust entering the box body 11 can be effectively reduced, the dust is prevented from attaching to the barrier gate core and affecting the normal radiating of the barrier gate core, and therefore the radiating effect is improved; when banister core drive banister pole 15 rotated, the heat that the banister core gived off was more, and rethread gangway gate pole 15 drive assembly injects the air into from the sealed section of thick bamboo 31 of follow-up this moment, makes baffle 12 can not block heat dissipation window 14, and then has reached better radiating effect. The angle of the baffle 12 is adjusted by the heat dissipation device according to the working state of the barrier gate movement, so that dust can be effectively prevented from entering the box body 11 on the premise of ensuring the heat dissipation requirement of the heat dissipation barrier gate movement, and a better heat dissipation effect is achieved. The method is very suitable for outdoor places such as open-air parking lots, high-speed toll stations, open-air square security inspection ports and the like.

When the barrier bar 15 is rotated upward, the barrier bar 15 pulls the driving piston rod 43 and the driving piston block 42 to move the driving piston rod 43 and the driving piston block 42 toward the barrier bar 15, and the air in the driving seal cylinder 41 is pushed into the driven seal cylinder 31 through the first hose 44, while the air in the driven seal cylinder 31 is sucked into the driving seal cylinder 41 through the second hose 45, thereby forming a closed loop. When the barrier bar 15 rotates downward, the barrier bar 15 pushes the driving piston rod 43 and the driving piston block 42, so that the driving piston rod 43 and the driving piston block 42 move away from the barrier bar 15, and the air in the driving seal cylinder 41 is pushed into the driven seal cylinder 31 through the second hose 45, while the air in the driven seal cylinder 31 is sucked into the driving seal cylinder 41 through the first hose 44, thereby forming a closed loop. The realization reaches baffle 12 and follows the operating condition adjustment turned angle's of banister core effect through banister rod 15 drive baffle 12 pivoted function, realizes guaranteeing under the prerequisite that the heat dissipation banister core heat dissipation required, effectual prevention dust gets into in the box 11 to reach better radiating effect.

The intake fan 22 sucks air outside the cabinet 11 into the cabinet 11, the banister movement transfers heat to the air, and the hot air is discharged outside the cabinet 11 through the heat radiation window 14. Inside dust screen 23 can effectively prevent the dust to get into box 11 through intake pipe 21, intake pipe 21 orientation makes the air inhaled by inlet fan 22 need upwards flow in intake pipe 21, and the effect of gravity can order about the dust and drop downwards to play the effect that prevents the dust and pass through intake pipe 21, further prevent in the dust gets into box 11, prevent that the dust from attaching to on the banister core, further improve the radiating effect.

When the shutter 12 cannot block the heat dissipation window 14, the shutter 12 is separated from the push switch 24, and the push switch 24 activates the intake fan 22 to draw the external air into the case 11 through the intake duct 21 and discharge the external air through the heat dissipation window 14. When the shutter 12 is driven by the elastic member 13 and blocks the heat radiation window 14, the shutter 12 abuts against the inclined surface 25 and presses the push switch 24, and the push switch 24 stops the operation of the intake fan 22. The air inlet fan 22 is started when the heat dissipation window 14 is not blocked, and the air inlet fan 22 is closed when the heat dissipation window 14 is blocked, so that the effects of improving the heat dissipation effect, saving energy, protecting the environment and being convenient to use are achieved.

In conclusion, after the ordinary skilled in the art reads the document of the present invention, according to the present invention, the technical solution and technical concept of the present invention do not need creative mental labor to make other various corresponding transformation schemes, which all belong to the protection scope of the present invention.

Claims (7)

1. The utility model provides a heat abstractor of banister core which characterized in that: including box (11), driven sealing cylinder (31), driven piston piece (32), drive assembly and baffle (12), driven sealing cylinder (31) and baffle (12) all rotate with box (11) and are connected, box (11) are equipped with radiating window (14) that are blocked by baffle (12), driven piston piece (32) are located driven sealing cylinder (31) and driven piston piece (32) and driven sealing cylinder (31) sliding connection, driven piston piece (32) fixedly connected with stretches out driven sealing cylinder (31) and with baffle (12) articulated driven piston rod (33), the lateral wall intercommunication of driven sealing cylinder (31) has first hose (44) and second hose (45), first hose (44) and second hose (45) are greater than the width of driven piston piece (32) at the interval of driven piston piece (32) slip direction, first hose (44) and second hose (45) all communicate with drive assembly, drive assembly is connected with banister pole (15), be equipped with between baffle (12) and box (11) and order about baffle (12) and block elastic component (13) of radiator window (14), driven piston piece (32) are equipped with air vent (34).

2. The heat dissipating device of a barrier gate movement according to claim 1, wherein: the drive assembly includes initiative sealing cylinder (41) and initiative piston block (42), and initiative sealing cylinder (41) is rotated with box (11) and is connected, initiative piston block (42) are located initiative sealing cylinder (41) and initiative piston block (42) and initiative sealing cylinder (41) sliding connection, initiative piston block (42) fixedly connected with stretch out initiative sealing cylinder (41) and with banister pole (15) articulated initiative piston rod (43), first hose (44) and second hose (45) all communicate with initiative sealing cylinder (41), first hose (44) and second hose (45) are greater than the width of initiative piston block (42) at the interval of initiative piston block (42) slip direction.

3. The heat dissipating device of a barrier gate movement according to claim 2, wherein: the diameter of the driving sealing cylinder (41) is larger than that of the driven sealing cylinder (31).

4. The heat dissipating device of a barrier gate movement according to claim 1, wherein: damping cotton (35) is arranged in the vent holes (34).

5. The heat dissipating device of a barrier gate movement according to claim 1, wherein: box (11) are equipped with intake pipe (21) with the inside intercommunication of box (11), box (11) are installed and are located intake fan (22) of intake pipe (21) department, the one end slope that intake pipe (21) are close to the box (11) outside is downwards, intake pipe (21) are equipped with dust screen (23).

6. The heat dissipating device of a barrier gate movement according to claim 5, wherein: the heat radiation window (14) and the air inlet pipe (21) are respectively positioned at the upper part and the lower part of the box body (11).

7. The heat dissipating device of a barrier gate movement according to claim 5, wherein: the box body (11) is fixedly provided with a button switch (24) electrically connected with the air inlet fan (22), and the button switch (24) is provided with an inclined plane (25) abutted to the baffle (12).

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