Background
For the motor cooled by air cooling, the ventilation and heat dissipation problems of the motor are critical, the ventilation of the whole motor is ensured to be smooth, the wind resistance coefficient is reasonably selected, and the protection requirements of an air inlet and an air outlet of the motor under the outdoor environment are met, so that the protection device of the matched motor has high requirements, and the air outlet of the existing motor is provided with a protective net or dustproof cloth with gaps; a reasonable air path cannot be established to meet the heat dissipation requirement of the motor.
The utility model discloses to the problem that current motor air outlet can not establish reasonable heat dissipation wind path, provide an outdoor air-out protector with high protection motor.
SUMMERY OF THE UTILITY MODEL
In order to overcome the problem that current motor air outlet can not establish reasonable heat dissipation wind path, the utility model provides an outdoor air-out protector with high protection motor.
The utility model provides an outdoor air-out protector with high protection motor, it includes: the device comprises a support base for fixing an air outlet protection device body on a motor, a fence enclosed around the motor, a rainproof cover body enclosed at the upper end of the motor, a humidity sensor for monitoring the environmental humidity and a support rod for erecting the fence; the bracket base is detachably arranged on the motor base; a support rod is vertically arranged on the end surface of the bracket base; the fence is vertically erected on the supporting rod and consists of a plurality of grids; a turnover mechanism for enabling the side edges of the grids to do circular linear motion around the center line of the grid body is correspondingly arranged between the first end surface of each grid and the surface of the support rod; the upper end of the supporting rod is provided with a rainproof cover body with adjustable surface area; the end surface of the bracket base is provided with a controller for receiving and processing the information of the humidity sensor, and the controller is electrically connected with a display board and a motor for displaying the processing information of the controller; the battery components for providing electric energy are respectively and electrically connected with the controller, the humidity sensor and the display panel; when the device is used, the humidity sensor is combined with the controller to enable a user to know the ventilation condition of the motor under the current environment through the display panel, and the user can ensure that the ideal ventilation condition is achieved by adjusting the opening and closing density of the fence and the opening degree of the rainproof cover body.
Furthermore, hollow cylindrical support rods are respectively arranged at four top points of the bracket base, and round rods which can rotate in the support rods are arranged in the support rods; arranging a first end face of a single grid to penetrate through the surface of the supporting rod; a turnover mechanism is correspondingly arranged between the first end surface of the single grid and the outer surface of the round rod; the arrangement can ensure that the single grating is kept horizontally and vertically to the supporting rod when being overturned.
Further, the turnover mechanism includes: a spherical helicoid and an arc gear; a spherical helicoid is arranged on the end surface of the round rod, and an arc gear is arranged on the first end surface of the single grating; the ball helicoids are vertically meshed with the arc-shaped gear.
Further, the spherical helicoid is a circular ring with a spherical body uniformly arranged on the edge, and the arc gear is a gear ring with the tooth space equal to the radius of the spherical body; the arrangement can ensure that the ball body helicoid drives the arc-shaped gear to rotate.
Furthermore, the single grating corresponds to a single sphere helicoid on the round rod; the arrangement ensures that the opening and closing density of the fence body is changed by the rotation of the round rods of the fence formed by the plurality of grids.
Furthermore, the second end surface of each grid penetrates through the supporting rod arranged at the other vertex of the support base, and a baffle plate for ensuring the rotation stability of each grid is arranged on the second end surface of each grid; the arrangement can ensure that the opening and closing density of the end surface of one side of the fence can be adjusted by a single round rod.
Furthermore, in order to realize the rotation of the round rod in the supporting rod, a ball bearing is correspondingly arranged between the inner surface of the supporting rod and the outer surface of the round rod.
Further, in order to facilitate a user to rotate the round rod to adjust the opening and closing density of the fence in a linkage manner, a barrel-shaped dial with convex scales on the end surface is arranged on the upper surface of the supporting rod, a telescopic rod with a pointer on the end surface is arranged on the upper end surface of the round rod, and the telescopic rod penetrates through the barrel-shaped dial; when the telescopic rod is used, a user rotates the pointer to the corresponding scale of the barreled dial, and then the telescopic rod descends the height of the pointer to a position between two adjacent convex scales to ensure that the round rod does not rotate any more.
Furthermore, the arc distance of the adjacent convex scales corresponds to the spherical center distance of the two adjacent spherical helicoids.
Furthermore, a through hole for the output shaft of the motor to function is arranged at the position of the fence corresponding to the output shaft of the motor, and a rain baffle is erected at the periphery of the through hole; and a through hole for the enclosure plate to pass through is arranged at the position of the electrical wire corresponding to the motor.
Furthermore, for realizing the setting of the rain cover body at the upper end of the motor and the fence, a long rod which supports the rain cover body and is higher than the motor is correspondingly arranged between the lower end face of the rain cover body and the upper end face of the supporting base.
Furthermore, in order to guarantee the stability of erecting the rain cover body, set up 4 root stock on two diagonal lines of support base respectively, and set up two connecting rods on the rectangle diagonal line that the upper end of 4 root stock encloses, set up the rain cover body in the central point department of two connecting rods.
Further, the rain-proof cover body includes: the cover body comprises a support rod, an inclined rod, a sliding block and rainproof cloth; the centers of the two connecting rods are provided with a cover body support rod, and the upper end surface of the cover body support rod is uniformly provided with inclined rods which are inclined downwards at an angle by taking the circle center of the round rod as an endpoint; a slide rail for sliding the slide block is arranged on the end surface of the inclined rod; the upper end surface of the sliding block is provided with rainproof cloth; and the central point provided with the rain-proof cloth is connected with the bracket rod of the cover body.
Furthermore, the slide rail is a T-shaped slide rail, the slide block is a T-shaped bolt, and a convex scale for clamping the bolt head of the T-shaped bolt is arranged on the end surface of the slide rail; when the T-shaped bolt is used, the T-shaped bolt is lifted to slide to the appointed convex scale, and the bolt head of the T-shaped bolt is put down between the adjacent convex scales by a user.
Furthermore, a dustproof net for preventing sand and dust from entering the motor is arranged on the side surface of the cuboid surrounded by the 4 long rods.
Further, the controller is an information receiving unit, an information processing unit and an information output unit; the information receiving unit is electrically connected with the humidity sensor and the motor, and the information output unit is electrically connected with the display panel; the information processing unit is arranged for calculating the heat dissipation environment of the motor according to the current humidity information and the motor power of the information receiving unit and feeding back the opening area of the rainproof cover body and the closing density of the fence to the information output unit; and the information output unit is arranged to calculate the opening area of the rainproof cover body and the closing density of the fence and feed back the single rotation angle of the 4 round rods and the distance between the sliding block and the center point of the support rod of the cover body to the display panel.
Furthermore, in order to protect the controller and the battery pack from the outdoor severe environment, a box body for bearing the controller and the battery pack is arranged on the end face of the support base.
Compare with the air-out protector of prior art's motor, the technical scheme of the utility model make the user know the ventilation condition of motor under the current environment through the display panel through humidity transducer combination controller, the user guarantees to reach ideal ventilation condition through the degree of opening and shutting density of adjustment rail and the rain-proof cover body. A rotatable grid is provided to vary the closure density of the enclosure. The slide block arranged on the slide rail and sliding adjusts the opening degree of the rain-proof cover body. The utility model discloses an above reasonable setting helps the outdoor motor of establishing reasonable heat dissipation wind path.
Detailed Description
Example 1
The utility model provides an outdoor air-out protector with high protection motor 8, it includes: the device comprises a support base 3 for fixing an air outlet protection device body on a motor 8, a fence 7 enclosed around the motor 8, a rainproof cover body 1 enclosed at the upper end of the motor 8, a humidity sensor for monitoring the environmental humidity and a support rod 2 for erecting the fence 7; the device is characterized in that the bracket base 3 is detachably arranged on a base of the motor 8; hollow cylindrical support rods 2 are respectively arranged at four top points of the bracket base 3, and round rods 10 which can rotate in the support rods 2 are arranged in the support rods 2; the setting fence 7 is vertically erected on the support rod 2, and the setting fence 7 is composed of a plurality of grids 701; a first end face of a single grating 701 is arranged to penetrate through the surface of the support rod 2; a turnover mechanism for enabling the side edges of the grating 701 to do circular linear motion around the center line of the grating 701 body is correspondingly arranged between the first end surface of the single grating 701 and the outer surface of the round rod 10; the upper end of the supporting rod 2 is provided with a rainproof cover body 1 with adjustable surface area; a controller 4 for receiving and processing humidity sensor information is arranged on the end face of the bracket base 3, and the controller 4 is electrically connected with a display panel 5 for displaying information processed by the controller 4 and a motor 8; the battery components for providing electric energy are respectively and electrically connected with the controller 4, the humidity sensor and the display panel 5.
The turnover mechanism comprises: a ball helicoid 11 and an arc gear 12; a spherical helicoid 11 is arranged on the end surface of the round rod 10, and an arc gear 12 is arranged on the first end surface of the single grating 701; the ball helicoids 11 are vertically meshed with the arc gear 12.
The spherical helicoid 11 is a circular ring with a spherical edge uniformly, and the arc gear 12 is a gear ring with the tooth space equal to the radius of the spherical body; the arrangement can ensure that the ball helicoid 11 drives the arc gear 12 to rotate.
A single grid 701 corresponds to a single sphere helicoid 11 on the round bar 10; the second end face of the single grating 701 is arranged to penetrate the support rod 2 arranged at the other vertex position of the bracket base 3, and a baffle plate for ensuring the rotation stability of the single grating 701 is arranged on the second end face of the single grating 701.
In order to realize the rotation of the round bar 10 in the support bar 2, ball bearings 201 are correspondingly arranged between the inner surface of the support bar 2 and the outer surface of the round bar 10.
In order to facilitate a user to rotate the round rod 10 to adjust the opening and closing density of the fence 7 in a linkage manner, the upper surface of the supporting rod 2 is provided with a barrel-shaped dial 202 with convex scales on the end surface, the upper end surface of the round rod 10 is provided with an expansion rod 1001 with a pointer 1002 on the end surface, and the expansion rod 1001 penetrates through the barrel-shaped dial 202.
The arc distance of the adjacent convex scales corresponds to the spherical center distance of the two adjacent spherical helicoids 11.
A through hole for the output shaft of the motor 8 to function is arranged at the position of the fence 7 corresponding to the output shaft of the motor 8, and a rain baffle plate 9 is erected at the periphery of the through hole; and a through hole for the passing of the enclosure plate is arranged at the position of the enclosure plate corresponding to the motor 8 by using the wire.
In order to realize that the rain cover body 1 is arranged at the upper ends of the motor 8 and the fence 7, a long rod 13 which supports the rain cover body 1 and is higher than the motor 8 is correspondingly arranged between the lower end face of the rain cover body 1 and the upper end face of the supporting base.
In order to ensure the erection stability of the rain shield body 1, 4 long rods 13 are respectively arranged on two diagonal lines of the supporting base, and two connecting rods 101 are arranged on the rectangular diagonal lines surrounded by the upper ends of the 4 long rods 13; the center of the two connecting rods 101 is provided with a rainproof cover body 1.
The rain-proof cover body 1 includes: a cover body support rod 103, an inclined rod 102, a sliding block and rainproof cloth; a cover body support rod 103 is arranged at the center of the two connecting rods 101, and inclined rods 102 which are inclined downwards at an angle are uniformly arranged on the upper end face of the cover body support rod 103 by taking the circle center of the cover body support rod 103 as an endpoint; a slide rail for sliding the slide block is arranged on the end surface of the inclined rod 102; the upper end surface of the sliding block is provided with rainproof cloth; and the center point provided with the rain-proof cloth is connected with the cover bracket rod 103.
The slide rail is a T-shaped slide rail 104, the slide block is a T-shaped bolt 105, and the end surface of the slide rail is provided with a convex scale for clamping the bolt head of the T-shaped bolt 105; in use, the T-bolt 105 is lifted and slid to the designated raised scale, and the user lowers the head of the T-bolt 105 between adjacent raised scales.
The side surface of a cuboid surrounded by 4 long rods 13 is provided with a dustproof net for preventing sand and dust from entering the motor 8.
The controller 4 is an information receiving unit, an information processing unit and an information output unit; the information receiving unit is electrically connected with the humidity sensor and the motor 8, and the information output unit is electrically connected with the display panel 5; the information processing unit is arranged to calculate the heat dissipation environment of the motor 8 according to the current humidity information of the information receiving unit and the power of the motor 8 and feed back the opening area of the rainproof cover body 1 and the closing density of the fence 7 to the information output unit; the information output unit is arranged to calculate the opening area of the rainproof cover 1 and the closing density of the fence 7 and feed back the single rotation angle of the 4 round rods 10 and the distance between the sliding block and the center point of the cover support rod 103 to the display panel 5.
In order to protect the controller 4 and the battery pack from the outdoor severe environment, a box body for holding the controller 4 and the battery pack is arranged on the end face of the support base.
The above description of the embodiments is only intended to illustrate the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several modifications can be made to the present invention, and these modifications will fall within the protection scope of the claims of the present invention.