阅读说明：本技术 一种可调节的感应器 (Adjustable inductor ) 是由 吕美连 于 2019-09-19 设计创作，主要内容包括：本发明提供一种可调节的感应器,其结构包括风力发电机构、温度感应器、电量指示灯、触控显示屏、可调机座、固定架,风力发电机构嵌入安装于温度感应器左侧,通过第一锥形齿轮带动下,让与其啮合的第二锥形齿轮也随之进行转动起来,致使微型发电机上端的转动轴进行旋转,对微型发电机内部的电磁线进行切割,从而将机械能转化成电能,然后将所产生的电能通过电能转换器对其电压进行转化,然后在将其输送到储电器内对其进行储存,从而能够在断电的情况下,继续的对厂棚内的温度进行感应,从而能够有效的起到对厂棚内的温度进行控制,避免无法第一时间了解到厂棚内的温度,致使厂棚内的温度逐渐升高,对所加工的发酵加工造成损坏的问题发生。(The invention provides an adjustable inductor, which structurally comprises a wind power generation mechanism, a temperature sensor, an electric quantity indicator lamp, a touch display screen, an adjustable base and a fixing frame, wherein the wind power generation mechanism is embedded in the left side of the temperature sensor and is driven by a first bevel gear to rotate a second bevel gear meshed with the wind power generation mechanism, so that a rotating shaft at the upper end of a micro generator rotates to cut electromagnetic wires in the micro generator, mechanical energy is converted into electric energy, the generated electric energy is converted into voltage through an electric energy converter, the voltage is conveyed into an electric energy storage device to be stored, and therefore the temperature in a factory shed can be continuously sensed under the condition of power failure, the temperature in the factory shed can be effectively controlled, the temperature in the factory shed cannot be known in the first time, so that the temperature in the plant shed is gradually increased and the problem of damage to the fermentation processing is caused.)

1. An adjustable inductor, comprising: the wind power generation device structurally comprises a wind power generation mechanism (1), a temperature sensor (2), an electric quantity indicator lamp (3), a touch display screen (4), an adjustable base (5) and a fixing frame (6), wherein the wind power generation mechanism (1) is embedded in the left side of the temperature sensor (2), the electric quantity indicator lamp (3) is provided with four parts and runs through the left side of the temperature sensor (2) respectively, the touch display screen (4) is embedded in the left side of the temperature sensor (2) and is electrically connected with the left side of the temperature sensor, the lower end of the temperature sensor (2) is installed between the adjustable base (5) and is connected with the adjustable base through electric welding, and the fixing frame (6) is installed between the adjustable base (5) and is connected.

2. An adjustable inductor according to claim 1, wherein: wind power generation mechanism (1) includes rotary mechanism (11), bearing frame (12), power generation mechanism (13), accumulator (14), rotary mechanism (11) run through in bearing frame (12), rotary mechanism (11) and power generation mechanism (13) mesh mutually, power generation mechanism (13) are connected with accumulator (14) electricity, rotary mechanism (11) are including rotating bucket (111), first conical gear (112), connecting rod (113), support (114), column spinner (115), rotating bucket (111) are welded mutually through support (114) and column spinner (115), connecting rod (113) left side and column spinner (115) right side are welded mutually, first conical gear (112) are installed in connecting rod (113) right side center.

3. An adjustable inductor according to claim 2, wherein: bearing frame (12) are including bearing inner race (121), bearing frame (122), install on bearing frame (122) bearing inner race (121), bearing frame (122) are including support frame (12A), outer ring frame mechanism (12B), roller (12C), spacing cylinder (12D), locating pin (12E), outer ring frame mechanism (12B) embedding is installed inside support frame (12A), spacing cylinder (12D) welds in outer ring frame mechanism (12B) inner wall, spacing cylinder (12D) runs through in roller (12C) center, locating pin (12E) are installed and are connected through the electric welding in both sides under support frame (12A).

Technical Field

The invention relates to the technical field of inductors, in particular to an adjustable inductor.

Background

The types of inductors are very many, for example: temperature-sensing ware, photo sensor, infrared inductor etc. and the range that temperature-sensing ware was used in life is very extensive, for example, when carrying out fermentation processing to food, generally need control the temperature in the factory shed to can be better guarantee that the food taste that processes is better, prior art has following defect:

when under the condition of outage, the temperature-sensing ware will be unable to be operating to lead to can not sensing the temperature in the factory shed, and when the temperature in the factory shed when rising gradually, can not the very first time degrade its temperature, will influence the taste of the food that ferments.

Summary of the invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an adjustable sensor, which solves the problems that the temperature sensor cannot operate under the condition of power failure, so that the temperature in a factory shed cannot be sensed, and the temperature of the factory shed cannot be degraded in the first time when the temperature in the factory shed gradually rises, so that the taste of fermented food can be influenced.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an inductor with adjustable, its structure includes wind power generation mechanism, temperature-sensing ware, electric quantity pilot lamp, touch-control display screen, adjustable frame, mount, wind power generation mechanism embedding is installed in the temperature-sensing ware left side, the electric quantity pilot lamp is equipped with four altogether, and runs through in the temperature-sensing ware left side respectively, touch-control display screen embedding is installed in the temperature-sensing ware left side and is connected through the electricity, the temperature-sensing ware lower extreme is installed and is adopted hinged joint between the adjustable frame, the mount is installed and is connected through the electric welding between the adjustable frame, wind power generation mechanism includes rotary mechanism, bearing frame, power generation mechanism, electrical storage device, rotary mechanism runs through in the bearing frame, rotary mechanism meshes with power generation mechanism mutually, power generation mechanism is connected with the electrical storage.

Preferably, the rotating mechanism comprises a rotating blade, a first bevel gear, a connecting rod, a support and a rotating column, the rotating blade is welded with the rotating column through the support, the left side of the connecting rod is welded with the right side of the rotating column, the first bevel gear is mounted in the center of the right side of the connecting rod, and the rotating column is of a hollow cylindrical structure.

Preferably, the bearing seat comprises a bearing inner ring and a bearing frame, wherein the bearing inner ring is of a circular ring structure and is arranged on the bearing frame.

Preferably, the bearing frame includes support frame, outer ring frame mechanism, roller, spacing cylinder, locating pin, outer ring frame mechanism embedding is installed inside the support frame, spacing cylinder welds in outer ring frame mechanism inner wall, the roller is the ring post structure, spacing cylinder runs through in the roller center, the locating pin is equipped with two altogether, and installs respectively under the support frame both sides and be connected through the electric welding.

Preferably, the outer ring frame mechanism comprises an outer ring frame, positioning guide pillars and a sealing cover, the positioning guide pillars are of a cylindrical structure and are welded to the upper end and the left side and the right side of the outer ring frame respectively, and the sealing cover is embedded at the front end of the outer ring frame.

Preferably, the power generation mechanism comprises a second bevel gear, a micro generator, a fixed supporting leg and an electric energy converter, the second bevel gear is installed above the micro generator, the fixed supporting leg is welded on the right side of the micro generator, and the micro generator is electrically connected with the electric energy converter.

(III) advantageous effects

The invention provides an adjustable inductor. The method has the following beneficial effects:

according to the invention, through arranging the power generation mechanism and the electric storage device, the first conical gear drives the second conical gear meshed with the first conical gear to rotate along with the first conical gear, so that the rotating shaft at the upper end of the micro generator rotates to cut the electromagnetic wire in the micro generator, thereby converting mechanical energy into electric energy, then converting the voltage of the generated electric energy through the electric energy converter, and then conveying the electric energy into the electric storage device for storage, thereby continuously sensing the temperature in the plant shed under the condition of power failure, effectively controlling the temperature in the plant shed, and avoiding the problems that the temperature in the plant shed can not be known at the first time, the temperature in the plant shed gradually rises, and the fermentation processing of the processed plant is damaged.

Drawings

FIG. 1 is a schematic diagram of an adjustable inductor according to the present invention;

FIG. 2 is a front view of the wind power generation mechanism of the present invention;

FIG. 3 is a front perspective structural view of the rotary mechanism of the present invention;

FIG. 4 is a schematic perspective view of a bearing seat according to the present invention;

FIG. 5 is a front view of the inner race and the bearing bracket of the present invention;

FIG. 6 is a schematic three-dimensional structure of the outer ring frame mechanism of the present invention;

fig. 7 is a front view of the power generating mechanism of the present invention.

In the figure: a wind power generation mechanism-1, an inductor-2, an electric quantity indicator light-3, a touch display screen-4, an adjustable base-5, a fixed frame-6, a rotating mechanism-11, a bearing seat-12, a power generation mechanism-13, an electric storage device-14, a rotating blade-111, a first bevel gear-112, a connecting rod-113, a bracket-114 and a rotating column-115, the device comprises a bearing inner ring-121, a bearing frame-122, a support frame-12A, an outer ring frame mechanism-12B, a roller-12C, a limiting cylinder-12D, a positioning pin-12E, an outer ring frame-B1, a positioning guide post-B2, a sealing cover-B3, a second bevel gear-131, a micro generator-132, a fixed supporting leg-133 and an electric energy converter-134.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, an embodiment of the present invention provides an adjustable sensor, which includes a wind power generation mechanism 1, a temperature sensor 2, an electric quantity indicator lamp 3, a touch display screen 4, an adjustable base 5, and a fixing frame 6, wherein the wind power generation mechanism 1 is embedded in the left side of the temperature sensor 2, the electric quantity indicator lamps 3 are four in number and respectively penetrate through the left side of the temperature sensor 2, the touch display screen 4 is embedded in the left side of the temperature sensor 2 and is electrically connected, the lower end of the temperature sensor 2 is mounted between the adjustable bases 5 and is connected by a hinge, the fixing frame 6 is mounted between the adjustable bases 5 and is connected by a hinge, the wind power generation mechanism 1 includes a rotation mechanism 11, a bearing seat 12, a power generation mechanism 13, and a power storage device 14, the rotation mechanism 11 penetrates through the bearing seat 12, the rotation mechanism 11 is engaged with the power generation mechanism 13, the power generation mechanism 13 is electrically connected to an electric storage device 14.

Wherein, the rotating mechanism 11 comprises a rotating blade 111, a first bevel gear 112, a connecting rod 113, a bracket 114 and a rotating column 115, the rotating blade 111 is welded with the rotating column 115 through the bracket 114, the left side of the connecting rod 113 is welded with the right side of the rotating column 115, the first bevel gear 112 is installed at the center of the right side of the connecting rod 113, the rotating column 115 is a hollow cylinder structure, when the rotating blade 111 rotates under the action of wind, the rotating column 115 is driven to rotate, so that the connecting rod 113 connected with the rotating column rotates, the first bevel gear 112 rotates, because the right side of the connecting rod 113 is directly larger than the diameter of the left side, and because the rotating column 115 is installed outside the temperature sensor 2, when the rotating column 115 is installed on the bearing seat 12, because the rotating column 115, the temperature sensor 2 and the connecting rod 113 are mutually matched and limited, can play spacing effect, avoid when rotating, the phenomenon that the emergence effect removed.

The bearing seat 12 includes a bearing inner ring 121 and a bearing frame 122, wherein the bearing inner ring 121 is in a circular ring structure and is mounted on the bearing frame 122.

Wherein, the bearing frame 122 includes a support frame 12A, an outer ring frame mechanism 12B, two rollers 12C, a limiting cylinder 12D and a positioning pin 12E, the outer ring frame mechanism 12B is embedded in the support frame 12A, the limiting cylinder 12D is welded on the inner wall of the outer ring frame mechanism 12B, the rollers 12C are in a circular column structure, the limiting cylinder 12D penetrates through the center of the rollers 12C, the two positioning pins 12E are arranged, and are respectively arranged at two sides under the support frame 12A and connected by electric welding, when the rollers 12C are driven by the bearing inner ring 121, the rollers will rotate around the limiting cylinder 12D, so as to effectively avoid the direct contact between the bearing inner ring 121 and the surface of the outer ring frame mechanism 12B, increase the friction force, and cause the problem of serious abrasion, and meanwhile, the positioning pin 12E can be matched with the positioning groove in the temperature sensor 2, therefore, the support frame 12A can be accurately positioned, and the phenomenon that the support frame 12A is staggered and inclined when being installed inside the temperature sensor 2 is avoided.

The outer ring frame mechanism 12B comprises an outer ring frame B1, a positioning guide post B2 and a sealing cover B3, wherein the positioning guide post B2 is of a cylindrical structure and is welded to the upper end, the left side and the right side of the outer ring frame B1 respectively, the sealing cover B3 is embedded at the front end of the outer ring frame B1, and when the outer ring frame B1 is installed inside the supporting frame 12A, the positioning guide post B2 on the outer side can play a role in positioning, so that the outer ring frame B1 can be installed inside the supporting frame 12A accurately.

The power generation mechanism 13 includes a second bevel gear 131, a micro-generator 132, a fixing leg 133, and an electric energy converter 134, the second bevel gear 131 is mounted above the micro-generator 132, the fixing leg 133 is welded to the right side of the micro-generator 132, the micro-generator 132 is electrically connected to the electric energy converter 134, when the second bevel gear 131 is driven by the first bevel gear 112 to rotate, the micro-generator 132 generates power, mechanical energy generated by the rotation of the second bevel gear 131 is converted into electric energy, the generated electric energy is converted into low-voltage electric energy by the electric energy converter 134, and then the low-voltage electric energy is transmitted to the electric storage device 14 to be stored.

The specific working process is as follows:

when the temperature sensor 2 is installed in a ventilated factory shed for fermentation processing, the fixed frame 6 is fixed on a placing frame of the factory shed, then the temperature sensor 2 is moved on the adjustable base 5 by pressing the temperature sensor 2, when the wind volume is adjusted to a larger angle, the rotating blade 111 is driven to rotate by wind energy, so that the bracket 114 connected above the rotating blade drives the rotating column 115 to rotate, the connecting rod 113 rotates while the rotating column 115 rotates, the first bevel gear 112 is driven to rotate by the connecting rod 113, the connecting rod 113 penetrates through the bearing inner ring 121, so that the bearing inner ring 121 is driven to rotate when the connecting rod 113 rotates, and the outer side of the bearing inner ring 121 is in point contact rotation with the roller 12C due to the rollers 12C distributed on the outer side of the bearing inner ring 121 when the connecting rod 113 rotates to drive the bearing inner ring 121 to rotate, the bearing inner ring 121 is prevented from directly contacting with the outer ring frame B1, so that the abrasion phenomenon occurs, and the problem of reducing the rotating speed also occurs, the first bevel gear 112 drives the second bevel gear 131 engaged with the first bevel gear to rotate, so that the rotating shaft at the upper end of the micro-generator 132 rotates, the electromagnetic wire inside the micro-generator 132 is cut, so that the mechanical energy is converted into electric energy, the generated electric energy is converted into the voltage through the electric energy converter 134, and the electric energy is conveyed into the electric energy storage device 14 to be stored.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.