CN214839492U - Wind power equipment data acquisition sensor - Google Patents

Abstract

The utility model relates to a wind power equipment data acquisition sensor technical field, especially a wind power equipment data acquisition sensor, including the sensor body, the middle part fixedly connected with spliced pole of sensor body bottom surface, spliced pole bottom surface fixedly connected with connecting pipe and installation pipe from inside to outside in proper order, the first connecting ring of top fixedly connected with of connecting pipe outer wall, the middle part fixedly connected with second go-between of connecting pipe outer wall, it is connected with two head rods and second connecting rod to rotate between first connecting ring and the second go-between. The utility model has the advantages that: through two head rods and the end-to-end rotation of the second connecting rod, the two head rods are rotatably connected with the first connecting ring and the second connecting ring, the bottom ends of the two head rods are connected with the limiting grooves in a sliding mode, and therefore installation of the connecting pipes and the sensor body can be conveniently aligned and positioned, and convenience is brought to users for installation and operation.

Description

Wind power equipment data acquisition sensor

Technical Field

The utility model relates to a wind power equipment data acquisition sensor technical field, especially a wind power equipment data acquisition sensor.

Background

With the increasing demand for clean energy, the continuous development of the wind power field, the effective control of the operation and maintenance cost of the wind power field is an effective way to improve the competitiveness of wind power products, the general geographical position of the wind power field is far, the road traffic is inconvenient, the unit is positioned at the top of the tower with the height of dozens of meters, the maintenance and repair are difficult, the maintenance of the wind power field at present mostly adopts a plan maintenance and post-repair mode, the maintenance is difficult to comprehensively and timely know the operation condition of equipment, the maintenance work is usually long lasting, the loss is great, therefore, various sensors capable of detecting the operation condition of the wind power machine need to be installed to continuously detect various operation conditions of the wind power machine, and the operation condition report of the equipment can be given out for pre-alarming, so that field personnel can make a reasonable maintenance plan and can conveniently and timely maintain the equipment, the existing data sensor is directly and fixedly connected with the wind power generator, the following disadvantages exist while solving the problem of the operation information of the transmission equipment:

when the existing sensor is installed, the sensor is not convenient to align, and further certain influence is caused to the installation of the sensor, so that a user is not convenient to install and operate.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a wind power equipment data acquisition sensor.

The purpose of the utility model is realized through the following technical scheme: the utility model provides a wind power equipment data acquisition sensor, includes the sensor body, the middle part fixedly connected with spliced pole of sensor body bottom surface, the spliced pole bottom surface is fixedly connected with connecting pipe and installation pipe from inside to outside in proper order, the top fixedly connected with first go-between of connecting pipe outer wall, the middle part fixedly connected with second go-between of connecting pipe outer wall, it is connected with two head rods and second connecting rod, two to rotate between first go-between and the second go-between the head rod is the second connecting rod rotation respectively and is connected, two the head rod all with the inner wall sliding connection of installation pipe.

Optionally, the outer fixed surface of spliced pole is connected with the buckler, two first through-holes, two have all been seted up on the top of buckler outer wall the inside of first through-hole is all rotated and is connected with first locking bolt, two first locking bolt all with spliced pole threaded connection, the top surface of buckler laminates mutually with the bottom surface of sensor body, and two first locking bolts can be convenient for with buckler fixed connection in the surface of spliced pole to give and be convenient for carry out certain guard action between spliced pole and the installation pipe, avoid the rainwater directly to drench to spliced pole and installation union coupling department.

Optionally, the mounting pipe is close to the inner wall of the first connecting rod and has been seted up the spacing groove, two the bottom of first connecting rod all with spacing groove sliding connection, two the first connecting rod all rotates with first go-between and second connecting rod respectively through the pin and is connected, two the second connecting rod all rotates with the second go-between through the pin and is connected, first go-between and second go-between all pass through set screw and connecting pipe fixed connection, and first go-between and second go-between can be convenient for adjust the relative position of two first connecting rods and second connecting rod, are convenient for make two first connecting rods and the spacing groove sliding connection of different distances.

Optionally, a second through hole is formed in the top end of the outer wall of the installation pipe, a second locking bolt is rotatably connected inside the second through hole, the second locking bolt is in threaded connection with the connecting pipe, the second through hole can provide an installation position for the second locking bolt, the second locking bolt is in threaded connection with the connecting pipe, and the sensor body is fixed to the top end of the installation pipe.

Optionally, the shape of buckler is the frustum, leave the clearance between the inner wall of buckler and the outer wall of installation pipe, the buckler toper design can convenient to use person lift the bottom of buckler, and the second locking bolt of being convenient for carries out threaded connection with the connecting pipe.

The utility model has the advantages of it is following:

1. this wind power equipment data acquisition sensor rotates end to end through two head rods and second connecting rod and is connected, and the bottom and the second go-between of two head rods top and first connecting ring, two second connecting rods rotate and be connected, the bottom of two head rods all with spacing groove sliding connection, and then can be convenient for to the installation of connecting pipe and sensor body to just fix a position to convenient to use person installs the operation.

2. This wind power equipment data acquisition sensor all passes through set screw and connecting pipe fixed connection through first go-between and second go-between, and the set screw of unscrewing second go-between surface can make and carry out certain angle's rotation between two second connecting rods and the head rod to be convenient for make two head rods can carry out sliding connection with the spacing groove of certain size within range, thereby convenient to use person uses in operation.

3. This wind power equipment data acquisition sensor, the buckler passes through two first locking bolt and spliced pole fixed connection, and the top surface of buckler laminates with the bottom surface of sensor body mutually, thereby be convenient for form the protective screen in the junction of installation pipe and spliced pole, reduce the rainwater and directly dash the junction of drenching installation pipe and spliced pole, thereby improve holistic waterproof rank, leave certain clearance between the outer wall of inner wall through the buckler and installation pipe, thereby avoid taking place direct contact with second locking bolt.

Drawings

Fig. 1 is a schematic diagram of the explosion structure of the present invention;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1;

FIG. 3 is a schematic view of the assembly structure of the present invention;

FIG. 4 is a schematic view of the structure of the connecting tube of the present invention;

FIG. 5 is a schematic view of the internal structure of the waterproof cover of the present invention;

fig. 6 is a schematic view of the internal structure of the installation pipe of the present invention.

In the figure: 1-a sensor body, 2-a first connecting ring, 3-a first connecting rod, 4-a second locking bolt, 5-a second connecting rod, 6-a second connecting ring, 7-a second through hole, 8-a first locking bolt, 9-a first through hole, 10-a waterproof cover, 11-an installation pipe, 12-a limiting groove, 13-a connecting pipe and 14-a connecting column.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1 to 6, a wind power equipment data acquisition sensor, it includes sensor body 1, the middle part fixedly connected with spliced pole 14 of sensor body 1 bottom surface, spliced pole 14 bottom surface fixedly connected with connecting pipe 13 and installation pipe 11 from inside to outside in proper order, the top fixedly connected with first go-between 2 of connecting pipe 13 outer wall, the middle part fixedly connected with second go-between 6 of connecting pipe 13 outer wall, it is connected with two head rods 3 and second connecting rod 5 to rotate between first go-between 2 and the second go-between 6, two head rods 3 are the second connecting rod 5 respectively and rotate and are connected, two head rods 3 all with the inner wall sliding connection of installation pipe 11.

As an optional technical solution of the utility model: outer fixed surface of spliced pole 14 is connected with the buckler 10, two first through-holes 9 have all been seted up on the top of buckler 10 outer wall, the inside of two first through-holes 9 is all rotated and is connected with first locking bolt 8, two first locking bolts 8 all with spliced pole 14 threaded connection, the top surface of buckler 10 laminates mutually with sensor body 1's bottom surface, spliced pole 14 respectively with sensor body 1 and connecting pipe 13 fixed connection, the connection contact of sensor body 1 is placed in the inside bottom of connecting pipe 13, and then be convenient for make connecting pipe 13 carry out the joint with external connection head, realize electric connection, first locking bolt 8 can be convenient for fix the surface at spliced pole 14 with buckler 10, and two first through-holes 9 are the counter bore.

As an optional technical solution of the utility model: mounting tube 11 has been close to the inner wall of head rod 3 and has been seted up spacing groove 12, the bottom of two head rods 3 all with spacing groove 12 sliding connection, two head rods 3 all rotate with first go-between 2 and second connecting rod 5 respectively through the pin and be connected, two second connecting rod 5 all rotate with second go-between 6 through the pin and be connected, first go-between 2 and second go-between 6 all pass through set screw and connecting pipe 13 fixed connection, spacing groove 12 can be seted up according to the user demand, perhaps adopt two band irons and mounting tube 11's inner wall welding to enclose synthetically mutually, and then be convenient for through with two head rod 3 sliding connection, thereby be convenient for realize prescribing a limit to sensor body 1's mounted position and angle.

As an optional technical solution of the utility model: second through-hole 7 has been seted up on the top of installation pipe 11 outer wall, and the inside of second through-hole 7 is all rotated and is connected with second locking bolt 4, and second locking bolt 4 and connecting pipe 13 threaded connection, second locking bolt 4 can be convenient for make connecting pipe 13 fixed connection in the inside of installation pipe 11, realize fixing the position of sensor body 1.

As an optional technical solution of the utility model: the shape of the waterproof cover 10 is a frustum, a gap is reserved between the inner wall of the waterproof cover 10 and the outer wall of the installation pipe 11, rubber can be selected from the material of the waterproof cover 10, the coverage area of the bottom end of the waterproof cover 10 can be enlarged due to the conical shape, and rainwater is effectively prevented from being sprayed into the installation pipe 11.

The forestry production brush cutter needs the following steps when in use:

1) fixedly connecting the connecting column 14 and the connecting pipe 13 with the sensor body 1 in sequence, rotatably connecting the two first connecting rods 3 and the two second connecting rods 5, then rotatably connecting the two first connecting rods 3 with the first connecting ring 2, and rotatably connecting the two second connecting rods 5 with the second connecting ring 6;

2) inserting the connecting pipes 13 into the first connecting ring 2 and the second connecting ring 6 in sequence, adjusting the size between the bottom ends of the outer walls of the two first connecting rods 3, and fixing the positions of the two first connecting rods by positioning screws;

3) directly placing the waterproof cover 10 on the outer surface of the mounting pipe 11, clamping the connecting cable with the bottom end of the connecting pipe 13, placing the connecting pipe 13 together with the first connecting ring 2 and the second connecting ring 6 into the mounting pipe 11, simultaneously sequentially placing the bottom ends of the two first connecting rods 3 into the limiting groove 12, lifting the waterproof cover 10 to the outer surface of the connecting column 14, and fixing the position through the two first locking bolts 8;

4) and opening the waterproof cover 10, and completely penetrating the second locking bolt 4 through the second through hole 7 and in threaded connection with the connecting pipe 13, so that the integral installation is realized.

In summary, when the user uses the sensor, the two first connecting rods 3 and the two second connecting rods 5 are connected end to end in a rotating manner, the top ends of the two first connecting rods 3 are connected with the first connecting ring 2, the bottom ends of the two second connecting rods 5 are connected with the second connecting ring 6 in a rotating manner, the bottom ends of the two first connecting rods 3 are both connected with the limiting groove 12 in a sliding manner, so that the connecting pipe 13 and the sensor body 1 can be conveniently aligned and positioned, the user can conveniently perform installation operation, the first connecting ring 2 and the second connecting ring 6 are both fixedly connected with the connecting pipe 13 through the positioning screws, the positioning screws on the outer surface of the second connecting ring 6 are unscrewed, the two second connecting rods 5 and the first connecting rods 3 can rotate at a certain angle, the two first connecting rods 3 can be conveniently connected with the limiting groove 12 in a certain size range in a sliding manner, and the user can conveniently operate and use the sensor, waterproof cover 10 is through two first locking bolt 8 and spliced pole 14 fixed connection, and the top surface of waterproof cover 10 laminates with sensor body 1's bottom surface mutually, thereby be convenient for form the protective screen in the junction of installation pipe 11 and spliced pole 14, reduce the rainwater and directly dash the junction that drenches installation pipe 11 and spliced pole 14, thereby improve holistic waterproof level, leave certain clearance between the inner wall through waterproof cover 10 and the outer wall of installation pipe 11, thereby avoid taking place direct contact with second locking bolt 4.

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.

Claims (5)

1. The utility model provides a wind power equipment data acquisition sensor which characterized in that: including sensor body (1), middle part fixedly connected with spliced pole (14) of sensor body (1) bottom surface, spliced pole (14) bottom surface fixedly connected with connecting pipe (13) and installation pipe (11) from inside to outside in proper order, top fixedly connected with first go-between (2) of connecting pipe (13) outer wall, the middle part fixedly connected with second go-between (6) of connecting pipe (13) outer wall, it is connected with two head rod (3) and second connecting rod (5) to rotate between first go-between (2) and second go-between (6), two head rod (3) second connecting rod (5) rotate respectively and are connected, two head rod (3) all with the inner wall sliding connection of installation pipe (11).

2. The wind power equipment data acquisition sensor of claim 1, wherein: the outer fixed surface of spliced pole (14) is connected with buckler (10), two first through-holes (9), two have all been seted up on the top of buckler (10) outer wall the inside of first through-hole (9) is all rotated and is connected with first locking bolt (8), two first locking bolt (8) all with spliced pole (14) threaded connection, the top surface of buckler (10) laminates with the bottom surface of sensor body (1) mutually.

3. The wind power equipment data acquisition sensor of claim 1, wherein: the mounting pipe (11) is close to the inner wall of the first connecting rod (3) and is provided with a limiting groove (12), two the bottom end of the first connecting rod (3) is connected with the limiting groove (12) in a sliding mode, the first connecting rod (3) is connected with the first connecting ring (2) and the second connecting rod (5) in a rotating mode through pins, the second connecting rod (5) is connected with the second connecting ring (6) in a rotating mode through pins, and the first connecting ring (2) and the second connecting ring (6) are fixedly connected with the connecting pipe (13) through positioning screws.

4. The wind power equipment data acquisition sensor of claim 1, wherein: second through-hole (7) have been seted up on the top of installation pipe (11) outer wall, the inside of second through-hole (7) all rotates and is connected with second locking bolt (4), second locking bolt (4) and connecting pipe (13) threaded connection.

5. The wind power equipment data acquisition sensor of claim 2, wherein: the waterproof cover (10) is in a frustum shape, and a gap is reserved between the inner wall of the waterproof cover (10) and the outer wall of the mounting pipe (11).

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