CN218042111U - Structure of intelligent motor controller mounting bracket - Google Patents

Abstract

The utility model relates to the technical field of motor controller installation, a structure of intelligent motor controller installing support is disclosed, including first case, the inside of first case is equipped with a plurality of first units, and a plurality of first units all include first backup pad, and first backup pad is on a parallel with first central line, and one side that first backup pad is close to first central line is equipped with splint, splint and first backup pad fixed connection, and one side that first backup pad kept away from first central line is equipped with the track, and the track both sides all are equipped with the fixed plate, and the fixed plate is connected the second unit that is used for adjusting the distance of track and first backup pad; the fixing plates of the first units are fixedly connected through the annular frame; the middle of a plurality of regulating units is equipped with the second case, has placed motor controller in the second case, and the second case is cylindric, and second case diameter size includes a plurality of specifications. The mounting structure is convenient for being suitable for mounting and fixing the cylindrical motor controllers with different diameters and the protective shells of the cylindrical motor controllers.

Description

Structure of intelligent motor controller mounting bracket

Technical Field

The utility model relates to a machine controller installation field, more specifically say, it relates to a structure of intelligent machine controller installing support.

Background

The shape of the motor controller is manufactured into different shapes according to different motor application scenes, and specifications with different sizes are provided under the same shape. The motor controller used in the environment with large depth pressure is designed to be cylindrical in shape to uniformly bear large pressure. To cylindric motor controller, when the cylindric motor controller of different diameters was installed on work platform, need change different mounting structure in order to guarantee motor controller's fixed, this just needs to make different mounting structure according to the motor controller of different specifications, and mounting structure needs again to be fixed with work platform, and whole installation is complicated.

SUMMERY OF THE UTILITY MODEL

The utility model provides a structure of intelligent machine controller installing support solves the incompatible technical problem of the cylindric machine controller's of different specifications installing support among the correlation technique.

According to an aspect of the present invention, a structure of an intelligent motor controller mounting bracket is provided, including a first box, the first box is cylindrical, a central axis of the first box is a first central line, a plurality of first units are arranged inside the first box, each of the plurality of first units includes a first support plate, the first support plate is parallel to the first central line, one side of the first support plate close to the first central line is provided with a clamp plate, the clamp plate is fixedly connected with the first support plate, one side of the first support plate far away from the first central line is provided with a track, both sides of the track are provided with fixing plates, a first driving wheel and a first driven wheel are arranged in the track, the first driving wheel is sleeved on the first shaft, the first shaft is fixedly connected with the first driving wheel, two ends of the first shaft respectively penetrate through two fixing plates on both sides, the first shaft is rotatably connected with the fixing plates, the first driven wheel is sleeved on the second shaft, two ends of the second shaft penetrate through the fixing plates, the second shaft is rotatably connected with the fixing plates on both sides, axes of the first shaft and parallel to each other, one end of the first shaft extends out of the fixing plate is fixedly connected with an output shaft of the first motor, and is connected with a second unit of the track;

the fixing plates of the first units are fixedly connected through the annular frame;

the middle of a plurality of regulating units is equipped with the second case, has placed motor controller in the second case, and the second case is cylindric, and second case diameter size includes a plurality of specifications.

Optionally, the second unit includes two shafts disposed between the two fixing plates, which are respectively a third shaft and a fourth shaft, the third shaft and the fourth shaft are both parallel to the first shaft, the third shaft is close to the second shaft, two ends of the third shaft penetrate through the two fixing plates and extend to the outer sides of the fixing plates, two ends of the third shaft are respectively and symmetrically provided with two first supporting frames, the first supporting frames at two ends of the third shaft are respectively hinged to the third shaft, one end of the first supporting frame far away from the third shaft is hinged to the side surface of the first supporting plate, the fourth shaft is close to the first shaft, two ends of the fourth shaft penetrate through the two fixing plates and extend to the outer sides of the fixing plates, two ends of the fourth shaft are respectively and symmetrically provided with two second supporting frames, the second supporting frames at two ends of the fourth shaft are respectively hinged to the fourth shaft, one end of the second supporting frame far away from the fourth shaft is hinged to the side surface of the first supporting plate, the first supporting frames are parallel to the first supporting frames located at the same side of the first supporting plates, the length of the first support frame is the same as that of the first support frame, a fifth shaft is arranged between the third shaft and the fourth shaft, the fifth shaft is parallel to the fourth shaft, two ends of the fifth shaft penetrate through the two fixed plates and extend to the outer sides of the fixed plates, two ends of the fifth shaft are respectively and symmetrically provided with two third support frames, the third support frames at two ends of the fifth shaft are respectively hinged with the fifth shaft, one end, far away from the fifth shaft, of each third support frame is hinged with a first sliding block, a first hollow groove is formed in the first support plate and is parallel to a first central line, one side, close to the first support plate, of each first sliding block is provided with a square groove which is communicated up and down, a plurality of pins are arranged in the first hollow groove and are connected with the first support plate in a sliding manner, two ends of the pins are respectively and fixedly connected with two side walls of the square groove, one end, tightly clamped with the first central line, of the first sliding block is connected with a first straight line driving mechanism for driving the first sliding block to move along the first hollow groove, the first linear driving mechanism is fixed on the first supporting plate.

Optionally, the first linear drive mechanism is an electric cylinder or an electric push rod.

Optionally, two third supports include two sections first section and second section through spring coupling, the articulated fifth of one end of first section, the other end is equipped with the column recess, column groove opening is towards first slider, two second fretwork grooves have been seted up on the lateral wall of column recess, the articulated first slider of one end of second section, the other end is equipped with the column recess clearance fit's on the first section cylinder, the cover is equipped with the spring on the cylinder, the spring receives the compression of first section and second section, the right-hand member that first slider was kept away from to the cylinder is equipped with second recess clearance fit's lug, first section and second section sliding connection.

Optionally, a plurality of supporting wheels are arranged between the first driving wheel and the first driven wheel, the supporting wheels are fixedly arranged between the two fixing plates through a sixth shaft, the supporting wheels are rotatably connected with the sixth shaft, the outer peripheral surfaces of the supporting wheels abut against the inner side of the crawler belt, the supporting wheels are located on one sides, far away from the first supporting plate, of the two fixing plates, and the axis of the first shaft is perpendicular to the first central line.

Optionally, a second supporting plate is arranged on one side of the track close to the first center line, the second supporting plate is located on the inner side of the track, the second supporting plate is perpendicular to the fixing plates, and the second supporting plate is fixedly connected with the two fixing plates.

Optionally, the cross section of the clamping plate is arc-shaped, and the concave surface of the arc-shaped surface of the clamping plate faces the first central line. Optionally, a gasket is arranged on the cambered surface of the clamping plate close to the first central line.

Optionally, one end of the second box is provided with a first hole for passing through a circuit of the motor controller.

The beneficial effects of the utility model reside in that: the mounting structure is convenient for being suitable for mounting and fixing the cylindrical motor controllers with different diameters and the protective shells of the cylindrical motor controllers.

Drawings

Fig. 1 is a schematic view of the main structure of the present invention;

fig. 2 is a schematic structural view along the first centerline of the present invention;

fig. 3 is a view a of the present invention;

fig. 4 is a schematic structural diagram of a first unit of the present invention;

fig. 5 is an enlarged view of fig. 4 at B;

fig. 6 is a schematic view of the mechanism in the track of the present invention.

In the figure: 101. a first tank; 102. a first support plate; 103. a splint; 104. a crawler belt; 105. a fixing plate; 106. a first drive wheel; 107. a first driven wheel; 108. a first shaft; 109. a second shaft; 110. an annular frame; 111. a second tank; 112. a third axis; 113. a fourth axis; 114. a first support frame; 115. a second support frame; 116. a fifth shaft; 117. a third support frame; 118. a first slider; 119. a first hollow-out groove; 120. a first linear drive mechanism; 121. a spring; 122. a second hollow-out groove; 123. a gasket; 124. a support wheel; 125. a second support plate; 126. a first hole; 127. a first motor.

Detailed Description

The subject matter described herein will now be discussed with reference to example embodiments. It should be understood that these embodiments are discussed only to enable those skilled in the art to better understand and thereby implement the subject matter described herein, and are not intended to limit the scope, applicability, or examples set forth in the claims. Changes may be made in the function and arrangement of elements discussed without departing from the scope of the disclosure. Various examples may omit, substitute, or add various procedures or components as needed. In addition, features described with respect to some examples may also be combined in other examples.

Example one

As shown in fig. 1 to 6, a structure of an intelligent motor controller mounting bracket includes a first box 101, the first box 101 is cylindrical, a central axis of the first box 101 is a first central line, a plurality of first units are disposed inside the first box 101, each of the plurality of first units includes a first support plate 102, the first support plate 102 is parallel to the first central line, a clamp plate 103 is disposed on a side of the first support plate 102 close to the first central line, the clamp plate 103 is fixedly connected to the first support plate 102, a crawler 104 is disposed on a side of the first support plate 102 away from the first central line, fixing plates 105 are disposed on two sides of the crawler 104, a first driving wheel 106 and a first driven wheel 107 are disposed in the crawler 104, the first driving wheel 106 is sleeved on the first shaft 108, the first shaft 108 is fixedly connected to the first driving wheel 106, two ends of the first shaft 108 respectively penetrate through the fixing plates 105 on two sides, the first shaft 108 is rotatably connected to the fixing plates 105, the first driven wheel 107 is sleeved on the second shaft 109, two ends of the second shaft 109 penetrate through the fixing plates 105, the second shaft 109, the fixing plates 105 are rotatably connected to the fixing plates 105, one end of the first shaft 108 is parallel to the fixing plates 105, and the first shaft 105 is connected to an output shaft 104, and an output shaft 105 of the first shaft 105 is used for adjusting a distance of the motor 102;

the fixing plates 105 of the plurality of first units are fixedly connected with each other through the ring-shaped frame 110;

second case 111 is equipped with in the middle of a plurality of first units, has placed motor controller in second case 111, and second case 111 is cylindric, and second case 111 diameter size includes a plurality of specifications.

The utility model discloses a theory of operation: a plurality of first units which are fixed together through a ring frame 110 are placed in a first box 101, a motor controller is arranged in a second box 111, the second box 111 is placed between first supporting plates 102 of a plurality of adjusting units, the distance between each adjusting unit and each adjusting unit increases the distance between a crawler 104 and the first supporting plate 102, the crawler 104 props against the inner wall of the first box 101, the first supporting plate 102 gradually props against the second box 111 towards a clamping plate 103 on the first supporting plate 102 close to the plurality of adjusting units towards a first central line in the process of increasing the distance between the crawler 104 and the first supporting plate, after the second box 111 is clamped by the clamping blocks, the axis of the second box 111 and the first central line are driven by a first motor 127 to rotate, the first driving wheel 106 drives the crawler 104 sleeved on the first driving wheel 106 and a first driven wheel 107 to rotate, the crawler 104 drives the whole adjusting unit to move along the first central line in the state of clinging to the first box 101, and further moves the electrode controller to a proper position in the first box 101.

After the second tank 111 of a different diameter is replaced, the second tank 111 can be clamped by repeating the above operations.

The mounting structure is convenient for being suitable for mounting and fixing the cylindrical motor controllers with different diameters and the protective shells of the cylindrical motor controllers.

In one embodiment of the present invention, the second unit comprises two shafts disposed between the two fixing plates 105, namely a third shaft 112 and a fourth shaft 113, the third shaft 112 and the fourth shaft 113 are both parallel to the first shaft 108, the third shaft 112 is close to the second shaft 109, two ends of the third shaft 112 penetrate through the two fixing plates 105 and extend to the outside of the fixing plates 105, two first supporting frames 114 are symmetrically disposed at two ends of the third shaft 112, respectively, the first supporting frames 114 at two ends of the third shaft 112 are hinged to the third shaft 112, one end of the first supporting frame 114, far away from the third shaft 112, is hinged to the side of the first supporting plate 102, the fourth shaft 113 is close to the first shaft 108, two ends of the fourth shaft 113 penetrate through the two fixing plates 105 and extend to the outside of the fixing plates 105, two ends of the fourth shaft 113 are symmetrically disposed with two second supporting frames 115, respectively, the second supporting frames 115 at two ends of the fourth shaft 113 are hinged to the fourth shaft 113, one end of the second support frame 115, which is far away from the fourth shaft 113, is hinged with the side surface of the first support plate 102, the first support frame 114 is parallel to the first support frame 114 which is positioned on the same side of the first support plate 102, the length of the first support frame 114 is the same as that of the first support frame 114, a fifth shaft 116 is arranged between the third shaft 112 and the fourth shaft 113, the fifth shaft 116 is parallel to the fourth shaft 113, two ends of the fifth shaft 116 penetrate through the two fixing plates 105 and extend to the outer sides of the fixing plates 105, two third support frames 117 are symmetrically arranged at two ends of the fifth shaft 116 respectively, the third support frames 117 at two ends of the fifth shaft 116 are hinged with the fifth shaft 116 respectively, one end of the third support frames 117, which is far away from the fifth shaft 116, is hinged with a first slide block 118, a first hollow groove 119 is formed in the first support plate 102, the first hollow groove 119 is parallel to the first central line, one side of the first slide block 118, which is near the first support plate 102, is provided with a square groove which is through from the upper and the lower part, a plurality of pins are arranged in the first hollow-out groove 119 and are in sliding connection with the first supporting plate 102, two ends of each pin are fixedly connected with two side walls of the corresponding square groove respectively, one end, tightly clamped with the first central line, of the first sliding block 118 is connected with a first linear driving mechanism 120 used for driving the first sliding block 118 to move along the first hollow-out groove 119, and the first linear driving mechanism 120 is fixed on the first supporting plate 102.

When the second unit needs to be started, the first linear driving mechanism 120 pushes the first sliding block 118 to move in the first hollow-out groove 119, because a parallelogram is formed among the first support frame 114, the second support frame 115, the first support plate 102 and the fixing plate 105, when the first sliding block 118 pushes the fixing plate 105 through the third support frame 117, the first support frame 114 and the second support frame 115 respectively rotate around the third shaft 112 and the fourth shaft 113, the crawler 104 between the fixing plate 105 abuts against the inner wall of the first box 101, the included angles between the first support frame 114, the second support frame 115 and the support rods are increased, the first support frame 114 and the second support frame 115 push the first support plate 102 to move in the direction away from the crawler 104, and then the clamping blocks on the first support plate 102 move in the direction close to the first central line; when the distance between the track 104 and the first support plate 102 needs to be reduced, the first linear driving mechanism 120 drives the first sliding block 118 to reset, the included angle between the first support frame 114, the second support frame 115 and the support rod is reduced, the first support plate 102 drives the clamping plate 103 to move towards the direction far away from the first central line, and in the whole moving process, the first support plate 102 is kept parallel to the first central axis.

In one embodiment of the present utility model, the first linear drive mechanism 120 is an electric cylinder or an electric push rod.

In an embodiment of the present invention, the two third supporting frames 117 include two first sections and two second sections connected by a spring 121, one end of the first section is hinged to the fifth shaft 116, the other end is provided with a cylindrical groove, the opening of the cylindrical groove faces the first sliding block 118, two second hollow grooves 122 are formed on the side wall of the cylindrical groove, one end of the second section is hinged to the first sliding block 118, the other end is provided with a cylinder in clearance fit with the cylindrical groove on the first section, the cylinder is sleeved with the spring 121, the spring 121 is compressed by the first section and the second section, the right end of the cylinder away from the first sliding block 118 is provided with a projection in clearance fit with the second groove, and the first section is slidably connected with the second section.

The third support frame 117 is provided in two segments connected by a spring 121 to prevent the first linear driving mechanism 120 from being excessively strong, and the second case 111 in which the motor controller is installed is pressed. Meanwhile, when the first box 101 receives vibration, the second box 111 vibrates, due to the springs 121 arranged between the third support frames 117, the first support plates 102 of the adjusting units can move close to or away from the first central line under the vibration effect of the second box 111 and reset rapidly, the second box 111 can also reset after deviating from the first central line for a short time, in the process, the clamping plates 103 always clamp the second box 111, and the vibration is finally buffered by the springs 121 on the third support frames 117.

Furthermore, a plurality of supporting wheels 124 are arranged between the first driving wheel 106 and the first driven wheel 107, the supporting wheels 124 are fixedly arranged between the two fixing plates 105 through a sixth shaft, the supporting wheels 124 are rotatably connected with the sixth shaft, the outer circumferential surfaces of the supporting wheels 124 abut against the inner side of the crawler 104, the supporting wheels 124 are positioned on one side of the two fixing plates 105 far away from the first supporting plate 102, and the axis of the first shaft 108 is perpendicular to the first central line.

Further, a second support plate 125 is disposed on one side of the track 104 close to the first center line, the second support plate 125 is disposed on the inner side of the track 104, the second support plate 125 is perpendicular to the fixing plates 105, and the second support plate 125 is fixedly connected to the two fixing plates 105. The second support plate 125 holds the track 104 taut.

In one embodiment of the present invention, the cross-section of the clamping plate 103 is arc-shaped, and the concave surface of the arc-shaped surface of the clamping plate 103 faces the first centerline. The cambered cross-section enables the clamping plate 103 to be attached to the second box 111 more closely.

Further, a gasket 123 is arranged on the arc surface of the clamping plate 103 close to the first center line. The spacer 123 allows the clamp plate 103 to closely fit the second case 111 of different diameters while preventing slippage between the clamp plate 103 and the second case 111.

In one embodiment of the present invention, one end of the second housing 111 is provided with a first hole 126 through which the motor controller circuitry passes. The first aperture 126 facilitates motor controller wiring.

The embodiments of the present invention have been described with reference to the drawings, but the present invention is not limited to the above embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many modifications without departing from the spirit and scope of the present invention and the protection scope of the claims.

Claims (9)

1. A structure of an intelligent motor controller mounting bracket is characterized by comprising a first box, wherein the first box is cylindrical, the central axis of the first box is a first central line, a plurality of first units are arranged inside the first box, each first unit comprises a first supporting plate, the first supporting plate is parallel to the first central line, one side, close to the first central line, of each first supporting plate is provided with a clamping plate, the clamping plates are fixedly connected with the first supporting plates, one side, far away from the first central line, of each first supporting plate is provided with a crawler belt, two sides of each crawler belt are provided with a fixed plate, each crawler belt is internally provided with a first driving wheel and a first driven wheel, the first driving wheel is sleeved on a first shaft, the first shaft is fixedly connected with the first driving wheel, two ends of the first shaft respectively penetrate through the two fixed plates on the two sides, the first shaft is rotatably connected with the fixed plates, the first driven wheel is sleeved on a second shaft, two ends of the second shaft penetrate through the fixed plates, the second shaft is rotatably connected with the fixed plates on the two sides, the axes of the first shaft and the second shaft are parallel, one end of the first shaft extends out of the fixed plates, and is fixedly connected with an output shaft of a second unit used for adjusting the distance between the crawler belt and the first supporting plate;

the fixing plates of the first units are fixedly connected through the annular frame;

the middle of a plurality of regulating units is equipped with the second case, has placed motor controller in the second case, and the second case is cylindric, and second case diameter size includes a plurality of specifications.

2. The structure of an intelligent motor controller mounting bracket according to claim 1, wherein the second unit comprises two shafts disposed between two fixed plates, a third shaft and a fourth shaft, the third shaft and the fourth shaft are both parallel to the first shaft, the third shaft is close to the second shaft, two ends of the third shaft penetrate through the two fixed plates and extend to the outer sides of the fixed plates, two first supporting frames are symmetrically disposed at two ends of the third shaft, the first supporting frames at two ends of the third shaft are hinged to the third shaft, one end of the first supporting frame, far away from the third shaft, is hinged to the side of the first supporting plate, the fourth shaft is close to the first shaft, two ends of the fourth shaft penetrate through the two fixed plates and extend to the outer sides of the fixed plates, two second supporting frames are symmetrically disposed at two ends of the fourth shaft, the second supporting frames at two ends of the fourth shaft are hinged to the fourth shaft, one end of the second supporting frame, far away from the fourth shaft, is hinged to the side of the first supporting plate, the first support frame is parallel to the first support frame positioned on the same side of the first support plate, the length of the first support frame is the same as that of the first support frame, a fifth shaft is arranged between the third shaft and a fourth shaft, the fifth shaft is parallel to the fourth shaft, two ends of the fifth shaft penetrate through the two fixed plates and extend to the outer sides of the fixed plates, two ends of the fifth shaft are respectively and symmetrically provided with two third support frames, the third support frames at two ends of the fifth shaft are respectively hinged with the fifth shaft, one end of each third support frame, far away from the fifth shaft, is hinged with a first sliding block, a first hollow groove is formed in the first support plate and is parallel to a first central line, one side, close to the first support plate, of each first sliding block is provided with a vertically through square groove, a plurality of pins are arranged in the first hollow grooves, the pins are slidably connected with the first support plate, and two side walls of the square grooves are respectively and fixedly connected with two ends of the pins, one end of the first sliding block clamping first central line is connected with a first linear driving mechanism which is used for driving the first sliding block to move along the first hollow groove, and the first linear driving mechanism is fixed on the first supporting plate.

3. An intelligent motor controller mounting bracket structure as claimed in claim 2, wherein the first linear drive mechanism is an electric cylinder or an electric push rod.

4. The structure of an intelligent motor controller mounting bracket according to claim 2, wherein the two third support frames comprise a first section and a second section which are connected through a spring, one end of the first section is hinged with a fifth shaft, the other end of the first section is provided with a cylindrical groove, the opening of the cylindrical groove faces towards the first sliding block, two second hollowed-out grooves are formed in the side wall of the cylindrical groove, one end of the second section is hinged with the first sliding block, the other end of the second section is provided with a cylinder which is in clearance fit with the cylindrical groove in the first section, the cylinder is sleeved with the spring, the spring is compressed by the first section and the second section, a lug which is in clearance fit with the second groove is arranged at the right end of the cylinder, which is far away from the first sliding block, and the first section is in sliding connection with the second section.

5. The structure of an intelligent motor controller mounting bracket according to claim 1, wherein a plurality of supporting wheels are arranged between the first driving wheel and the first driven wheel, the supporting wheels are fixedly arranged between the two fixing plates through a sixth shaft, the supporting wheels are rotatably connected with the sixth shaft, the outer peripheral surfaces of the supporting wheels abut against the inner side of the crawler belt, the supporting wheels are positioned on one sides of the two fixing plates far away from the first supporting plate, and the axis of the first shaft is perpendicular to the first central line.

6. The structure of an intelligent motor controller mounting bracket according to claim 1, wherein a second support plate is arranged on one side of the track near the first center line, the second support plate is positioned on the inner side of the track, the second support plate is perpendicular to the fixed plates, and the second support plate is fixedly connected with the two fixed plates.

7. The structure of an intelligent motor controller mounting bracket of claim 1, wherein the cross section of the clamping plate is arc-shaped, and the concave surface of the arc-shaped surface of the clamping plate faces the first center line.

8. The structure of an intelligent motor controller mounting bracket of claim 1, wherein a gasket is provided on the arc surface of the clamping plate near the first centerline.

9. An intelligent motor controller mounting bracket structure as claimed in claim 1, wherein one end of the second box is provided with a first hole for passing a motor controller circuit.

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