CN219851503U - 60-degree angle steel forming device for electric power - Google Patents

Abstract

The utility model provides a 60-degree angle steel forming device for electric power, which comprises a main body, wherein a protection mechanism is arranged in front of the main body, a first adjusting mechanism is arranged above the inside of the main body, a second adjusting mechanism is arranged below the first adjusting mechanism, and the first adjusting mechanism comprises a hydraulic cylinder. This angle steel forming device, before the preprocessing, personnel are directed against the angle of treating the processing angle steel, start first driving motor, first transfer line is transmitted, first conical gear subassembly and second conical gear subassembly all can follow the synchronous meshing transmission of speed of first transfer line this moment, in order to reach and drive the driven lever of second and carry out driven purpose, first lead screw sliding sleeve can carry out lead screw transmission in the periphery of second driven lever under this state, finally owing to there is first pivot between first lead screw sliding sleeve and the last movable press frame, at this moment under first lead screw sliding sleeve transmission state, the activity that should go up movable press frame and be cooperated first pivot can effectively adjust the laminating interval of the articulated backup pad of self both sides.

Description

60-degree angle steel forming device for electric power

Technical Field

The utility model relates to the technical field of electric power, in particular to a 60-degree angle steel forming device for electric power.

Background

Angle steel is often used in the electric power field for processing buildings, the angle steel is commonly called angle iron and is strip steel with two angular sides, the formed included angle is 60 degrees, 90 degrees and the like, the angle steel is divided into equal angle steel and unequal angle steel, the two edge widths of the equal angle steel are equal, the angle steel can form various stress components according to different requirements of structures, and the angle steel can also be used as a connecting piece between the components, and the angle steel forming device for processing the angle steel of 60 degrees is provided.

In use, the existing angle steel forming device needs to be used for forming corresponding angles according to different angles of angle steel to be processed, so that the cost of equipment is increased without any reason, and a plurality of groups of equipment are placed on a large site, so that inconvenience is brought to angle steel processing operation.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a 60-degree angle steel forming device for electric power, which is used for realizing the function of adapting angle steel with different processing angles by combining a first adjusting structure with a second adjusting structure, so that the problem that the forming device with corresponding angles is needed according to different angles of angle steel to be processed is solved, the cost of equipment is increased without any reason under the condition, and a plurality of groups of equipment are placed on a large site, so that inconvenience is brought to angle steel processing operation.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an electric power is with 60 degrees angle steel forming device, includes the main part, the place ahead of main part is provided with protection machanism, and the inside top of main part is provided with first adjustment mechanism, first adjustment mechanism's below is provided with second adjustment mechanism, first adjustment mechanism includes the pneumatic cylinder, and the below of pneumatic cylinder is provided with the dress board, the below both sides of dress board are provided with the carriage, and the below middle part of dress board is provided with first transfer line, the one end of first transfer line is provided with first driving motor, and the one end periphery of first transfer line is provided with first conical gear subassembly, the one end middle part of first conical gear subassembly is provided with first driven lever, the one side periphery of first driven lever and first transfer line is provided with second conical gear subassembly, and the one end middle part of second conical gear subassembly is provided with the second driven lever, one side periphery of second driven lever is provided with first sliding sleeve, and the inboard of first lead screw is provided with first pivot, the opposite side of first lead screw is provided with the movable frame that pushes down.

Further, the plate, the sliding frame and the main body form a hydraulic lifting structure through the hydraulic cylinder, and the sliding frame is symmetrically distributed along the vertical central axis of the plate.

Further, the first screw sliding sleeve forms a transmission structure through the first transmission rod, the first conical gear assembly, the first driven rod, the second conical gear assembly and the second driven rod, and the first screw sliding sleeve, the first rotating shaft and the upper movable pressing frame are movably connected. Starting a first driving motor, driving a first transmission rod, wherein at the moment, the first conical gear assembly and the second conical gear assembly can synchronously carry out meshing transmission along with the speed of the first transmission rod so as to achieve the purpose of driving a second driven rod to carry out transmission, in this state, a first screw sliding sleeve can carry out screw transmission on the periphery of the second driven rod, and finally, because a first rotating shaft exists between the first screw sliding sleeve and an upper movable pressing frame, in the state of the transmission of the first screw sliding sleeve, the upper movable pressing frame is matched with the activity of the first rotating shaft, and the meshing distance of hinged supporting plates on two sides of the upper movable pressing frame can be effectively adjusted.

Further, the protection machanism includes the sliding tray, and the inboard of sliding tray is provided with the sliding dress door, the place ahead both sides of main part are provided with the reservation groove, one side of sliding dress door is provided with the recess, and the inside of recess is provided with first magnetic path, the another side at main part middle part slides and adorns the inboard of door and be provided with the second magnetic path.

Further, the sliding door forms a sliding magnetic assembly structure through the first magnetic block and the second magnetic block, and the first magnetic block and the second magnetic block are both provided with two groups.

Further, the second adjustment mechanism is including bearing the bed frame, and bear the top of bed frame and be provided with the second transfer line, the one end of second transfer line is provided with second driving motor, and the one end periphery of second transfer line is provided with third bevel gear subassembly, the one end middle part of third bevel gear subassembly is provided with the third driven lever, and one side periphery of third driven lever is provided with the fourth bevel gear subassembly, the one end middle part of fourth bevel gear subassembly is provided with the fourth driven lever, and one side periphery of fourth driven lever is provided with the second lead screw sliding sleeve, the inboard of second lead screw sliding sleeve is provided with the second pivot, and the other side of second pivot is provided with movable carrier down.

Further, the second screw rod sliding sleeve forms a transmission structure through a second transmission rod, a third bevel gear assembly, a third driven rod, a fourth bevel gear assembly and a fourth driven rod, and the second screw rod sliding sleeve, the second rotating shaft and the lower movable bearing frame are movably connected. The difference between the lower movable bearing frame and the upper movable pressing frame is that the lower movable bearing frame and the associated regulating structure and parts are located outside the frame body, so that the bearing force and the processing stability of the lower movable bearing frame are improved by enlarging the bearing area.

The utility model has the beneficial effects that:

(1) Before preprocessing, a person starts a first driving motor aiming at the angle of angle steel to be processed, a first transmission rod is used for transmission, at the moment, a first bevel gear assembly and a second bevel gear assembly can synchronously carry out meshing transmission along with the speed of the first transmission rod so as to achieve the purpose of driving a second driven rod to carry out transmission, in the state, a first lead screw sliding sleeve can carry out lead screw transmission on the periphery of the second driven rod, and finally, as a first rotating shaft exists between the first lead screw sliding sleeve and an upper movable pressing frame, in the state of the transmission of the first lead screw sliding sleeve, the upper movable pressing frame can effectively adjust the meshing distance of hinged support plates on two sides of the upper movable pressing frame by matching with the activity of the first rotating shaft, so that the angle steel to be processed can be matched.

(2) The sliding door has the function of standard protection for operators, is made of toughened glass, and can be observed by the operators in the angle steel processing process.

(3) The adjusting mode of the lower movable bearing frame is basically identical with that of the upper movable pressing frame, and the only difference is that the adjusting structure and the parts related to the lower movable bearing frame are all arranged outside the frame body, so that the bearing force and the processing stability of the lower movable bearing frame are improved by enlarging the bearing area.

In conclusion, the portable angle adjusting device has the advantages of being portable in adjusting modes and the like and being suitable for different angle steel angles.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a partial enlarged structure of the portion A in FIG. 1 according to the present utility model;

FIG. 3 is a schematic view of a first adjusting mechanism according to the present utility model;

fig. 4 is a schematic structural view of a second adjusting mechanism of the present utility model.

In the figure: 1. a main body; 2. a protection mechanism; 201. a sliding groove; 202. sliding door installation; 203. a reserved groove; 204. a groove; 205. a first magnetic block; 206. a second magnetic block; 3. a first adjustment mechanism; 301. a hydraulic cylinder; 302. a plate is arranged; 303. a carriage; 304. a first transmission rod; 305. a first driving motor; 306. a first bevel gear assembly; 307. a first driven lever; 308. a second bevel gear assembly; 309. a second driven lever; 310. the first screw sliding sleeve; 311. a first rotating shaft; 312. a movable pressing frame is arranged on the upper part; 4. a second adjustment mechanism; 401. a load-bearing base frame; 402. a second transmission rod; 403. a second driving motor; 404. a third bevel gear assembly; 405. a third driven lever; 406. a fourth bevel gear assembly; 407. a fourth driven lever; 408. a second screw rod sliding sleeve; 409. a second rotating shaft; 410. and a lower movable bearing frame.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Example 1

As shown in fig. 1-2, this embodiment provides a 60 degrees angle steel forming device for electric power, including main part 1, the place ahead of main part 1 is provided with protection machanism 2, and the inside top of main part 1 is provided with first adjustment mechanism 3, the below of first adjustment mechanism 3 is provided with second adjustment mechanism 4, protection machanism 2 includes sliding tray 201, and the inboard of sliding tray 201 is provided with the dress door 202, the place ahead both sides of main part 1 are provided with reserve tank 203, one side of dress door 202 is provided with recess 204, and the inside of recess 204 is provided with first magnetic path 205, the another side at main part 1 middle part is slided the dress door 202 inboard and is provided with second magnetic path 206, the dress door 202 forms the slip magnetic path structure through first magnetic path 205 and second magnetic path 206, and first magnetic path 205 and second magnetic path 206 all are provided with two sets of, the effect of dress door 202 itself is the effect of playing the standard protection to the operating personnel, the dress door 202 itself material is toughened glass, the personnel can observe inside processing state in the angle steel course of working.

Example two

As shown in fig. 3, wherein the same or corresponding parts as those in the first embodiment are denoted by the corresponding reference numerals as in the first embodiment, only the points of distinction from the first embodiment will be described below for the sake of brevity. The second embodiment is different from the first embodiment in that: the first adjusting mechanism 3 comprises a hydraulic cylinder 301, a plate 302 is arranged below the hydraulic cylinder 301, sliding frames 303 are arranged on two sides below the plate 302, the sliding frames 303 and the main body 1 form a hydraulic lifting structure through the hydraulic cylinder 301, the sliding frames 303 are symmetrically distributed along the vertical central axis of the plate 302, a first transmission rod 304 is arranged in the middle of the lower part of the plate 302, one end of the first transmission rod 304 is provided with a first driving motor 305, one end periphery of the first transmission rod 304 is provided with a first bevel gear component 306, one end middle of the first bevel gear component 306 is provided with a first driven rod 307, one side periphery of the first driven rod 307 and one side periphery of the first transmission rod 304 are provided with a second bevel gear component 308, one side periphery of the second driven rod 309 is provided with a first lead screw sliding sleeve 310, the inner side of the first screw sliding sleeve 310 is provided with a first rotating shaft 311, the other side of the first rotating shaft 311 is provided with an upper movable pressing frame 312, the first screw sliding sleeve 310 forms a transmission structure through a first transmission rod 304, a first bevel gear component 306, a first driven rod 307, a second bevel gear component 308 and a second driven rod 309, the first screw sliding sleeve 310, the first rotating shaft 311 and the upper movable pressing frame 312 are movably connected, before the pre-processing, a person starts a first driving motor 305 aiming at the angle of angle steel to be processed, the first transmission rod 304 is used for transmission, at the moment, the first bevel gear component 306 and the second bevel gear component 308 can synchronously mesh with each other along with the speed of the first transmission rod 304 so as to achieve the purpose of driving the second driven rod 309 to carry out transmission, in this state, the first screw sliding sleeve 310 can carry out screw transmission on the periphery of the second driven rod 309, finally, because the first rotating shaft 311 exists between the first screw sliding sleeve 310 and the upper movable pressing frame 312, at this moment, under the transmission state of the first screw sliding sleeve 310, the upper movable pressing frame 312 can effectively adjust the joint distance between the two hinged support plates at two sides of the upper movable pressing frame 312 by matching with the mobility of the first rotating shaft 311, so as to achieve the angle specification of the angle steel to be processed.

Example III

As shown in fig. 4, this embodiment provides a 60-degree angle steel forming device for electric power, the second adjusting mechanism 4 includes a bearing base frame 401, and a second transmission rod 402 is disposed above the bearing base frame 401, one end of the second transmission rod 402 is provided with a second driving motor 403, and one end periphery of the second transmission rod 402 is provided with a third bevel gear assembly 404, one end middle part of the third bevel gear assembly 404 is provided with a third driven rod 405, and one side periphery of the third driven rod 405 is provided with a fourth bevel gear assembly 406, one end middle part of the fourth bevel gear assembly 406 is provided with a fourth driven rod 407, and one side periphery of the fourth driven rod 407 is provided with a second screw sliding sleeve 408, an inner side of the second screw sliding sleeve 408 is provided with a second rotating shaft 409, and the other side of the second rotating shaft 409 is provided with a lower movable bearing frame 410, the second screw sliding sleeve 408 forms a transmission structure through the second transmission rod 402, the third bevel gear assembly 404, the third driven rod 405, the fourth bevel gear assembly 406 and the fourth driven rod assembly 405, and the second sliding sleeve 408, the second rotating shaft 409 and the lower movable bearing frame 410 are connected with the lower movable bearing frame 410 in a mode of increasing the bearing frame and the same as the lower movable bearing frame 410, and the lower movable bearing frame is in a mode of increasing the pressure bearing frame and the lower movable bearing frame 410, and the pressure is not being in a corresponding mode.

Working procedure

Step one, before preprocessing, personnel start a first driving motor 305 for the angle of angle steel to be processed, first transmission rod 304 carries out the transmission, first conical gear assembly 306 and second conical gear assembly 308 all can follow the synchronous meshing transmission of speed of first transmission rod 304 at this moment, in order to reach the purpose that drives second driven rod 309 and carry out the transmission, first lead screw sliding sleeve 310 can carry out lead screw transmission in the periphery of second driven rod 309 under this state, finally because there is first pivot 311 between first lead screw sliding sleeve 310 and the last movable press frame 312, at this moment under first lead screw sliding sleeve 310 transmission state, the activity that should go up movable press frame 312 and cooperate first pivot 311 can effectively adjust the joint interval of self both sides articulated backup pad, in order to reach the angle specification of adaptation angle steel to be processed.

The adjusting mode of the lower movable bearing frame 410 is basically identical to that of the upper movable pressing frame 312, and the only difference is that the adjusting structure and the components associated with the lower movable bearing frame 410 are all located outside the frame body, so that the bearing force area is increased to improve the bearing force and the processing stability of the lower movable bearing frame 410.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (7)

1. The utility model provides an electric power is with 60 degrees angle steel forming device, includes the main part, its characterized in that, the place ahead of main part is provided with protection mechanism, and the inside top of main part is provided with first adjustment mechanism, first adjustment mechanism's below is provided with second adjustment mechanism, first adjustment mechanism includes the pneumatic cylinder, and the below of pneumatic cylinder is provided with the dress board, the below both sides of dress board are provided with the carriage, and the below middle part of dress board is provided with first transfer line, the one end of first transfer line is provided with first driving motor, and the one end periphery of first transfer line is provided with first conical gear subassembly, the one end middle part of first conical gear subassembly is provided with first driven lever, the one side periphery of first driven lever and first transfer line is provided with second conical gear subassembly, and the one end middle part of second conical gear subassembly is provided with the second driven lever, one side periphery of second driven lever is provided with first lead screw, and the inboard of first pivot is provided with first pivot, the opposite side of first pivot is provided with the movable frame.

2. The electric 60-degree angle steel forming device according to claim 1, wherein the plate, the sliding frame and the main body form a hydraulic lifting structure through a hydraulic cylinder, and the sliding frame is symmetrically distributed along the vertical central axis of the plate.

3. The electric 60-degree angle steel forming device according to claim 1, wherein the first screw sliding sleeve forms a transmission structure through a first transmission rod, a first conical gear assembly, a first driven rod, a second conical gear assembly and a second driven rod, and the first screw sliding sleeve, the first rotating shaft and the upper movable pressing frame are movably connected.

4. The 60-degree angle steel forming device for electric power according to claim 1, wherein the protection mechanism comprises a sliding groove, a sliding door is arranged on the inner side of the sliding groove, reserved grooves are formed in two sides of the front of the main body, a groove is formed in one side of the sliding door, a first magnetic block is arranged in the groove, and a second magnetic block is arranged on the inner side of the sliding door on the other side of the middle of the main body.

5. The 60-degree angle steel forming device for electric power according to claim 4, wherein the sliding door forms a sliding magnetic assembly structure through the first magnetic block and the second magnetic block, and the first magnetic block and the second magnetic block are provided with two groups.

6. The electric 60-degree angle steel forming device according to claim 1, wherein the second adjusting mechanism comprises a bearing base frame, a second transmission rod is arranged above the bearing base frame, a second driving motor is arranged at one end of the second transmission rod, a third bevel gear assembly is arranged at the periphery of one end of the second transmission rod, a third driven rod is arranged at the middle part of one end of the third bevel gear assembly, a fourth bevel gear assembly is arranged at the periphery of one side of the third driven rod, a fourth driven rod is arranged at the middle part of one end of the fourth bevel gear assembly, a second screw sliding sleeve is arranged at the periphery of one side of the fourth driven rod, a second rotating shaft is arranged at the inner side of the second screw sliding sleeve, and a lower movable bearing frame is arranged at the other side of the second rotating shaft.

7. The electric 60-degree angle steel forming device according to claim 6, wherein the second screw rod sliding sleeve forms a transmission structure through a second transmission rod, a third bevel gear assembly, a third driven rod, a fourth bevel gear assembly and a fourth driven rod, and the second screw rod sliding sleeve, the second rotating shaft and the lower movable bearing frame are movably connected.