CN211916089U - Processing device for supporting rod fixing seat - Google Patents

Abstract

The utility model discloses a bracing piece fixing base processingequipment, including first work platform, be used for first iron plate convolute first reel mechanism, be used for the first laser cutting mechanism of cutting bolt hole and waist round hole on first iron plate, be used for cutting first iron plate into the first cutting mechanism of rectangular iron piece, be used for extruding rectangular iron piece into the first extrusion mechanism of "U" type structure, first reel mechanism, first laser cutting mechanism, first cutting mechanism and first extrusion mechanism locate in proper order on the first work platform. The utility model discloses an automated processing of bracing piece fixing base, production efficiency is high, is applicable to mass production, uses manpower sparingly.

Description

Processing device for supporting rod fixing seat

Technical Field

The utility model belongs to the technical field of enclose shelves part production facility technique and specifically relates to a bracing piece fixing base processingequipment is related to.

Background

The fence is mainly suitable for construction sites and urban highway construction and is used for protecting and dividing construction areas, isolating external environments, protecting and shielding. However, the existing enclosure has poor structural stability, is troublesome to assemble and disassemble and is inconvenient to transport. In order to improve the performance of the enclosure, i developed a novel enclosure 100 ', as shown in fig. 10 to 16, which includes a mesh plate 1', a frame 2 ', a frame fixing seat 5', a support rod 3 'and a support rod fixing seat 6', wherein the frame 2 'includes an outer frame 20' and a plurality of inner reinforcing tubes 21 ', and the inner reinforcing tubes 21' include a plurality of transverse reinforcing tubes 211 'and a plurality of longitudinal reinforcing tubes 210'; the support rod fixing seat 6 ' is in an inverted U-shaped structure, waist circular holes 601 ' are formed in two opposite side edges, and bolt holes 602 ' are formed in the bottom of the support rod fixing seat; the frame fixing seat 5 ' comprises a fixing plate 51 ' and two clamping plates 50 ' arranged in the middle of the fixing plate 51 ' in parallel at intervals, wherein a first through hole 501 ' is formed in each clamping plate 50 ', second through holes 510 ' are formed in two edges of the fixing plate 51 ', the outer frame 20 ' is of a square structure formed by four steel pipes, the connecting surface between every two steel pipes is 45 degrees, the outer frame 20 ' and the inner reinforcing pipes 21 ' are welded into a whole, and the mesh plate 1 ' and the frame 2 ' are welded into a whole. When the enclosure 100 ' is used, the frame 2 ' is fixed between the two clamping plates 50 ', so that the effective positioning of the frame 2 ' is realized, the clamping plates 50 ' are connected with the frame 2 ' through the fasteners, and the fixing plate 51 ' is connected with the ground 7 ' through the fasteners, so that the connection between the mesh plate 1 ' and the frame 2 ' and the ground 7 ' is realized; meanwhile, one end of the supporting rod 3 ' is connected with the frame 20 ' through a fastener, the other end of the supporting rod 3 ' is connected with the supporting rod fixing seat 6 ' through a fastener, the supporting rod 3 ' comprises a short rod 30 ' and a long rod 31 ', supporting stability is improved, the supporting rod fixing seat 6 ' is connected with the ground 7 ' through a fastener, the reinforcing and fixing effects of the mesh plate 1 ' and the frame 2 ' are achieved through the supporting rod 3 ', the overall structural strength of the enclosure 100 ' is improved, stability is high, external impact resistance is high, and the fastener comprises an existing bolt, a nut, a screw and the like. The screen plate 1 ', the frame 2', the frame fixing seat 5 ', the support rod 3' and the support rod fixing seat 6 'which are included in the enclosure 100' can be assembled and disassembled, so that the enclosure 100 'is convenient to transport, the cost is saved, and the enclosure 100' is convenient to assemble and disassemble. The utility model discloses a realize the high-efficient production of bracing piece fixing base 6', provide a bracing piece fixing base processingequipment.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough with regard to overcoming prior art to aim at, provides a bracing piece fixing base processingequipment, the utility model discloses an automated processing of bracing piece fixing base, production efficiency is high, can be applicable to mass production, uses manpower sparingly.

In order to achieve the above purpose, the utility model provides a processing device for a support rod fixing seat, wherein the support rod fixing seat is in an inverted U-shaped structure, waist circular holes are arranged on two opposite sides of the support rod fixing seat, and bolt holes are arranged at the bottom of the support rod fixing seat; the processing device for the supporting rod fixing seat comprises a first working platform, a first winding drum mechanism for winding a first iron plate, a first laser cutting mechanism for cutting a bolt hole and a waist round hole in the first iron plate, a first cutting mechanism for cutting the first iron plate into a rectangular iron block, and a first extrusion forming mechanism for extruding the rectangular iron block into an inverted U-shaped structure, wherein the first winding drum mechanism, the first laser cutting mechanism, the first cutting mechanism and the first extrusion forming mechanism are sequentially arranged on the first working platform; the processing device for the supporting rod fixing seat further comprises a first conveying mechanism which is arranged on the first working platform and used for conveying the inverted U-shaped structure obtained by extruding the first iron plate, the rectangular iron block and the first extrusion forming mechanism.

Further, the first winding mechanism comprises a first rotary driving mechanism arranged on the first working platform and a first material roller connected with the first rotary driving mechanism and used for winding the first iron plate.

Further, the first laser cutting mechanism comprises a first support connected with the first working platform, a first linear driving mechanism installed on the first support, a first moving seat connected with the first linear driving mechanism, a second linear driving mechanism installed on the first moving seat, and a first laser cutting gun connected with the second linear driving mechanism; the first laser cutting mechanism continuously cuts the first iron plate by taking a combined hole group as a unit, wherein the combined hole group comprises two rows of waist-round hole groups and a bolt hole group positioned in the middle of the two rows of waist-round hole groups, each waist-round hole group comprises a plurality of waist-round holes arranged side by side at intervals, each bolt hole group comprises a plurality of bolt holes arranged side by side at intervals, and the rectangular iron block formed by cutting by the first cutting mechanism is provided with the combined hole group;

the processing device for the supporting rod fixing seats further comprises a second cutting mechanism, and the second cutting mechanism cuts the inverted-U-shaped structure obtained by extrusion of the first extrusion forming mechanism into a plurality of independent supporting rod fixing seats.

Further, the first cutting mechanism comprises a second bracket, a third linear driving mechanism and a first special-shaped cutter, and the first special-shaped cutter is in a reverse U-shaped structure; the second support is connected with the first working platform, the third linear driving mechanism is installed on the second support, the first special-shaped cutter is connected with the third linear driving mechanism, and the third linear driving mechanism drives the first special-shaped cutter to move up and down.

Further, the first extrusion forming mechanism comprises a third support, an upper extrusion assembly and a lower extrusion assembly, the upper extrusion assembly comprises a fourth linear driving mechanism and an upper extrusion block, and the lower extrusion assembly comprises a fifth linear driving mechanism and a lower extrusion block;

the third support is connected with the first working platform; the fourth linear driving mechanism is arranged on the third support, the upper extrusion block is connected with the fourth linear driving mechanism, and the fourth linear driving mechanism and the upper extrusion block are positioned above the first working platform;

the fifth linear driving mechanism is arranged on the third support, the lower extrusion block is connected with the fifth linear driving mechanism, and the fifth linear driving mechanism and the lower extrusion block are positioned below the first working platform;

the lower extrusion block is of an inverted U-shaped structure, the lower extrusion block is matched with the outer contour of the support rod fixing seat, the lower part of the upper extrusion block is of a cuboid structure, and the upper extrusion block is matched with the inner contour of the support rod fixing seat;

through grooves are formed in the first working platform corresponding to two side edges of the lower extrusion block; the fifth linear driving mechanism drives the lower extrusion block to move up and down, and the fourth linear driving mechanism drives the upper extrusion block to move up and down; when in extrusion forming, the rectangular iron block is clamped between the lower extrusion block and the upper extrusion block, and the rectangular iron block is extruded into an inverted U-shaped structure.

Furthermore, the first extrusion forming mechanism further comprises a side extrusion assembly positioned above the first working platform, and the side extrusion assembly comprises a sixth linear driving mechanism and a side extrusion plate connected with the sixth linear driving mechanism; the two sixth linear driving mechanisms are alternately arranged on the upper extrusion block, and the upper extrusion block is clamped between the two side extrusion plates; and the sixth linear driving mechanism drives the side extrusion plates to move so as to adjust the distance between the two side extrusion plates.

Furthermore, the side extrusion plate comprises an outer extrusion plate connected with the sixth linear driving mechanism and an inner extrusion plate connected with the outer extrusion plate, and the inner extrusion plate is detachably connected with the outer extrusion plate.

Further, the second cutting mechanism comprises a fourth support, a seventh linear driving mechanism and a second special-shaped cutter, the fourth support is connected with the first working platform, the seventh linear driving mechanism is installed on the fourth support, and the second special-shaped cutter comprises a cutter plate connected with the seventh linear driving mechanism and a plurality of cutter bodies which are installed on the cutter plate at intervals.

Further, first conveying mechanism includes first motor, first driving belt, install in first driving roller on the first motor, through first driving belt with the first driven roller that first driving roller is connected, two first conveying mechanism is the bar structure and installs respectively in first work platform's both sides limit, first driving belt with the edge of first iron plate contacts.

Further, the first linear driving mechanism includes a first linear driving motor, a first lead screw, and a first nut sleeve, the first lead screw is rotatably mounted on the first bracket, the first nut sleeve is sleeved on the first lead screw, the first moving seat is connected with the first nut sleeve, and the first linear driving motor is mounted on the first bracket and connected with the first lead screw.

Furthermore, the first linear driving mechanism further comprises a first guide rod which is arranged on the first support and parallel to the first screw rod, and a first guide hole through which the first guide rod passes is formed in the first nut sleeve.

Further, the second linear driving mechanism comprises a second linear driving motor, a second lead screw, a second nut sleeve and a first moving frame, the second lead screw is rotatably installed on the first moving seat, the second nut sleeve is sleeved on the second lead screw in an externally sleeved mode, the first moving frame is connected with the second nut sleeve, the first laser cutting gun is connected with the first moving frame, and the second linear driving motor is installed on the first moving seat and connected with the second lead screw.

The utility model discloses first iron plate is convoluteed on first reel mechanism, under the effect of first reel mechanism, realize the continuous conveyor of first iron plate, the cutting of waist round hole and bolt hole on first iron plate is realized to first laser cutting mechanism in back, after the laser cutting is accomplished, first cutting mechanism cuts down the position that has waist round hole and bolt hole in the cutting of first iron plate foremost, form the rectangle iron plate, the rectangle iron plate rethread first extrusion forming mechanism extrudes into "U" type structure, this two sides limit of "U" type structure all has waist round hole, there is the bolt hole bottom; the formed part obtained by extrusion of the first extrusion forming mechanism can be directly the supporting rod fixing seat or a formed part comprising a plurality of supporting rod fixing seats, and then is cut into a plurality of independent supporting rod fixing seats through the second cutting mechanism. The utility model discloses the fixed processingequipment of bracing piece has realized the automated processing of bracing piece fixing base, and production efficiency is high, can be applicable to mass production, uses manpower sparingly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a perspective view of the processing device for the support rod fixing seat of the present invention.

Fig. 2 is a perspective view of fig. 1 cut away.

Fig. 3 is a perspective view of the first laser cutting mechanism of the present invention.

Fig. 4 is a perspective view of fig. 3 rotated by a certain angle.

Fig. 5 is a perspective view of the first cutting mechanism of the present invention.

Fig. 6 is a perspective view of fig. 5 cut away.

Fig. 7 is a perspective view of the first extrusion molding mechanism of the present invention.

Fig. 8 is a perspective view of fig. 7 cut away.

Fig. 9 is a perspective view of the second cutting mechanism of the present invention.

Figure 10 is a perspective view of the rail.

Fig. 11 is a perspective view of fig. 10 rotated by a certain angle.

Fig. 12 is an enlarged view of fig. 10 at B.

Fig. 13 is an enlarged view of fig. 10 at C.

Fig. 14 is a perspective view of the frame fixing seat.

Fig. 15 is an enlarged view of fig. 10 at D.

Fig. 16 is a perspective view of the support rod fixing base.

Detailed Description

In order to make the technical solution of the present invention better understood, the present invention is described in detail below with reference to the accompanying drawings, and the description of the present invention is only exemplary and explanatory, and should not be construed as limiting the scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

It should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like refer to the orientation or positional relationship shown in the drawings, or the orientation or positional relationship that the utility model is usually placed when in use, and are used for convenience of description and simplification of description, but do not refer to or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not imply that the components are required to be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 9, the supporting rod fixing seat processing apparatus 1 according to the present embodiment includes a first working platform 10, a first winding mechanism 11 for winding the first iron plate 100, a first laser cutting mechanism 12 for cutting a bolt hole 602 'and a oval hole 601' on the first iron plate 100, a first cutting mechanism 13 for cutting the first iron plate 100 into a rectangular iron block, and a first extrusion forming mechanism 14 for extruding the rectangular iron block into an inverted "u" shape, wherein the first winding mechanism 11, the first laser cutting mechanism 12, the first cutting mechanism 13, and the first extrusion forming mechanism 14 are sequentially disposed on the first working platform 10; the processing device 1 further comprises a first conveying mechanism 16 which is arranged on the first working platform 10 and used for conveying the inverted U-shaped structure obtained by extruding the first iron plate 100, the rectangular iron block and the first extrusion forming mechanism 14.

The working principle of the supporting rod fixing seat processing device 1 of the embodiment is as follows:

the first iron plate 100 is wound on the first winding mechanism 11, the first iron plate 100 is continuously conveyed under the action of the first winding mechanism 11, the first laser cutting mechanism 12 cuts the bolt holes 602 'and the waist circular holes 601' on the first iron plate 100, after the laser cutting is finished, the first cutting mechanism 13 cuts the part of the first iron plate 100 with the bolt hole 602 'and the oval hole 601' at the forefront to form a rectangular iron block, the rectangular iron block is extruded into an inverted U-shaped structure by the first extrusion molding mechanism 14, and the two sides of the inverted-U-shaped structure are provided with kidney-shaped holes 601 ', the bottom is provided with stud holes 602', the formed piece obtained by extrusion of the first extrusion molding mechanism 14 'can be directly the support rod fixing seat 6', or can be a formed piece comprising a plurality of support rod fixing seats 6 ', and the formed piece is to be cut to obtain a plurality of independent support rod fixing seats 6'. In the processing process of the supporting rod fixing seat 6', the first conveying mechanism 16 realizes the conveying of the first iron plate 100, namely the conveying of the inverted U-shaped structure obtained by the rectangular iron blocks and the extrusion of the first extrusion forming mechanism 14; after the first cutting mechanism 16 cuts the first iron plate 100 into rectangular iron blocks, the rectangular iron blocks have no moving ability, and at this time, the first conveying mechanism 16 conveys the rectangular iron blocks and the inverted-u-shaped structure obtained by extrusion of the first extrusion molding mechanism 14. This embodiment has realized the automated production of bracing piece fixing base 6', need not artifical the participation, and production efficiency is high, uses manpower sparingly.

In this embodiment, the first winding mechanism 11 includes a first rotation driving mechanism disposed on the first work platform 10, and a first material roller connected to the first rotation driving mechanism and used for winding the first iron plate 100. The first rotary driving mechanism may adopt an existing motor, or a combination of a motor and a speed reducer, etc., the first iron plate 100 is wound on the first material roller, and the first rotary driving mechanism realizes the winding and continuous conveying of the first iron plate 100.

In this embodiment, the first working platform 10 includes a first platform body 101 and a first platform bracket 102 disposed below the first platform body 101. The corresponding first reel mechanism 11, the first laser cutting mechanism 12, the first cutting mechanism 13 and the first extrusion forming mechanism 14 are sequentially arranged on the first platform body. The first conveying mechanism 16 is provided on the first stage body 101.

As shown in fig. 3 and 4, in this embodiment, it is further preferable that the first laser cutting mechanism 12 includes a first support 120 connected to the first working platform 10, a first linear driving mechanism 121 mounted on the first support 120, a first movable base 122 connected to the first linear driving mechanism 121, a second linear driving mechanism 123 mounted on the first movable base 122, and a first laser cutting gun 124 connected to the second linear driving mechanism 123; the first laser cutting mechanism 12 continuously cuts the first iron plate 100 by taking a combined hole group as a unit, wherein the combined hole group comprises two rows of waist-round hole groups and a bolt hole group positioned in the middle of the two rows of waist-round hole groups, each waist-round hole group comprises a plurality of waist-round holes 601 'arranged side by side at intervals, each bolt hole group comprises a plurality of bolt holes 602' arranged side by side at intervals, and the rectangular iron block cut by the first cutting mechanism 13 is provided with the combined hole group; the processing device 1 further comprises a second cutting mechanism 15, wherein the second cutting mechanism 15 cuts the inverted-U-shaped structure obtained by the extrusion of the first extrusion forming mechanism 14 into a plurality of independent support rod fixing seats 6'. The number of the waist holes 601 'and the number of the bolt holes 602' are determined according to the width of the first work platform 10, the width of the first iron plate 100, the width of the support bar fixing seat 6 ', the number of the waist holes 601' and the bolt holes 602 'on the support bar fixing seat 6', and other factors. During operation, the first linear driving mechanism 121 drives the first moving base 122 to move, and the second linear driving mechanism 123 drives the first laser cutting gun 124 to move, so as to continuously cut the combined hole group on the first iron plate 100, and the cutting efficiency is high. In the present embodiment, the first linear driving mechanism 121 and the second linear driving mechanism 122 may be implemented by an existing linear motion driving device such as an oil cylinder, an air cylinder, an electric push rod, or the like. This embodiment has improved the production efficiency of bracing piece fixing base 1 greatly, realizes the mass production.

As shown in fig. 3 and 4, in the present embodiment, the first linear driving mechanism 121 preferably includes a first linear driving motor 1210, a first lead screw 1211 and a first nut sleeve 1212, the first lead screw 1211 is rotatably mounted on the first bracket 120, the first nut sleeve 1212 is sleeved on the first lead screw 1211, the first moving seat 122 is connected to the first nut sleeve 1212, and the first linear driving motor 1210 is mounted on the first bracket 120 and connected to the first lead screw 1211. When the first linear driving motor 1210 is operated, the first linear driving motor 1210 is started to drive the first lead screw 1211 to rotate, so that the first nut sleeve 1212 moves back and forth on the first lead screw 1211 to move the first moving seat 122 back and forth, wherein the first bracket 120 is further provided with a first guide rod 1213 parallel to the first lead screw 1211, and the first nut sleeve 1212 is provided with a first guide hole through which the first guide rod 1213 passes, so that the guiding function of the back and forth movement of the first moving seat 122 is realized under the action of the first guide rod 1213 and the first guide hole, and the moving precision of the first moving seat 122 is ensured.

As shown in fig. 3 and 4, in the present embodiment, the second linear driving mechanism 123 preferably includes a second linear driving motor 1231, a second lead screw 1232, a second nut sleeve 1233, and a first moving frame 1235, the second lead screw 1232 is rotatably mounted on the first moving base 122, the second nut sleeve 1233 is sleeved on the second lead screw 1232, the first moving frame 1235 is connected with the second nut sleeve 1233, the first laser cutting gun 124 is connected with the first moving frame 1235, and the second linear driving motor 1231 is mounted on the first moving base 122 and connected with the second lead screw 1232. During operation, the second linear driving motor 1231 is started to drive the second lead screw 1232 to rotate, so that the second nut sleeve 1233 moves back and forth on the second lead screw 1232, so that the first movable frame 1235 and the first laser cutting gun 124 move back and forth relative to the first movable base 122, wherein the first movable base 122 is further provided with a second guide rod 1234 parallel to the second lead screw 1232, the second nut sleeve 1233 is provided with a second guide hole through which the second guide rod 1234 passes, so that the guide function of the first movable frame 1235 moving back and forth is realized under the action of the second guide rod 1234 and the second guide hole 123, and the movement accuracy of the first movable frame 1235 and the first laser cutting gun 124 is ensured.

As shown in fig. 5 and 6, in this embodiment, it is further preferable that the first cutting mechanism 13 includes a second support 130, a third linear driving mechanism 131 and a first profile cutter 132, and the first profile cutter 32 has a structure of "n" -type; the second support 130 is connected to the first working platform 10, the third linear driving mechanism 131 is installed on the second support 130, the first contour cutter 132 is connected to the third linear driving mechanism 131, and the third linear driving mechanism 131 drives the first contour cutter 132 to move up and down. During operation, the third linear driving mechanism 131 drives the first special-shaped cutter 132 to move up and down, the two side edges of the first special-shaped cutter 132 cut the first iron plate 100 to form a rectangular iron block, the operation is simple and convenient, and meanwhile, the first special-shaped cutter 132 is designed into a structure of inverted U shape to cut out the rectangular iron block at one time, so that the cutting precision of the rectangular iron block is ensured. In the present embodiment, the third linear driving mechanism 131 may be an existing linear motion driving device such as an oil cylinder, an air cylinder, an electric push rod, or the like.

As shown in fig. 7 and 8, the present embodiment further preferably includes the first extrusion molding mechanism 14 including a third bracket 141, an upper extrusion assembly including a fourth linear driving mechanism 142 and an upper extrusion block 143, and a lower extrusion assembly including a fifth linear driving mechanism 146 and a lower extrusion block 145;

the third bracket 141 is connected with the first working platform 10; the fourth linear driving mechanism 142 is mounted on the third support 141, the upper extrusion block 143 is connected to the fourth linear driving mechanism 142, and the fourth linear driving mechanism 142 and the upper extrusion block 143 are located above the first working platform 10;

the fifth linear driving mechanism 146 is mounted on the third bracket 141, the lower extrusion block 145 is connected to the fifth linear driving mechanism 146, and the fifth linear driving mechanism 146 and the lower extrusion block 145 are located below the first working platform 10;

the lower extrusion block 145 is in an inverted U-shaped structure, the lower extrusion block 145 is matched with the outer contour of the support rod fixing seat 6 ', the lower part of the upper extrusion block 143 is in a cuboid structure, and the upper extrusion block 143 is matched with the inner contour of the support rod fixing seat 6';

through grooves 1011 are formed in the two side edges of the first working platform 10 corresponding to the lower extrusion block 145; the fifth linear driving mechanism 146 drives the lower pressing block 145 to move up and down, and the fourth linear driving mechanism 142 drives the upper pressing block 143 to move up and down; during extrusion molding, the rectangular iron blocks are clamped between the lower extrusion block 145 and the upper extrusion block 143, and the rectangular iron blocks are extruded into an inverted U-shaped structure.

The first extrusion molding mechanism 14 of the present embodiment operates as follows:

after the first cutting mechanism 13 finishes cutting, the rectangular iron block is conveyed to the first extrusion forming mechanism 14 under the action of the first conveying mechanism 16, the fourth linear driving mechanism 142 drives the upper extrusion block 143 to move downwards to compress the rectangular iron block, the fifth linear driving mechanism 146 drives the lower extrusion block 145 to move upwards to two sides of the lower extrusion block 145 to penetrate through the two through grooves 1011, at this time, the rectangular iron block aligned with the through grooves 1011 is pushed upwards by the lower extrusion block 145 and continues to move upwards along with the lower extrusion block 145, so that the rectangular iron block is extruded into an inverted U-shaped structure under the matching action of the upper extrusion block 143 and the lower extrusion block 145, and the extrusion forming process is finished.

In the present embodiment, the fourth linear driving mechanism 142 and the fifth linear driving mechanism 145 may be an existing linear motion driving device such as an oil cylinder, an air cylinder, an electric push rod, or the like.

As shown in fig. 7 and 8, in this embodiment, it is further preferable that the first extrusion molding mechanism 14 further includes a side extrusion assembly located above the first working platform 10, and the side extrusion assembly includes a sixth linear driving mechanism 144, a side extrusion plate 147 connected to the sixth linear driving mechanism 144; the two sixth linear driving mechanisms 144 are alternately mounted on the upper extrusion block 143, and the upper extrusion block 143 is sandwiched between the two side extrusion plates 147; the sixth linear driving mechanism 144 drives the side pressing plates 147 to move, so as to adjust the distance between the side pressing plates 147. After the lower extrusion block 145 and the upper extrusion block 143 finish the extrusion of the rectangular iron block, the fifth linear driving mechanism 146 drives the lower extrusion block 145 to move downward, the lower extrusion block 145 returns to the position below the first working platform 10, at this time, the sixth linear driving mechanism 144 drives the side extrusion plate 147 to move toward the upper extrusion block 143, so that the side of the inverted-u-shaped structure is continuously extruded under the action of the side extrusion plate 147 and the upper extrusion block 143, the stability of the extrusion molding is further improved, the structural stability of the inverted-u-shaped structure obtained by the extrusion molding is ensured, after the extrusion is finished, the sixth linear driving mechanism 144 drives the side extrusion plate 147 to move away from the upper extrusion block 143 to an initial position, the fourth linear driving mechanism 142 drives the upper extrusion block 143 to move upward to the initial position, and the first conveying mechanism 16 drives the inverted-u-shaped structure obtained by the extrusion molding to move downward in one working step. In this embodiment, the first conveying mechanism 16 drives the extruded inverted-n-shaped structure to move toward the second cutting mechanism 15, so as to cut the inverted-n-shaped structure into a plurality of independent supporting rod fixing seats 6' under the action of the second cutting mechanism 15. In the present embodiment, the sixth linear driving mechanism 144 may adopt an existing linear motion driving device such as an oil cylinder, an air cylinder, an electric push rod, and the like.

As shown in fig. 7 and 8, it is further preferable that the side compression plates 147 include an outer compression plate 1471 connected to the sixth linear driving mechanism 144, and an inner compression plate 1472 connected to the outer compression plate 1471, and the inner compression plate 1472 is detachably connected to the outer compression plate 1471. In this embodiment, the inner squeeze plate 1472 and the upper squeeze block 143 further squeeze the side edges of the inverted-n-shaped structure, wherein the inner squeeze plate 1472 is detachable with respect to the outer squeeze plate 1471, so that when the inner squeeze plate 1472 is damaged, only the inner squeeze plate 1472 is replaced without replacing the side squeeze plates 147 as a whole, thereby saving the manufacturing cost. Specifically, the inner compression plate 1472 is detachably connected with respect to the outer compression plate 1471 by a fastener.

As shown in fig. 7 and 8, in this embodiment, it is further preferable that the side pressing assembly further includes a first guide rod 148, a first guide hole through which the first guide rod 148 passes is formed on the upper pressing block 143, one end of the first guide rod 148 is connected to the side pressing plate 147, and the other end of the first guide rod 148 passes through the first guide hole, so that the first guide rod 148 and the first guide hole function to achieve a guiding function when the side pressing plate 147 moves. Specifically, one end of the first guide bar 148 is connected to the outer pressing plate 1471.

As shown in fig. 9, in the present embodiment, it is further preferable that the second cutting mechanism 15 includes a fourth support 150, a seventh linear driving mechanism 151, and a second profile cutter, the fourth support 150 is connected to the first work platform 101, the seventh linear driving mechanism 151 is mounted on the fourth support 150, and the second profile cutter includes a knife plate 152 connected to the seventh linear driving mechanism 151, and a plurality of knife bodies 153 alternately mounted on the knife plate 152. When the extrusion device works, after the first extrusion forming mechanism 14 finishes the extrusion of the inverted-U-shaped structure, the first conveying mechanism 16 conveys the inverted-U-shaped structure to the second cutting mechanism 15, the seventh linear driving mechanism 151 drives the second special-shaped cutter to move downwards to the cutter bodies 153 to cut the inverted-U-shaped structure into a plurality of independent support rod fixing seats 6 ', the seventh linear driving mechanism 151 drives the second special-shaped cutter to move upwards to the initial position, and meanwhile, the independent support rod fixing seats 6' are further conveyed to a finished product area under the action of the first conveying mechanism 16. In the present embodiment, the seventh linear driving mechanism 151 may adopt an existing linear motion driving device such as an oil cylinder, an air cylinder, an electric push rod, and the like.

As shown in fig. 1, in this embodiment, it is further preferable that the first conveying mechanism 16 includes a first motor, a first driving belt, a first driving roller installed on the first motor, and a first driven roller connected to the first driving roller through the first driving belt, the two first conveying mechanisms 16 are in a strip structure and installed on two sides of the first working platform, respectively, and the first driving belt contacts with an edge of the first iron plate. The first belt is in frictional contact with the first iron plate 100 to convey the first iron plate 100, and certainly, the first belt is also in frictional contact with the rectangular iron block and the edge of the inverted-U-shaped structure formed by extrusion molding.

It should be noted that, in this document, 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.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The processing device for the supporting rod fixing seat is characterized in that the supporting rod fixing seat is inverted

The two opposite sides of the structure are provided with waist circular holes, and the bottom of the structure is provided with bolt holes; the processing device for the supporting rod fixing seat comprises a first working platform, a first winding mechanism used for winding a first iron plate, a first laser cutting mechanism used for cutting a bolt hole and a waist circular hole in the first iron plate, a first cutting mechanism used for cutting the first iron plate into a rectangular iron block, and a second cutting mechanism used for extruding the rectangular iron block into a reverse-shaped iron block

The first reel mechanism, the first laser cutting mechanism, the first cutting mechanism and the first extrusion forming mechanism are sequentially arranged on the first working platform; bracing piece fixing base processingequipment still is including locating on the first work platform and be used for what first iron plate, rectangle iron plate and first extrusion mechanism extrusion obtained falls

The first conveying mechanism is used for conveying the profile structure;

the first winding mechanism comprises a first rotary driving mechanism arranged on the first working platform and a first material roller which is connected with the first rotary driving mechanism and used for winding the first iron plate;

the first cutting mechanism comprises a second support, a third linear driving mechanism and a first special-shaped cutter, and the first special-shaped cutter is

A type structure; the second support is connected with the first working platform, the third linear driving mechanism is installed on the second support, the first special-shaped cutter is connected with the third linear driving mechanism, and the third linear driving mechanism drives the first special-shaped cutter to move up and down.

2. The supporting rod fixing seat processing device as claimed in claim 1, wherein the first laser cutting mechanism comprises a first bracket connected with the first working platform, a first linear driving mechanism installed on the first bracket, a first moving seat connected with the first linear driving mechanism, a second linear driving mechanism installed on the first moving seat, and a first laser cutting gun connected with the second linear driving mechanism; the first laser cutting mechanism continuously cuts the first iron plate by taking a combined hole group as a unit, wherein the combined hole group comprises two rows of waist-round hole groups and a bolt hole group positioned in the middle of the two rows of waist-round hole groups, each waist-round hole group comprises a plurality of waist-round holes arranged side by side at intervals, each bolt hole group comprises a plurality of bolt holes arranged side by side at intervals, and the rectangular iron block formed by cutting by the first cutting mechanism is provided with the combined hole group;

the processing device for the supporting rod fixing seat further comprises a second cutting mechanism, and the second cutting mechanism extrudes the first extrusion forming mechanism to obtain the inverted part

The profile structure is cut into a plurality of independent support rod holders.

3. The supporting rod fixing seat processing device as claimed in claim 1, wherein the first extrusion forming mechanism comprises a third bracket, an upper extrusion assembly and a lower extrusion assembly, the upper extrusion assembly comprises a fourth linear driving mechanism and an upper extrusion block, and the lower extrusion assembly comprises a fifth linear driving mechanism and a lower extrusion block;

the third support is connected with the first working platform; the fourth linear driving mechanism is arranged on the third support, the upper extrusion block is connected with the fourth linear driving mechanism, and the fourth linear driving mechanism and the upper extrusion block are positioned above the first working platform;

the fifth linear driving mechanism is arranged on the third support, the lower extrusion block is connected with the fifth linear driving mechanism, and the fifth linear driving mechanism and the lower extrusion block are positioned below the first working platform;

the lower extrusion block is inverted

The lower extrusion block is matched with the outer contour of the support rod fixing seat, the lower part of the upper extrusion block is of a cuboid structure, and the upper extrusion block is matched with the inner contour of the support rod fixing seat;

the above-mentionedThrough grooves are formed in the first working platform corresponding to two side edges of the lower extrusion block; the fifth linear driving mechanism drives the lower extrusion block to move up and down, and the fourth linear driving mechanism drives the upper extrusion block to move up and down; during extrusion forming, the rectangular iron block is clamped between the lower extrusion block and the upper extrusion block, and is extruded to be inverted

And (4) a mold structure.

4. The supporting rod fixing seat processing device as claimed in claim 3, wherein the first extrusion forming mechanism further comprises a side extrusion assembly located above the first working platform, and the side extrusion assembly comprises a sixth linear driving mechanism and a side extrusion plate connected with the sixth linear driving mechanism; the two sixth linear driving mechanisms are alternately arranged on the upper extrusion block, and the upper extrusion block is clamped between the two side extrusion plates; and the sixth linear driving mechanism drives the side extrusion plates to move so as to adjust the distance between the two side extrusion plates.

5. The supporting rod fixing seat processing device as claimed in claim 4, wherein the side extrusion plates comprise an outer extrusion plate connected with the sixth linear driving mechanism and an inner extrusion plate connected with the outer extrusion plate, and the inner extrusion plate is detachably connected with the outer extrusion plate.

6. The supporting rod fixing seat processing device as claimed in claim 2, wherein the second cutting mechanism comprises a fourth bracket, a seventh linear driving mechanism and a second special-shaped cutter, the fourth bracket is connected with the first working platform, the seventh linear driving mechanism is mounted on the fourth bracket, and the second special-shaped cutter comprises a cutter plate connected with the seventh linear driving mechanism and a plurality of cutter bodies alternately mounted on the cutter plate.

7. The supporting rod fixing seat processing device as claimed in claim 1, wherein the first conveying mechanism comprises a first motor, a first driving belt, a first driving roller mounted on the first motor, and a first driven roller connected with the first driving roller through the first driving belt, the two first conveying mechanisms are in a strip structure and are respectively mounted on two side edges of the first working platform, and the first driving belt is in contact with an edge of the first iron plate.

8. The device for processing the fixed seat of the supporting rod as claimed in claim 2, wherein the first linear driving mechanism comprises a first linear driving motor, a first lead screw and a first nut sleeve, the first lead screw is rotatably mounted on the first bracket, the first nut sleeve is sleeved on the first lead screw, the first movable seat is connected with the first nut sleeve, and the first linear driving motor is mounted on the first bracket and connected with the first lead screw.

9. The supporting rod fixing seat processing device as claimed in claim 8, wherein the first linear driving mechanism further comprises a first guiding rod arranged on the first bracket and parallel to the first lead screw, and the first nut sleeve is provided with a first guiding hole through which the first guiding rod passes.

10. The device for processing the fixed seat of the supporting rod as claimed in claim 2, wherein the second linear driving mechanism comprises a second linear driving motor, a second screw rod, a second nut sleeve and a first moving frame, the second screw rod is rotatably mounted on the first moving seat, the second nut sleeve is sleeved on the second screw rod, the first moving frame is connected with the second nut sleeve, the first laser cutting gun is connected with the first moving frame, and the second linear driving motor is mounted on the first moving seat and connected with the second screw rod.

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