SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the existing problems and provides a double-station through pipe shaper with a simple and reasonable structure.
The utility model provides a duplex position siphunculus trimmer, includes the board, install two sets of or more than two sets of plastic stations on the board, two sets of or more than two sets of plastic stations are parallel to each other but staggered arrangement sets up or set up with the mutual slope of different angles, make the trimmer to the opening pipeline section simultaneous shaping of the different positions of single pipe support, or to the opening pipeline section simultaneous shaping of the different positions of two or more than two pipe supports.
The aim of the utility model can also be solved by the following technical measures:
two or more shaping stations can work independently or in a linkage way.
The pipe support includes the frame main part, is connected with first opening pipeline section and second opening pipeline section respectively at frame main part same one side's last angular position and lower angular position, and first opening pipeline section and second opening pipeline section use the frame main part to be perpendicular setting and slope setting as the benchmark direction.
Install left side plastic station and right side plastic station on the board, left side plastic station and right side plastic station are parallel to each other but set up around, left side plastic station is used for the first opening pipeline section of plastic left side pipe support, and right side plastic station is used for the second opening pipeline section of plastic right side pipe support.
Install the right side plastic station of perpendicular setting and the left side plastic station that relative right side plastic station slope set up on the board, the setting is kept away from for the plastic phase of acute angle and two plastic stations to the contained angle between left side plastic station and the right side plastic station, left side plastic station is used for the second opening pipeline section of plastic left side pipe support, and right side plastic station is used for the first opening pipeline section of plastic right side pipe support.
Install the left side plastic station of perpendicular setting and the right side plastic station that the slope of relative left side plastic station set up on the board, the contained angle is the approximate setting of plastic phase of obtuse angle and two plastic stations between left side plastic station and the right side plastic station, left side plastic station and right side plastic station are used for the first opening pipeline section and the second opening pipeline section of plastic same pipe support.
The shaping station comprises a base station, a shaping cylinder, a pressing cylinder, a fixed clamping block and a movable clamping block, wherein the pressing cylinder is vertically arranged on the base station, a piston rod of the pressing cylinder moves downwards and is connected with the movable clamping block in a driving mode, the fixed clamping block is arranged right below the movable clamping block, the pressing cylinder drives the movable clamping block and the fixed clamping block to be matched to form a linear die cavity for clamping an open pipe section, the shaping cylinder is arranged on one side of the linear die cavity, and a shaping portion which is pushed into the open pipe section is arranged on the piston rod of the shaping cylinder.
And a guide device acting on the shaping part is arranged between the fixed clamping block and the shaping cylinder.
The shaping part comprises a shaping rod connected with a piston rod of the shaping cylinder, a shaping head is arranged at the head of the shaping rod, and the diameter of the shaping head is larger than or equal to that of the shaping rod.
Still including installing and removing the base plate, install and remove the base plate and can dismantle with the board and be connected, the plastic station is installed on installing and removing the base plate.
The utility model has the following beneficial effects:
according to the double-station through pipe shaping machine, two or more shaping stations are arranged on one machine table, the arrangement of each station can be set according to shaping products, a pipe frame with a plurality of opening pipe sections to be shaped can be conveniently finished on the same shaping machine, the working efficiency can be improved, and the time wasted in the process of transferring the pipe frame in the shaping process is reduced.
Detailed Description
The utility model is further illustrated with reference to the following figures and examples.
As shown in fig. 1 to 5, the double-station through pipe shaper comprises a machine table 1, wherein two or more groups of shaping stations are arranged on the machine table 1, and the two or more groups of shaping stations are parallel to each other and are staggered or are inclined at different angles, so that the shaper simultaneously shapes the opening pipe sections at different positions of a single pipe frame 2, or shapes the opening pipe sections at different positions of two or more pipe frames 2.
This structure mainly realizes being equipped with two or two above plastic stations on a board 1, and putting of each station can be set for according to the plastic product, and the pipe support 2 that convenient part has many places opening pipe sections and needs the plastic can be accomplished on same trimmer, can improve work efficiency, reduces the extravagant time of pipe support 2 when the plastic in-process is transported.
Further, two or more sets of shaping stations can work independently, because two or more sets of shaping stations on the same machine table 1 process the open pipe sections at different positions of different pipe racks 2, and two or more sets of shaping stations can work sequentially in a front-back manner or in a linkage manner, because two or more sets of shaping stations on the same machine table 1 process the same pipe rack 2, the open pipe sections at different positions can be processed simultaneously.
Further, in the pipe rack 2 of the structure, because the first opening pipe section 21 and the second opening pipe section 22 are connected with the bending pipe section 206 or the upper transverse pipe section 201 by welding, the shaping is required by welding.
Further, based on the pipe frame 2 structure, the specific implementation of the pipe-through pipe shaper comprises:
the first implementation mode comprises the following steps: referring to fig. 1, a left shaping station a and a right shaping station B are installed on the machine table 1, the left shaping station a and the right shaping station B are parallel to each other and are arranged in front of and behind each other, the left shaping station a is used for shaping a first open pipe section 21 of a left pipe frame 2, and the right shaping station B is used for shaping a second open pipe section 22 of a right pipe frame 2;
in this embodiment the rectilinear cavities 36 in the left-hand reforming station a and the right-hand reforming station B are arranged parallel to each other, while the right-hand reforming station B is mounted behind in order to clear the second open tube section 22 of the left-hand tube frame 2 during the reforming process.
The second embodiment: referring to fig. 2, install the right side plastic station B that sets up perpendicularly and the left side plastic station a that sets up of slope of relative right side plastic station B on the board 1, the setting is kept away from mutually for the shaping position (the straight line die cavity 36 position that says down) of acute angle and two plastic stations to the contained angle between left side plastic station a and the right side plastic station B, left side plastic station a is used for the second opening pipe section 22 of plastic left side pipe support 2, and right side plastic station B is used for the first opening pipe section 21 of plastic right side pipe support 2.
In this embodiment, the left shaping station a and the right shaping station B are disposed in an inclined manner, the acute angle is about 30 °, and the left shaping station a is disposed in an inclined manner, so that during shaping of the second open pipe section 22 by the left shaping station a, a portion close to the bent pipe section 206 can extend out of the machine table 1 and overlap with the right shaping station B, thereby reducing a distance between the left shaping station a and the right shaping station B and improving utilization efficiency of the machine table 1.
The third embodiment is as follows: referring to fig. 3, a left shaping station a and a right shaping station B are mounted on the machine table 1, the left shaping station a and the right shaping station B are vertically arranged, the included angle between the left shaping station a and the right shaping station B is an obtuse angle, the shaping positions of the two shaping stations (namely, the positions of the linear mold cavities 36 described below) are arranged in a similar manner, and the left shaping station a and the right shaping station B are used for shaping the first opening pipe section 21 and the second opening pipe section 22 of the same pipe frame 2.
In this embodiment, the left-hand shaping station a and the right-hand shaping station B are arranged inclined to one another, the obtuse angle being about 105 °, while the right-hand shaping station B is arranged approximately obliquely in the transverse direction, in order to enable the left-hand shaping station a and the right-hand shaping station B to simultaneously shape the first open pipe section 21 and the second open pipe section 22 of a single pipe rack 2 in different positions.
Further, the shaping station comprises a base 31, a shaping cylinder 32, a pressing cylinder 33, a fixed clamping block 34 and a movable clamping block 35, the pressing cylinder 33 is vertically arranged on the base 31, a piston rod of the pressing cylinder moves downwards and is connected with the movable clamping block 35 in a driving mode, the fixed clamping block 34 is arranged right below the movable clamping block 35, the pressing cylinder 33 drives the movable clamping block 35 and the fixed clamping block 34 to be matched to form a linear die cavity 36 for clamping an open pipe section, the shaping cylinder 32 is arranged on one side of the linear die cavity 36, and a shaping portion 37 which is pushed into the open pipe section is arranged on a piston rod 321 of the shaping cylinder.
In addition, the piston rod of the material pressing cylinder 33 is connected with a lifting guide table 38, a vertical guide rod 39 in sliding fit with the lifting guide table 38 is arranged between the machine table 1 and the base table 31, the movable clamping block 35 is installed on the lifting guide table 38, and the movable clamping block 35 can be ensured to be vertically lifted by matching the lifting guide table 38 with the vertical guide rod 39.
Further, a guide device 4 acting on the shaping part 37 is arranged between the fixed clamping block 34 and the shaping cylinder 32; since the shaping portion 37 has a certain length, the shaping portion 37 can be kept in the axial position by the guide 4.
Further, the shaping part 37 comprises a shaping rod 371 connected with the piston rod 321 of the shaping cylinder 32, a shaping head 372 is arranged at the head of the shaping rod 371, and the diameter of the shaping head 372 is larger than or equal to that of the shaping rod 371; through plastic pole 371 mainly used increase piston rod length, promote inside plastic head 372 pushes up the open tube section, expand the open tube section through the plastic head 372 of broad and realize the plastic.
The guide device 4 comprises a guide base 401, a first guide hole 402 and a second guide hole 403 which are matched with a piston rod or a shaping rod 371 of the shaping cylinder 32 to slide linearly are respectively formed in opposite sides of the guide base 401, two horizontal guide rods 404 are installed in the guide base 401 along the motion direction of the piston rod, a translation sliding plate 405 is connected between the two horizontal guide rods 404, and the piston rod is coaxially connected with the shaping rod 371 through the translation sliding plate 405; the horizontal guide rod 404 is used to ensure that the translational sliding plate 405 can slide in a translational manner, and finally ensure that the shaping rod 371 can slide in a linear manner.
Further explaining, the device also comprises an assembly and disassembly base plate 5, wherein the assembly and disassembly base plate 5 is detachably connected with the machine table 1, and the shaping station is arranged on the assembly and disassembly base plate 5; because the shaping station needs to adjust the position according to the shape of the workpiece, the whole shaping workpiece can be moved and adjusted by disassembling the base plate 5 from the machine table 1, and the time wasted in adjusting the internal structure position of the shaping workpiece is saved.
The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the utility model are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.