CN214393397U - Truss conveying double-end-face processing machine - Google Patents
Truss conveying double-end-face processing machine Download PDFInfo
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- CN214393397U CN214393397U CN202022842827.0U CN202022842827U CN214393397U CN 214393397 U CN214393397 U CN 214393397U CN 202022842827 U CN202022842827 U CN 202022842827U CN 214393397 U CN214393397 U CN 214393397U
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Abstract
The utility model provides a truss conveying double-end-face processing machine, which comprises a machine tool main body, wherein a double-end main shaft is arranged in the center, a truss fixedly connected with the machine tool main body is arranged above the double-end main shaft, two sets of conveying lines are arranged at the front end of the machine tool main body, the two sets of conveying lines comprise a feeding line and a discharging line and are respectively positioned at two ends of the machine tool main body, a feeding lifter is arranged between the feeding line and the truss, and a feeding arm matched with the feeding lifter is arranged on the truss; a material receiving lifter is arranged between the material outlet line and the truss, and a material receiving arm matched with the material receiving lifter is arranged on the truss. The utility model discloses a main shaft of a two terminal surfaces has solved the depth of parallelism of axiality and two terminal surfaces to adopted the mode of left-hand income right side play, need not produce secondary pivoted replacement article and blank, saved the clamping time greatly.
Description
Technical Field
The utility model relates to a metal cutting field specifically is a double-ended face processing machine is carried to truss.
Background
In the prior art, a thrust wheel is generally processed on a single surface of a common numerical control machine tool, and the processing problem is solved in a manual mode. And a double-end-face machine tool is adopted, and the machining process is realized by exchanging mode mechanical arms or robot double claws.
The first type of human resource is too high in use and time consuming. In the second process, the investment amount and the investment amount of the processing scheme are large, and the exchange time of parts is too long when the equipment is used and processed, so that the processing takt is not ideal.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a solve prior art's problem, provide a double-ended processing machine is carried to truss, adopted the main shaft of a two terminal surfaces, solved the depth of parallelism of axiality and two terminal surfaces to adopted the mode of left side business turn over right side play, need not produce secondary pivoted replacement and blank, saved the clamping time greatly.
The utility model comprises a machine tool main body with a double-end main shaft arranged in the center, wherein a left cross sliding table and a right cross sliding table which are arranged on the machine tool main body are arranged on the two sides of the double-end main shaft, a left knife rest is arranged on the left cross sliding table, and a right knife rest is arranged on the right cross sliding table;
a truss fixedly connected with the machine tool main body is arranged above the double-end main shaft, two sets of conveying lines are arranged at the front end of the machine tool main body, each conveying line comprises a feeding line and a discharging line and is respectively positioned at two ends of the machine tool main body, a feeding lifter is arranged between each feeding line and the truss, and a feeding arm matched with the feeding lifter is arranged on the truss; a material receiving lifter is arranged between the material outlet line and the truss, and a material receiving arm matched with the material receiving lifter is arranged on the truss.
Further improved, the rear end of the machine tool main body is provided with two chip removal units.
The utility model discloses the autoloading who takes, automatic discharging's complete process, the left surface of this technology have one with robot or artifical to the pay-off transfer chain material loading, roll the blank again and arrive the material feeding lift, after the blank is received to the truss, treat the instruction pay-off. The time is just the processing time of the main shaft during cutting, so the two times are overlapped, and the processing of the main shaft is not delayed. After the parts in the main shaft are machined, the truss blanking machine at the right end grabs the workpiece from the main shaft, after the grabbing is completed, the truss feeding machine at the left end is informed to move from left to right, the truss blanking machine at the right end moves from left to right, the feeding and the blanking at the left end and the right end are almost synchronous, so that the process of feeding and blanking on the main shaft is completed, after the main shaft truss blanking machine at the right end reaches a specified position, the workpiece is supported by the lifter at the lower end of the main shaft truss blanking machine, the workpiece is released by the main shaft truss blanking machine to retreat to the original point, a signal is transmitted to the lifter, and the lifter moves downwards and a finished product is taken out by the discharging conveying line. And after the finished product is conveyed to a designated position by the feeding conveying line, taking the product material by an external worker or a robot, and finishing the whole process completely.
The utility model has the advantages that:
1. a spindle with double end faces is adopted, and coaxial double-end cutting is carried out through a tool rest with double end faces, so that the coaxiality and the parallelism of the double end faces can be solved.
2. Because the process adopts a left-in and right-out mode, the original left-in and left-out mode or the working mode of double-claw exchange of the robot is changed as a result.
3. The equipment does not need to produce secondary rotating replacement of finished products and blanks, namely, the finished products do not need to be taken out and then the blanks do not need to be loaded, so that the clamping time is greatly saved.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Detailed Description
The present invention will be further explained with reference to the accompanying drawings.
The utility model is shown in figure 1, comprising a machine tool main body 1 with a double-end main shaft 2 arranged in the center, wherein a left cross sliding table 5 and a right cross sliding table 3 arranged on the machine tool main body are arranged at two sides of the double-end main shaft 2, a left knife rest 6 is arranged on the left cross sliding table 5, and a right knife rest 4 is arranged on the right cross sliding table 3;
a truss 13 fixedly connected with the machine tool main body is arranged above the double-end main shaft, two sets of conveying lines are arranged at the front end of the machine tool main body, each conveying line comprises a feeding line 7 and a discharging line 8 and is respectively positioned at two ends of the machine tool main body 1, a feeding lifter 9 is arranged between the feeding lines 7 and the truss 13, and a feeding arm 11 matched with the feeding lifter is arranged on the truss; a material receiving lifter 10 is arranged between the discharging line and the truss, and a material receiving arm 12 matched with the material receiving lifter is arranged on the truss.
In a further improvement, the rear end of the machine tool main body is provided with two chip removal units 14.
The utility model discloses the autoloading who takes, automatic discharging's complete process, the left surface of this technology have one with robot or artifical to the pay-off transfer chain material loading, roll the blank again and arrive the material feeding lift, after the blank is received to the truss, treat the instruction pay-off. The time is just the processing time of the main shaft during cutting, so the two times are overlapped, and the processing of the main shaft is not delayed. After the parts in the main shaft are machined, the truss blanking machine at the right end grabs the workpiece from the main shaft, after the grabbing is completed, the truss feeding machine at the left end is informed to move from left to right, the truss blanking machine at the right end moves from left to right, the feeding and the blanking at the left end and the right end are almost synchronous, so that the process of feeding and blanking on the main shaft is completed, after the main shaft truss blanking machine at the right end reaches a specified position, the workpiece is supported by the lifter at the lower end of the main shaft truss blanking machine, the workpiece is released by the main shaft truss blanking machine to retreat to the original point, a signal is transmitted to the lifter, and the lifter moves downwards and a finished product is taken out by the discharging conveying line. And after the finished product is conveyed to a designated position by the feeding conveying line, taking the product material by an external worker or a robot, and finishing the whole process completely.
The utility model discloses the concrete application way is many, and the above-mentioned only is the preferred embodiment of the utility model, should point out, to ordinary skilled person in this technical field, under the prerequisite that does not deviate from the utility model discloses the principle, can also make a plurality of improvements, and these improvements also should be regarded as the utility model discloses a protection scope.
Claims (2)
1. The utility model provides a truss transport bi-polar face processing machine which characterized in that: the numerical control machine tool comprises a machine tool main body, wherein a double-end main shaft is arranged in the center of the machine tool main body, a left cross sliding table and a right cross sliding table which are arranged on the machine tool main body are arranged on two sides of the double-end main shaft, a left tool rest is arranged on the left cross sliding table, and a right tool rest is arranged on the right cross sliding table;
a truss fixedly connected with the machine tool main body is arranged above the double-end main shaft, two sets of conveying lines are arranged at the front end of the machine tool main body, each conveying line comprises a feeding line and a discharging line and is respectively positioned at two ends of the machine tool main body, a feeding lifter is arranged between each feeding line and the truss, and a feeding arm matched with the feeding lifter is arranged on the truss; a material receiving lifter is arranged between the material outlet line and the truss, and a material receiving arm matched with the material receiving lifter is arranged on the truss.
2. The truss transport double end face machine of claim 1, wherein: the rear end of the machine tool main body is provided with two chip removal units.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022842827.0U CN214393397U (en) | 2020-12-01 | 2020-12-01 | Truss conveying double-end-face processing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022842827.0U CN214393397U (en) | 2020-12-01 | 2020-12-01 | Truss conveying double-end-face processing machine |
Publications (1)
Publication Number | Publication Date |
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CN214393397U true CN214393397U (en) | 2021-10-15 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202022842827.0U Active CN214393397U (en) | 2020-12-01 | 2020-12-01 | Truss conveying double-end-face processing machine |
Country Status (1)
Country | Link |
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CN (1) | CN214393397U (en) |
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2020
- 2020-12-01 CN CN202022842827.0U patent/CN214393397U/en active Active
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