CN216829826U - Workpiece overturning clamp for numerical control machine tool - Google Patents
Workpiece overturning clamp for numerical control machine tool Download PDFInfo
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- CN216829826U CN216829826U CN202220324968.XU CN202220324968U CN216829826U CN 216829826 U CN216829826 U CN 216829826U CN 202220324968 U CN202220324968 U CN 202220324968U CN 216829826 U CN216829826 U CN 216829826U
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Abstract
The utility model provides a workpiece turning clamp for a numerical control machine tool, belonging to the technical field of machine tool clamps; the utility model provides a work piece upset anchor clamps for digit control machine tool, work piece upset anchor clamps for digit control machine tool include the electromagnetic rotation sucking disc, and work piece upset anchor clamps for digit control machine tool include: the device comprises a bottom plate, a supporting seat, a first accommodating groove, a first lead screw, a first sliding block and a tip tailstock; by adopting the structure, the electromagnetic rotary sucker is attracted to one end of the square steel, and the tip tailstock is attached to the other end of the square steel, so that the electromagnetic rotary sucker fixes one end of the square steel, and the tip tailstock simply supports the other end of the square steel, and the stability of the square steel is improved; moreover, the square steel is driven to rotate through the electromagnetic rotary sucker, so that the square steel is turned over, each side face of the square steel is machined, the square steel is prevented from being hoisted by a crane, the square steel is manually turned over, the labor intensity is reduced, and the square steel machining efficiency is improved.
Description
Technical Field
The utility model belongs to the technical field of the machine tool fixture, concretely relates to work piece upset anchor clamps for digit control machine tool.
Background
At present, in the related art, when square steel is machined, in order to ensure the precision of subsequent machining, four side surfaces of the square steel need to be subjected to rough milling; after one side surface of the square steel is processed, the square steel is generally hoisted through a portal crane or a cantilever crane, and then the square steel is manually overturned, so that the other side surface of the square steel is processed; however, by adopting the mode, the labor intensity of square steel processing is improved, and the processing efficiency of products is reduced, so that the included angle for overturning the workpiece is very necessary.
SUMMERY OF THE UTILITY MODEL
In order to solve the problems that the square steel is hoisted through a portal crane or a cantilever crane and then is manually overturned, the labor intensity of square steel processing is improved, the processing efficiency of products is reduced and the like in the prior art, the utility model provides a workpiece overturning clamp for a numerical control machine tool, which adopts an electromagnetic rotary sucker to suck one end of the square steel and enables a top tailstock to be attached to the other end of the square steel so as to fix one end of the square steel through the electromagnetic rotary sucker and simply support the other end of the square steel, thereby improving the stability of the square steel; moreover, the square steel is driven to rotate through the electromagnetic rotary sucker, so that the square steel is turned over, each side face of the square steel is machined, the square steel is prevented from being hoisted by a crane, the square steel is manually turned over, the labor intensity is reduced, and the square steel machining efficiency is improved. The specific technical scheme is as follows:
the utility model provides a work piece upset anchor clamps for digit control machine tool, work piece upset anchor clamps for digit control machine tool include the electromagnetic rotation sucking disc, and the side steel is milled with work piece upset anchor clamps to the digit control machine tool, and work piece upset anchor clamps for the digit control machine tool include: the device comprises a bottom plate, a supporting seat, a first accommodating groove, a first lead screw, a first sliding block and a tip tailstock; the supporting seat is arranged on the bottom plate, the electromagnetic rotary sucker is fixed at one end of the supporting seat, and one end of the square steel is attached to the electromagnetic rotary sucker; the first accommodating groove is formed in the top wall of the other end of the supporting seat and extends towards the bottom plate; a first external thread is arranged on the outer wall of the first lead screw, the first lead screw is embedded into the first accommodating groove, and the first lead screw is rotatably connected with the supporting seat; a first threaded hole is formed in the first sliding block, a first internal thread is formed in the first threaded hole, the first sliding block is embedded into the first accommodating groove, and the first threaded hole of the first sliding block is sleeved on the outer side of the first external thread of the first lead screw; the tip tailstock is fixed on the first sliding block and is attached to the other end of the square steel; wherein, the first external screw thread is matched with the first internal screw thread.
Additionally, the utility model provides an among the above-mentioned technical scheme work piece upset anchor clamps for digit control machine tool can also have following additional technical characteristic:
in above-mentioned technical scheme, work piece upset anchor clamps for digit control machine tool still include: a first motor; the first motor is fixed on the bottom plate and is connected with the first lead screw.
In the above technical scheme, the first sliding block and the first accommodating groove are in over-fit.
In above-mentioned technical scheme, work piece upset anchor clamps for digit control machine tool still include: the second accommodating groove, a second lead screw, a second sliding block and a third sliding block; the second accommodating groove is formed in the top wall of the supporting seat, extends towards the direction of the bottom plate and is located between the electromagnetic rotary sucker and the first accommodating groove; a second external thread and a third external thread are symmetrically arranged on the outer wall of the second lead screw, the spiral direction of the second external thread is opposite to that of the third external thread, the second lead screw is embedded into the second accommodating groove, the second lead screw is rotatably connected with the supporting seat, and the second lead screw is perpendicular to the first lead screw; the second sliding block is L-shaped, a second threaded hole is formed in the second sliding block, a second internal thread is formed in the second threaded hole, and the second threaded hole of the second sliding block is sleeved on the outer side of a second external thread of the second lead screw; the third sliding block is L-shaped, a third threaded hole is formed in the third sliding block, a third internal thread is formed in the third threaded hole, and the third threaded hole of the third sliding block is sleeved on the outer side of a third external thread of the second lead screw; and the square steel is placed on the second sliding block and the third sliding block.
In above-mentioned technical scheme, work piece upset anchor clamps for digit control machine tool still include: a second motor; the second motor is fixed on the bottom plate and is connected with the second lead screw.
In above-mentioned technical scheme, work piece upset anchor clamps for digit control machine tool still include: a polished rod; in the polished rod embedding second holding tank, the both ends of polished rod are connected with the supporting seat, and the polished rod passes second slider and third slider in proper order.
In above-mentioned technical scheme, work piece upset anchor clamps for digit control machine tool still include: a strip hole; at least four elongated holes are provided in the bottom plate.
The utility model discloses a work piece upset anchor clamps for digit control machine tool compares with prior art, and beneficial effect is:
1. the supporting seat is arranged on the bottom plate, the electromagnetic rotary sucker is fixed at one end of the supporting seat, so that the stability of the electromagnetic rotary sucker is improved, one end of the square steel is attached to the electromagnetic rotary sucker, and the electromagnetic rotary sucker fixes one end of the square steel; the first accommodating groove is arranged on the top wall at the other end of the supporting seat and extends towards the bottom plate, so that an accommodating space is formed in the supporting seat; the first lead screw is embedded into the first accommodating groove, and the first lead screw is rotatably connected with the supporting seat, so that the supporting seat supports the first lead screw; through embedding first holding tank with first slider, establish the outside of the first external screw thread of first lead screw with the first screw hole cover of first slider to fix top tailstock on first slider, when realizing that first lead screw rotates, first slider removes along first lead screw, thereby drives top tailstock and removes, makes top tailstock laminate mutually with the other end of square steel, and then fixes the other end of square steel. When the device is used specifically, the square steel is hoisted by a small gantry crane and moved to the side of the electromagnetic rotary sucker; electrifying the electromagnetic rotary sucker and adsorbing one end of square steel; then, rotating the first lead screw to enable the first sliding block and the tip tailstock to move towards the square steel direction, so that the tip tailstock is attached to the other end of the square steel, and the tip tailstock and the electromagnetic rotary sucker are matched to clamp the square steel, so that the numerical control machine can mill the side face of the square steel conveniently; after one side of the square steel is processed, the electromagnetic rotary sucker is started to drive the square steel to rotate, so that the square steel is turned over, and the other side of the square steel is milled conveniently. By adopting the structure, the electromagnetic rotary sucker is attracted to one end of the square steel, and the tip tailstock is attached to the other end of the square steel, so that the electromagnetic rotary sucker fixes one end of the square steel, and the tip tailstock simply supports the other end of the square steel, and the stability of the square steel is improved; moreover, the square steel is driven to rotate through the electromagnetic rotary sucker, so that the square steel is turned over, each side face of the square steel is machined, the square steel is prevented from being hoisted by a crane, the square steel is manually turned over, the labor intensity is reduced, and the square steel machining efficiency is improved.
2. Through fixing first motor on the bottom plate to be connected first motor and first lead screw, rotate with realizing that first motor drives first lead screw, thereby promote the use of product and experience.
3. Through setting up first slider and first holding tank into excessive cooperation, not only avoid between first slider and the first holding tank because of the clearance undersize, and cause the unable circumstances of removing in first holding tank of first slider to take place, but also can avoid between first slider and the first holding tank because of the clearance too big, and cause the circumstances of first slider rocking in first holding tank to take place, and then promote the stability of first slider.
4. The second accommodating groove is formed in the top wall of the supporting seat and is positioned between the electromagnetic rotary sucker and the first accommodating groove, so that an accommodating space is formed in the supporting seat, meanwhile, a second lead screw is embedded into the second accommodating groove, and the second lead screw is rotatably connected with the supporting seat, so that the supporting seat supports the second lead screw; the second threaded hole of the second sliding block which is L-shaped is sleeved on the outer side of the second external thread of the second lead screw, the third threaded hole of the third sliding block which is L-shaped is sleeved on the outer side of the third external thread of the second lead screw, meanwhile, square steel is placed on the second sliding block and the third sliding block, when the second lead screw rotates, the second sliding block and the third sliding block move relatively, the square steel is clamped, and therefore the stability of the square steel is improved. And when the electromagnetic rotary sucker overturns the square steel, the second lead screw rotates reversely, so that the second sliding block and the third sliding block move in opposite directions, and the square steel can be overturned conveniently.
5. Through fixing the second motor on the bottom plate to the second motor is connected with the second lead screw, and in order to realize that the second motor drives the rotation of second lead screw positive and negative rotation, thereby promote the use of product and experience.
6. Through in imbedding the feed rod second holding tank, be connected the both ends of feed rod with the supporting seat to realize that the supporting seat supports the feed rod, simultaneously, pass second slider and third slider with the feed rod in proper order, move on the feed rod with second slider and third slider, thereby promote the stability that second slider and third slider removed.
7. At least four elongated holes are arranged on the bottom plate, so that the product is connected with a workbench of the data machine tool through the elongated holes.
Drawings
Fig. 1 is a schematic structural view of a workpiece turning clamp for a numerical control machine tool according to an embodiment of the present invention;
fig. 2 is a schematic structural view of a workpiece turning clamp for a numerical control machine according to another embodiment of the present invention;
fig. 3 is a schematic structural view of a bottom plate and a supporting seat according to an embodiment of the present invention;
fig. 4 is a schematic structural diagram of a first slider and a tip tailstock according to an embodiment of the present invention;
wherein, the correspondence between the reference numbers and the part names in fig. 1 to 4 is:
10 electromagnetic rotary suction cups, 11 square steels, 12 bottom plates, 13 supporting seats, 14 first accommodating grooves, 15 first lead screws, 16 first sliding blocks, 17 top tail seats, 18 first motors, 19 second accommodating grooves, 20 second lead screws, 21 second sliding blocks, 22 third sliding blocks, 23 second motors, 24 polished rods and 25 long holes.
Detailed Description
The present invention will be further described with reference to the following embodiments and the accompanying fig. 1-4, but the present invention is not limited to these embodiments.
Example 1:
the utility model provides a work piece upset anchor clamps for digit control machine tool, as shown in fig. 1 to 4, work piece upset anchor clamps for digit control machine tool include electromagnetic rotating chuck 10, and work piece upset anchor clamps for digit control machine tool mills processing to square steel 11, and work piece upset anchor clamps for digit control machine tool include: the device comprises a bottom plate 12, a supporting seat 13, a first accommodating groove 14, a first lead screw 15, a first sliding block 16 and a tip tailstock 17; the supporting seat 13 is arranged on the bottom plate 12, the electromagnetic rotary sucker 10 is fixed at one end of the supporting seat 13, and one end of the square steel 11 is attached to the electromagnetic rotary sucker 10; the first accommodating groove 14 is arranged on the top wall at the other end of the supporting seat 13, and the first accommodating groove 14 extends towards the bottom plate 12; a first external thread is arranged on the outer wall of the first lead screw 15, the first lead screw 15 is embedded into the first accommodating groove 14, and the first lead screw 15 is rotatably connected with the supporting seat 13; a first threaded hole is formed in the first sliding block 16, a first internal thread is formed in the first threaded hole, the first sliding block 16 is embedded into the first accommodating groove 14, and the first threaded hole of the first sliding block 16 is sleeved on the outer side of a first external thread of the first lead screw 15; the tip tailstock 17 is fixed on the first sliding block 16, and the tip tailstock 17 is attached to the other end of the square steel 11; wherein, the first external screw thread is matched with the first internal screw thread.
The supporting seat 13 is arranged on the bottom plate 12, the electromagnetic rotary sucker 10 is fixed at one end of the supporting seat 13, so that the stability of the electromagnetic rotary sucker 10 is improved, one end of the square steel 11 is attached to the electromagnetic rotary sucker 10, and one end of the square steel 11 is fixed by the electromagnetic rotary sucker 10; the first accommodating groove 14 is arranged on the top wall at the other end of the supporting seat 13, and the first accommodating groove 14 extends towards the bottom plate 12, so that an accommodating space is formed in the supporting seat 13; the first lead screw 15 is embedded into the first accommodating groove 14, and the first lead screw 15 is rotatably connected with the supporting seat 13, so that the supporting seat 13 supports the first lead screw 15; through embedding first holding tank 14 with first slider 16, establish the outside of the first external screw thread of first lead screw 15 with the first screw hole cover of first slider 16 to fix top tailstock 17 on first slider 16, when realizing that first lead screw 15 rotates, first slider 16 removes along first lead screw 15, thereby drive top tailstock 17 and remove, make top tailstock 17 laminate with the other end of square steel 11, and then fix the other end of square steel 11. When the device is used specifically, a small gantry crane is used for hoisting the square steel 11, and the square steel 11 is moved to the side of the electromagnetic rotary sucker 10; electrifying the electromagnetic rotary sucker 10 and adsorbing one end of the square steel 11; then, rotating the first lead screw 15 to enable the first slider 16 and the tip tailstock 17 to move towards the square steel 11, so that the tip tailstock 17 is attached to the other end of the square steel 11, and the tip tailstock 17 is matched with the electromagnetic rotary chuck 10 to clamp the square steel 11, so that the numerical control machine tool can mill the side face of the square steel 11 conveniently; after one side of the square steel 11 is machined, the electromagnetic rotary chuck 10 is started, the electromagnetic rotary chuck 10 drives the square steel 11 to rotate, and therefore the square steel 11 is turned over, and the other side of the square steel 11 is milled conveniently. By adopting the structure, the electromagnetic rotary sucker 10 is attracted to one end of the square steel 11, and the tip tailstock 17 is attached to the other end of the square steel 11, so that the electromagnetic rotary sucker 10 fixes one end of the square steel 11, and the tip tailstock 17 simply supports the other end of the square steel 11, thereby improving the stability of the square steel 11; moreover, the square steel 11 is driven to rotate through the electromagnetic rotary sucker 10, so that the square steel 11 is turned over, each side face of the square steel 11 is machined, the square steel 11 is prevented from being hoisted by a crane, the square steel 11 is manually turned over, labor intensity is reduced, and efficiency of machining the square steel 11 is improved.
Specifically, the electromagnetic rotary chuck 10 is a phi 120X70 electromagnetic chuck manufactured by retai machinery limited, hattan county.
Specifically, the tip tailstock 17 is the tip tailstock 17 manufactured by delock mechanical ltd, texas.
In the embodiment of the present invention, as shown in fig. 1 to fig. 4, the workpiece turnover fixture for a numerical control machine further includes: a first motor 18; the first motor 18 is fixed on the bottom plate 12, and the first motor 18 is connected with the first lead screw 15.
Through fixing first motor 18 on bottom plate 12 to be connected first motor 18 with first lead screw 15, to realize that first motor 18 drives first lead screw 15 and rotates, thereby promote the use experience of product.
In the embodiment of the present invention, the first sliding block 16 and the first accommodating groove 14 are over-fit.
Through setting up first slider 16 and first holding tank 14 to excessive cooperation, not only avoid between first slider 16 and the first holding tank 14 because of the clearance undersize, and cause the condition emergence that first slider 16 can't remove in first holding tank 14, but also can avoid between first slider 16 and the first holding tank 14 because of the clearance is too big, and cause the condition emergence that first slider 16 rocked in first holding tank 14, and then promote first slider 16's stability.
Example 2:
the utility model provides a work piece upset anchor clamps for digit control machine tool, as shown in fig. 1 to 4, work piece upset anchor clamps for digit control machine tool include electromagnetic rotating chuck 10, and work piece upset anchor clamps for digit control machine tool mills processing to square steel 11, and work piece upset anchor clamps for digit control machine tool include: the device comprises a bottom plate 12, a supporting seat 13, a first accommodating groove 14, a first lead screw 15, a first sliding block 16 and a tip tailstock 17; the supporting seat 13 is arranged on the bottom plate 12, the electromagnetic rotary sucker 10 is fixed at one end of the supporting seat 13, and one end of the square steel 11 is attached to the electromagnetic rotary sucker 10; the first accommodating groove 14 is arranged on the top wall at the other end of the supporting seat 13, and the first accommodating groove 14 extends towards the bottom plate 12; a first external thread is arranged on the outer wall of the first lead screw 15, the first lead screw 15 is embedded into the first accommodating groove 14, and the first lead screw 15 is rotatably connected with the supporting seat 13; a first threaded hole is formed in the first sliding block 16, a first internal thread is formed in the first threaded hole, the first sliding block 16 is embedded into the first accommodating groove 14, and the first threaded hole of the first sliding block 16 is sleeved on the outer side of a first external thread of the first lead screw 15; the tip tailstock 17 is fixed on the first sliding block 16, and the tip tailstock 17 is attached to the other end of the square steel 11; wherein, the first external screw thread is matched with the first internal screw thread.
The supporting seat 13 is arranged on the bottom plate 12, the electromagnetic rotary sucker 10 is fixed at one end of the supporting seat 13, so that the stability of the electromagnetic rotary sucker 10 is improved, one end of the square steel 11 is attached to the electromagnetic rotary sucker 10, and one end of the square steel 11 is fixed by the electromagnetic rotary sucker 10; the first accommodating groove 14 is arranged on the top wall at the other end of the supporting seat 13, and the first accommodating groove 14 extends towards the bottom plate 12, so that an accommodating space is formed in the supporting seat 13; the first lead screw 15 is embedded into the first accommodating groove 14, and the first lead screw 15 is rotatably connected with the supporting seat 13, so that the supporting seat 13 supports the first lead screw 15; through embedding first holding tank 14 with first slider 16, establish the outside of the first external screw thread of first lead screw 15 with the first screw hole cover of first slider 16 to fix top tailstock 17 on first slider 16, when realizing that first lead screw 15 rotates, first slider 16 removes along first lead screw 15, thereby drive top tailstock 17 and remove, make top tailstock 17 laminate with the other end of square steel 11, and then fix the other end of square steel 11. When the device is used specifically, a small gantry crane is used for hoisting the square steel 11, and the square steel 11 is moved to the side of the electromagnetic rotary sucker 10; electrifying the electromagnetic rotary sucker 10 and adsorbing one end of the square steel 11; then, rotating the first lead screw 15 to enable the first slider 16 and the tip tailstock 17 to move towards the square steel 11, so that the tip tailstock 17 is attached to the other end of the square steel 11, and the tip tailstock 17 is matched with the electromagnetic rotary chuck 10 to clamp the square steel 11, so that the numerical control machine tool can mill the side face of the square steel 11 conveniently; after one side of the square steel 11 is machined, the electromagnetic rotary chuck 10 is started, the electromagnetic rotary chuck 10 drives the square steel 11 to rotate, and therefore the square steel 11 is turned over, and the other side of the square steel 11 is milled conveniently. By adopting the structure, the electromagnetic rotary sucker 10 is attracted to one end of the square steel 11, and the tip tailstock 17 is attached to the other end of the square steel 11, so that the electromagnetic rotary sucker 10 fixes one end of the square steel 11, and the tip tailstock 17 simply supports the other end of the square steel 11, thereby improving the stability of the square steel 11; moreover, the square steel 11 is driven to rotate through the electromagnetic rotary sucker 10, so that the square steel 11 is turned over, each side face of the square steel 11 is machined, the square steel 11 is prevented from being hoisted by a crane, the square steel 11 is manually turned over, labor intensity is reduced, and efficiency of machining the square steel 11 is improved.
Specifically, the electromagnetic rotary chuck 10 is a phi 120X70 electromagnetic chuck manufactured by retai machinery limited, hattan county.
Specifically, the tip tailstock 17 is the tip tailstock 17 manufactured by delock mechanical ltd, texas.
In the embodiment of the present invention, as shown in fig. 1 to fig. 4, the workpiece turnover fixture for a numerical control machine further includes: a second accommodating groove 19, a second lead screw 20, a second slider 21 and a third slider 22; the second accommodating groove 19 is arranged on the top wall of the supporting seat 13, the second accommodating groove 19 extends towards the direction of the bottom plate 12, and the second accommodating groove 19 is positioned between the electromagnetic rotary chuck 10 and the first accommodating groove 14; a second external thread and a third external thread are symmetrically arranged on the outer wall of the second lead screw 20, the spiral direction of the second external thread is opposite to that of the third external thread, the second lead screw 20 is embedded into the second accommodating groove 19, the second lead screw 20 is rotatably connected with the supporting seat 13, and the second lead screw 20 is perpendicular to the first lead screw 15; the second sliding block 21 is L-shaped, a second threaded hole is formed in the second sliding block 21, a second internal thread is formed in the second threaded hole, and the second threaded hole of the second sliding block 21 is sleeved on the outer side of the second external thread of the second lead screw 20; the third slide block 22 is L-shaped, a third threaded hole is formed in the third slide block 22, a third internal thread is formed in the third threaded hole, and the third threaded hole of the third slide block 22 is sleeved on the outer side of the third external thread of the second lead screw 20; wherein the square steel 11 is placed on the second slider 21 and the third slider 22.
The second accommodating groove 19 is arranged on the top wall of the supporting seat 13, the second accommodating groove 19 is positioned between the electromagnetic rotary chuck 10 and the first accommodating groove 14, so that an accommodating space is formed on the supporting seat 13, meanwhile, the second lead screw 20 is embedded into the second accommodating groove 19, and the second lead screw 20 is rotatably connected with the supporting seat 13, so that the supporting seat 13 supports the second lead screw 20; the second threaded hole of the second sliding block 21 in the L shape is sleeved on the outer side of the second external thread of the second screw rod 20, the third threaded hole of the third sliding block 22 in the L shape is sleeved on the outer side of the third external thread of the second screw rod 20, meanwhile, the square steel 11 is placed on the second sliding block 21 and the third sliding block 22, when the second screw rod 20 rotates, the second sliding block 21 and the third sliding block 22 move relatively, the square steel 11 is clamped tightly, and therefore the stability of the square steel 11 is improved. When the electromagnetic rotary chuck 10 turns the square bar 11, the second lead screw 20 rotates in the reverse direction, so that the second slider 21 and the third slider 22 move in the opposite directions, thereby facilitating the turning of the square bar 11.
In the embodiment of the present invention, as shown in fig. 1 to fig. 4, the workpiece turnover fixture for a numerical control machine further includes: a second motor 23; the second motor 23 is fixed on the bottom plate 12, and the second motor 23 is connected with the second lead screw 20.
Through fixing second motor 23 on bottom plate 12 to second motor 23 is connected with second lead screw 20, in order to realize that second motor 23 drives the rotation of second lead screw positive and negative rotation, thereby promotes the use experience of product.
In the embodiment of the present invention, as shown in fig. 1 to fig. 4, the workpiece turnover fixture for a numerical control machine further includes: a light bar 24; the optical bar 24 is embedded in the second receiving groove 19, two ends of the optical bar 24 are connected to the supporting base 13, and the optical bar 24 sequentially passes through the second slider 21 and the third slider 22.
Through imbedding the polished rod 24 in the second holding tank 19, be connected the both ends of polished rod 24 with supporting seat 13 to realize that supporting seat 13 supports polished rod 24, simultaneously, pass the polished rod 24 in proper order through second slider 21 and third slider 22, move on polished rod 24 with second slider 21 and third slider 22, thereby promote the stability that second slider 21 and third slider 22 removed.
In the embodiment of the present invention, as shown in fig. 1 to fig. 4, the workpiece turnover fixture for a numerical control machine further includes: elongated holes 25; at least four elongated holes 25 are provided in the bottom plate 12.
By providing at least four elongated holes 25 in the base plate 12, the connection of the product to the table of the data machine tool through the elongated holes 25 is achieved.
Claims (7)
1. The utility model provides a work piece upset anchor clamps for digit control machine tool, work piece upset anchor clamps for digit control machine tool include the electromagnetic rotating sucker, the side steel is milled with work piece upset anchor clamps for the digit control machine tool, a serial communication port, work piece upset anchor clamps for the digit control machine tool include:
a base plate;
the supporting seat is arranged on the bottom plate, the electromagnetic rotary sucker is fixed at one end of the supporting seat, and one end of the square steel is attached to the electromagnetic rotary sucker;
the first accommodating groove is formed in the top wall of the other end of the supporting seat, and extends towards the bottom plate;
the outer wall of the first lead screw is provided with a first external thread, the first lead screw is embedded into the first accommodating groove, and the first lead screw is rotationally connected with the supporting seat;
the first screw rod is provided with a first screw hole, a first inner thread is arranged in the first screw hole, the first slide block is embedded into the first accommodating groove, and the first screw hole of the first slide block is sleeved on the outer side of the first outer thread of the first screw rod;
the tip tailstock is fixed on the first sliding block and is attached to the other end of the square steel;
wherein the first external thread is adapted to the first internal thread.
2. The workpiece overturning jig for the numerical control machine tool according to claim 1, further comprising:
the first motor is fixed on the bottom plate and connected with the first lead screw.
3. The workpiece overturning jig for the numerical control machine tool as set forth in claim 2, wherein:
the first sliding block is in excessive fit with the first accommodating groove.
4. The workpiece overturning jig for the numerical control machine tool according to claim 1, further comprising:
the second accommodating groove is formed in the top wall of the supporting seat, extends towards the direction of the bottom plate and is located between the electromagnetic rotary sucker and the first accommodating groove;
the outer wall of the second lead screw is symmetrically provided with a second external thread and a third external thread, the spiral direction of the second external thread is opposite to that of the third external thread, the second lead screw is embedded into the second accommodating groove, the second lead screw is rotatably connected with the supporting seat, and the second lead screw is perpendicular to the first lead screw;
the second sliding block is L-shaped, a second threaded hole is formed in the second sliding block, a second internal thread is formed in the second threaded hole, and the second threaded hole of the second sliding block is sleeved on the outer side of the second external thread of the second lead screw;
the third sliding block is L-shaped, a third threaded hole is formed in the third sliding block, a third internal thread is formed in the third threaded hole, and the third threaded hole of the third sliding block is sleeved on the outer side of the third external thread of the second lead screw;
wherein the square steel is placed on the second slider and the third slider.
5. The workpiece overturning jig for the numerical control machine tool according to claim 4, further comprising:
the second motor is fixed on the bottom plate and connected with the second lead screw.
6. The workpiece overturning jig for the numerical control machine tool according to claim 5, further comprising:
the light bar, the light bar embedding in the second holding tank, the both ends of light bar with the supporting seat is connected, just the light bar passes in proper order the second slider with the third slider.
7. The workpiece turning jig for the numerical control machine tool according to any one of claims 1 to 6, further comprising:
the long holes are at least four and are arranged on the bottom plate.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220324968.XU CN216829826U (en) | 2022-02-17 | 2022-02-17 | Workpiece overturning clamp for numerical control machine tool |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220324968.XU CN216829826U (en) | 2022-02-17 | 2022-02-17 | Workpiece overturning clamp for numerical control machine tool |
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CN216829826U true CN216829826U (en) | 2022-06-28 |
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CN202220324968.XU Active CN216829826U (en) | 2022-02-17 | 2022-02-17 | Workpiece overturning clamp for numerical control machine tool |
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CN (1) | CN216829826U (en) |
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2022
- 2022-02-17 CN CN202220324968.XU patent/CN216829826U/en active Active
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