CN112792617B - Multi-machine-bed auxiliary management system - Google Patents

Abstract

The utility model relates to a multimachine tool auxiliary management system relates to the field of space equipment processing equipment, including a plurality of surveillance cameras, control station computer and a plurality of display screen, a plurality of surveillance cameras respectively with a plurality of lathe one-to-ones, surveillance cameras install in the work piece machining chamber in the lathe, surveillance cameras are used for monitoring the machine state of work piece, a plurality of surveillance cameras all are connected with the control station computer through the cable, a plurality of display screens all are connected with the control station computer through the cable, and a plurality of display screens set up respectively in a plurality of lathe positions department. This application has the advantage that the work burden when the staff is responsible for a plurality of lathe can be alleviateed.

Description

Multi-machine-bed auxiliary management system

Technical Field

The application relates to the field of aerospace equipment processing equipment, in particular to a multi-machine-bed auxiliary management system.

Background

In the production process of aerospace equipment, one workpiece can be used only by being processed by a plurality of machine tools, and in the actual production process of the workpiece, the plurality of machine tools are operated synchronously in order to improve the processing efficiency of the workpiece. In the process of machining a workpiece by a machine tool in the related art, in order to ensure normal work of the machine tool, workers need to observe the machining condition of the workpiece in the machine tool at intervals, in order to save labor, one worker often needs to be responsible for the work of multiple machine tools in the actual production process, and thus the worker needs to frequently go to and fro among the machine tools, so that the workload of the worker is heavy.

Disclosure of Invention

In order to solve the problem that when a worker is in charge of normal work of a plurality of machine tools at the same time, the burden of the worker is heavy, the application provides a multi-machine-tool auxiliary management system.

The application provides a multi-machine-bed auxiliary management system, adopts following technical scheme:

the utility model provides a multimachine tool auxiliary management system, including a plurality of surveillance cameras, control station computer and a plurality of display screen, a plurality of surveillance cameras respectively with a plurality of lathe one-to-one, the surveillance camera is installed in the work piece machining chamber in the lathe, the surveillance camera is used for monitoring the machine state of work piece, a plurality of surveillance cameras all are connected with the control station computer through the cable, a plurality of display screens all are connected with the control station computer through the cable, and a plurality of display screens set up respectively in a plurality of lathe positions department.

Through adopting above-mentioned technical scheme, a plurality of surveillance cameras can feed back the work piece processing condition in the lathe to the control station computer, and the control station computer can distribute the salient to each display screen simultaneously, and the processing condition of work piece in each display screen all can a plurality of lathes of simultaneous display, no matter in which lathe position department of staff like this, the processing condition of work piece in other lathes can all be observed through the display screen of this lathe position department to make the great reduction of staff's work burden.

Optionally, the display screen is provided with an installation rack for adjusting the height of the display screen.

Through adopting above-mentioned technical scheme, the staff can adjust the height of display screen according to the operating mode of reality for the display screen can adapt to the operating mode as much as possible.

Optionally, the mounting bracket includes branch, connecting piece and a plurality of landing leg, and branch supports in ground through many landing legs, and the vertical slide that is provided with on branch, display screen and connecting piece are connected, and the connecting piece slides and connects in the slide, still be provided with on the mounting bracket and be used for carrying out the fixed subassembly fixed to the state of connecting piece.

Through adopting above-mentioned technical scheme, the staff can make the display screen slide along the slide, and when the altitude mixture control of display screen finishes, the staff can fix the state of display screen through fixed subassembly.

Optionally, the fixing assembly comprises a screw fixedly connected to the supporting rod, the screw is arranged along the length direction of the slideway, a supporting pipe is connected to the screw in a threaded manner, and a supporting piece used for supporting the connecting piece is arranged on the supporting pipe.

By adopting the technical scheme, the working personnel can drive the supporting piece to lift along the screw rod by screwing the supporting tube, and the supporting piece can support the connecting piece.

Optionally, a holding rod is installed on the connecting piece, one end of the holding rod is connected with the connecting piece, and the other end of the holding rod is lower than the height of the display screen.

Through adopting above-mentioned technical scheme, the staff can adjust the height of connecting piece through the holding rod, and the holding rod has increased the stress point on the connecting piece to make staff more convenient when adjusting the height of display screen.

Optionally, the bearing piece includes bearing pole, bearing ring and connecting pipe, and the annular spread groove has been seted up to the bearing pole rigid coupling between connecting pipe and bearing ring on the outer peripheral face of bearing pipe, and the connecting pipe sets up in the spread groove, and the connecting pipe sets up to sliding connection between the bearing pipe, and the bearing ring level sets up, and the bottom rigid coupling of holding the pole has the inserted bar of vertical setting.

Through adopting above-mentioned technical scheme, when the staff twisted the bearing pipe soon, the bearing ring can go up and down along with the height of bearing pipe, and when the inserted bar inserted in the bearing ring, the bearing piece can carry out the bearing to the connecting piece and fix.

Optionally, a limiting part for limiting the rotation of the bearing rod along with the connecting pipe is arranged between the screw rods of the connecting pipe.

Through adopting above-mentioned technical scheme, at the rotatory in-process of bearing pipe, the locating part can carry on spacingly to the bearing, avoids the bearing ring to rotate along with the rotation of bearing pipe as far as to make the bearing ring align with the inserted bar all the time, thereby make the inserted bar insert the bearing intra-annular more easily.

Optionally, a plurality of tracks arranged along the length direction of the supporting rod are arranged on the outer side wall of the bottom of the supporting rod, an installation block is connected in the tracks in a sliding mode, supporting legs are hinged to the installation block, meanwhile, an adjusting piece used for limiting the rotating angle of the supporting legs is further arranged on the installation block, and a fixing piece used for fixing the position of the installation block on the supporting rod is arranged on the installation block.

Through adopting above-mentioned technical scheme, when the landing leg is not using, the staff can rotate the landing leg to parallel with branch, the occupation space of saving the mounting bracket that so can be more.

Optionally, the mounting block is provided with a mounting groove, the top ends of the supporting legs are hinged in the mounting groove, the adjusting piece is set to be an adjusting bolt, and the bottom of the adjusting bolt extends into the mounting groove from the upper surface of the mounting block.

Through adopting above-mentioned technical scheme, the staff can be so that change the inclination when the landing leg supports in ground through changing the volume of stretching into of adjusting bolt in the mounting groove to make the mounting bracket can adapt to more operating mode.

Optionally, the mounting frame is fixedly connected with an ear plate, and the ear plate is provided with an additional hole.

Through adopting above-mentioned technical scheme, the staff can be according to actual need with the landing leg receive the back, is fixed in the lathe lateral wall with branch.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the monitoring cameras are arranged in the processing chambers of the plurality of machine tools and are all connected with the control station computer through cables, the display screens are further arranged at the positions of the plurality of machine tools and are all connected with the control station computer through cables, so that a worker can observe the processing conditions of workpieces in other machine tools through the display screens at the positions of the machine tools no matter which machine tool position the worker stands at, and the workload of the worker is greatly reduced;

2. through set up height-adjustable's support on the display screen, the staff can adjust the height of display screen according to the operating mode of reality to make the display screen can use under multiple operating mode.

Drawings

Fig. 1 is a schematic structural diagram of an external appearance of a management system in an embodiment of the present application.

Fig. 2 is a schematic structural outline of a mounting frame in the embodiment of the present application.

FIG. 3 is a schematic view of the installation structure of the highlighted fixing assembly on the strut in the embodiment of the application.

FIG. 4 is a schematic view showing a connection structure between the outrigger and the mounting block in the embodiment of the present application.

Description of reference numerals: 1. a machine tool; 11. a processing chamber; 2. a surveillance camera; 3. a control station computer; 4. a display screen; 5. a strut; 51. mounting grooves; 511. a buffer spring; 52. connecting holes; 53. a groove; 531. a sliding groove; 532. a threaded hole; 54. mounting blocks; 541. a sliding block; 542. an additional groove; 543. adjusting the bolt; 544. jacking the bolt; 55. an ear plate; 551. an additional aperture; 6. a support leg; 61. a fixing hole; 7. a connecting member; 71. a connecting rod; 711. a through hole; 72. a connecting seat; 73. a holding rod; 731. inserting a rod; 7311. a fixing ring; 8. a fixing assembly; 81. a screw; 811. a chute; 82. a bearer tube; 821. connecting grooves; 83. a support member; 831. a support ring 832, a support rod; 833. a connecting pipe; 84. a limiting member; 841. mounting a rod; 842. and a limiting plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a multi-machine-bed auxiliary management system. Referring to fig. 1, the management system includes a plurality of monitoring cameras 2, a control station computer 3, and a plurality of display screens 4. The plurality of monitoring cameras 2 are respectively arranged in the processing chambers 11 of the plurality of machine tools 1, and the monitoring cameras 2 are used for monitoring the processing conditions of the workpieces in the processing chambers 11 of the machine tools 1; the monitoring cameras 2 are connected with the control station computer 3 through cables; a plurality of display screens 4 respectively with a plurality of lathe 1 one-to-one, and a plurality of display screens 4 all pass through the cable with control station computer 3 and be connected.

The plurality of monitoring cameras 2 can transmit images reflecting the processing conditions of the workpieces in the plurality of machine tools 1 to the control station computer 3, the control station computer 3 distributes the images to the plurality of display screens 4, and the images reflecting the processing conditions of the workpieces in the plurality of machine tools 1 can be synchronously displayed on each display screen 4, so that no matter which machine tool 1 the worker is located, the worker can see the processing conditions of the workpieces in other plurality of machine tools 1 through the display screens 4 on the machine tools 1. Thereby greatly reducing the workload of the workers.

Referring to fig. 2 and 3, the management system further includes a plurality of mounting brackets, which correspond to the plurality of display screens 4 one to one, respectively. In particular, the mounting comprises a strut 5 and four legs 6. The supporting rod 5 is vertically arranged, and the cross section of the supporting rod 5 is rectangular; four landing legs 6 all install in the bottom position of branch 5, and four landing legs 6 around the axis evenly distributed of branch 5, and the top and the branch 5 of landing leg 6 are connected, and the bottom of landing leg 6 inclines to the direction that is kept away from the axis of branch 5. The four legs 6 support the pole 5 on the ground, and the display screen 4 is mounted on the pole 5.

A connecting piece 7 is arranged between the display screen 4 and the support rod 5, the connecting piece 7 is used for installing the display screen 4 on the support rod 5, the connecting piece 7 comprises a connecting rod 71 and a connecting seat 72, one end of the connecting rod 71 is fixedly connected with the display screen 4, the other end of the connecting rod 71 is fixedly connected with the connecting seat 72, and the cross section of the connecting seat 72 is circular; the upper end surface of the support rod 5 is provided with a mounting groove 51 matched with the connecting seat 72, the mounting groove 51 is distributed along the length direction of the support rod 5, and one surface of the support rod 5 facing the display screen 4 is provided with a connecting hole 52 matched with the mounting groove 51; the connecting base 72 is slidably connected in the mounting groove 51, and the connecting rod 71 passes through the connecting hole 52.

Still be provided with on branch 5 and be used for carrying out the fixed subassembly 8 fixed to connecting piece 7, fixed subassembly 8 includes screw rod 81 and bearing pipe 82, the vertical setting of screw rod 81, the bottom rigid coupling of screw rod 81 in branch 5. Through-hole 711 that the diameter is greater than screw 81 is seted up to the upper surface of connecting rod 71, and screw 81 is located to the bearing pipe 82 cover, and sets up to threaded connection between bearing pipe 82 and the screw 81, and the diameter of bearing pipe 82 is greater than the diameter of through-hole 711, and bearing pipe 82 is located connecting rod 71 under.

The staff can adjust the height of display screen 4 through connecting piece 7 to make display screen 4 can use under multiple operating mode, after the height adjustment of display screen 4 finishes, the staff makes bearing pipe 82 and connecting rod 71 butt together through revolving to bear trusteeship 82, and connecting piece 7 and display screen 4's state is fixed this moment.

In order to facilitate the adjustment of the height of the display screen 4 by the worker, a vertically arranged holding rod 73 is fixedly connected to the lower surface of the connecting rod 71, and the bottom end of the holding rod 73 is lower than the display screen 4. Further, a supporting member 83 is arranged on the supporting pipe 82, the supporting member 83 includes a supporting ring 831, a supporting rod 832 and a connecting pipe 833, a connecting groove 821 matched with the connecting pipe 833 is arranged on the outer circumferential surface of the supporting pipe 82, the connecting pipe 833 is sleeved on the connecting groove 821 on the outer circumferential surface of the supporting pipe 82, and the connecting pipe 833 is connected to the connecting groove 821 in a sliding manner; one end of the supporting rod 832 is fixedly connected with the connecting pipe 833, and the other end of the supporting rod 832 is fixedly connected with the supporting ring 831. An insertion rod 731 matched with the bearing ring 831 is fixedly connected to the end face of the bottom end of the holding rod 73.

The staff is at the in-process of adjusting the height of display screen 4, can adjust the height of display screen 4 through holding pole 73, and on the other hand, after the height control of display screen 4 finishes, the staff revolves and twists trusteeship 82, and trusteeship 82 drives trusteeship 832 and supporting ring 831 upward movement, and it can to insert in supporting ring 831 until inserted bar 731 of holding pole 73 bottom. When the display screen 4 needs to be adjusted, before the worker adjusts the display screen 4, the worker can conveniently remove the limit of the supporting pipe 82 on the connecting piece 7 because the supporting pipe 82 is lower than the display screen 4.

Supporting member 83 is last to be provided with locating part 84, and locating part 84 includes installation pole 841 and limiting plate 842, and the vertical rigid coupling of installation pole 841 is in the lower surface of supporting pole 832, and limiting plate 842 rigid coupling is in the bottom of installation pole 841 simultaneously, offers the spout 811 with the limiting plate 842 adaptation on the outer peripheral face of screw rod 81, and limiting plate 842 slides and connects in spout 811. When a worker screws the support pipe 82, the limiting member 84 can prevent the support member 83 from rotating with the support pipe 82 as much as possible, so that the insertion rod 731 can be inserted into the support ring 831 more easily.

Referring to fig. 3 and 4, four corner positions of the bottom of the supporting rod 5 are all provided with a groove 53, the groove 53 is connected with an installation block 54 in a sliding manner, a sliding groove 531 with a dovetail-shaped cross section is formed in the side wall of the groove 53, a sliding block 541 matched with the installation block 54 is fixedly connected to the installation block 54, and the sliding block 541 is connected in the sliding groove 531 in a sliding manner.

Four landing legs 6 respectively with four installation pieces 54 one-to-one, seted up additional groove 542 on the installation piece 54, additional groove 542 extends to the lower surface of sliding block 541, the top of landing leg 6 articulates in additional groove 542, and the articulated shaft level setting between landing leg 6 and the additional groove 542. An adjusting bolt 543 vertically penetrates through the upper surface of the mounting block 54, the bottom end of the adjusting bolt 543 penetrates into the additional groove 542, and the adjusting bolt 543 is arranged in threaded connection between the mounting blocks 54.

The mounting block 54 is provided with a tightening bolt 544, the bottom end of the leg 6 is provided with a fixing hole 61, and the inner wall of the bottom of the groove 53 is provided with a threaded hole 532. When the landing leg 6 is not in use, the worker slides the mounting block 54 upwards, the landing leg 6 is rotated into the groove 53, the fixing hole 61 in the landing leg 6 is aligned with the threaded hole 532 in the groove 53, the worker penetrates through the fixing bolt between the fixing hole 61 and the threaded hole 532, the landing leg 6 is stored in the groove 53, and therefore the mounting frame is more space-saving.

When the supporting leg 6 needs to be used, a worker slides the mounting block 54 downwards, the bottom end of the supporting leg 6 is rotated in the direction away from the groove 53 in the process, after the mounting block 54 is adjusted to a proper position, the worker screws the tightening bolt 544 to enable the tightening bolt 544 to tighten against the inner wall of the groove 53, so that the position of the mounting block 54 is fixed, then the bottom end of the supporting leg 6 is placed on the ground, and the supporting leg 6 can support the supporting rod 5. The operator can change the angle of inclination of the legs 6 by screwing the length of the bottom end of the threaded rod into the additional slot 542, so that the mounting frame can adapt to as many operating conditions as possible.

The outer side wall of the strut 5 is fixedly connected with a plurality of ear plates 55, and the ear plates 55 are provided with additional holes 551. The staff can be fixed the branch 5 on the lathe 1 lateral wall through the bolt to make the mount occupy less space at ordinary times.

Be provided with buffer spring 511 in the mounting groove 51, buffer spring 511 is located between the diapire of mounting groove 51 and the connecting seat 72, and buffer spring 511 sets up aim at staff when adjusting the height of display screen 4, and buffer spring 511 can give connecting seat 72 an ascending thrust for staff's more laborsaving when adjusting display screen 4.

The bottom of the inserted bar 731 is sleeved with a fixing ring 7311, and the fixing ring 7311 is in threaded connection with the inserted bar 731. When the inserting rod 731 is inserted into the supporting ring 831, a worker can screw the fixing ring 7311 at the bottom end of the inserting rod 731, and the fixing ring 7311 can prevent the inserting rod 731 from separating from the supporting ring 831 as much as possible, so that the display screen 4 is more stable.

The implementation principle of the auxiliary management system for the machine tool 1 in the embodiment of the application is as follows: the monitoring camera 2 in the machine tool 1 can feed back the processing state of the workpiece in the machine tool 1 to each display screen 4, and the working personnel can observe the processing condition of the workpiece in other machine tools 1 through the display screens 4 at the positions of the machine tools 1 no matter which machine tool 1 is positioned, so that the workload of the working personnel is greatly reduced.

The display screen 4 can be placed on the ground through the mounting bracket according to actual need, and can also be fixed on the side wall of the machine tool 1 body through the mounting bracket. And the staff can also adjust the height of display screen 4 as required, makes display screen 4 use under multiple operating mode. In the process of adjusting the display screen 4, the worker firstly adjusts the height of the display screen 4 through the holding rod 73, and after the display screen 4 is adjusted to a proper height, the worker screws the supporting tube 82 to enable the supporting ring 831 to be sleeved on the periphery of the insertion rod 731, and then the fixing ring 7311 is screwed on the bottom end of the insertion rod 731.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (4)

1. A multi-machine-bed auxiliary management system is characterized in that: the monitoring system comprises a plurality of monitoring cameras (2), a control station computer (3) and a plurality of display screens (4), wherein the monitoring cameras (2) are respectively in one-to-one correspondence with a plurality of machine tools (1), the monitoring cameras (2) are installed in a workpiece machining chamber (11) in the machine tools (1), the monitoring cameras (2) are used for monitoring the machining state of a workpiece, the monitoring cameras (2) are all connected with the control station computer (3) through cables, the display screens (4) are all connected with the control station computer (3) through cables, and the display screens (4) are respectively arranged at the positions of the machine tools (1); the display screen (4) is provided with an installation rack for adjusting the height of the display screen (4); the mounting frame comprises a supporting rod (5), a connecting piece (7) and a plurality of supporting legs (6), the supporting rod (5) is supported on the ground through the plurality of supporting legs (6), a slide way is vertically arranged on the supporting rod (5), the display screen (4) is connected with the connecting piece (7), the connecting piece (7) is connected to the slide way in a sliding mode, and a fixing assembly (8) used for fixing the state of the connecting piece (7) is further arranged on the mounting frame; the fixing component (8) comprises a screw rod (81) fixedly connected to the support rod (5), the screw rod (81) is arranged along the length direction of the slideway, a bearing pipe (82) is connected to the screw rod (81) in a threaded manner, and a bearing part (83) for bearing the connecting piece (7) is arranged on the bearing pipe (82); a holding rod (73) is arranged on the connecting piece (7), one end of the holding rod (73) is connected with the connecting piece (7), and the other end of the holding rod (73) is lower than the height of the display screen (4); the bearing piece (83) comprises a bearing rod (832), a bearing ring (831) and a connecting pipe (833), the bearing rod (832) is fixedly connected between the connecting pipe (833) and the bearing ring (831), an annular connecting groove (821) is formed in the outer peripheral surface of the bearing pipe (82), the connecting pipe (833) is arranged in the connecting groove (821), the connecting pipe (833) is arranged between the bearing pipes (82) in a sliding connection mode, the bearing ring (831) is horizontally arranged, and the bottom end of the holding rod (73) is fixedly connected with an inserting rod (731) which is vertically arranged; and a limiting piece (84) used for limiting the rotation of the bearing rod (832) along with the connecting pipe (833) is arranged between the connecting pipe (833) and the screw (81).

2. The multi-machine-bed auxiliary management system as claimed in claim 1, wherein: be provided with a plurality of tracks of laying along branch (5) length direction on the lateral wall of branch (5) bottom, the track is internal to slide and is connected with installation piece (54), and it has landing leg (6) to articulate on installation piece (54), still is provided with on installation piece (54) simultaneously to be used for carrying out spacing regulating part to the rotation angle of landing leg (6), be provided with on installation piece (54) and be used for carrying out the fixed mounting to the position of installation piece (54) on branch (5).

3. The multi-machine-bed auxiliary management system as claimed in claim 2, wherein: additional groove (542) have been seted up on installation piece (54), the top of landing leg (6) articulates in additional groove (542), and the regulating part sets up to adjusting bolt (543), and the bottom of adjusting bolt (543) is stretched into in additional groove (542) by the upper surface of installation piece (54).

4. The multi-machine-bed auxiliary management system as claimed in claim 3, wherein: the mounting frame is fixedly connected with an ear plate (55), and the ear plate (55) is provided with an additional hole (551).

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