CN201586891U - Cutting stress display device of full-automatic elastic feed inner-circle slicer - Google Patents

Abstract

A cutting stress display device of a full-automatic elastic feed inner-circle slicer belongs to the field of machining and comprises a cutting tool driven by a main shaft motor and an elastic feed apparatus, wherein the elastic feed apparatus comprises an X-axis travelling table and a Y-axis travelling table which are both driven by a stepping motor; the X-axis travelling table is arranged above the Y-axis travelling table; and a controlling and delivering connecting device of displacement and force between the X-axis travelling table and the Y-axis travelling table is provided with a part with elastic function or a component with elastic function. The cutting stress display device is characterized in that the elastic feed apparatus is provided with a display device that consists of a measuring device and an indicating device; the display device shows the stress deformation of original elastic parts; and the deformation is used for prompting the stressed working condition of a cutting tool edge so as to determine and adjust cutting feed parameter and solve the problem that materials with different processibility are affected by equipment, control mode and cutting parameter, thus avoiding the accidents of burning knife and ruining material caused by overlarge stress applied on the tool edge.

Description

The full automatic inside diameter slicer with elastic feeding cutting stress display device

Technical field:

The utility model belongs to the device of automatic inside diameter slicer, is specifically related to a kind of full automatic inside diameter slicer with elastic feeding cutting stress display device.

Background technology:

Inside diameter slicer is a most frequently used process equipment in the processing of rare earth permanent-magnetic material sintered NdFeB plane cutting.It comprises semi-automatic inside diameter slicer, full automatic inside diameter slicer, the Y-axis travelling table that full automatic inside diameter slicer comprises Control System of Microcomputer, the X-axis travelling table that drives by the cutting tool of main driven by motor, by stepper motor, driven by stepper motor, the X-axis travelling table is arranged on the top of Y-axis travelling table, and the stepper motor that drives the X-axis travelling table is arranged on the X-axis travelling table.

In traditional manual control cutting process, earlier displacement location is carried out in the cut surface position of Y direction.Weight traction X-axis slider disc after the location, the bin that is positioned on the X-axis slider disc moves along lead, is cut the interior round cutter that material rotated at a high speed and cuts.Blade cutting edge cutting stress derives from the traction of weight.Moving by Artificial Control of all Y-axis cut surfaces begins the cutting stage along the cutting process of X-axis, and the moving displacement by Artificial Control x axle slider disc steadily begins cutting process, after the cutting steadily, has the double action of weight and damping to cut automatically.Such cutting method is called semi-automatic cutting, and its crudy (depth of parallelism, form and position tolerance, surface smoothness), that working (machining) efficiency is subjected to artificial factor affecting such as technology, muscle power, mood is many.Everyone apparatus operating is also only between 6～10.

Along with the development of electron controls technology, step motor control is adopted in the cut surface displacement of Y direction, and the X-axis cut direction adopts step motor control cutter and the relative displacement that is cut material, the control cutting speed.This technological progress has improved the cutting processing precision greatly, has improved single personnel's operating efficiency, and the equipment of one man operation's control can arrive 30～50.

The step motor control of Y direction without any potential problem, still, on X-direction, the reinforcing on the cutter and control mode are affected the cutting efficiency of single device.

At present, on the control cutting tool feeding mode two kinds of frame modes are arranged, a kind of is the weight counterweight, the mode (Class1) of stepper motor limit feeding; Another kind is that stepper motor is rigidly connected, and the stepping amount in each step all is applied on the cutting edge of inscribe slicer (type 2).

When the stepping feed speed is provided with lower the time, both duties are approaching substantially, and the cutting speed under such operating mode (the cutting area in the unit interval) is lower, than artificial cutting speed on average low 15～30%.

In the ordinary course of things, because the quantity of the full-automatic slicing machine of one man operation control is many, in comparatively safe, the conservative scope that all parameters all are taken at, for hand section, its cutting speed low about 20%.

In the process of interior circle cutting, the factor that influences cutting speed is to stablize the stressed degree of the edge of a knife in penetration of a cutting tool (holding up cutter) time and the cutting process.In slicing processes, modal abnormal conditions are to burn cutter, the lighter's edge of a knife damage (sword, localized burn diamond dust partially), and weight person's edge of a knife diamond dust is all burnt, even cutter is torn mashed.

For improving cutting speed, the general feed speed (type 2) that strengthens weight weight (for Class1) or accelerate the X-axis stepper motor that adopts.

For type 2, no matter how many minimum feeding step pitches is, the minimum amount of feeding that each moment finishes, all be that strain with cutter absorbs this feeding displacement, this strain acts on cutting knife with the form of power, the preliminary elastic deformation force who discharges blade between next feeding.

Theoretically, if then can there be the idle running of strain stress release after finishing in feeding time interval long enough.On the other hand,, then go up the stress during the feeding and has not discharged as yet, cause stress accumulation if the time interval of feeding is enough short, light then influence the quality (the recessed heart of the product that cuts out) of cutting products, heavy then ruin and expect to tear cutter.

In the cutting process of reality, concrete parameter rule of thumb is provided with the material of reality cutting is artificial often, and generally is be the conservative cutting feeding parameter of prerequisite with the quality of guaranteeing cutting products.Even if relatively safe cutting feeding parameter, but when the material cutting changes, but when especially the material cutting becomes big, then can cause the quality (tolerance and the depth of parallelism) of converted products to change.

Therefore, for inside diameter slicer, the purpose of the control that its X-axis moves does not lie in accurate localization, but how effectively to be the relation between the balance cut quality and cutting efficiency, selects suitable control method, syndeton and control model.

In the present full automatic inside diameter slicer, stepper motor is connected to be and is rigidly connected with the control object, and in order to ensure the precision of control displacement, it adopts several controls location, and any one control all is for accurate location.

Stepper motor is that rigidity is given power for the working method that is rigidly connected, the stepping amount in each step all is applied on the cutting edge of inscribe slicer, there is following deficiency in practice: when the stepping feed speed is provided with lower the time, both duties are approaching substantially, cutting speed under such operating mode (the cutting area in the unit interval) is lower, on average hangs down 15～30% than artificial cutting speed; In the ordinary course of things, because the quantity of the full-automatic slicing machine of one man operation control is many, in comparatively safe, the conservative scope that all parameters all are taken at, for hand section, its cutting speed low about 20%.

In full-automatic, justify in the process of cutting processing, selected cutting control parameter (amount of feeding or weight counterweight weight) is most important to the influence of crudy, working (machining) efficiency, in the ordinary course of things, people can't detect and judge whether current parameter combinations is in optimum state.

In general, in cutting process, but when the cutting of being cut material good, and when selecting normal cutting feeding/counterweight parameter for use, this moment, cutting speed was fast, and feed speed is slow, the elastic force balance distortion of spring is just little, influences cutting speed.

But bad when the cutting of being cut material, material is difficult when cutting, if when also adopting normal cutting parameter, the spring stress distortion can strengthen, and the edge of a knife is stressed also to be strengthened.The edge of a knife is stressed when excessive, and the light then serious recessed heart of product cutting is scrapped, and is heavy then can burn cutter, ruin the material situation.

Therefore, the distortion situation of elasticity original paper is reflecting the stressing conditions of cutting knife, and strain is then corresponding to the stress of cutting edge.

The utility model content:

The utility model aims to provide the device that can show and indicate the deflection of elasticity original paper, and the demonstration of this deflection and indication are in order to judge that parameter under the current cut state is whether suitable and adjust parameter according to shown result.

The realization the technical solution of the utility model is: comprise the cutting tool that spindle motor drives, the elastic feeding device, the elastic feeding device comprises the X-axis travelling table that stepper motor drives, the Y-axis travelling table that stepper motor drives, the X-axis travelling table is arranged on the top of Y-axis travelling table, the displacement between X-axis travelling table and the Y-axis travelling table and the control of power are transmitted in the jockey and are provided with parts with spring function or the assembly with spring function, it is characterized in that the elastic feeding device is provided with display unit, display unit is made of measurement mechanism and indicating device, this display unit shows the stress deformation amount of indication elasticity original paper, points out the stressed duty of cutting process cutting knife with this deflection.

Described full automatic inside diameter slicer with elastic feeding cutting stress display device, jockey is transmitted in the control that it is characterized in that displacement and power, comprise stepper motor, leading screw, feed screw nut, stepper motor is fixedly mounted on the Y-axis travelling table, stepper motor connects leading screw, feed screw nut is arranged on the leading screw, be provided with force-bearing piece above the feed screw nut, display unit is arranged on X-axis travelling table and the feed screw nut sliding assembly, shows that indicating device is in order to show the elastic deformation amount of the elasticity original paper between X-axis travelling table and the feed screw nut sliding assembly; Display unit comprises fixedly display unit, mobile display device, during use, the front end of mobile display device to the distance of fixing display unit front end less than the distance of mobile display device front end to the mobile display device rear end, and the front end of mobile display device moves to the fixing front end of display unit, mobile display device is with fixedly display unit is parallel, mobile display device and fixedly the fore-and-aft distance between the display unit be not more than 2 millimeters.

Described full automatic inside diameter slicer with elastic feeding cutting stress display device, jockey is transmitted in the control that it is characterized in that described displacement and power, comprise stepper motor, gear, tooth bar, the output shaft of stepper motor is provided with gear, the wheel and rack engagement, tooth bar is fixedly mounted on the X-axis travelling table, and display unit is arranged on X-axis travelling table and the tooth bar, shows that indicating device is in order to show the elastic deformation amount of the elasticity original paper between X-axis travelling table and the tooth bar; Display unit comprises lower plate, upper plate, tooth bar, be provided with tooth bar between lower plate and the upper plate, tooth bar is provided with cylindrical protrusions, and an end of tooth bar is provided with spring and adjusts bolt, cylindrical protrusions is passed upper plate and is connected with pointer, and upper plate and lower plate are by bolting together.

Described full automatic inside diameter slicer with elastic feeding cutting stress display device, the control transmission jockey that it is characterized in that displacement and power comprises that the Y-axis travelling table is provided with gripper shoe, limited block, gripper shoe is equipped with stepper motor by slide device, slide device can make the stepper motor horizontal direction slide, also be provided with limit switch on the upper table, limited block is provided with the adjusting device of regulating spring elastic force, spring is installed between gripper shoe and the limited block, display unit is arranged on the Y-axis travelling table, be that gripper shoe is provided with cuing scale, backplate is fixed on the Y-axis travelling table and with cuing scale and covers in, backplate is provided with display window, and display window is provided with the scale sign.

Described full automatic inside diameter slicer with elastic feeding cutting stress display device, it is characterized in that described display unit comprises display window, cuing scale, display window is provided with the normal operation position line and the maximal work position line, cuing scale is a right angle bodily form plate, display window is arranged on the X-axis travelling table, and cuing scale is arranged on the stepper motor feed screw nut assembly.

Described full automatic inside diameter slicer with elastic feeding cutting stress display device, it is characterized in that described display unit is included on the X-axis travelling table is fixed with extension spring, one end of extension spring is fixed on the X-axis travelling table, the other end of extension spring is connected with the demonstration indication needle plate that can horizontally slip, show on the indication needle plate and be carved with the calibration sign, display window covers and shows the indication needle plate, show that the indication needle plate is connected with movable pulley, movable pulley is provided with backguy, one end of backguy is fixed on the X-axis travelling table, and the other end of backguy is fixed on the feed screw nut assembly.

Described full automatic inside diameter slicer with elastic feeding cutting stress display device, it is characterized in that described display unit is included on the X-axis travelling table is fixed with displacement transducer, displacement transducer connects display by electric wire, be wound with the displacement backguy on the coding disk of displacement transducer, coiling length is greater than maximum displacement, one end of displacement backguy is fixed on the position of 0 correspondence of encoder, the other end of displacement backguy and feed screw nut assembly are fixed, also twine the resilient backguy that resets on the displacement transducer, coiling length is identical with the displacement backguy, the Hui Li backguy that resets is connected with extension spring, the other end of extension spring is fixed on the X-axis travelling table, and displacement sensing comprises with the digital coding way of output with the analog quantity way of output.

Described full automatic inside diameter slicer with elastic feeding cutting stress display device, it is characterized in that described display unit can also comprise that cuing scale fixedlys connected with the stepper motor slide plate, backplate is fixed in the Y-axis travelling table, open one at the FROM of cuing scale and show indicating window, show that the clear glass before the indicating window is provided with the scale sign, show that perhaps the indicating window perforate does not add glass, on the Y-axis travelling table, be provided with the scale sign with cuing scale position overlapped place.

Described display unit can also comprise that the liquid compression assembly is fixedly installed in the X-axis travelling table, the liquid compression bar of liquid compression assembly is connected in the feed screw nut assembly of stepper motor, the liquid compression assembly is connected to liquid level gauge by tube connector, be equipped with on the liquid compression assembly in order to the liquid level of adjusting the liquid level liquid measure under the nature and adjust joint, in order to replenish or to emit demonstration liquid.

Described display unit can also comprise that the gas compression assembly is fixedly installed in the X-axis travelling table, and the constrictor on the gas compression assembly is connected on the feed screw nut assembly of stepper motor, and connecting line is connected on the Pressure gauge.

The utility model need accurately not located on the X-axis travelling table, but the control of power is conducted on cutter, come the current cut state of indirect reaction by the deflection of observing the elasticity original paper, by measuring the stress deformation amount of elasticity original paper, come to determine qualitatively current cut state, to determine and to adjust and cut the feeding parameter, with solution equipment, control model and cutting parameter material to different machinabilitys, thereby avoid taking place the edge of a knife because of stressed excessive, make the serious recessed heart of product of cutting scrap or take place and burn cutter, ruin the material accident.

Description of drawings:

Fig. 1 is the structural representation of the utility model embodiment one.

Fig. 2 is the structural representation (Fig. 1 amplifies relatively, and wherein dash area is an opaque section) of the display window among the utility model embodiment two.

Fig. 3 is the structural representation (Fig. 1 amplifies relatively) of the ruler among the utility model embodiment two.

Fig. 4 is the structural representation (Y-axis travelling table, cutter, skid bed do not show among the figure) of the utility model embodiment three.

Fig. 5 is the structural representation (Y-axis travelling table, cutter, skid bed do not show among the figure) of the utility model embodiment four.

Fig. 6 is the structural representation (Y-axis travelling table, cutter, skid bed do not show among the figure) of the utility model embodiment five.

Fig. 7 is the structural representation (Y-axis travelling table, cutter, skid bed do not show among the figure) of the utility model embodiment six.

Fig. 8 is the structural representation (Y-axis travelling table, cutter, skid bed do not show among the figure) of the utility model embodiment seven.

Fig. 9 is the structural representation (X-axis travelling table, cutter, skid bed do not show among the figure) of the utility model embodiment eight.

Figure 10 is the structural representation (cutter, skid bed do not show among the figure) of the utility model embodiment nine.

The structure enlarged drawing of display unit among Figure 11 the utility model embodiment nine.

Among the figure: 1, cutter, 2, skid bed, 3, be cut material, 4, X-axis travelling table (deserving to be called workbench again), 5, Y-axis travelling table (claiming lower table again), 6, stepper motor, 7, leading screw, 8, force-bearing piece (connector), 9, feed screw nut, 10, spring, 11, limited block, 12, limited block, 13, ruler, 14, display window, 15, ruler, 16, opaque section, 17, the normal operation position line, 18, transparent part, 19, the maximal work position line, 20, breach, 21, tooth bar, 22, gear, 23, spring, 24, upper plate, 25, cushion block, 26, locking nut, 27, regulate bolt, 28, pointer, 29, steady pin, 30, extension spring, 31, the indication needle plate, 32, display window, 33, the backguy of indication needle plate, 34, pulley, 35, the pulley guide plate, 36, the displacement backguy, 37, display, 38, displacement transducer, 39, the Hui Li backguy that resets, 40, extension spring, 41, the displacement backguy, 42, electric wire, 43, liquid level gauge, 44, liquid delivery tube, 45, hydraulic cylinder, 46, Pressure gauge, 47, tube connector, 48, cylinder, 49, baffle plate, 50, spring, 51, the right limit piece, 52, mobile gripper shoe, 53, L shaped chi, 54, the left limit piece, 55, backplate, 56, rule, 57, display window, 58, projection, 59, lower plate, 60, rotating shaft, 61, groove.

The specific embodiment:

The specific embodiment of the present utility model is not limited to following embodiment, and different embodiment can be set according to actual needs.

Embodiment one: shown in Figure 1, present embodiment comprises the cutting tool 1 of spindle motor drive, the X-axis travelling table 4 that stepper motor 6 drives, the Y-axis travelling table 5 that stepper motor drives, X-axis travelling table 4 is arranged on the top of Y-axis travelling table 5, X-axis travelling table 4 is provided with material folding frame 2, and the displacement between X-axis travelling table 4 and the Y-axis travelling table 5 and the control of power are transmitted in the jockey and is provided with spring 10.The control of described displacement and power is transmitted jockey and is comprised stepper motor 6, stepper motor 6 is provided with leading screw 7, be with feed screw nut 9 on the leading screw 7, stepper motor 6 is fixedly mounted on the Y-axis travelling table 5, feed screw nut 9 is provided with force-bearing piece 8, one side of force-bearing piece 8 connects spring 10, one end of spring 10 is connected with limited block 11, limited block 11, limited block 12 all is fixed together with upper table 4, be installed with ruler 13 on the force-bearing piece 8, display window 14 is installed on the X-axis travelling table 4, display window 14 is transparency glass plate or plastic plate, display window 14 is provided with 0 bit line, and ruler 13 is provided with graduation mark.

Embodiment two: Fig. 2, shown in Figure 3, the display window of present embodiment are provided with transparent part 18, opaque section 16, the maximal work position line 19 and normal operation position line 17, and ruler 15 is the right-angled trapezium plate, and other structure is identical with embodiment one.

Embodiment three: shown in Figure 4, display unit is for being fixed with extension spring 30 on X-axis travelling table 4, one end of extension spring 30 is fixed on the X-axis travelling table, the other end of extension spring 30 is connected with the indication needle plate 31 that can horizontally slip, be carved with the calibration sign on the indication needle plate 31, display window 32 covers indication needle plate 31, indication needle plate 31 is connected with movable pulley 34, movable pulley 34 is arranged on the pulley guide plate 35, movable pulley 34 is provided with indication needle plate backguy 33, one end of indication needle plate backguy 33 is fixed on the X-axis travelling table, the other end of indication needle plate backguy 33 is connected with indication needle plate 31, one end of displacement backguy 36 is fixed on the feed screw nut assembly, and the other end of displacement backguy 36 is fixed on the movable pulley 34, and other structure is identical with embodiment one.

Embodiment four: shown in Figure 5, what present embodiment and embodiment four were different is not establish the pulley guide plate on the movable pulley, one end of indication needle plate backguy is connected with the indication needle plate, the other end is connected on the axle of movable pulley, one end of displacement backguy is fixed on the feed screw nut assembly, the other end of displacement backguy is walked around movable pulley and is fixedlyed connected with the X-axis travelling table, and other structure is identical with embodiment four.

Embodiment five: shown in Figure 6, the display unit of present embodiment is to be fixed with angle displacement sensor 38 on X-axis travelling table 4, angle displacement sensor 38 connects display 37 by electric wire 42, be wound with displacement backguy 41 on the coding disk of angle displacement sensor 38, coiling length is greater than maximum displacement, one end of displacement backguy 41 is fixed on the position of 0 correspondence of angle displacement sensor, the other end of displacement backguy 41 is fixedlyed connected with the feed screw nut assembly, also twine the resilient backguy 39 that resets on the angle displacement sensor 38, coiling length is identical with the displacement backguy, the Hui Li backguy 39 that resets is connected with extension spring 40, the other end of extension spring 40 is fixed on the X-axis travelling table, and other structure is identical with embodiment one.

Embodiment six: shown in Figure 7, the display unit of present embodiment is that liquid compression assembly (being hydraulic cylinder 45) is fixedly installed in the X-axis travelling table, the piston rod of hydraulic cylinder 45 is connected in the feed screw nut assembly of stepper motor, hydraulic cylinder 45 is connected to liquid level gauge 43 by liquid delivery tube 44, be equipped with on the liquid compression assembly in order to the liquid level of adjusting the liquid level liquid measure under the nature and adjust joint, in order to replenish or to emit demonstration liquid, other structure is identical with embodiment one.

Embodiment seven: shown in Figure 8, the display unit of present embodiment is that cylinder 48 is fixedly installed in the X-axis travelling table, and the piston rod of cylinder 48 is connected on the feed screw nut assembly of stepper motor, and cylinder 48 is connected on the Pressure gauge 46 by tube connector 47.

Embodiment eight: shown in Figure 9, the Y-axis travelling table 5 of present embodiment is provided with movable plate and supports 52, two limited block (left limit pieces 54, right limit piece 51), be provided with mobile gripper shoe 52 between two limited blocks, spring 50 is installed between mobile gripper shoe 52 and one of them limited block (right limit piece 51), by slide device (can be track or pulley) stepper motor is installed on the mobile gripper shoe 52, slide device can make stepper motor slide along X-axis (being level) direction, right limit piece 51 is provided with the adjusting device of regulating spring elastic force, L shaped chi 53 (L shaped chi 53 is cuing scale) is installed on the mobile gripper shoe 52, backplate 55 is fixed in the Y-axis travelling table, open a display window 57 at the FROM of cuing scale, clear glass before the display window 57 is provided with the scale sign, perhaps the display window perforate does not add glass, be provided with the scale sign with cuing scale position overlapped place on the Y-axis travelling table, other structure is identical with embodiment one.

Embodiment nine: Figure 10, shown in Figure 11, the displacement of present embodiment and the control of power are transmitted jockey and are comprised stepper motor, stepper motor is fixed on the Y-axis travelling table, gear 22 is installed on the output shaft of stepper motor, gear 22 and tooth bar 21 engagements, tooth bar 21 and display unit are fixedly mounted on the X-axis travelling table 4, display unit comprises lower plate 59, upper plate 24, tooth bar 21, be provided with tooth bar 21 between lower plate 59 and the upper plate 24, tooth bar 21 is provided with cylindrical protrusions 58, the left upper end of tooth bar 21 is provided with breach 20, breach 20 places are provided with spring 23 and adjust bolt 27, adjusting bolt 27 is provided with locking nut 26 and adjusts cushion block 25, cylindrical protrusions 58 is passed upper plate 24 and is connected with rotating shaft 60 contacts, pointer 28 is enclosed within on the cylindrical protrusions 11, the aperture of the screwed hole on the pointer 28 is greater than the diameter of cylindrical protrusions, the threaded portion of rotating shaft 60 is arranged in the screwed hole of pointer 28, lower plate 59 is provided with groove 61, the position of the upper plate 24 corresponding with groove 61 is provided with groove, in order to place spring 23, upper plate 24 passes through bolting together with lower plate 59.After upper plate 24 linked together with lower plate 59, the locking nut 26 of adjusting bolt 27 was exposed at outside upper plate, the lower plate, and other structure is identical with embodiment one.

Claims (9)

1. full automatic inside diameter slicer with elastic feeding cutting stress display device, comprise the cutting tool that spindle motor drives, the elastic feeding device, the elastic feeding device comprises the X-axis travelling table that stepper motor drives, the Y-axis travelling table that stepper motor drives, the X-axis travelling table is arranged on the top of Y-axis travelling table, the displacement between X-axis travelling table and the Y-axis travelling table and the control of power are transmitted in the jockey and are provided with parts with spring function or the assembly with spring function, it is characterized in that the elastic feeding device is provided with display unit, display unit is made of measurement mechanism and indicating device, this display unit shows the stress deformation amount of indication elasticity original paper, points out the stressed duty of cutting process cutting knife with this deflection.

2. full automatic inside diameter slicer with elastic feeding cutting stress display device according to claim 1, jockey is transmitted in the control that it is characterized in that displacement and power, comprise stepper motor, leading screw, feed screw nut, stepper motor is fixedly mounted on the Y-axis travelling table, stepper motor connects leading screw, feed screw nut is arranged on the leading screw, be provided with force-bearing piece above the feed screw nut, display unit is arranged on X-axis travelling table and the feed screw nut sliding assembly, shows that indicating device is in order to show the elastic deformation amount of the elasticity original paper between X-axis travelling table and the feed screw nut sliding assembly; Display unit comprises fixedly display unit, mobile display device, during use, the front end of mobile display device to the distance of fixing display unit front end less than the distance of mobile display device front end to the mobile display device rear end, and the front end of mobile display device moves to the fixing front end of display unit, mobile display device is with fixedly display unit is parallel, mobile display device and fixedly the fore-and-aft distance between the display unit be not more than 2 millimeters.

3. full automatic inside diameter slicer with elastic feeding cutting stress display device according to claim 1, jockey is transmitted in the control that it is characterized in that described displacement and power, comprise stepper motor, gear, tooth bar, the output shaft of stepper motor is provided with gear, the wheel and rack engagement, tooth bar is fixedly mounted on the X-axis travelling table, display unit is arranged on X-axis travelling table and the tooth bar, shows that indicating device is in order to show the elastic deformation amount of the elasticity original paper between X-axis travelling table and the tooth bar; Display unit comprises lower plate, upper plate, tooth bar, be provided with tooth bar between lower plate and the upper plate, tooth bar is provided with cylindrical protrusions, and an end of tooth bar is provided with spring and adjusts bolt, cylindrical protrusions is passed upper plate and is connected with pointer, and upper plate and lower plate are by bolting together.

4. full automatic inside diameter slicer with elastic feeding cutting stress display device according to claim 1, the control transmission jockey that it is characterized in that displacement and power comprises that the Y-axis travelling table is provided with gripper shoe, limited block, gripper shoe is equipped with stepper motor by slide device, slide device can make the stepper motor horizontal direction slide, also be provided with limit switch on the upper table, limited block is provided with the adjusting device of regulating spring elastic force, spring is installed between gripper shoe and the limited block, display unit is arranged on the Y-axis travelling table, be that gripper shoe is provided with cuing scale, backplate is fixed on the Y-axis travelling table and with cuing scale and covers in, backplate is provided with display window, and display window is provided with the scale sign.

5. full automatic inside diameter slicer with elastic feeding cutting stress display device according to claim 2, it is characterized in that described display unit comprises display window, cuing scale, display window is provided with the normal operation position line and the maximal work position line, cuing scale is a right angle bodily form plate, display window is arranged on the X-axis travelling table, and cuing scale is arranged on the stepper motor feed screw nut assembly.

7. full automatic inside diameter slicer with elastic feeding cutting stress display device according to claim 1, it is characterized in that described display unit is included on the X-axis travelling table is fixed with extension spring, one end of extension spring is fixed on the X-axis travelling table, the other end of extension spring is connected with the demonstration indication needle plate that can horizontally slip, show on the indication needle plate and be carved with the calibration sign, display window covers and shows the indication needle plate, show that the indication needle plate is connected with movable pulley, movable pulley is provided with backguy, one end of backguy is fixed on the X-axis travelling table, and the other end of backguy is fixed on the feed screw nut assembly.

8. full automatic inside diameter slicer with elastic feeding cutting stress display device according to claim 1, it is characterized in that described display unit is included on the X-axis travelling table is fixed with displacement transducer, displacement transducer connects display by electric wire, be wound with the displacement backguy on the coding disk of displacement transducer, coiling length is greater than maximum displacement, one end of displacement backguy is fixed on the corresponding position of encoder O point, the other end of displacement backguy and feed screw nut assembly are fixed, also twine the resilient backguy that resets on the displacement transducer, coiling length is identical with the displacement backguy, the Hui Li backguy that resets is connected with extension spring, and the other end of extension spring is fixed on the X-axis travelling table.

9. full automatic inside diameter slicer with elastic feeding cutting stress display device according to claim 1, it is characterized in that described display unit can also comprise that cuing scale fixedlys connected with the stepper motor slide plate, backplate is fixed in the Y-axis travelling table, open one at the FROM of cuing scale and show indicating window, show that the clear glass before the indicating window is provided with the scale sign, show that perhaps the indicating window perforate does not add glass, on the Y-axis travelling table, be provided with the scale sign with cuing scale position overlapped place.

10. full automatic inside diameter slicer with elastic feeding cutting stress display device according to claim 1, it is characterized in that described display unit can also comprise that liquid compression assembly or gas compression assembly are fixedly installed in the X-axis travelling table, the liquid compression bar of liquid compression assembly or gas compression assembly or gas constrictor are connected in the feed screw nut assembly of stepper motor, and liquid compression assembly or gas compression assembly are connected to display by tube connector.

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