CN201579614U - Processing machine tool and displacement device thereof - Google Patents

Abstract

The utility model discloses a displacement device of a processing machine tool and a processing machine tool with the displacement device. The disclosed displacement device comprises a displacement rack body, a driving mechanism and a plurality of roll shafts, wherein the lower end of the displacement rack body is fixed with a workbench of the processing machine tool; the roll shafts are rotatablely installed at the upper part of the displacement rack body, and a working plane area is formed; and the roll shafts are driven by the driving mechanism to rotate around the center lines of the roll shafts, and the center lines of the roll shafts are both parallel to the axis of a main shaft of the processing machine tool. When the displacement device provided by the utility model is used, the workbench moves at a proper distance relative to a tool rack body, the roll shafts are driven by the driving mechanism to rotate, components move at a proper distance relative to the displacement device, and the distance that the components move relative to the main shaft of the processing machine tool is the sum of the two distances; and therefore, by the displacement device and the processing machine tool with the displacement device, which are provided by the utility model, the components can move at a larger distance relative to the axis of the main shaft, and the requirement of processing components with a large distance structure is met.

Description

A kind of machining tool and displacement device thereof

Technical field

The utility model relates to a kind of machining technique, particularly a kind of displacement device and a kind of machining tool with this displacement device.

Background technology

At present, machine tool is widely used in the product processing.Along with the structure of parts itself becomes increasingly complex, dimensional requirement is more and more higher between a plurality of structures of parts itself, and machining technique is also in constantly progressive and development.For the dimensional tolerance between two structures controlling parts, the processing technology of taking generally is first structure of processing on bad body of parts, and then is machining benchmark with first structure, processes second structure, to shorten dimension chain, reduce the scale error between the structure.Below with a specific embodiment particular content of this processing technology is described.

Please refer to Fig. 1 and Fig. 2, Fig. 1 is the view of a kind of boring machine when being in first Working position, and Fig. 2 is the view of boring machine when being in second Working position.A kind of parts of being processed among the figure have hole 100 and hole 200, and in the horizontal, the distance between the center line in the center line in hole 100 and hole 200 is L; For the needs of installing, the L scale error need be controlled within the predetermined scope.In order to realize control to the L dimensional tolerance, mode commonly used is first machining hole 100, and then be benchmark with hole 100, hole 200 is processed, owing to be direct processing dimension ring between hole 100 and the hole 200, do not need other machining benchmark to determine the Working position in hole 200, can reduce the quantity of the size ring of processing dimension chain, thereby can reduce the scale error of L between hole 100 and the hole 200, improve the crudy of parts, guarantee the positional precision between hole 100 and the hole 200.

Machining hole 100 and hole 200 process with boring machine usually.Boring machine generally comprises workbench 300, bedstead body 400 and main shaft 500, workbench 300 links to each other with bedstead body 400 by slideway, and can on directions X, move with respect to bedstead body 400, suitable clamp mechanism (not shown) is set with the fixing parts that need processing on the workbench 300; On the bedstead body 400 that main shaft 500 is rotatably fixed, and can be along main shaft 500 axis direction feedings, boring cutter can be installed in main shaft 500 ends, directions X and main shaft 500 axis normal, and among the figure, main shaft 500 axis are vertical with the drawing paper.When main shaft 500 rotates, and, realize cutting under the driving of main drive motor (not shown), form suitable hole the parts predetermined position along its axis direction feeding.

With boring machine processing above-mentioned parts the time, at first, parts are fixed on the workbench with clamp mechanism, as shown in Figure 1, carry out boring processing at preposition, form hole 100; Then, be benchmark with the center line in hole 100, make workbench 300 arrive as shown in Figure 2 position at directions X displacement L with respect to bedstead body 400, boring forms hole 200 again.Because the boring in hole 200 is the center lines with hole 100 is benchmark, avoids obtaining predetermined machining accuracy according to the intermediate sizes ring, therefore can guarantee that size reaches the predetermined grade of tolerance between the two, guarantees the crudy of parts.

Though above-mentioned processing technology can improve the machining accuracy and the mach efficient of parts, in some cases, take leave of for some junior machines, still be difficult to give full play to the machining functions of lathe.Please refer to Fig. 2, workbench 300 is L0 with respect to main shaft 500 maximum moving distance on directions X, and during less than L0, boring machine can satisfy mach needs in the hole 100 of parts and the distance L between the hole 200; Yet, in the hole 100 of parts and the distance L between the hole 200 during greater than L0, promptly when the big distance structure parts of processing, when boring is carried out in hole 200, can't with the center line in hole 100 machining benchmark just, thereby need make parts move suitable distance, determine that with regard to needs other machining benchmarks carry out boring to hole 200 like this, by the dimension chain control hole 100 of a plurality of size rings formation and the dimensional tolerance between the hole 200 with respect to workbench 300; In order to satisfy the processing needs, just need to increase technological process, increase each size ring error Control, thereby can cause the parts processing cost to increase, also can cause the parts working (machining) efficiency to reduce.In addition, at the machine-building manufacture field, obtaining the parts base substrate by the flame cutting is very general mode; The parts base substrate that forms for slab also needs to reserve the size that suitable allowance guarantees that parts are final; In this case, on the parts appearance profile, just can't determine machining benchmark,, also be difficult to satisfy the processing dimension requirement between hole 100 and the hole 200 even determine machining benchmark reluctantly.

The problems referred to above do not exist only in the situation that guarantees accurate to dimension between the Kong Yukong, are present among the process of other big distance structure parts yet; Such as, guaranteeing hole and groove, during dimensional tolerance, also there is identical problem between groove and the groove; Equally, above-mentioned technical problem not only has in the boring machine process, also is present among the process of drilling machine or other process equipments.Therefore, how when guaranteeing working (machining) efficiency, machining accuracy, big distance structure parts being processed, is the technical barrier that current machined field faces.

The utility model content

At above-mentioned technical barrier, first purpose of the present utility model is, a kind of displacement device is provided, so that machining tool can be processed big distance structure parts when guaranteeing working (machining) efficiency, machining accuracy, satisfies mach needs.

Second purpose of the present utility model is: a kind of machining tool that comprises above-mentioned displacement device is provided.

In order to realize above-mentioned first purpose, the displacement device of the machining tool that the utility model provides comprises displacement support body, driving mechanism and a plurality of roll shaft, the lower end of described displacement support body and the stationary table of machining tool; A plurality of described roll shafts are rotatably installed on the described displacement support body, and form a working face district; Described roll shaft is rotated around its center line by drive mechanism, and the center line of a plurality of roll shafts is all parallel with the main-shaft axis of machining tool.

Preferably, described displacement support body top has two risers that protrude upward; Described roll shaft two ends are rotatably installed in respectively on two described risers.

Optionally, described driving mechanism comprises at least one driving-chain and a plurality of sprocket wheel; Described roll shaft one end stretches out outside the described riser, and described sprocket wheel is installed in the extension of described roll shaft; Described driving-chain matches with at least two sprocket wheels that are installed in respectively on the different roll shafts.

Optionally, driving mechanism comprises a plurality of gears; Described roll shaft one end stretches out outside the described riser, and described gear is installed in the extension of described roll shaft respectively, and be installed in respectively the adjacent roller shaft extension go out the part two described gears be meshing with each other.

Preferably, described displacement device also comprises the conveyer belt that wraps up at least two described roll shafts and motion under described roll shaft drives simultaneously.

Preferably, described displacement device comprises that also the upper end is higher than the positioning baffle on plane, described working face district.

Optionally, described displacement device also comprises locking mechanism, and described locking mechanism comprises lock bracket, location side plate and backing pin; Described location side plate and lock bracket are fixed, and its upper end is higher than plane, described working face district; Described backing pin matches with the backing pin hole of lock bracket, have extended position and retracted position, when backing pin is in extended position, described backing pin upper end is higher than plane, described working face district, and it is relative with described locating surface, when backing pin was in retracted position, described backing pin upper end was lower than plane, described working face district.

Optionally, described lock bracket links to each other with described displacement support body with slide rail by the chute that cooperatively interacts, and the bearing of trend of described slide rail is parallel with directions X; Also has lockable mechanism between described lock bracket and the displacement support body.

In order to realize above-mentioned second purpose, the machining tool that the utility model provides comprises bedstead body, workbench and main shaft, described workbench can slide with respect to the bedstead body along the direction vertical with main-shaft axis, described main shaft rotatably is equipped with on the bedstead body, difference with the prior art is also to comprise above-mentioned any displacement device.

Preferably, described machining tool also comprises clamp mechanism, and described clamp mechanism comprises pressure head, and described pressure head working face is fixed with rubber blanket.

Compared with prior art, the displacement device of the machining tool that the utility model provides comprises displacement support body, driving mechanism and a plurality of roll shaft, and the workbench upper end of described displacement support body lower end and machining tool is fixing; A plurality of described roll shafts are parallel, be rotatably installed in displacement support body top, and form a working face district, and parts can be placed by this working face district; And described roll shaft depends on the driving of driving mechanism around its center line rotation, and its center line is vertical with directions X, and parallel with the main-shaft axis of machining tool; The rotation of roll shaft can drive the parts that are positioned at the working face district and move on directions X.When the displacement device that uses the utility model to provide, because the workbench of displacement support body lower end and machining tool upper end is fixing; Parts are placed on the working face district that a plurality of roll shafts form; In that being risen, process big distance structure parts, need be when a Working position moves to another Working position, can make workbench move suitable distance along directions X earlier with respect to the bedstead body, and then by the rotation of drive mechanism roll shaft, make parts move suitable distance to identical direction with respect to displacement device, like this, the distance that moves with respect to the main-shaft axis of machining tool of parts just be two apart from sum; Therefore, under the situation that workbench remains unchanged with respect to the main-shaft axis maximum moving distance, the displacement device that the utility model provides can make parts move bigger distance with respect to main-shaft axis, satisfies the needs of the big distance structure parts of processing; Therefore, when having the displacement device that the utility model provides, machining tool can be processed big distance structure parts, guarantees mach efficiency and precision simultaneously.

In further technical scheme, described displacement support body top comprises two risers that protrude upward, and described roll shaft two ends are rotatably installed on the riser respectively.In this technical scheme, two risers form the working face district of a groove shape, in this working face district, can place parts easily, not only can guarantee crudy, can also facilitate for the processing of parts.

In further optional technical scheme, described driving mechanism comprises driving-chain and a plurality of sprocket wheel; And roll shaft one end stretches out respectively outside the riser, and the sprocket wheel of driving mechanism is installed in the extension of roll shaft, links to each other by driving-chain between sprocket wheel and the sprocket wheel.This technical scheme can realize the synchronous rotation of a plurality of roll shafts on the one hand, thereby can make the parts that are positioned at the roll shaft top carry out translation on directions X, and then is that assurance element size precision is laid a good foundation; On the other hand, sprocket wheel is installed in the extension of roll shaft, can reduce the adverse effect of transmission mechanism to the parts form and position tolerance, makes things convenient for machine operations.

In the optional technical scheme of another kind, between roll shaft and the roll shaft by gear drive.This technical scheme can guarantee synchronism and the accuracy that roll shaft rotatablely moves, for the control parts provide prerequisite with respect to the distance that displacement device moves.

In further optimal technical scheme, also comprise the parcel roll shaft, and the conveyer belt of motion under roll shaft drives; This technical scheme can improve the flatness in working face district, guarantees the stability in the parts moving process, and then can provide condition for the control of dimensional tolerance.

In further optimal technical scheme, also comprise the positioning baffle that is installed on the displacement support body, the upper end of positioning baffle is higher than plane, described working face district; The displacement device that this technical scheme provides not only can make parts move with respect to displacement device, can also position parts, thereby be the processing of parts, and the control of dimensional tolerance is provided convenience.

In technical scheme further, also comprise locking mechanism, locking mechanism has location side plate and backing pin, and side plate upper end in described location is higher than plane, described working face district; Described backing pin has extended position and retracted position, when backing pin was in extended position, described backing pin upper end was higher than plane, described working face district, and relative with described locating surface, when backing pin was in retracted position, described backing pin upper end was lower than plane, described working face district; In this technical scheme, when parts are positioned, parts can be locked, can guarantee the accuracy and the reliability of position components.

In further technical scheme, link to each other with slide rail by the chute that matches between locking mechanism and the displacement support body, and also have lockable mechanism between the two; At the displacement device that utilizes the utility model to provide parts are added man-hour, can be according to the actual size of parts, adjust the position of locking mechanism, so that different parts are positioned, thereby the displacement device that the utility model is provided has the bigger scope of application.

Because the displacement device that provides has above-mentioned technique effect, the machining tool with above-mentioned displacement device also has corresponding technique effect.In addition, in further technical scheme, also be fixed with rubber blanket on the pressure head working face of the clamp mechanism that machining tool comprises; The machining tool that this technical scheme provides is to parts fixedly the time, the rubber blanket fixing with the pressure head working face can produce suitable distortion, thereby can remedy parts contacts with the incomplete of pressure head, increase the contact area between clamp mechanism and the parts, assurance adds man-hour, the parts reliability of fixation, and then help improving the machining accuracy and the working (machining) efficiency of parts.

Description of drawings

Fig. 1 is the view of a kind of boring machine when being in first Working position;

Fig. 2 is the view of boring machine when being in second Working position;

Fig. 3 is the structural representation of the main apparent direction of the displacement device that provides of the utility model embodiment;

Fig. 4 is the structural representation of overlooking direction of the displacement device that provides of the utility model embodiment;

The view of the movable workbench of the boring machine that Fig. 5 provides for the utility model during to second Working position has been shown in broken lines the position of workbench among the figure, the position when showing workbench and be in first Working position with chain-dotted line;

View when the boring machine integral body that Fig. 6 provides for the utility model is in second Working position has been shown in broken lines the position of parts among the figure, show the position of parts when not moving with respect to displacement device with chain-dotted line;

Fig. 7 shows a kind of perspective view of vertical clamp mechanism;

Fig. 8 is the enlarged diagram of I-I part-structure among Fig. 6, the figure shows a kind of structure of locking mechanism.

The specific embodiment

Below in conjunction with accompanying drawing the utility model is described in detail, the description of this part only is exemplary and explanatory, should any restriction not arranged to protection domain of the present utility model.

Should illustrate and be: in order more clearly to describe content of the present utility model, below displacement device and machining tool with this displacement device are described simultaneously; In order to save space, no longer the two is described respectively.

Please refer to Fig. 3 and Fig. 4, Fig. 3 is the structural representation of the main apparent direction of the displacement device that provides of the utility model embodiment, and Fig. 4 is the structural representation of overlooking direction of the displacement device that provides of the utility model embodiment.

The displacement device 600 that embodiment provides comprises displacement support body 610, driving mechanism and a plurality of roll shaft 640.Displacement support body 610 lower ends can be fixed with workbench 300 upper ends of machining tool, and top has two risers that protrude upward 611.Each roll shaft 640 two ends is rotatably installed in respectively on the riser 611 of displacement support body 610, and roll shaft 640 two ends can be respectively link to each other by bearing with a riser 611.A plurality of roll shaft 640 orders are arranged, and are installed on the riser 611, and working face district P-P is formed at its top, shows the position in this working face district among Fig. 4 with chain-dotted line, and the shade that Fig. 5 forms with chain-dotted line shows the position in this working face district; Working face district P-P is used to place the parts of needs processing.

Roll shaft 640 depends on the driving of driving mechanism around its center line rotation, and the center line of a plurality of roll shaft 640 is all vertical with directions X.In this example, driving mechanism comprises the power source 651 that formed by motor, many driving-chains 652 and a plurality of sprocket wheel 653.With the accompanying drawing is reference, and roll shaft 640 1 ends stretch out outside the riser 611 of upside, and a plurality of described sprocket wheels 653 are installed in the extension of roll shaft 640 respectively, and many driving-chains 652 match with two sprocket wheels 653 respectively.As shown in the figure, in this example, the extension of a plurality of roll shafts 640 is separately installed with two sprocket wheels 653, and adjacent roll shaft 640 links to each other with driving-chain 652 by sprocket wheel 653 respectively; Link to each other by gear between power source 651 output shafts and the roll shaft 640a; Like this, when power source 651 drive roller shaft 640a rotated, roll shaft 640a drove 640 rotations of adjacent roll shaft by driving-chain 652 and sprocket wheel 653, and according to identical mode, a plurality of roll shafts 640 can rotate synchronously.

Below based on the processing instance in the background technology, the course of work of above-mentioned displacement device 600 is described.Above-mentioned displacement device 600 is fixed on workbench 300 upper ends of the boring machine in the background technology.When the big distance structure parts of processing, promptly the distance L between hole 100 and the hole 200 greater than workbench 300 with respect to main shaft 500 on directions X during maximum moving distance L0, can realize boring by following manner to hole 100 and hole 200.

Please refer to Fig. 5 and Fig. 6, the view of the movable workbench of the boring machine that Fig. 5 provides for the utility model during to second Working position has been shown in broken lines the position of workbench among the figure, the position when showing workbench and be in first Working position with chain-dotted line; View when the boring machine integral body that Fig. 6 provides for the utility model is in second Working position has been shown in broken lines the position of parts among the figure, show the position of parts when not moving with respect to displacement device with chain-dotted line.

After of the processing of first Working position to hole 100, according to existing mode, workbench 300 is moved on directions X with respect to bedstead body 400, make workbench 300 move to second Working position, workbench 300 is L0 with respect to main shaft 500 displacement on directions X, and this process detailed content repeats no more.Unlike the prior art be: after workbench 300 moves to second Working position, start the driving mechanism of displacement device 600, by 640 rotations of power source 651 drive roller shaft, because parts are positioned on the working face district P-P of roll shaft 640 tops, when roll shaft 640 rotations, parts also move along with the directions X that is rotated in of roll shaft 640, and the distance that moves is LX, and makes LX+L0=L; Make parts equal L on directions X, satisfy needs hole 200 processing with respect to the distance that main shaft 500 moves; And then with suitable clamp mechanism parts are fixed, can form hole 200 with boring cutter boring then.

When boring machine has above-mentioned displacement device 600, guarantee under the constant situation with respect to main shaft 500 axis maximum moving distance L0 at workbench 300, because parts can also be with respect to displacement device displacement LX; Therefore, when having displacement device 600, boring machine can be processed big distance structure parts, guarantees mach efficiency and precision, satisfies mach needs.

In order to improve the stability of parts, and then provide condition for the control of mismachining tolerance; Displacement device 600 can also comprise the conveyer belt that wraps up a plurality of roll shafts 640 and motion under roll shaft 640 drives simultaneously; This technical scheme can improve the flatness of working face district P-P, the stability when the increase parts move; In addition, be appreciated that, so long as wrap up with conveyer belt outside two roll shafts 640, just can improve the flatness of working face district P-P, therefore, displacement device 600 can comprise a plurality of conveyer belts, and with at least two roll shafts 640 of conveyer belt parcel, and under the driving of roll shaft 640, move respectively, move on directions X to drive parts, can realize above-mentioned purpose, guarantee control parts displacement.

In this example, displacement support body 610 tops comprise two risers that protrude upward 611, and roll shaft 640 two ends are rotatably installed in respectively on the riser 611.The benefit of this technical scheme is: two risers 611 can form the working face district P-P of a groove shape, in this working face district, can place parts easily, not only can guarantee crudy, can also facilitate for the processing of parts.In addition, can also position with 611 pairs of parts of riser; As shown in Figure 5, among the embodiment, boring machine just comprises side-clamping mechanism 700, side-clamping mechanism 700 is relative with a riser 611, thereby add man-hour carrying out boring, the pressure head of side-clamping mechanism 700 and riser 611 can be clipped in the middle parts, thereby on the axis direction of main shaft 500 parts are fixed; Certainly, when displacement processome 600 is not provided with riser 611, also can be by utilizing existing anchor clamps securing part.In addition, more reliable for what parts were fixed, also comprise vertical clamp mechanism 800 in this example, in conjunction with Fig. 5, and with reference to figure 7, Fig. 7 shows a kind of perspective view of vertical clamp mechanism, and vertical clamp mechanism and lathe body 400 are fixing, comprise the pressure head 810 that clamps driving mechanism and parts are applied vertical active force; In order to improve the parts reliability of fixation, in this example, the working face of pressure head 810 also is fixed with rubber blanket 820, can link to each other by the dovetail groove fit structure between rubber blanket 820 and the pressure head 810.The benefit of setting up rubber blanket 820 is: to parts fixedly the time, the rubber blanket 820 fixing with pressure head 810 working faces can produce suitable distortion, thereby can increase the contact area between rubber blanket 820 and the parts, and then assurance adds man-hour, clamp mechanism is to the parts reliability of fixation, and facilitates for improving machining accuracy and working (machining) efficiency.

In this example, described driving mechanism comprises driving-chain 652 and sprocket wheel 653, and this structure can reduce the size on displacement device 600 vertical direction, makes things convenient for the layout of machining tool; Sprocket wheel 653 is installed in the extension of roll shaft 640, links to each other by driving-chain 652 between the sprocket wheel 653; This technical scheme can realize the synchronous rotation of a plurality of roll shafts 640 on the one hand, guarantees parts stably translational on directions X, lays a good foundation for guaranteeing the dimensional accuracy between the component structural; On the other hand, sprocket wheel 653 is installed in the extension of roll shaft 640, and riser 611 separates transmission mechanism and parts, can reduce the adverse effect of transmission mechanism to the parts processing dimension, makes things convenient for machine operations.In addition, be not limited to aforesaid way between driving-chain 652 and the sprocket wheel 653 and cooperate, a sprocket wheel 653 can be installed on each roll shaft, match with each sprocket wheel 653 simultaneously with a driving-chain 652; A plurality of roll shafts 640 can also be divided into a plurality of groups, match with each sprocket wheel of organizing on roll shaft 640 with a driving-chain, or the like.According to actual needs, driving mechanism also can comprise other structures, such as, also can gear be installed, and, equally also can realize the purpose of this utility model by the transmission between the gears engaged realization roll shaft 640 at the extension of roll shaft 640.In addition, can also make things convenient for the control of roll shaft 640 anglecs of rotation and revolution by gear drive, thereby be the distance that the control parts move at directions X, the dimensional tolerance of control parts facilitates.Control for the ease of nearly roll shaft 640 rotary speeies, can also between the output shaft of power source 651 and roll shaft 640a, suitable gear be set, to realize adjusting, convenient control, and then convenient control to the parts displacement to roll shaft 640 rotary speeies to power source 651 output speeds.Further, the manual adjustment wheel that links to each other with roll shaft 640 can also be set, manually adjust the displacement of parts, thereby precisely control the displacement of parts with convenience.

To the control of parts position and displacement, displacement device 600 can also comprise detent mechanism for convenience, and as shown in Figure 5 and Figure 6, detent mechanism can comprise positioning baffle 620 and the locking mechanism 630 that is installed on the displacement support body 610.Positioning baffle 620 is inserted in the suitable groove of displacement support body 610, and its upper end is higher than the plane of described working face district P-P.Please refer to Fig. 8, this figure is the enlarged diagram of I-I part-structure among Fig. 6, locking mechanism 630 has lock bracket 633, location side plate 631 and backing pin 632, location side plate 631 is fixing with lock bracket 633, and have the locating surface that matches with alignment pin 650 described later, and its upper end is higher than the plane of described working face district P-P; Backing pin 632 matches with the backing pin hole of lock bracket 633, thereby have extended position and retracted position, when backing pin 632 was in extended position, described locating surface was relative with backing pin 632, thereby alignment pin 650 can be clipped in the middle, realize location alignment pin 650; When backing pin 632 was in retracted position, backing pin 632 upper ends were lower than the locating surface of location side plate 631, and were lower than the plane of working face district P-P, and alignment pin 650 can match with locating surface or separate.

The operation principle of above-mentioned detent mechanism is: when machining hole 100, positioning baffle 620 offsets with parts, realizes the location to parts.After hole 100 machines, and with in predetermined alignment pin 650 patchholes 100, alignment pin 650 should cooperate with hole 100, so that alignment pin 650 and the same moved further of parts, with the morpheme error between accurate control hole 100 and the hole 200, and make its at least one end protruding; Parts are moved on directions X, inconsistent up to alignment pin 650 extensions with the locating surface of location side plate 631, transfer to backing pin 632 then, make backing pin 632 be in extended position; Alignment pin 650 is clipped between the locating surface of backing pin 632 and location side plate 631; Since alignment pin 650 and the same moved further of parts, therefore, by just can realize locking location to the location of alignment pin 650 to parts.The benefit of above-mentioned detent mechanism is: can position process component, thereby be the processing of parts, the control of dimensional tolerance facilitates.In this example, alignment pin 650 cross sections are circular, and therefore, the locating surface of location side plate 631 also is the circular arc that cooperates with alignment pin 650 side faces; When alignment pin 650 cross sections were other shapes, shape that also can locating surface was set to other shapes of matching with alignment pin 650 side faces.

In order to make locking mechanism be adapted to different parts processing, can also between locking mechanism 630 and displacement support body 610, suitable mechanism be set, so that locking mechanism 630 can slide at displacement support body 610 upper edge directions Xs; Such as: on the lock bracket 633 of locking mechanism 630, chute is set, and the slide rail that matches with chute displacement support body 651 setting, make the bearing of trend of slide rail parallel with directions X, locking mechanism 630 is slided on directions X with respect to displacement support body 610, to process different parts, certainly, also can on lock bracket 633, slide rail be set, the chute that matches with slide rail is set on displacement support body 651; For locking mechanism 630 is fixing with displacement support body 610 at preposition, between lock bracket 633 and displacement support body 630, lockable mechanism can also be set, fix with the displacement support body with realization locking mechanism 630, lockable mechanism can be the disclosed structure of prior art.

The above only is a preferred implementation of the present utility model, should be pointed out that the utility model provides displacement device to be not limited to be applied to boring machine, also is not limited to be applied to the processing to the hole, can be applied to other machining tools, processes the occasion of other structures.For those skilled in the art, under the prerequisite that does not break away from the utility model principle, can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (10)

1. the displacement device of a machining tool is characterized in that, comprises displacement support body, driving mechanism and a plurality of roll shaft, the lower end of described displacement support body and the stationary table of machining tool; A plurality of described roll shafts are rotatably installed on the described displacement support body, and form a working face district; Described roll shaft is rotated around its center line by drive mechanism, and the center line of a plurality of roll shafts is all parallel with the main-shaft axis of machining tool.

2. displacement device according to claim 1 is characterized in that, described displacement support body top has two risers that protrude upward; Described roll shaft two ends are rotatably installed in respectively on two described risers.

3. displacement device according to claim 2 is characterized in that, described driving mechanism comprises at least one driving-chain and a plurality of sprocket wheel; Described roll shaft one end stretches out outside the described riser, and described sprocket wheel is installed in the extension of described roll shaft; Described driving-chain matches with at least two sprocket wheels that are installed in respectively on the different roll shafts.

4. displacement device according to claim 1 is characterized in that driving mechanism comprises a plurality of gears; Described roll shaft one end stretches out outside the described riser, and described gear is installed in the extension of described roll shaft respectively, and be installed in respectively the adjacent roller shaft extension go out the part two described gears be meshing with each other.

5. according to each described displacement device of claim 1-4, it is characterized in that, also comprise the conveyer belt that wraps up at least two described roll shafts and motion under described roll shaft drives simultaneously.

6. according to each described displacement device of claim 1-4, it is characterized in that, comprise that also the upper end is higher than the positioning baffle on plane, described working face district.

7. according to each described displacement device of claim 1-4, it is characterized in that, also comprise locking mechanism, described locking mechanism comprises lock bracket, location side plate and backing pin; Described location side plate and lock bracket are fixed, and its upper end is higher than plane, described working face district; Described backing pin matches with the backing pin hole of lock bracket, have extended position and retracted position, when backing pin is in extended position, described backing pin upper end is higher than plane, described working face district, and it is relative with described locating surface, when backing pin was in retracted position, described backing pin upper end was lower than plane, described working face district.

8. displacement device according to claim 7 is characterized in that, described lock bracket links to each other with described displacement support body with slide rail by the chute that cooperatively interacts, and the bearing of trend of described slide rail is parallel with directions X; Also has lockable mechanism between described lock bracket and the displacement support body.

9. machining tool, comprise bedstead body, workbench and main shaft, described workbench can slide with respect to the bedstead body along the direction vertical with main-shaft axis, and described main shaft rotatably is equipped with on the bedstead body, it is characterized in that, also comprise each described displacement device among the claim 1-8.

10. machining tool according to claim 9 is characterized in that, also comprises clamp mechanism, and described clamp mechanism comprises pressure head, and described pressure head working face is fixed with rubber blanket.

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