CN208811548U - The slide sliding plate locking mechanism of numerically-controlled machine tool - Google Patents

Abstract

The utility model relates to numerically-controlled machine tools and machinery field, disclose a kind of slide sliding plate locking mechanism of numerically-controlled machine tool.In the utility model, the slide sliding plate locking mechanism of numerically-controlled machine tool includes slide, is arranged on the lathe bed of numerically-controlled machine tool, is slided along lathe bed；Slide plate is arranged on slide, and the length direction along slide slides；First locking assembly is arranged on lathe bed；For slide plate along slide length direction sliding when, with sliding seat locking；It is also used to unclamp when slide is along lathe bed sliding with slide；Second locking assembly is arranged on slide plate, is used for when slide is slided along lathe bed, with sliding seat locking；It is also used to unclamp in length direction sliding of the slide plate along slide with slide.When compared with prior art, so that slide is along machine tool motion, slide plate will not tremble, and when slide plate is moved along slide, slide will not tremble, to improve cutting stiffness, also improve the machining accuracy of product, improve the quality of product.

Description

The slide sliding plate locking mechanism of numerically-controlled machine tool

Technical field

The utility model relates to numerically-controlled machine tools and machinery field, in particular to the slide sliding plate locking mechanism of numerically-controlled machine tool.

Background technique

Numerically-controlled machine tool is equipped with slide and slide plate, and slide is arranged on the lathe bed of lathe, and slide plate is arranged on slide, slide plate It is equipped with the workbench for placing product.When slide is along machine tool motion, slide plate is arranged on slide can be due to the cutting of machine tool Power is trembleed, so that product trembles therewith, the cutting stiffness of cutter is deteriorated, and also affects the machining accuracy of product.Likewise, In skateboarding, slide also can influence vibration of trembling by slide plate, so that product trembles therewith, the cutting stiffness of cutter becomes Difference also affects the machining accuracy of product, thereby reduces the processing quality of product.

Utility model content

The purpose of this utility model is to provide a kind of slide sliding plate locking mechanisms of numerically-controlled machine tool, so that slide is along lathe When movement, slide plate will not tremble, and when slide plate is moved along slide, slide will not tremble, so that cutting stiffness is improved, The machining accuracy for improving product improves the quality of product.

In order to solve the above technical problems, the embodiments of the present invention provides a kind of slide lock for skate board of numerically-controlled machine tool Tight mechanism, comprising:

Slide is arranged on the lathe bed of numerically-controlled machine tool, slides along the lathe bed；

Slide plate is arranged on the slide, and the length direction along the slide slides, and the length direction of the slide is vertical In glide direction of the slide on lathe bed；

The slide sliding plate locking mechanism of numerically-controlled machine tool further include:

First locking assembly is arranged on the lathe bed；For being slided in the slide plate along the length direction of the slide When, with the sliding seat locking；It is also used to when the slide is slided along the lathe bed, is unclamped with the slide；

Second locking assembly is arranged on the slide plate, is used for when the slide is slided along the lathe bed, with the cunning Seat locking；It is also used to unclamp in length direction sliding of the slide plate along the slide with the slide.

The utility model embodiment in terms of existing technologies, is locked due to being provided with the first locking assembly and second Component, the first locking assembly are arranged on lathe bed, when slide plate needs are moved along slide, are locked and are slided by the first locking assembly Seat, so that the sliding of slide plate will not influence slide, slide will not tremble, and stablize motionless, and slide plate can also slide more stable, from And product can also be stablized, converted products at this time, cutting stiffness is higher, and the machining accuracy of product is more accurate, improves product Quality.Likewise, when slide is moved along lathe bed, slide is locked in the setting of the second locking assembly on slide plate, so that slide moves When drive skateboarding, slide plate will not tremble on slide, can be stable follow slide to move, the product on slide plate is also stable It prevents, at this time converted products, cutting stiffness is higher, and the machining accuracy of product is more accurate, improves the quality of product.

In addition, first locking assembly includes:

First locking member, be arranged on the lathe bed, for the slide plate along the slide length direction sliding when, Resist the slide；

Second locking member is arranged on the lathe bed, along glide direction of the slide on lathe bed and first lock Tight part is oppositely arranged, and second locking member is used to resist described in length direction sliding of the slide plate along the slide Slide；

Second locking assembly includes:

Third locking member is arranged on the slide, for resisting the cunning when the slide is slided along the lathe bed Seat；

4th locking member is arranged on the slide, locks along glide direction of the slide plate on slide and the third Tight part is oppositely arranged；4th locking member is used for when the slide is slided along the lathe bed, resists the slide.

In addition, the first locking member includes:

First cylinder body is fixed on the lathe bed, and first extended towards the slide direction is equipped in the cylinder body and is led to Road；

First oil nozzle is arranged on first cylinder body, communicates with the first passage, pass through for pressure oil；

First piston runs through the first passage, and partially the side wall with the first passage offsets, toward and away from institute State the direction movement of slide；

First spring, be arranged in the first passage, both ends respectively with first oil nozzle and the first piston phase It supports, for pushing the first piston to contact the slide；

Wherein, the first piston is used for when the pressure oil enters the first passage by first oil nozzle, It is pushed by the pressure oil, resists the slide；It is also used to unclamp the cunning when the pressure oil flows out the first passage Seat；

Second locking member includes:

Second cylinder body is fixed on the lathe bed, and second extended towards the slide direction is equipped in the cylinder body and is led to Road；

Second oil nozzle is arranged on second cylinder body, communicates with the second channel, pass through for pressure oil；

Second piston runs through the second channel, and partially the side wall with the second channel offsets, toward and away from institute State the direction movement of slide；

Second spring, be arranged in the second channel, both ends respectively with second oil nozzle and the second piston phase It supports, for pushing the second piston to contact the slide；

Wherein, the second piston is used for when the pressure oil enters the second channel by second oil nozzle, It is pushed by the pressure oil, resists the slide；It is also used to unclamp the cunning when the pressure oil flows out the second channel Seat；

Third locking member includes:

Third cylinder body is fixed on the slide plate, and it is logical that the third extended towards the slide direction is equipped in the cylinder body Road；

Third oil nozzle is arranged on the third cylinder body, communicates with the third channel, pass through for pressure oil；

Third piston runs through the third channel, and partially the side wall with the third channel offsets, toward and away from institute State the direction movement of slide；

Third spring, be arranged in the third channel, both ends respectively with the third oil nozzle and the third piston phase It supports, for pushing slide described in the third piston contact；

Wherein, the third piston is used for when the pressure oil enters the third channel by the oil nozzle, by institute Pressure oil promotion is stated, the slide is resisted；It is also used to unclamp the slide when the pressure oil flows out the third channel.

4th cylinder body is fixed on the slide plate, and the four-way extended towards the slide direction is equipped in the cylinder body Road；

4th oil nozzle is arranged on the 4th cylinder body, communicates with the fourth lane, pass through for pressure oil；

4th piston runs through the fourth lane, and partially the side wall with the fourth lane offsets, toward and away from institute State the direction movement of slide；

4th spring, be arranged in the fourth lane, both ends respectively with the 4th oil nozzle and the 4th piston phase It supports, for pushing slide described in the 4th piston contact；

Wherein, the 4th piston is used for when the pressure oil enters the fourth lane by the oil nozzle, by institute Pressure oil promotion is stated, the slide is resisted；It is also used to unclamp the slide when the pressure oil flows out the fourth lane.

In addition, the part that the side wall of first piston and the first passage offsets is equipped with the first sealing ring；

The part that the side wall of second piston and the second channel offsets is equipped with the second sealing ring；

The part that the side wall of third piston and the third channel offsets is equipped with third sealing ring；

The part that 4th piston and the side wall of the fourth lane offset is equipped with the 4th sealing ring.

Detailed description of the invention

Fig. 1 is the top view of slide sliding plate locking mechanism in the utility model first embodiment；

Fig. 2 is the cross-sectional view of A-A in Fig. 1；

Fig. 3 is the cross-sectional view of B-B in Fig. 1.

Specific embodiment

It is practical new to this below in conjunction with attached drawing to keep the purpose of this utility model, technical solution and advantage clearer Each embodiment of type is explained in detail.However, it will be understood by those skilled in the art that each in the utility model In embodiment, in order to make the reader understand this application better, many technical details are proposed.But even if without these skills The required guarantor of each claim of the application also may be implemented in art details and various changes and modifications based on the following respective embodiments The technical solution of shield.

The first embodiment of the utility model is related to a kind of slide sliding plate locking mechanism of numerically-controlled machine tool, as shown in Figure 1, Figure 2 With shown in Fig. 3, including slide 1, slide plate 2, the first locking assembly 3 and the second locking assembly 4.Numerically-controlled machine tool is arranged in slide 1 On lathe bed 5, slided along lathe bed 5.Slide plate 2 is arranged on slide 1, and the length direction along slide 1 slides, the length direction of slide 1 Perpendicular to glide direction of the slide 1 on lathe bed 5.First locking assembly 3 is arranged on lathe bed 5, in slide plate 2 along the length of slide 1 It when spending direction sliding, is locked with slide 1, when slide 1 is slided along lathe bed 5, the first locking assembly 3 is unclamped with slide 1.Second lock Tight component 4 is arranged on slide plate 2, when slide 1 is slided along lathe bed 5, locks with slide 1, in slide plate 2 along the length side of slide 1 To when sliding, the second locking device and slide 1 unclamp.

Through the above it is not difficult to find that due to being provided with the first locking assembly 3 and the second locking assembly 4, the first locking Component 3 is arranged on lathe bed 5, when the needs of slide plate 2 are moved along slide 1, slide 1 is locked by the first locking assembly 3, so that sliding The sliding of plate 2 will not influence slide 1, and slide 1 will not tremble, and stablize motionless, and slide plate 2 can also slide more stable, to produce Product can also be stablized, at this time converted products, and cutting stiffness is higher, and the machining accuracy of product is more accurate, improves the quality of product. Likewise, second locking assembly 4, which is arranged on slide plate 2, locks slide 1, so that slide 1 moves when slide 1 is moved along lathe bed 5 When drive slide plate 2 to move, slide plate 2 will not tremble on slide 1, can be stable follow slide 1 to move, the product on slide plate 2 Also stable to prevent, converted products at this time, cutting stiffness is higher, and the machining accuracy of product is more accurate, improves the quality of product.

Further, as shown in Figure 1, Figure 2 and Figure 3, the first locking assembly 3 includes the first locking member 6 and the second locking member 7, the first locking member 6 is arranged on lathe bed 5, for resisting slide 1 in length direction sliding of the slide plate 2 along slide 1.Second lock Tight part 7, is arranged in the glide direction on lathe bed 5 along slide 1 on lathe bed 5 and is oppositely arranged with the first locking member 6, the second locking member 7 for resisting slide 1 in length direction sliding of the slide plate 2 along slide 1.Second locking assembly 4 includes third locking member 8 and the Four locking members 9, third locking member 8 are arranged on slide 1, for resisting slide 1 when slide 1 is slided along lathe bed 5.4th locking Part 9 is arranged on slide 1, is oppositely arranged along glide direction of the slide plate 2 on slide 1 with third locking member 8；4th locking member 9 For resisting slide 1 when slide 1 is slided along lathe bed 5.In actual use, the first locking member 6 and the second locking member 7 resist cunning Seat 1, slide 1 can not be slided along lathe bed 5 at this time, and for slide plate 2 along the length direction sliding and X-direction sliding of slide 1, slide 1 can Stabilization is not trembleed, and will not be interfered to slide plate 2.Two locking members are oppositely arranged, so as to by slide 1 it is stable be locked at bed On body 5.Likewise, slide plate 2 is locked on slide 1 by third locking member 8 and the 4th locking member 9, slide 1 is sliding along lathe bed 5 at this time It is dynamic, i.e., slide along the y axis, slide plate 2 is fixed on slide 1, will not be trembleed due to the sliding of slide 1, the stabilization of slide plate 2 with It slides with slide 1 to Y-axis, to realize product X-axis and Y-axis movement on the table, and stablizes in motion process, cutter pair The processing of product is more accurate.

Further, in the present embodiment, when needing product fixed, cutter processes product, such as Fig. 1 and Fig. 2 Shown, the first locking member 6 and the second locking member 7 resist slide 1, slide 1 are locked on lathe, third locking member 8 and the 4th Slide plate 2 is locked on slide 1 by locking member 9, is locked while realizing slide plate 2 and slide 1, at this point, converted products, 2 He of slide plate Slide 1 will not due to Tool in Cutting vibration and tremble so that slide plate 2 and slide 1 are more stable, product is placed also more flat Surely.

Specifically, as shown in Fig. 2, the first locking member 6 includes the first cylinder body 61, the first oil nozzle 62,63 and of first piston First spring 64.First cylinder body 61 is fixed on lathe bed 5, and the first passage 65 extended towards 1 direction of slide is equipped in cylinder body, the One oil nozzle 62 is arranged on the first cylinder body 61, communicates with first passage 65, passes through for pressure oil.First piston 63 runs through first Channel 65, partially the side wall with first passage 65 offsets, and moves toward and away from the direction of slide 1.The setting of first spring 64 In first passage 65, both ends offset with the first oil nozzle 62 and first piston 63 respectively, for pushing the contact of first piston 63 to slide Seat 1.First piston 63 is used to be pushed by pressure oil when pressure oil enters first passage 65 by the first oil nozzle 62, resist cunning Seat 1；It is also used to unclamp slide 1 when pressure oil flows out first passage 65.In actual use, the injection pressure into the first oil nozzle 62 Oil, pressure oil enter first passage 65, and since 63 part of first piston and the side wall of first passage 65 offset, pressure oil is located at the In side described in one spring 64, cannot be introduced into the side that first passage 65 is located at slide 1, pressure oil can push first piston 63 to Slide 1 is run, and is resisted slide 1, is embedded in the guide rail of lathe bed 5 due to slide 1, and first piston 63 pushes on slide 1 and lathe Pressing plate 10 offset so that slide 1 be fixed to lathe bed 5 guide rail in, can not be moved in the guide rail of lathe bed 5.Need slide 1 When movement, pressure oil is recalled, piston is not supported with slide 1, at this time slide 1 send in the guide rail of lathe bed 5, so as to Realize that slide 1 continues to slide.Meanwhile it being equipped with the first spring 64, the first oil nozzle 62 itself provides pressure to the first spring 64, makes the One spring 64 pushes first piston 63 to contact with slide 1, positions the position of first piston 63.

In addition, as shown in Fig. 2, the second locking member 7 includes the second cylinder body 71, the second oil nozzle 72, second piston 73 and second Spring 74, the second cylinder body 71 are fixed on lathe bed 5, and the second channel 75 extended towards 1 direction of slide is equipped in cylinder body.Second oil Mouth 72 is arranged on the second cylinder body 71, communicates with second channel 75, passes through for pressure oil.Second piston 73 runs through second channel 75, partially the side wall with second channel 75 offsets, and moves toward and away from the direction of slide 1.The setting of second spring 74 is the In two channels 75, both ends offset with the second oil nozzle 72 and second piston 73 respectively, for pushing 73 contact skate 1 of second piston. Second piston 73 is used to be pushed by pressure oil when pressure oil enters second channel 75 by the second oil nozzle 72, resist slide 1, Slide 1 is unclamped when pressure oil flows out second channel 75.The use of second locking member 7 is identical as the first locking member 6, herein no longer It repeats.

Specifically, as shown in figure 3, third locking member 8 includes third cylinder body 81, third oil nozzle 82, third piston 83, the Three springs 84, third cylinder body 81 are fixed on slide plate 2, and the third channel 85 extended towards 1 direction of slide is equipped in cylinder body.Third Oil nozzle 82 is arranged on third cylinder body 81, communicates with third channel 85, passes through for pressure oil.Third piston 83 is logical through third Road 85, partially the side wall with third channel 85 offsets, and moves toward and away from the direction of slide 1.The setting of third spring 84 exists In third channel 85, both ends offset with third oil nozzle 82 and third piston 83 respectively, for pushing 83 contact skate of third piston 1.Third piston 83 is used for when pressure oil enters third channel 85 by oil nozzle, is pushed by pressure oil, is resisted slide 1；Also use In the release slide 1 when pressure oil flows out third channel 85.In actual use, injection pressure oil, pressure into third oil nozzle 82 Oil enters third channel 85, and since 83 part of third piston and the side wall of third channel 85 offset, pressure oil is located at third spring In side where 84, the side that third channel 85 is located at slide 1 cannot be introduced into, pressure oil can push third piston 83 to slide 1 Operation, resists slide 1, and since slide plate 2 encases the guide rail of slide 1, the guide rail along slide 1 is moved, and third piston 83 pushes slide 1 It offsets with the pressing plate 11 on slide plate 2, so that slide plate 2 can not be moved along the guide rail of slide 1.When slide plate 2 being needed to move, by pressure Oil is recalled, and piston is not supported with slide 1, and the guide rail of slide plate 2 and slide 1 unclamps at this time, to can realize that slide plate 2 continues to slide. Meanwhile it being equipped with third spring 84, third oil nozzle 82 itself provides pressure to third spring 84, and third spring 84 is made to push third living Plug 83 is contacted with slide 1, positions the position of third piston 83.

In addition, as shown in figure 3, the 4th locking member 9 includes the 4th cylinder body 91, the 4th oil nozzle 92, the 4th piston 93 and the 4th Spring 94, the 4th cylinder body 91 are fixed on slide plate 2, and the fourth lane 95 extended towards 1 direction of slide is equipped in cylinder body.4th oil Mouth 92 is arranged on the 4th cylinder body 91, communicates with fourth lane 95, passes through for pressure oil.4th piston 93 runs through fourth lane 95, partially the side wall with fourth lane 95 offsets, and moves toward and away from the direction of slide 1.4th spring 94, setting is the In four-way 95, both ends offset with the 4th oil nozzle 92 and the 4th piston 93 respectively, for pushing 93 contact skate 1 of the 4th piston. 4th piston 93 is used for when pressure oil enters fourth lane 95 by oil nozzle, is pushed by pressure oil, is resisted slide 1；It is also used to When pressure oil flows out fourth lane 95, slide 1 is unclamped.The use of 4th locking member 9 is identical as third locking member 8, herein not It repeats again.

Further, as shown in Figures 2 and 3, the part that the side wall of first piston 63 and first passage 65 offsets is equipped with The part that the side wall of first sealing ring, second piston 73 and second channel 75 offsets is equipped with the second sealing ring, third piston 83 It is equipped with third sealing ring with the part that the side wall of third channel 85 offsets, the 4th piston 93 and the side wall of fourth lane 95 offset The part held is equipped with the 4th sealing ring.To which each sealing ring is realized to the sealing of corresponding channel, prevent pressure oil from entering each Without the side of spring in channel, prevent pressure oil from cannot stablize promotion to each piston.

It will be understood by those skilled in the art that the respective embodiments described above are to realize the specific implementation of the utility model Example, and in practical applications, can to it, various changes can be made in the form and details, without departing from the spirit of the utility model And range.

Claims (4)

1. a kind of slide sliding plate locking mechanism of numerically-controlled machine tool, comprising:

Slide is arranged on the lathe bed of numerically-controlled machine tool, slides along the lathe bed；

Slide plate is arranged on the slide, and the length direction along the slide slides, and the length direction of the slide is perpendicular to institute State glide direction of the slide on lathe bed；

It is characterized in that, the slide sliding plate locking mechanism of numerically-controlled machine tool further include:

First locking assembly is arranged on the lathe bed；For the slide plate along the slide length direction sliding when, with The sliding seat locking；It is also used to when the slide is slided along the lathe bed, is unclamped with the slide；

Second locking assembly is arranged on the slide plate, for being locked with the slide when the slide is slided along the lathe bed Tightly；It is also used to unclamp in length direction sliding of the slide plate along the slide with the slide.

2. the slide sliding plate locking mechanism of numerically-controlled machine tool according to claim 1, which is characterized in that the first locking group Part includes:

First locking member is arranged on the lathe bed, for resisting in length direction sliding of the slide plate along the slide The slide；

Second locking member is arranged on the lathe bed, along glide direction of the slide on lathe bed and first locking member It is oppositely arranged, second locking member is used to resist the slide in length direction sliding of the slide plate along the slide；

Second locking assembly includes:

Third locking member is arranged on the slide, for resisting the slide when the slide is slided along the lathe bed；

4th locking member is arranged on the slide, along glide direction of the slide plate on slide and the third locking member It is oppositely arranged；4th locking member is used for when the slide is slided along the lathe bed, resists the slide.

3. the slide sliding plate locking mechanism of numerically-controlled machine tool according to claim 2, which is characterized in that the first locking member packet It includes:

First cylinder body is fixed on the lathe bed, and the first passage extended towards the slide direction is equipped in the cylinder body；

First oil nozzle is arranged on first cylinder body, communicates with the first passage, pass through for pressure oil；

First piston runs through the first passage, and partially the side wall with the first passage offsets, toward and away from the cunning The direction movement of seat；

First spring is arranged in the first passage, and both ends offset with first oil nozzle and the first piston respectively, uses The slide is contacted in the promotion first piston；

Wherein, the first piston is used for when the pressure oil enters the first passage by first oil nozzle, by institute Pressure oil promotion is stated, the slide is resisted；It is also used to unclamp the slide when the pressure oil flows out the first passage；

Second locking member includes:

Second cylinder body is fixed on the lathe bed, and the second channel extended towards the slide direction is equipped in the cylinder body；

Second oil nozzle is arranged on second cylinder body, communicates with the second channel, pass through for pressure oil；

Second piston runs through the second channel, and partially the side wall with the second channel offsets, toward and away from the cunning The direction movement of seat；

Second spring is arranged in the second channel, and both ends offset with second oil nozzle and the second piston respectively, uses The slide is contacted in the promotion second piston；

Wherein, the second piston is used for when the pressure oil enters the second channel by second oil nozzle, by institute Pressure oil promotion is stated, the slide is resisted；It is also used to unclamp the slide when the pressure oil flows out the second channel；

Third locking member includes:

Third cylinder body is fixed on the slide plate, and the third channel extended towards the slide direction is equipped in the cylinder body；

Third oil nozzle is arranged on the third cylinder body, communicates with the third channel, pass through for pressure oil；

Third piston runs through the third channel, and partially the side wall with the third channel offsets, toward and away from the cunning The direction movement of seat；

Third spring is arranged in the third channel, and both ends offset with the third oil nozzle and the third piston respectively, uses The slide described in the promotion third piston contact；

Wherein, the third piston is used for when the pressure oil enters the third channel by the oil nozzle, by the pressure Power oil pushes, and resists the slide；It is also used to unclamp the slide when the pressure oil flows out the third channel；

4th cylinder body is fixed on the slide plate, and the fourth lane extended towards the slide direction is equipped in the cylinder body；

4th oil nozzle is arranged on the 4th cylinder body, communicates with the fourth lane, pass through for pressure oil；

4th piston runs through the fourth lane, and partially the side wall with the fourth lane offsets, toward and away from the cunning The direction movement of seat；

4th spring is arranged in the fourth lane, and both ends offset with the 4th oil nozzle and the 4th piston respectively, uses The slide described in promotion the 4th piston contact；

Wherein, the 4th piston is used for when the pressure oil enters the fourth lane by the oil nozzle, by the pressure Power oil pushes, and resists the slide；It is also used to unclamp the slide when the pressure oil flows out the fourth lane.

4. the slide sliding plate locking mechanism of numerically-controlled machine tool according to claim 3, which is characterized in that first piston with it is described The part that the side wall of first passage offsets is equipped with the first sealing ring；

The part that the side wall of second piston and the second channel offsets is equipped with the second sealing ring；

The part that the side wall of third piston and the third channel offsets is equipped with third sealing ring；

The part that 4th piston and the side wall of the fourth lane offset is equipped with the 4th sealing ring.