CN213561135U - Part clamping device for part machining of numerical control machine tool - Google Patents

Abstract

The utility model belongs to the technical field of numerical control machine tools, in particular to a part clamping device for machining parts of a numerical control machine tool, a lower surface caliper of a right clamping hand rotating shaft is connected with a right clamping hand connecting plate, a motor driving gear is arranged above a clamping driving servo motor, the motor driving gear can be effectively rotated by starting the clamping driving servo motor, the right clamping hand driving gear and the left clamping hand driving gear which are meshed and connected with the left and right side gears are driven to rotate by the rotation of the motor driving gear, and the right clamping hand driving gear is respectively connected with a right clamping hand in front of the right clamping hand connecting plate through a right clamping hand rotating shaft, the left clamping hand driving gear is connected with the left clamping hand in front of the left clamping hand connecting plate through the left clamping hand rotating shaft, the surface of the right clamping hand and the surface of the left clamping hand can be effectively fixed with mechanical parts, so that the clamping effect is achieved.

Description

Part clamping device for part machining of numerical control machine tool

Technical Field

The utility model belongs to the technical field of the digit control machine tool, concretely relates to part clamping device is used in digit control machine tool parts machining.

Background

The numerical control machine tool is used for clamping the part, the existing numerical control machine tool is placed in a manual mode in the process of placing the part, the existing clamping device in the machining process needs to be manually clamped and adjusted, and then the efficiency of production of product machining is influenced, so that the part can be clamped by the numerical control machine tool part clamping device.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above object, the utility model provides a following technical scheme: a part clamping device for machining parts of a numerical control machine tool comprises a device supporting component and a part clamping component, wherein the device supporting component comprises a clamping workbench, a supporting rod, a clamping driving servo motor, a clamping motor mounting table and a motor driving gear, the lower surface of the clamping workbench is in joggle connection with the supporting rod, the lower surface of the clamping workbench is in bolt connection with the clamping motor mounting table, the lower surface of the clamping motor mounting table is in mounting connection with the clamping driving servo motor, the upper surface of the clamping driving servo motor is in rotating connection with the motor driving gear, the part clamping component comprises a right clamping hand driving gear, a right clamping hand rotating shaft, a right clamping hand connecting plate, a right clamping hand, a left clamping hand driving gear, a left clamping hand rotating shaft, a left clamping hand connecting plate and a left clamping hand, the right surface of the motor driving gear is in meshing connection with the right clamping hand driving gear, right side card hand drive gear's lower surface rotates and connects right side card hand rotation axis, the lower surface calliper of right side card hand rotation axis is connected right side card hand connecting plate, the surface of right side card hand connecting plate is inlayed and is connected right side centre gripping card hand, the left surface meshing of motor driving gear is connected left side card hand drive gear, left side card hand drive gear's lower surface rotates and connects left side card hand rotation axis, the lower surface calliper of left side card hand rotation axis is connected left side card hand connecting plate, the surface of left side card hand connecting plate is inlayed and is connected left side centre gripping card hand, the side surface swing joint of left side card hand connecting plate the interval pole.

Preferably, the right clamping hand driving gear is connected with the right clamping hand connecting plate through the right clamping hand rotating shaft.

Preferably, the left clamping hand driving gear is connected with the left clamping hand connecting plate through the left clamping hand rotating shaft.

Preferably, the number of the supporting rods is four, and the four supporting rods are connected below the clamping workbench in a joggling manner respectively and are in a symmetrical relationship.

Preferably, the right clamping hand connecting plate is spaced from the left clamping hand connecting plate through the spacing rod.

Preferably, the clamping driving servo motor is connected with the motor driving gear through a connecting rotating rod.

Compared with the prior art, the beneficial effects of the utility model are that:

through the top installation motor driving gear at centre gripping drive servo motor, can effectively make the motor driving gear rotate through centre gripping drive servo motor's start-up, thereby it rotates with left calorie of hand drive gear to drive the right side card hand drive gear that left and right sides gear engagement is connected to rotate through the rotation of motor driving gear, and be connected right calorie of hand drive gear through right calorie of hand rotation axis and right calorie of hand connecting plate the place ahead right centre gripping card hand respectively, and left calorie of hand drive gear then is connected the back through left calorie of hand rotation axis and left centre gripping card hand in left calorie of hand connecting plate the place ahead, can effectively fix the surface at right centre gripping card hand and left centre gripping card hand with the part, thereby play the effect of centre gripping.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a partial structure of the present invention;

FIG. 3 is a schematic structural view of the clamping assembly of the present invention;

FIG. 4 is a schematic main sectional structure of the present invention;

fig. 5 is a left sectional structural view of the present invention;

fig. 6 is a schematic view of the sectional structure of the present invention;

in the figure: 1. a device support assembly; 2. a part clamping assembly; 11. clamping the worktable; 111. a support bar; 12. a clamping drive servo motor; 121. clamping a motor mounting table; 13. a motor driving gear; 21. A right chuck hand drive gear; 211. a right-hand clamping rotating shaft; 212. a right clamping hand connecting plate; 213. a right clamping hand; 22. a left-hand clamping driving gear; 221. a left-hand clamping rotating shaft; 222. a left clamping hand connecting plate; 223. Left grip catch 224, spacer bar.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-6, the present invention provides the following technical solutions: a part clamping device for machining parts of a numerical control machine tool comprises a device supporting component 1 and a part clamping component 2, wherein the device supporting component 1 comprises a clamping workbench 11, a supporting rod 111, a clamping driving servo motor 12, a clamping motor mounting table 121 and a motor driving gear 13, the lower surface of the clamping workbench 11 is in joggled connection with the supporting rod 111, the lower surface of the clamping workbench 11 is in bolted connection with the clamping motor mounting table 121, the lower surface of the clamping motor mounting table 121 is in mounted connection with the clamping driving servo motor 12, the upper surface of the clamping driving servo motor 12 is in rotary connection with the motor driving gear 13, the part clamping component 2 comprises a right clamping hand driving gear 21, a right clamping hand rotating shaft 211, a right clamping hand connecting plate 212, a right clamping hand 213, a left clamping hand driving gear 22, a left clamping hand rotating shaft 221, a left clamping hand connecting plate 222, a left clamping hand 223 and a spacing rod 224, the right surface of the motor driving gear 13, right calorie of hand rotation axis 211 is connected in the lower surface rotation of right calorie of hand drive gear 21, right calorie of hand connecting plate 212 is connected to right calorie of lower surface calliper of right calorie of hand rotation axis 211, right centre gripping card hand 213 is inlayed and connected to the surface of right calorie of hand connecting plate 212, left calorie of hand drive gear 22 is connected in the left surface meshing of motor driving gear 13, left calorie of hand rotation axis 221 is connected in the lower surface rotation of left calorie of hand drive gear 22, left calorie of hand connecting plate 222 is connected to the lower surface calliper of left calorie of hand rotation axis 221, left centre gripping card hand 223 is inlayed and connected to the surface of left calorie of hand connecting plate 222, the side surface swing joint interval.

In this embodiment, the lower surface of the clamping worktable 11 is joggled and connected with the supporting rod 111 to effectively mount the clamping worktable 11, the lower surface of the clamping worktable 11 is bolted and connected with the clamping motor mounting table 121, the lower surface of the clamping motor mounting table 121 is connected with the clamping driving servo motor 12 to effectively drive the motor driving gear 13 to rotate, the upper surface of the clamping driving servo motor 12 is rotatably connected with the motor driving gear 13 to effectively drive the right clamping hand driving gear 21 and the left clamping hand driving gear 22 which are in meshed connection with the left and right side gears to rotate, the right surface of the motor driving gear 13 is meshed and connected with the right clamping hand driving gear 21 to effectively enable the right clamping hand 213 to move, the lower surface of the right clamping hand driving gear 21 is rotatably connected with the right clamping hand rotating shaft 211 to effectively connect the right clamping hand driving gear 21 with the clamping hand connecting plate 212, the lower surface caliper of the right clamping hand rotating shaft 211 is connected with the right clamping hand connecting plate 212, the effect of centre gripping can effectively be played to right centre gripping card hand 213 is connected in the surface mosaic of right calorie of hand connecting plate 212, left card hand drive gear 22 can effectively make left centre gripping card hand 223 move about is connected in the left surface meshing of motor driving gear 13, left card hand drive gear 22's lower surface is rotated and is connected left calorie of hand rotation axis 221 and can effectively be connected left calorie of hand drive gear 22 with left calorie of hand connecting plate 222, left calorie of hand connecting plate 222 is connected to left calorie of lower surface calliper of left calorie of hand rotation axis 221 can effectively be connected left centre gripping card hand 223, the effect of centre gripping can effectively be played to left centre gripping card hand 223 is connected in the surface mosaic of left calorie of hand connecting plate 222, right calorie of hand drive gear 21 and left calorie of hand drive gear 22 can effectively carry out the interval measurement to left calorie of side surface swing joint interval pole 224.

Specifically, the right chuck hand driving gear 21 is connected to the right chuck hand connecting plate 212 through the right chuck hand rotating shaft 211. .

Specifically, the left-hand drive gear 22 is connected to the left-hand connecting plate 222 via the left-hand rotating shaft 221.

Specifically, four support rods 111 are arranged and are respectively connected below the clamping workbench 11 in a joggle manner and are in a symmetrical relationship.

Specifically, the right-hand catch connecting plate 212 is spaced from the left-hand catch connecting plate 222 by a spacing rod 224.

Specifically, the clamping driving servo motor 12 is connected to the motor driving gear 13 through a connecting rotating rod.

The utility model discloses a theory of operation and use flow: after the utility model is installed, when in use, firstly, the support rod 111 is joggled and connected with the outer surface of the clamping workbench 11 to support the same, and the clamping driving servo motor 121 can be effectively installed through the clamping motor installation platform 121 below the clamping workbench 11, secondly, the motor driving gear 13 is installed above the clamping driving servo motor 121, the motor driving gear 13 can be effectively rotated through the starting of the clamping driving servo motor 121, and the right clamping driving gear 21 and the left clamping driving gear 22 which are connected by the left and right side gear meshing are driven to rotate through the rotation of the motor driving gear 13 (the distance between the right clamping driving gear 21 and the left clamping driving gear 22 is measured through the distance rod 224), and finally, the right clamping driving gear 21 is respectively connected with the right clamping hand 213 in front of the right clamping hand connecting plate 212 through the right clamping hand rotating shaft 211, and left calorie of hand drive gear 22 then is connected the back through left calorie of hand rotation axis 221 and left centre gripping card hand 223 in left calorie of hand connecting plate 222 the place ahead, through the rotation of right calorie of hand drive gear 21 and left calorie of hand drive gear 22, can effectively fix machine part on the surface of right centre gripping card hand 213 and left centre gripping card hand 223 to play the effect of centre gripping, improved machine part processing index.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a part clamping device for numerically-controlled machine tool parts machining, includes device supporting component (1), part centre gripping subassembly (2), its characterized in that: device supporting component (1) includes centre gripping workstation (11), bracing piece (111), centre gripping drive servo motor (12), centre gripping motor mount table (121), motor driving gear (13), the lower surface joggle of centre gripping workstation (11) is connected bracing piece (111), the lower surface bolted connection of centre gripping workstation (11) centre gripping motor mount table (121), the lower surface mounting of centre gripping motor mount table (121) is connected centre gripping drive servo motor (12), the upper surface of centre gripping drive servo motor (12) rotates to be connected motor driving gear (13), part centre gripping subassembly (2) are including right calorie of hand drive gear (21), right calorie of hand rotation axis (211), right calorie of hand connecting plate (212), right centre gripping calorie of hand (213), left calorie of hand drive gear (22), left calorie of hand rotation axis (221), Left calorie of hand connecting plate (222), left centre gripping card hand (223), interval pole (224), the right surface meshing of motor driving gear (13) is connected right calorie of hand drive gear (21), the lower surface rotation of right calorie of hand drive gear (21) is connected right calorie of hand rotation axis (211), the lower surface calliper of right calorie of hand rotation axis (211) is connected right calorie of hand connecting plate (212), the surface of right calorie of hand connecting plate (212) is inlayed and is connected right centre gripping card hand (213), the left surface meshing of motor driving gear (13) is connected left calorie of hand drive gear (22), the lower surface rotation of left calorie of hand drive gear (22) is connected left calorie of hand rotation axis (221), the lower surface calliper of left calorie of hand rotation axis (221) is connected left calorie of hand connecting plate (222), the surface inlay of left calorie of hand connecting plate (222) left centre gripping card hand (223), the side surface of the left clamping hand connecting plate (222) is movably connected with the spacing rod (224).

2. The part holding device for numerically-controlled machine tool part machining according to claim 1, wherein: the right clamping hand driving gear (21) is connected with the right clamping hand connecting plate (212) through the right clamping hand rotating shaft (211).

3. The part holding device for numerically-controlled machine tool part machining according to claim 1, wherein: the left clamping hand driving gear (22) is connected with the left clamping hand connecting plate (222) through the left clamping hand rotating shaft (221).

4. The part holding device for numerically-controlled machine tool part machining according to claim 1, wherein: the number of the supporting rods (111) is four, and the supporting rods are connected below the clamping workbench (11) in a joggling mode and are in a symmetrical relation.

5. The part holding device for numerically-controlled machine tool part machining according to claim 1, wherein: the right clamping hand connecting plate (212) is spaced from the left clamping hand connecting plate (222) through the spacing rod (224).

6. The part holding device for numerically-controlled machine tool part machining according to claim 1, wherein: the clamping driving servo motor (12) is connected with the motor driving gear (13) through a connecting rotating rod.

Images