CN205651856U - Sculpture numerical control is electromechanical - Google Patents

Abstract

The utility model discloses a sculpture numerical control is electromechanical, the on -line screen storage device comprises a base, the surperficial both ends of base are equipped with two backup pads that are parallel to each other, are connected with first lead screw through the bearing between two backup pads, the surface that first lead screw corresponds the base is equipped with the spout, the side of first lead screw is connected with first movable block through the screw thread is vice, the bottom of first movable block is equipped with the slider with spout activity joint. This sculpture numerical control is electromechanical adopts the step motor form vice with the screw, position that can the accurate control carving tool, and the glyptic accuracy of being convenient for adopts inverter motor can make the carving tool high -speed rotatory, is favorable to carving the slipperiness of position, can blow away the piece that the sculpture fell down fast through the jet head, guarantees that the piece that does not have of sculpture position is left over, guarantees carving facet's smoothness, adopts the numerical control sculpture can improve work efficiency, improvement mill benefit, convenient to popularize and use.

Description

The numerical control of a kind of engraving is dynamo-electric

Technical field

This utility model relates to numerical controlled carving technical field, is specially one engraving numerical control dynamo-electric.

Background technology

In wood working industry; in order to beautify the decorative effect of door and window, art mural, Wood craft; the pattern of some complexity would generally be carved on timber; some present companies also can begin to use automatic technology to carve; but owing to complexity and the automatization level of wooden model show, numerical controlled carving technology is not the most popularized, the efficiency of impact engraving and the benefit of factory; to this end, it is proposed that the numerical control of a kind of engraving is dynamo-electric.

Utility model content

The purpose of this utility model is to provide the numerical control of a kind of engraving dynamo-electric, with the problem solving to propose in above-mentioned background technology.

nullFor achieving the above object，This utility model provides following technical scheme: the numerical control of a kind of engraving is dynamo-electric，Including base，The two ends, surface of described base are provided with two gripper shoes being parallel to each other，Connected by bearing between two gripper shoes and have the first leading screw，The surface of described first leading screw correspondence base is provided with chute，The side of described first leading screw is connected by screw thread pair the first movable block，The bottom of described first movable block is provided with and the slide block of chute activity clamping，And first one end of leading screw run through gripper shoe and connect the first motor，Described first motor is fixed on the surface of base，The upper surface of the first movable block connects the second gripper shoe by the first guide rod，Connected by bearing between second gripper shoe and the first movable block and have the second leading screw，The side of the second leading screw is connected by screw thread pair the second movable block，Second movable block is provided with the first through hole，First guide rod and the first via clearance coordinate installs，The top of the second leading screw is run through the second gripper shoe and connects the second motor，Described second motor is fixed in the second gripper shoe，The side of the second movable block connects the 3rd gripper shoe by the second guide rod，Connected by bearing between 3rd gripper shoe and the second movable block and have the 3rd leading screw，One end of 3rd leading screw is run through the 3rd gripper shoe and connects the 3rd motor，Described 3rd motor and the fixing connection of the 3rd gripper shoe，The side of the 3rd leading screw is connected by screw thread pair the 3rd movable block，3rd movable block is provided with the second through hole，Second guide rod and the second via clearance coordinate installs，And the 3rd movable block top connect have workbench，Frequency conversion motor and support it is respectively equipped with on described workbench，The output shaft of described frequency conversion motor is connected by fixture graver，The end of described support connects jet thrust，Described jet thrust is connected with the air pump being located on base by flexible catheter，Described air pump、Frequency conversion motor、First motor、Second motor and the 3rd motor all electrically connect with the controller being located at base side.

Preferably, described first motor, the second motor and the 3rd motor are motor, and the side of first motor, the second motor and the 3rd motor is all welded with fixed plate, the first motor, the second motor and the 3rd motor are connected with base, the second gripper shoe and the 3rd gripper shoe respectively by bolt.

Preferably, described jet thrust is obliquely installed.

Preferably, described fixture is connected with graver by fastening bolt, and fastening bolt is no less than three.

Compared with prior art, the beneficial effects of the utility model are: this engraving numerical control is dynamo-electric, use motor and the form of screw thread pair, can accurately control the position of graver, it is easy to the accuracy of engraving, use frequency conversion motor can make graver high speed rotating, be conducive to carving the slickness of position, the chip under carving out can be quickly blown away by jet thrust, ensure that the chip that do not has of engraving position is left over, it is ensured that smoothing of sculptured surface, use numerical controlled carving can improve work efficiency, improve factory's benefit, it is simple to promote the use of.

Accompanying drawing explanation

Fig. 1 is this utility model structural representation.

In figure: 1 base, 2 gripper shoes, 3 the 3rd motors, 4 the 3rd gripper shoes, 5 second guide rods, 6 the 3rd movable blocks, 7 gravers, 8 first leading screws, 9 frequency conversion motors, 10 jet thrusts, 11 supports, 12 second motors, 13 second gripper shoes, 14 first guide rods, 15 second leading screws, 16 second movable blocks, 17 air pumps, 18 first motors, 19 controllers, 20 chutes, 21 slide blocks, 22 first movable blocks.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.

nullRefer to Fig. 1，This utility model provides a kind of technical scheme: the numerical control of a kind of engraving is dynamo-electric，Including base 1，The two ends, surface of base 1 are provided with two gripper shoes being parallel to each other 2，Connected by bearing between two gripper shoes 2 and have the first leading screw 8，The surface of the corresponding base 1 of the first leading screw 8 is provided with chute 20，The side of the first leading screw 8 is connected by screw thread pair the first movable block 22，The bottom of the first movable block 22 is provided with and the slide block 21 of chute 20 activity clamping，And first one end of leading screw 8 run through gripper shoe 2 and connect the first motor 18，First motor 18 is fixed on the surface of base 1，First motor 18 rotates and the first leading screw 8 can be driven to rotate，Thus realize the movement of the first movable block 22，The upper surface of the first movable block 22 connects the second gripper shoe 13 by the first guide rod 14，Connected by bearing between second gripper shoe 13 and the first movable block 22 and have the second leading screw 15，The side of the second leading screw 15 is connected by screw thread pair the second movable block 16，Second movable block 16 is provided with the first through hole，First guide rod 14 coordinates installation with the first via clearance，The top of the second leading screw 15 is run through the second gripper shoe 13 and connects the second motor 12，Second motor 12 is fixed in the second gripper shoe 13，The rotation of the second motor 12 can drive the second leading screw 15 to rotate，Moving up and down of the second movable block 16 can be realized，The side of the second movable block 16 connects the 3rd gripper shoe 4 by the second guide rod 5，Connected by bearing between 3rd gripper shoe 4 and the second movable block 16 and have the 3rd leading screw，One end of 3rd leading screw is run through the 3rd gripper shoe 4 and connects the 3rd motor 3，3rd motor 3 is fixing with the 3rd gripper shoe 4 to be connected，The side of the 3rd leading screw is connected by screw thread pair the 3rd movable block 6，3rd movable block 6 is provided with the second through hole，Second guide rod 5 coordinates installation with the second via clearance，The rotation of the 3rd motor 3 can make the 3rd screw turns，The 3rd movable block 6 can be made to move by screw thread pair，And the 3rd movable block 6 top connect have workbench，Workbench can realize the movement of three-dimensional by three motors，Frequency conversion motor 9 and support 11 it is respectively equipped with on workbench，The output shaft of frequency conversion motor 9 is connected by fixture graver 7，Fixture is connected with graver 7 by fastening bolt，Fastening bolt is no less than three，Connect the most firm，Prevent from loosening，The end of support 11 connects jet thrust 10，Jet thrust 10 is obliquely installed，Jet thrust 10 is connected with the air pump 17 being located on base 1 by flexible catheter，Air pump 17、Frequency conversion motor 9、First motor 18、Second motor 12 and the 3rd motor 3 all electrically connect with the controller 19 being located at base 1 side，First motor 18、Second motor 12 and the 3rd motor 3 are motor，Control accurately，And first motor 18、The side of the second motor 12 and the 3rd motor 3 is all welded with fixed plate，First motor 18、Second motor 12 and the 3rd motor 3 by bolt respectively with base 1、Second gripper shoe 13 and the 3rd gripper shoe 4 connect，This engraving numerical control is dynamo-electric，Use motor and the form of screw thread pair，Can accurately control the position of graver 7，It is easy to the accuracy of engraving，Use frequency conversion motor 9 can make graver 7 high speed rotating，Be conducive to carving the slickness of position，The chip under carving out can be quickly blown away by jet thrust 10，Ensure that the chip that do not has of engraving position is left over，Ensure the smooth of sculptured surface，Use numerical controlled carving can improve work efficiency，Improve factory's benefit，It is easy to promote the use of.

Embodiment the most of the present utility model, for the ordinary skill in the art, being appreciated that in the case of without departing from principle of the present utility model and spirit and these embodiments can carry out multiple change, revise, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.

Claims (4)

1. null1. engraving numerical control is dynamo-electric，Including base (1)，It is characterized in that: the two ends, surface of described base (1) are provided with two gripper shoes being parallel to each other (2)，Connected by bearing between two gripper shoes (2) and have the first leading screw (8)，The surface of the corresponding base (1) of described first leading screw (8) is provided with chute (20)，The side of described first leading screw (8) is connected by screw thread pair the first movable block (22)，The bottom of described first movable block (22) is provided with the slide block (21) with chute (20) activity clamping，And first one end of leading screw (8) run through gripper shoe (2) and connect the first motor (18)，Described first motor (18) is fixed on the surface of base (1)，The upper surface of the first movable block (22) connects the second gripper shoe (13) by the first guide rod (14)，Connected by bearing between second gripper shoe (13) and the first movable block (22) and have the second leading screw (15)，The side of the second leading screw (15) is connected by screw thread pair the second movable block (16)，Second movable block (16) is provided with the first through hole，First guide rod (14) coordinates installation with the first via clearance，The top of the second leading screw (15) is run through the second gripper shoe (13) and connects the second motor (12)，Described second motor (12) is fixed in the second gripper shoe (13)，The side of the second movable block (16) connects the 3rd gripper shoe (4) by the second guide rod (5)，Connected by bearing between 3rd gripper shoe (4) and the second movable block (16) and have the 3rd leading screw，One end of 3rd leading screw is run through the 3rd gripper shoe (4) and connects the 3rd motor (3)，Described 3rd motor (3) is fixing with the 3rd gripper shoe (4) to be connected，The side of the 3rd leading screw is connected by screw thread pair the 3rd movable block (6)，3rd movable block (6) is provided with the second through hole，Second guide rod (5) coordinates installation with the second via clearance，And the 3rd movable block (6) top connect have workbench，Frequency conversion motor (9) and support (11) it is respectively equipped with on described workbench，The output shaft of described frequency conversion motor (9) is connected by fixture graver (7)，The end of described support (11) connects jet thrust (10)，Described jet thrust (10) is connected with the air pump (17) being located on base (1) by flexible catheter，Described air pump (17)、Frequency conversion motor (9)、First motor (18)、Second motor (12) and the 3rd motor (3) all electrically connect with the controller (19) being located at base (1) side.
2. A kind of engraving the most according to claim 1 numerical control is dynamo-electric, it is characterized in that: described first motor (18), the second motor (12) and the 3rd motor (3) are motor, and the side of first motor (18), the second motor (12) and the 3rd motor (3) is all welded with fixed plate, the first motor (18), the second motor (12) and the 3rd motor (3) are connected with base (1), the second gripper shoe (13) and the 3rd gripper shoe (4) respectively by bolt.
3. A kind of engraving the most according to claim 1 numerical control is dynamo-electric, it is characterised in that: described jet thrust (10) is obliquely installed.
4. A kind of engraving the most according to claim 1 numerical control is dynamo-electric, it is characterised in that: described fixture is connected with graver (7) by fastening bolt, and fastening bolt is no less than three.