CN217167467U - Numerical control machining center equipment - Google Patents

Abstract

The utility model relates to a numerical control machining center technical field specifically is a numerical control machining center equipment, press from both sides and get the mechanism including getting, it includes the mount to press from both sides the mechanism of getting, the first displacement sensor of top fixedly connected with of mount, the first electric putter of inside fixedly connected with of mount, first electric putter's flexible end fixedly connected with splint, first electric putter's one end fixedly connected with slipmat is kept away from to splint, the left side fixedly connected with second displacement sensor of splint, the top fixedly connected with elevating system of getting the mechanism of clamp, elevating system is including the top fixedly connected with second electric putter that is located the mount, second electric putter's left side fixedly connected with second displacement sensor. This numerical control machining center equipment drives splint and slipmat through pressing from both sides the first drive push rod that gets on the mechanism and carries out the back-and-forth movement, gets the material by two slipmats clamp, has made things convenient for to carry out the automatic clamp and gets the material.

Description

Numerical control machining center equipment

Technical Field

The application relates to the technical field of numerical control machining centers, in particular to a numerical control machining center device.

Background

The numerical control machining center is a high-efficiency automatic machine tool which consists of mechanical equipment and a numerical control system and is suitable for machining complex parts, is one of numerical control machines with highest yield and most extensive application in the world, has stronger comprehensive machining capacity, can finish more machining contents after a workpiece is clamped once, has higher machining precision and can machine batch workpieces with medium machining difficulty.

At present, numerical control machining center equipment has been widely used in people's production life, and in realizing this application process, the inventor finds that there is following problem at least in this technique, and current numerical control machining center equipment mostly is the manual work and carries out the material loading, and inconvenient automatic clamp of going on gets the material, so proposes a numerical control machining center equipment and solves the problem that proposes in the aforesaid.

SUMMERY OF THE UTILITY MODEL

To prior art's not enough, this application provides a numerical control machining center equipment, possesses and conveniently carries out the automation and gets advantages such as material, has solved current numerical control machining center equipment and has mostly the manual work and carry out the material loading, and the inconvenient problem of getting the material of carrying out the automation clamp.

The application provides the following technical scheme: the utility model provides a numerical control machining center equipment, gets the mechanism including pressing from both sides, it includes the mount to press from both sides the mechanism, the first displacement sensor of top fixedly connected with of mount, the first electric putter of inside fixedly connected with of mount, first electric putter's flexible fixedly connected with splint, first electric putter's one end fixedly connected with slipmat is kept away from to splint, the left side fixedly connected with second displacement sensor of splint, second displacement sensor and first electric putter electricity are connected.

This application is through adopting above-mentioned technical scheme, through pressing from both sides the first electric putter that gets on the mechanism and drive splint and slipmat and carry out the back-and-forth movement, gets the material by two slipmats clamp, has made things convenient for to carry out the automatic clamp and get the material.

Further, press from both sides the top fixedly connected with elevating system who gets the mechanism, elevating system includes the second electric putter of fixed connection in the mount top, second electric putter and first displacement sensor electricity are connected, second electric putter's left side fixedly connected with second displacement sensor, one side fixedly connected with third electric putter that second displacement sensor was kept away from to second electric putter, third electric putter's top fixedly connected with third displacement sensor, third electric putter's bottom fixedly connected with fourth electric putter.

The beneficial effect of adopting the above further scheme is: the fourth electric push rod on the lifting mechanism drives the third electric push rod to move up and down, the third displacement sensor checks the moving distance, the third electric push rod drives the second electric push rod to move left and right, and the second electric push rod drives the clamping mechanism to move up and down conveniently.

Further, elevating system's bottom fixedly connected with slewing mechanism, slewing mechanism includes the carousel of fixed connection in the fourth electric putter bottom, the bottom fixedly connected with pivot of carousel, the outer wall swing joint of pivot has the support, the positive swing joint of support has the material case, the outer wall fixedly connected with antiskid cover of pivot, the bottom fixedly connected with fifth electric putter of support, the flexible end fixedly connected with non slipping spur of fifth electric putter, the bottom fixedly connected with motor of pivot, the bottom fixedly connected with gliding mass of carousel, the outer wall swing joint of gliding mass has the spout body, and the bottom and the support fixed connection of the spout body, second displacement sensor and third electric putter electricity are connected, third displacement sensor and fourth electric putter electricity are connected.

The beneficial effect of adopting the further scheme is that: the motor on the rotating mechanism drives the rotating disc on the rotating shaft to slide on the inner wall of the sliding groove body, so that the angle of the clamping mechanism can be adjusted conveniently.

Further, slewing mechanism's bottom fixedly connected with machining center mechanism, machining center mechanism fixed connection is in the box of support bottom, the bottom fixedly connected with base of box, the left side of box and the top fixedly connected with control box that is located the base, the right side of control box and the inside fixedly connected with solid fixed cylinder that extends to the box, the inside swing joint of solid fixed cylinder has the triangle chuck.

The beneficial effect of adopting the further scheme is that: the material is conveniently clamped through the triangular chuck on the machining center mechanism.

Further, the inside fixedly connected with cutter mechanism of machining center mechanism, cutter mechanism is including being fixed in the motor on the roof in the box, the output shaft fixedly connected with lead screw of motor, the outer wall swing joint of lead screw has the silk piece, the outer wall swing joint of silk piece has the fixed case, fixed case fixed connection is in the roof in the box, the bottom fixedly connected with cutter body of silk piece.

The beneficial effect of adopting the further scheme is that: the motor on the cutter mechanism drives the screw block on the screw rod to slide on the inner wall of the fixed box, so that the cutter is convenient to process.

Furthermore, the fixing frame is in an inverted U shape, the number of the first electric push rods and the number of the clamping plates are two, and the anti-slip mat is a rubber anti-slip mat.

The beneficial effect of adopting the further scheme is that: drive the slipmat through first electric putter and made things convenient for and got the material clamp.

Furthermore, the number of the fifth electric push rod and the number of the anti-skid blocks are two, the anti-skid blocks are rubber anti-skid blocks, and the anti-skid sleeves are rubber anti-skid sleeves.

The beneficial effect of adopting the further scheme is that: through, the fifth electric push rod drives the anti-skidding block to facilitate limiting the anti-skidding sleeve on the rotating shaft.

Further, the motor is a servo motor, the cross section of the chute body is in a circular ring shape, the longitudinal section of the chute body is in an inverted C shape, and the cross section of the chute body is in a circular ring shape.

The beneficial effect of adopting the above further scheme is: the sliding body is convenient to stably rotate through the sliding groove body.

Compared with the prior art, the application provides a numerical control machining center equipment, possesses following beneficial effect:

this numerical control machining center equipment drives splint and slipmat through pressing from both sides the first drive push rod that gets on the mechanism and carries out the back-and-forth movement, gets the material by two slipmats clamp, has made things convenient for to carry out the automatic clamp and gets the material.

Drawings

FIG. 1 is a cross-sectional view of the present application;

FIG. 2 is an enlarged schematic view of A shown in FIG. 1 of the present application;

fig. 3 is an enlarged schematic structural diagram of B shown in fig. 1 of the present application.

In the figure: 1. a machining center mechanism; 101. a base; 102. a box body; 103. a control box; 104. a fixed cylinder; 105. a triangular chuck; 2. a cutter mechanism; 201. an electric motor; 202. a screw rod; 203. silk blocks; 204. a fixed box; 205. a cutter body; 3. a rotating mechanism; 301. a support; 302. a material box; 303. a rotating shaft; 304. an anti-slip sleeve; 305. a fifth electric push rod; 306. anti-skid blocks; 307. a motor; 308. a turntable; 309. a slider; 310. a chute body; 4. a lifting mechanism; 401. a fourth electric push rod; 402. a third electric push rod; 403. a third displacement sensor; 404. a second electric push rod; 5. a gripping mechanism; 501. a fixed mount; 502. a first displacement sensor; 503. a first electric push rod; 504. a splint; 505. a non-slip mat; 506. a second displacement sensor.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

Referring to fig. 1 to 3, the numerical control machining center apparatus in the present embodiment includes a clamping mechanism 5, the clamping mechanism 5 includes a fixing frame 501, a first displacement sensor 502 is fixedly connected to a top of the fixing frame 501 through a stud, a first electric push rod 503 is fixedly welded inside the fixing frame 501, a clamping plate 504 is fixedly welded to a telescopic end of the first electric push rod 503 through electric welding, a non-slip pad 505 is fixedly connected to an end of the clamping plate 504 far from the first electric push rod 503, the fixing frame 501 is in an inverted U shape, the number of the first electric push rod 503 and the number of the clamping plate 504 are two, the non-slip pad 505 is a rubber non-slip pad, a second displacement sensor 506 is fixedly welded to a left side of the clamping plate 504 through electric welding, and the second displacement sensor 506 is electrically connected to the first electric push rod 503.

In this embodiment, the lifting mechanism 4 is fixedly connected to the top of the gripping mechanism 5, the lifting mechanism 4 includes a second electric push rod 404 fixedly connected to the top of the fixing frame 501, the second electric push rod 404 is electrically connected to the first displacement sensor 502, the left side of the second electric push rod 404 and the second displacement sensor 506 are welded by electric welding, one side of the second electric push rod 404 far away from the second displacement sensor 506 is fixedly connected to the third electric push rod 402, the top of the third electric push rod 402 is fixedly connected to a third displacement sensor 403, the bottom of the third electric push rod 402 is welded to a fourth electric push rod 401, the second displacement sensor 506 is electrically connected to the third electric push rod 402, and the third displacement sensor 403 is electrically connected to the fourth electric push rod 401.

In this embodiment, the bottom of the lifting mechanism 4 is fixedly connected with the rotating mechanism 3, the rotating mechanism 3 includes a rotating plate 308 fixedly connected to the bottom of the fourth electric push rod 401, the telescopic end of the fourth electric push rod 401 is fixedly connected to the bottom of the third electric push rod 402, so as to play a role of lifting the third electric push rod 402, the bottom of the rotating plate 308 is fixedly connected with a rotating shaft 303, the outer wall of the rotating shaft 303 is movably connected with a bracket 301, the front surface of the bracket 301 is movably connected with a material box 302, the outer wall of the rotating shaft 303 is fixedly connected with an anti-slip sleeve 304, the bottom of the rotating shaft 303 is fixedly connected with a motor 307, the output end of the motor 307 is fixedly connected to the end of the rotating shaft 303, so as to play a role of the motor 307 driving the rotating shaft 303 to rotate, the bottom of the rotating plate 308 is fixedly connected with a sliding body 309, the bottom of the bracket 301 is fixedly connected with a fifth electric push rod 305, the telescopic end of the fifth electric push rod 305 is fixedly connected with an anti-slip block 306, the number of the fifth electric push rods 305 and the number of the anti-slip blocks 306 are two, the anti-slip blocks 306 are rubber anti-slip blocks, the anti-slip sleeves 304 are rubber anti-slip sleeves, the outer wall of the sliding body 309 is movably connected with a sliding groove body 310, the motor 307 is a servo motor, the cross section of the sliding groove body 310 is circular, the longitudinal section of the sliding groove body 310 is inverted C-shaped, the cross section of the sliding body 309 is circular, and the bottom of the sliding groove body 310 is fixedly connected with the bracket 301.

In this embodiment, the bottom of the rotating mechanism 3 is fixedly connected with the machining center mechanism 1, the machining center mechanism 1 includes a box 102 fixedly connected to the bottom of the bracket 301, the bottom of the box 102 is welded to the base 101, the control box 103 is welded to the left side of the box 102 and located at the top of the base 101, the right side of the control box 103 is fixedly connected to the inside of the box 102 and extends to the fixed cylinder 104, the inside of the fixed cylinder 104 is movably connected to the triangular chuck 105, the first displacement sensor 502 converts the mechanical displacement into a resistance or voltage output in a linear or arbitrary functional relationship with the mechanical displacement through a potentiometer element, which facilitates the detection of the moving distance of the second electric push rod 404, the second displacement sensor 506 converts the mechanical displacement into a resistance or voltage output in a linear or arbitrary functional relationship with the mechanical displacement through a potentiometer element, which facilitates the detection of the telescopic distance of the first electric push rod 503, the third displacement sensor 403 converts the mechanical displacement into a resistor or a voltage output in a linear or any functional relationship with the mechanical displacement through a potentiometer element, so that the telescopic distance of the fourth electric push rod 401 can be conveniently detected.

In this embodiment, the inside of the machining center mechanism 1 is fixedly connected with a cutter mechanism 2, the cutter mechanism 2 includes a motor 201 welded and fixed on the inner top wall of the box 102, an output shaft of the motor 201 is fixedly connected with a lead screw 202, an outer wall of the lead screw 202 is connected with a wire block 203 in a threaded manner, an outer wall of the wire block 203 is movably connected with a fixing box 204, the fixing box 204 is fixedly connected to the inner top wall of the box 102, and a cutter body 205 is fixedly connected to the bottom of the wire block 203.

The working principle of the above embodiment is as follows:

this numerical control machining center equipment, it rotates to drive pivot 303 and antiskid cover 304 through motor 307, fifth electric putter 305 on the support 301 drives non slipping spur 306 and presss from both sides tight antiskid cover 304, it is spacing to have made things convenient for pivot 303, then it steadily rotates on spout body 310 to drive smooth body 309 on the carousel 308 through pivot 303, then drive fourth electric putter 401 through carousel 308 and rotate, it reciprocates to drive third electric putter 402 by fourth electric putter 401, it controls about to drive second electric putter 404 by third electric putter 402, it reciprocates to drive to press from both sides mechanism 5 by second electric putter 404, then it presss from both sides the material of material case 302 inside to drive splint 504 and slipmat 505 through pressing from both sides the first electric putter on the mechanism 5 and press from both sides, it gets the material loading to have made things convenient for carrying out the automatic clamp to the material and get.

The electrical components shown herein are electrically connected to a main controller and a power supply, the main controller can be a conventional known device controlled by a computer, and the conventional power connection technology disclosed in the prior art is not described in detail herein.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present application have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a numerical control machining center equipment, gets mechanism (5) including pressing from both sides, its characterized in that: the clamping mechanism (5) comprises a fixing frame (501), a first displacement sensor (502) is fixedly connected to the top of the fixing frame (501), a first electric push rod (503) is fixedly connected to the inside of the fixing frame (501), a clamping plate (504) is fixedly connected to the telescopic end of the first electric push rod (503), an anti-slip pad (505) is fixedly connected to one end, away from the first electric push rod (503), of the clamping plate (504), a second displacement sensor (506) is fixedly connected to the left side of the clamping plate (504), and the second displacement sensor (506) is electrically connected with the first electric push rod (503).

2. The numerical control machining center apparatus according to claim 1, characterized in that: the top of the clamping mechanism (5) is fixedly connected with a lifting mechanism (4), the lifting mechanism (4) comprises a second electric push rod (404) fixedly connected with the top of the fixed frame (501), the second electric push rod (404) is electrically connected with the first displacement sensor (502), the left side of the second electric push rod (404) is fixedly connected with the second displacement sensor (506), a third electric push rod (402) is fixedly connected to one side of the second electric push rod (404) far away from the second displacement sensor (506), the second displacement sensor (506) is electrically connected with the third electric push rod (402), the top of the third electric push rod (402) is fixedly connected with a third displacement sensor (403), the bottom of the third electric push rod (402) is fixedly connected with a fourth electric push rod (401), the third displacement sensor (403) is electrically connected with the fourth electric push rod (401).

3. The numerical control machining center apparatus according to claim 2, characterized in that: the bottom of the lifting mechanism (4) is fixedly connected with a rotating mechanism (3), the rotating mechanism (3) comprises a rotating disc (308) fixedly connected to the bottom of a fourth electric push rod (401), the bottom of the rotating disc (308) is fixedly connected with a rotating shaft (303), the outer wall of the rotating shaft (303) is movably connected with a support (301), the front of the support (301) is movably connected with a material box (302), the outer wall of the rotating shaft (303) is fixedly connected with an anti-skidding sleeve (304), the bottom of the support (301) is fixedly connected with a fifth electric push rod (305), the telescopic end of the fifth electric push rod (305) is fixedly connected with an anti-skidding block (306), the bottom of the rotating shaft (303) is fixedly connected with a motor (307), the output end of the motor (307) is fixedly connected with the end of the rotating shaft (303), and the bottom of the rotating disc (308) is fixedly connected with a skidding body (309), the outer wall of the sliding body (309) is movably connected with a sliding groove body (310), and the bottom of the sliding groove body (310) is fixedly connected with the bracket (301).

4. A numerical control machining center apparatus according to claim 3, characterized in that: the bottom fixedly connected with machining center mechanism (1) of slewing mechanism (3), machining center mechanism (1) fixed connection is in box (102) of support (301) bottom, the bottom fixedly connected with base (101) of box (102), the left side of box (102) just is located top fixedly connected with control box (103) of base (101), the right side of control box (103) just extends to the inside fixedly connected with solid fixed cylinder (104) of box (102), the inside swing joint of solid fixed cylinder (104) has triangle chuck (105).

5. The cnc machining center apparatus according to claim 4, wherein: the machining center is characterized in that a cutter mechanism (2) is fixedly connected to the inside of the machining center mechanism (1), the cutter mechanism (2) comprises a motor (201) fixedly connected to the inner top wall of the box body (102), an output shaft of the motor (201) is fixedly connected with a lead screw (202), a wire block (203) is in threaded connection with the outer wall of the lead screw (202), a fixing box (204) is movably connected to the outer wall of the wire block (203), the fixing box (204) is fixedly connected to the inner top wall of the box body (102), and a cutter body (205) is fixedly connected to the bottom of the wire block (203).

6. The numerical control machining center apparatus according to claim 1, characterized in that: the fixing frame (501) is in an inverted U shape, the number of the first electric push rods (503) and the number of the clamping plates (504) are two, and the anti-skid pad (505) is a rubber anti-skid pad.

7. A numerical control machining center apparatus according to claim 3, characterized in that: the number of the fifth electric push rod (305) and the number of the anti-skid blocks (306) are two, the anti-skid blocks (306) are rubber anti-skid blocks, and the anti-skid sleeves (304) are rubber anti-skid sleeves.

8. A numerical control machining center apparatus according to claim 3, characterized in that: the motor (307) is a servo motor, the cross section of the chute body (310) is in a circular ring shape, the longitudinal section of the chute body (310) is in an inverted C shape, and the cross section of the sliding body (309) is in a circular ring shape.

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