CN216229567U - Ultrasonic cutting machine of multiaxis linkage - Google Patents

Abstract

The utility model discloses a multi-axis linkage ultrasonic cutting machine which comprises a bottom shell, wherein a top shell is attached to the upper portion of the outer wall of the bottom shell, a body is arranged below the inner cavity of the top shell, one ends of two bent rods are connected with groove plates in a sliding mode, sliding blocks are fixedly connected to one sides of the two groove plates, the two sliding blocks are connected to two sides of the outer wall of the bottom shell in a sliding mode through two sliding grooves respectively, and one sides of the two groove plates are fixedly connected to two sides of the outer wall of the top shell respectively. This ultrasonic cutting machine of multiaxis linkage through the cooperation between bull stick, curved bar, frid, slider and the spout, and wobbling curved bar accessible links to each other with the slip of frid and drives a shell and slider and carry out stable back-and-forth movement at the inner wall of spout, and then makes a shell can drive the body and cut around carrying out, has solved that current ultrasonic cutting machine can only carry out single transverse cutting mostly, is difficult to carry out the multi-angle cutting, leads to the relatively lower problem of practicality.

Description

Ultrasonic cutting machine of multiaxis linkage

Technical Field

The utility model relates to the technical field of ultrasonic cutting machines, in particular to a multi-axis linkage ultrasonic cutting machine.

Background

The ultrasonic cutting machine is an ultrasonic device specially used for cutting, is one of important categories of ultrasonic application, has a principle completely different from that of the traditional cutting, and utilizes the energy of ultrasonic waves to heat and melt the local part of a material to be cut, thereby achieving the purpose of cutting the material.

Some ultrasonic cutting machine that have now can only carry out single horizontal cutting mostly when using, are difficult to carry out the multi-angle cutting, lead to the practicality relatively lower, and cutting machine be relatively fixed at the objective table, when needs rotate the material, still need manual rotation material, comparatively inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a multi-shaft linkage ultrasonic cutting machine, which aims to solve the problem that most of the existing ultrasonic cutting machines in the background technology can only perform single transverse cutting, are difficult to perform multi-angle cutting and have relatively low practicability.

In order to achieve the purpose, the utility model provides the following technical scheme: a multi-axis linkage ultrasonic cutting machine comprises a bottom shell, wherein a top shell is attached to the upper portion of the outer wall of the bottom shell, a body is arranged below the inner cavity of the top shell, and moving mechanisms are arranged on two sides of the bottom shell;

the moving mechanism comprises a rotating rod, a curved rod, a groove plate, a sliding block and a sliding groove;

the bull stick passes through the bearing and rotates the bottom that links to each other in the drain pan, the equal rigid coupling in both ends of bull stick has the knee, two the one end of knee all slides and links to each other there is the frid, two the equal rigid coupling in one side of frid has the slider, two the slider slides respectively through two spouts and links to each other in the outer wall both sides of drain pan, two one side difference rigid coupling of frid in the outer wall both sides of top shell.

Preferably, a driving mechanism is arranged below the inner cavity of the bottom shell;

the driving mechanism comprises a worm, a handle and a worm wheel;

two the worm passes through the bearing and rotates respectively and links to each other in the positive both sides of drain pan, two the equal rigid coupling of one end of worm has the handle, two the top of worm all meshes and links to each other has the worm wheel, two the inner chamber of worm wheel rigid coupling respectively in the outer wall both sides of bull stick.

Preferably, the second motor is installed to the inner chamber one side of top shell, the output rigid coupling of second motor has the screw rod, the one end of screw rod is passed through the bearing and is rotated and link to each other in the inner chamber one side of top shell, the outer wall screw thread of screw rod links to each other there is the screw thread piece, the screw thread piece slides through leading to the groove and links to each other in the inner chamber top of top shell.

Preferably, the base is installed in the bottom four corners of drain pan all.

Preferably, the inner cavity of the bottom shell is provided with a rotating mechanism;

the rotating mechanism comprises a first motor, a gear ring, a cylinder body, a ring body and an object stage;

the first motor is installed in inner chamber one side of drain pan, the output rigid coupling of first motor has the gear, one side meshing of gear links to each other there is the ring gear, the inner chamber rigid coupling of ring gear has the barrel, the outer wall bottom of barrel rotates through the bearing and links to each other there is the ring body, the ring body rigid coupling is in the inner chamber below of drain pan, the top rigid coupling of barrel has the objective table.

Compared with the prior art, the utility model has the beneficial effects that: the utility model has scientific and reasonable structure and safe and convenient use.

This ultrasonic cutting machine of multiaxis linkage, through the bull stick, the curved bar, the frid, cooperation between slider and the spout, make the device when using, the rotation of bull stick can drive the curved bar swing, and wobbling curved bar accessible links to each other with the slip of frid and drives top shell and slider and carry out stable back-and-forth movement at the inner wall of spout, and then make top shell can drive the body and cut around going on, it can only carry out single transverse cutting to have solved current ultrasonic cutting machine mostly, be difficult to carry out multi-angle cutting, lead to the relatively lower problem of practicality.

Through the cooperation between first motor, gear, ring gear, barrel and the ring body for the device is when using, and first motor can drive gear revolve, and the meshing of pivoted gear accessible and ring gear links to each other and drives the barrel and use the ring body to rotate as the center, and the barrel can drive the objective table and rotate this moment, and then the angle of processing of directly adjustable material, and is comparatively convenient.

Through the cooperation between worm, handle and the worm wheel for the device is when using, and user's accessible handle rotates the worm and rotates, and the meshing of pivoted worm accessible and worm wheel links to each other and drives the bull stick and rotate, and the meshing between accessible worm and the worm wheel links to each other the realization to the auto-lock of bull stick, further made things convenient for user's operation.

Drawings

FIG. 1 is a schematic diagram of the connection relationship of the present invention;

FIG. 2 is a cross-sectional structural view of the top shell, gears and body of FIG. 1;

FIG. 3 is a schematic view of the structure of the bottom case, the slider and the crank of FIG. 2;

fig. 4 is a schematic structural view of the ring gear, the gear and the bottom case of fig. 2.

In the figure: 1. bottom shell, 2, top shell, 3, body, 4, moving mechanism, 401, rotating rod, 402, curved rod, 403, grooved plate, 404, sliding block, 405, sliding groove, 5, driving mechanism, 501, worm, 502, handle, 503, worm wheel, 6, rotating mechanism, 601, first motor, 602, gear, 603, gear ring, 604, cylinder, 605, ring body, 606, objective table, 7, second motor, 8, screw, 9, thread block, 10, through groove, 11, base.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a multi-axis linkage ultrasonic cutting machine comprises a bottom shell 1, a top shell 2 is attached to the upper portion of the outer wall of the bottom shell 1, a body 3 is arranged below the inner cavity of the top shell 2, the body 3 is an ultrasonic cutting knife, moving mechanisms 4 are arranged on two sides of the bottom shell 1, each moving mechanism 4 comprises a rotating rod 401, a bent rod 402, a groove plate 403, a sliding block 404 and a sliding groove 405, the rotating rods 401 are connected to the bottom of the bottom shell 1 in a rotating mode through bearings, the two ends of each rotating rod 401 are fixedly connected with the bent rods 402, so that the rotating rods 401 can drive the two bent rods 402 to swing synchronously, one ends of the two bent rods 402 are connected with the groove plates 403 in a sliding mode, the sliding blocks 404 are fixedly connected to one sides of the two groove plates 403, the two sliding blocks 404 are respectively connected to two sides of the outer wall of the bottom shell 1 in a sliding mode through the two sliding grooves 405, and the swinging bent rods 402 can drive the sliding blocks 404 to move back and forth on the inner wall of the sliding grooves 405 through the sliding connection of the groove plates 403, one side of two frid 403 is rigid coupling respectively in the outer wall both sides of top shell 2, and frid 403 can drive top shell 2 back-and-forth movement, and then can realize that body 3 cuts the front and back of material.

A driving mechanism 5 is arranged below the inner cavity of the bottom shell 1, the driving mechanism 5 comprises a worm 501, a handle 502 and a worm wheel 503, the two worms 501 are respectively connected with the two sides of the front surface of the bottom shell 1 in a rotating way through bearings, one end of each of the two worms 501 is fixedly connected with the handle 502, so that the handle 502 can drive the worm 501 to rotate, the tops of the two worms 501 are respectively connected with the worm wheel 503 in a meshing way, the inner cavities of the two worm wheels 503 are respectively and fixedly connected with the two sides of the outer wall of the rotating rod 401, so that the rotation of the worm 501 can drive the rotating rod 401 to rotate through the meshing connection with the worm wheel 503, one side of the inner cavity of the top shell 2 is driven to be provided with a second motor 7, a user can select the type of the second motor 7 according to actual requirements, the output end of the second motor 7 is fixedly connected with a screw 8, one end of the screw 8 is connected with one side of the inner cavity of the top shell 2 through a bearing in a rotating way, the rotating stability of the screw 8 is increased, and the outer wall of the screw 8 is connected with a thread block 9, the thread block 9 is connected with the top of the inner cavity of the top shell 2 through the through groove 10 in a sliding mode, the rotating screw rod 8 can drive the thread block 9 to move transversely on the inner wall of the through groove 10, the thread block 9 can drive the body 3 to move transversely to cut, the base 11 is installed at four corners of the bottom shell 1, and the forehead bottom shell 1 is prevented from being corroded by contact with the ground.

The inner cavity of the bottom shell 1 is provided with a rotating mechanism 6, the rotating mechanism 6 comprises a first motor 601, a gear 602, a gear ring 603, a cylinder 604, a ring body 605 and an object stage 606, the first motor 601 is installed at one side of the inner cavity of the bottom shell 1, a user can select the type of the first motor 601 according to actual requirements, the output end of the first motor 601 is fixedly connected with the gear 602, so that the first motor 601 can drive the gear 602 to rotate, one side of the gear 602 is engaged with and connected with the gear ring 603, the inner cavity of the gear ring 603 is fixedly connected with the cylinder 604, the rotatable gear 602 can drive the cylinder 604 to rotate through engagement with the gear ring 603, the bottom of the outer wall of the cylinder 604 is rotatably connected with the ring body 605 through a bearing, the ring body 605 is fixedly connected below the inner cavity of the bottom shell 1, the ring body 605 can fix the rotation position of the cylinder 604, the top of the cylinder 604 is fixedly connected with the objective table 606, so that the cylinder 604 can drive the objective table 606 to rotate, and further drive the material on the top of the objective table 606 to adjust the processing angle.

When the multi-axis linkage ultrasonic cutting machine is used, materials are firstly placed on the upper surface of an objective table 606, at the moment, a first motor 601 is connected with an external power supply, the first motor 601 can drive a gear 602 to rotate, the rotating gear 602 can drive a cylinder body 604 to rotate by taking a ring body 605 as a center through being meshed with a gear ring 603, at the moment, the cylinder body 604 can drive the objective table 606 to rotate, and further the processing angle of the materials can be directly adjusted, when the transverse cutting is needed, a user can connect a second motor 7 with the external power supply, so that the rotation of a screw 8 can drive a thread block 9 to transversely move on the inner wall of a through groove 10, further the thread block 9 can drive a body 3 to transversely cut, when the front and back direction cutting is needed, the user can drive a worm 501 to rotate through a handle 502, and the rotating worm 501 can drive a rotating rod 401 to rotate through being meshed with the worm wheel 503, and the meshing between accessible worm 501 and the worm wheel 503 links to each other and realizes the auto-lock to bull stick 401, and the rotation of bull stick 401 can drive curved bar 402 swing, and wobbling curved bar 402 accessible link to each other with the slip of frid 403 and drive top shell 2 and slider 404 and carry out stable back-and-forth movement at the inner wall of spout 405, and then make top shell 2 can drive body 3 and cut from beginning to end.

Although embodiments of the present invention 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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an ultrasonic cutting machine of multiaxis linkage, includes drain pan (1), the laminating of the outer wall top of drain pan (1) has top shell (2), the inner chamber below of top shell (2) is equipped with body (3), its characterized in that: two sides of the bottom shell (1) are provided with moving mechanisms (4);

the moving mechanism (4) comprises a rotating rod (401), a curved rod (402), a groove plate (403), a sliding block (404) and a sliding groove (405);

the utility model discloses a bottom of drain pan (1) is linked to each other through the bearing rotation to bull stick (401), the equal rigid coupling in both ends of bull stick (401) has curved bar (402), two the one end of curved bar (402) all slides and has linked to each other frid (403), two the equal rigid coupling in one side of frid (403) has slider (404), two slider (404) slide respectively through two spout (405) and link to each other in the outer wall both sides of drain pan (1), two one side difference rigid coupling of frid (403) in the outer wall both sides of top shell (2).

2. The ultrasonic multi-axis linkage cutting machine according to claim 1, wherein: a driving mechanism (5) is arranged below the inner cavity of the bottom shell (1);

the driving mechanism (5) comprises a worm (501), a handle (502) and a worm wheel (503);

two worm (501) rotate respectively through the bearing and link to each other in the positive both sides of drain pan (1), two the equal rigid coupling in one end of worm (501) has handle (502), two the top of worm (501) all meshes and has linked to each other worm wheel (503), two the inner chamber rigid coupling respectively in the outer wall both sides of bull stick (401).

3. The ultrasonic multi-axis linkage cutting machine according to claim 1, wherein: second motor (7) are installed to the inner chamber one side of top shell (2), the output rigid coupling of second motor (7) has screw rod (8), the one end of screw rod (8) passes through the bearing and rotates and link to each other in the inner chamber one side of top shell (2), the outer wall screw thread of screw rod (8) links to each other threaded block (9), threaded block (9) slide through leading to groove (10) and link to each other in the inner chamber top of top shell (2).

4. The ultrasonic multi-axis linkage cutting machine according to claim 1, wherein: the base (11) are installed at four corners of the bottom shell (1).

5. The ultrasonic multi-axis linkage cutting machine according to claim 1, wherein: the inner cavity of the bottom shell (1) is provided with a rotating mechanism (6);

the rotating mechanism (6) comprises a first motor (601), a gear (602), a gear ring (603), a cylinder (604), a ring body (605) and an object stage (606);

the first motor (601) is installed on one side of an inner cavity of the bottom shell (1), a gear (602) is fixedly connected to an output end of the first motor (601), a gear ring (603) is connected to one side of the gear (602) in a meshed mode, a cylinder (604) is fixedly connected to the inner cavity of the gear ring (603), a ring body (605) is connected to the bottom of the outer wall of the cylinder (604) through a bearing in a rotating mode, the ring body (605) is fixedly connected to the lower portion of the inner cavity of the bottom shell (1), and an object carrying table (606) is fixedly connected to the top of the cylinder (604).

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