CN112873303B - Polyurethane material shaping and cutting device for new energy automobile - Google Patents

Abstract

The application relates to a cutting device, in particular to a polyurethane material shaping and cutting device for a new energy automobile. The technical problem is to provide the polyurethane material shaping and cutting device for the new energy automobile, which can automatically cut, push materials automatically and is simple to operate. The technical scheme is that the polyurethane material shaping cutting device for the new energy automobile comprises: a base; a workbench is arranged on one side of the upper part of the base; the first support is arranged on one side of the top of the workbench; the motor is arranged on one side of the top of the first bracket; the transmission assembly is arranged on the first bracket; the cutting assembly is arranged in the middle of the first bracket. The beneficial effects of the application are as follows: under the effect of firm subassembly, when first movable frame removes, can drive the second contact pole and remove, when second movable frame and material board contact, can press from both sides the material board tightly for the position can not take place the skew when the material board is cut.

Description

Polyurethane material shaping and cutting device for new energy automobile

Technical Field

The application relates to a cutting device, in particular to a polyurethane material shaping and cutting device for a new energy automobile.

Background

The polyurethane material is polyurethane for short and is a high polymer material. Polyurethane is an emerging organic polymer material, and is widely applied to various fields of national economy due to the excellent performance of the polyurethane.

People need carry out cutting work to polyurethane material board at the in-process of producing polyurethane material board for its size that can cooperate new energy automobile, at present people all are manual with polyurethane material board fixed, then carry out cutting work through removing the cutting knife, and the operation can cause the damage and the omission of partial material board like this, can cause the condition that wastes time and energy moreover, and the cutting knife also can lead to its injury with leading to the operator contact, so that reduction work efficiency and increased the cost of labor.

Therefore, it is particularly needed to design a polyurethane material shaping and cutting device for new energy automobiles, which can automatically cut, push materials automatically and is simple to operate, so that most of trouble and danger possibly brought by manual operation are saved, and the working efficiency is improved, so that the defects are overcome.

Disclosure of Invention

In order to overcome the damage and omission of part of the material plate and the condition that time and labor are wasted, the cutter may be damaged due to contact with an operator, so that the working efficiency is reduced and the labor cost is increased, and the technical problems are that: the polyurethane material shaping and cutting device for the new energy automobile can automatically cut, push materials automatically and is simple to operate.

The technical proposal is as follows: polyurethane material design cutting device for new energy automobile includes: a base; a workbench is arranged on one side of the upper part of the base; the first support is arranged on one side of the top of the workbench; the motor is arranged on one side of the top of the first bracket; the transmission assembly is arranged on the first bracket; the cutting assembly is arranged in the middle of the first bracket.

Further, the transmission assembly includes: the first transmission shaft is arranged on an output shaft of the motor and is rotationally connected with the first bracket; the upper middle part of the first transmission shaft is provided with a worm; the middle side of the top of the first bracket is provided with a first bearing; the first transmission rod is rotationally arranged on the first bearing; the turbine is arranged on the upper side of the first transmission rod, and the turbine and the worm are mutually matched; the middle part of the first transmission rod is provided with a first rotary table; the lower side of the first transmission rod is provided with a gear-missing wheel; the driving lever is arranged on the outer side of the first rotating disc.

Further, the cutting assembly includes: the second bracket is symmetrically arranged on one side of the middle part of the first bracket; the first guide rod is arranged between the lower sides of the second brackets; the first movable frame is arranged on one side of the first guide rod in a sliding manner; the middle side of the top of the first movable frame is provided with a first contact rod, and the first contact rod is matched with the deflector rod; the cutter is arranged at the lower side of the first movable frame; the first spring is connected between the first movable frame and the second bracket at one side.

Further, still including the feeding subassembly, the feeding subassembly is including: the middle part of one side of the first bracket is rotatably provided with a second transmission rod; the first gear is arranged on the upper side of the second transmission rod, and the first gear is meshed with the gear lack; the lower side of the second transmission rod is provided with a first bevel gear; the lower part of one side of the first bracket is rotatably provided with a second transmission shaft; the middle part of the second transmission shaft is provided with a second bevel gear, and the first bevel gear is meshed with the second bevel gear; the first driving wheel is arranged on two sides of the second driving shaft; the third transmission shafts are rotatably arranged on two sides of the upper part of the base; the second driving wheel is arranged on two sides of the third driving shaft on one side; a belt is wound between the first driving wheel and the second driving wheel on the same side; the middle part of the third transmission shaft on one side is provided with a third transmission wheel; a fourth driving wheel is arranged in the middle of the third driving shaft on the other side; and a conveyor belt is wound between the third driving wheel and the fourth driving wheel.

Further, still including firm subassembly, firm subassembly is including: the second guide rod is symmetrically arranged on one side of the top of the workbench; the sliding blocks are arranged on the upper sides of the second guide rods in a sliding mode; the second springs are respectively sleeved on the second guide rods; the second movable frame is arranged between the sliding blocks; the contact plate is arranged at the top of the second movable frame; and the second contact rod is arranged on one side of the first movable frame, and the second contact rod is matched with the contact plate.

Further, still including the unloading subassembly, the unloading subassembly is including: the third brackets are arranged on two sides of the upper part of the base; a blanking cylinder is arranged between the upper sides of the third brackets; the sliding plate is symmetrically and slidably arranged on the lower side of the blanking cylinder; the outer part of one side of the sliding plate is provided with the wedge block in a sliding manner; the third springs are connected between the wedge blocks on the same side and the sliding plate; the third contact rods are symmetrically arranged on two sides of the conveyor belt and are matched with the wedge-shaped blocks; the middle part of one side of the blanking cylinder is symmetrically provided with a fourth contact rod, and the fourth contact rod is matched with the wedge block; the baffle plate is symmetrically arranged on one side of the top of the base; and the fourth springs are connected between the baffle plates on the same side and the sliding plate.

Further, still include the subassembly of counterpoint, the subassembly of counterpoint includes: the support frame is symmetrically arranged on one side of the top of the workbench; the inner sides of the support frames are respectively provided with a slide bar; the clamping plates are arranged on the inner sides of the sliding rods in a sliding manner; and the fifth springs are connected between the clamping plates on the same side and the supporting frame, and are sleeved on the sliding rods respectively.

Further, the cutter is made of stainless steel.

The application has the following advantages:

1. under the effect of cutting assembly, people place the material board on the workstation, and people start the motor, through under the transmission, can drive the driving lever and rotate, when driving lever and first contact lever contact, can drive first contact lever and remove to the right side, first contact lever can drive first movable frame and cutter and remove to the right side, when cutter and material board contact, can cut the material board, the effectual work efficiency who improves people.

2. Under the effect of firm subassembly, when first movable frame removes, can drive the second contact pole and remove, when second movable frame and material board contact, can press from both sides the material board tightly for the position can not take place the skew when the material board is cut.

3. Under the effect of counterpoint subassembly, when the material board removes the feeding to the front side, the material board left and right sides can be contacted with the splint, can drive the splint simultaneously and remove to the outside for the position of material board feeding is accurate under the spacing effect of splint, has improved the precision of cutting.

Drawings

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a schematic perspective view of a first part of the present application.

Fig. 3 is a schematic perspective view of a second part of the present application.

Fig. 4 is a schematic perspective view of a third part of the present application.

Fig. 5 is a schematic perspective view of a fourth part of the present application.

Fig. 6 is a schematic perspective view and a sectional view of a fifth part of the present application.

Fig. 7 is a schematic perspective view of a sixth part of the present application.

Meaning of reference numerals in the drawings: 1: base, 2: workstation, 3: first support, 4: motor, 5: transmission assembly, 501: first drive shaft, 502: worm, 503: turbine, 504: first transfer lever, 505: first bearing, 506: first turntable, 507: gear-missing, 508: deflector rod, 6: cutting assembly, 601: second rack, 602: first guide bar, 603: first movable frame, 604: first contact lever, 605: cutter, 606: first spring, 7: feeding assembly, 701: second transfer bar, 702: first gear, 703: first bevel gear, 704: second drive shaft, 705: second bevel gear, 706: first drive wheel, 707: third drive shaft, 708: second drive wheel, 709: belt, 710: third drive wheel, 711: fourth drive wheel, 712: conveyor belt, 8: stabilizing assembly, 801: slider, 802: second guide bar, 803: second spring, 804: second movable rack, 805: contact plate, 806: second contact lever, 9: unloading subassembly, 901: third rack, 902: blanking barrel 903: slide plate, 904: wedge block, 905: third spring, 906: third contact lever 907: fourth contact lever, 908: baffle, 909: fourth spring, 10: alignment assembly, 1001: support frame, 1002: slide bar, 1003: clamping plate, 1004: and a fifth spring.

Detailed Description

The following describes the technical scheme with reference to specific embodiments, and it should be noted that: terms indicating orientations, such as up, down, left, right, etc., are used herein only with respect to the position of the illustrated structure in the corresponding drawings. The parts themselves are numbered herein, for example: first, second, etc. are used solely to distinguish between the described objects and do not have any sequential or technical meaning. The application is as follows: connection, coupling, unless specifically stated otherwise, includes both direct and indirect connection (coupling).

Example 1

The utility model provides a polyurethane material design cutting device for new energy automobile, as shown in fig. 1, fig. 2 and fig. 3, including base 1, workstation 2, first support 3, motor 4, drive assembly 5 and cutting assembly 6, base 1 upper portion front side is equipped with workstation 2, and workstation 2 top front side is equipped with first support 3, and first support 3 top left side is equipped with motor 4, is equipped with drive assembly 5 on the first support 3, and first support 3 middle part is equipped with cutting assembly 6.

The transmission assembly 5 comprises a first transmission shaft 501, a worm 502, a turbine 503, a first transmission rod 504, a first bearing 505, a first rotating disc 506, a gear lack 507 and a deflector rod 508, wherein the first transmission shaft 501 is arranged on an output shaft of the motor 4, the first transmission shaft 501 is rotationally connected with the first bracket 3, the worm 502 is arranged in the middle of the upper part of the first transmission shaft 501, the first bearing 505 is arranged on the middle side of the top of the first bracket 3, the first transmission rod 504 is rotationally arranged on the first bearing 505, the turbine 503 is arranged on the upper side of the first transmission rod 504, the turbine 503 and the worm 502 are mutually matched, the first rotating disc 506 is arranged in the middle of the first transmission rod 504, the gear lack 507 is arranged on the lower side of the first transmission rod 504, and the deflector rod 508 is arranged on the outer side of the first rotating disc 506.

The cutting assembly 6 comprises a second support 601, a first guide rod 602, a first movable frame 603, a first contact rod 604, cutters 605 and a first spring 606, wherein the second support 601 is symmetrically arranged on the left side and the right side of the front side of the middle of the first support 3, the first guide rod 602 is arranged between the lower sides of the second supports 601, the first movable frame 603 is arranged on the left side of the first guide rod 602 in a sliding manner, the first contact rod 604 is arranged on the middle side of the top of the first movable frame 603, the first contact rod 604 and the deflector 508 are mutually matched, the cutters 605 are arranged on the lower side of the first movable frame 603, and the first springs 606 are connected between the first movable frame 603 and the second support 601 on the left side.

People place the material board on workstation 2, people start motor 4, the output shaft of motor 4 can drive first transmission shaft 501 and rotate, first transmission shaft 501 can drive worm 502 and rotate, worm 502 can drive turbine 503 and rotate, turbine 503 can drive first transfer line 504 and rotate, first transfer line 504 can drive first carousel 506, driving lever 508 and lack gear 507 and rotate, when driving lever 508 and first contact lever 604 contact, can drive first contact lever 604 to move to the right side, first contact lever 604 can drive first movable frame 603 and cutter 605 to move to the right side, first spring 606 is stretched, when cutter 605 and material board contact, can cut the material board, when driving lever 508 breaks away from with first contact lever 604, because the reset effect of first spring 606 can drive first movable frame 603 and cutter 605 to move to the left side and reset, after the work is accomplished, people close motor 4, take out the material board.

Example 2

On the basis of the embodiment 1, as shown in fig. 4, 5, 6 and 7, the feeding assembly 7 is further included, the feeding assembly 7 includes a second transmission rod 701, a first gear 702, a first bevel gear 703, a second transmission shaft 704, a second bevel gear 705, a first transmission wheel 706, a third transmission shaft 707, a second transmission wheel 708, a belt 709, a third transmission wheel 710, a fourth transmission wheel 711 and a transmission belt 712, the middle part of the rear side of the first bracket 3 is rotatably provided with the second transmission rod 701, the upper side of the second transmission rod 701 is provided with the first gear 702, the first gear 702 is meshed with the gear lack 507, the lower side of the second transmission rod 701 is provided with the first bevel gear 703, the lower part of the rear side of the first bracket 3 is rotatably provided with the second transmission shaft 704, the middle part of the second transmission shaft 704 is provided with the second bevel gear 705, the first transmission wheel 706 is meshed with the second bevel gear 705, the front and rear sides of the base 1 are rotatably provided with the third transmission shafts, the left and right sides of the third transmission wheel 707 are rotatably provided with the second transmission wheels 708, the middle part of the third transmission wheel 710 is provided with the third transmission wheels 710 is wound around the third transmission wheels 707, and the third transmission wheel 710 is provided with the middle part of the third transmission wheels 710 is provided with the front and the fourth transmission wheels 707.

One can place the material plate on the conveyor 712, when the first transmission rod 504 rotates, the gear-lack 507 is driven to rotate, when the gear-lack 507 is meshed with the first gear 702, the gear-lack 702 is driven to rotate, when the gear-lack 507 is not meshed with the first gear 702, the first gear 702 is not driven to rotate, when the first gear 702 is rotated, the second transmission rod 701 and the first bevel gear 703 are driven to rotate, the first bevel gear 703 drives the second bevel gear 705, the second bevel gear 705 drives the second transmission shaft 704 to rotate, the second transmission shaft 704 drives the first transmission shaft 706 to rotate, the first transmission shaft 706 drives the belt 709 and the second transmission shaft 708 to rotate, the second transmission shaft 708 drives the front third transmission shaft 707 to rotate, the front third transmission shaft 707 drives the third transmission shaft 710 to rotate, the third transmission shaft 710 drives the conveyor 712, the fourth transmission shaft 711 and the rear third transmission shaft 707 to move the material plate forward to the workbench 2, and the material plate is automatically fed to the transmission shaft.

Still including firm subassembly 8, firm subassembly 8 is including slider 801, second guide arm 802, second spring 803, second movable frame 804, contact plate 805 and second contact rod 806, workstation 2 top front side bilateral symmetry is equipped with second guide arm 802, the equal slidingtype of second guide arm 802 upside is equipped with slider 801, all be connected with second spring 803 between slider 801 and the workstation 2, second spring 803 overlaps respectively on second guide arm 802, be equipped with second movable frame 804 between the slider 801, second movable frame 804 top is equipped with contact plate 805, first movable frame 603 front side is equipped with second contact rod 806, mutually support between second contact rod 806 and the contact plate 805.

When the first movable frame 603 moves, the second contact rod 806 is driven to move, when the second contact rod 806 contacts the contact plate 805, the contact plate 805 drives the second movable frame 804 and the sliding block 801 to move downwards, the second spring 803 is compressed, when the second movable frame 804 contacts the material plate, the material plate is clamped, the position of the material plate when being cut cannot deviate, and when the second contact rod 806 is separated from the contact plate 805, the second movable frame 804 and the sliding block 801 are driven to move upwards to reset due to the reset action of the second spring 803.

The blanking device comprises a blanking assembly 9, wherein the blanking assembly 9 comprises a third bracket 901, a blanking barrel 902, a sliding plate 903, wedge blocks 904, third springs 905, third contact rods 906, fourth contact rods 907, baffles 908 and fourth springs 909, the third bracket 901 is arranged on the left side and the right side of the upper portion of a base 1, the blanking barrel 902 is arranged between the upper sides of the third bracket 901, the sliding plate 903 is arranged on the lower side of the blanking barrel 902 in a sliding mode, the wedge blocks 904 are arranged on the outer portion of the front side of the sliding plate 903 in a sliding mode, third springs 905 are connected between the wedge blocks 904 on the same side, third contact rods 906 are symmetrically arranged on the left side and the right side of a conveyor belt 712, the third contact rods 906 are matched with the wedge blocks 904, the fourth contact rods 907 are symmetrically arranged on the left side and the right side of the middle of the front side of the blanking barrel 902, the baffles 908 are symmetrically arranged on the left side and the right side of the rear side of the top of the base 1, and the fourth springs 909 are connected between the baffle 908 and the sliding plate 903.

When the conveyor belt 712 rotates, a plurality of material plates are placed in the blanking barrel 902, the third contact rod 906 is driven to move, when the third contact rod 906 contacts the wedge block 904, the wedge block 904 is driven to move forward, the fourth spring 909 is stretched, the lowest material plate is pushed forward to the workbench 2 by the slide plate 903, when the wedge block 904 moves forward to contact the fourth contact rod 907, the wedge block 904 moves inward, the third spring 905 is compressed, the wedge block 904 is separated from the third contact rod 906 at the moment, the slide plate 903 and the wedge block 904 are driven to move backward to reset due to the reset action of the fourth spring 909, and when the wedge block 904 is separated from the fourth contact rod 907, the wedge block 904 is driven to move outward to reset due to the reset action of the third spring 905.

The automatic positioning device is characterized by further comprising a positioning assembly 10, wherein the positioning assembly 10 comprises a support frame 1001, slide bars 1002, clamping plates 1003 and fifth springs 1004, the support frame 1001 is symmetrically arranged on the left side and the right side of the top of the workbench 2, the slide bars 1002 are arranged on the inner sides of the support frame 1001, the clamping plates 1003 are arranged on the inner sides of the slide bars 1002 in a sliding mode, the fifth springs 1004 are connected between the clamping plates 1003 on the same side and the support frame 1001, and the fifth springs 1004 are respectively sleeved on the slide bars 1002.

When the material plate moves forward for feeding, the left side and the right side of the material plate are contacted with the clamping plate 1003, meanwhile, the clamping plate 1003 is driven to move outwards, the fifth spring 1004 is compressed, the feeding position of the material plate is accurate under the limiting action of the clamping plate 1003, the cutting accuracy is improved, and when the material plate is separated from the clamping plate 1003, the clamping plate 1003 is driven to move inwards to reset under the resetting action of the fifth spring 1004.

The embodiments described above are intended to provide those skilled in the art with a full range of modifications and variations to the embodiments described above without departing from the inventive concept thereof, and therefore the scope of the application is not limited by the embodiments described above, but is to be accorded the broadest scope consistent with the innovative features recited in the claims.

Claims (5)

1. The utility model provides a polyurethane material design cutting device for new energy automobile which characterized in that includes:

a base (1);

a workbench (2), wherein one side of the upper part of the base (1) is provided with the workbench (2);

a first bracket (3) is arranged on one side of the top of the workbench (2);

a motor (4), wherein one side of the top of the first bracket (3) is provided with the motor (4);

the transmission assembly (5) is arranged on the first bracket (3);

the cutting assembly (6) is arranged in the middle of the first bracket (3);

the transmission assembly (5) comprises:

the first transmission shaft (501) is arranged on the output shaft of the motor (4), and the first transmission shaft (501) is rotationally connected with the first bracket (3);

the worm (502) is arranged at the upper middle part of the first transmission shaft (501);

the middle side of the top of the first bracket (3) is provided with a first bearing (505);

the first transmission rod (504), the first bearing (505) is rotatably provided with the first transmission rod (504);

the turbine (503), the upper side of the first transmission rod (504) is provided with the turbine (503), the turbine (503) is matched with the worm (502);

the middle part of the first transmission rod (504) is provided with a first rotary table (506);

a gear (507) is omitted, and the gear (507) is arranged at the lower side of the first transmission rod (504);

the deflector rod (508) is arranged on the outer side of the first rotary table (506);

the cutting assembly (6) comprises:

the second bracket (601) is symmetrically arranged on one side of the middle part of the first bracket (3);

the first guide rod (602) is arranged between the lower sides of the second brackets (601);

a first movable frame (603), wherein a first movable frame (603) is arranged on one side of the first guide rod (602) in a sliding manner;

the middle side of the top of the first movable frame (603) is provided with a first contact rod (604), and the first contact rod (604) is matched with the deflector rod (508);

a cutter (605), wherein the cutter (605) is arranged at the lower side of the first movable frame (603);

a first spring (606), wherein the first spring (606) is connected between the first movable frame (603) and the second bracket (601) at one side;

still including firm subassembly (8), firm subassembly (8) including:

the second guide rod (802) is symmetrically arranged on one side of the top of the workbench (2);

the sliding blocks (801) are arranged on the upper sides of the second guide rods (802) in a sliding mode;

the second springs (803) are connected between the sliding blocks (801) and the workbench (2), and the second springs (803) are respectively sleeved on the second guide rod (802);

a second movable frame (804), wherein a second movable frame (804) is arranged between the sliding blocks (801);

a contact plate (805), wherein the contact plate (805) is arranged at the top of the second movable frame (804);

and a second contact rod (806), wherein one side of the first movable frame (603) is provided with the second contact rod (806), and the second contact rod (806) is matched with the contact plate (805).

2. The polyurethane material shaping and cutting device for the new energy automobile as claimed in claim 1, further comprising a feeding assembly (7), wherein the feeding assembly (7) comprises:

the middle part of one side of the first bracket (3) is rotatably provided with a second transmission rod (701);

the first gear (702) is arranged on the upper side of the second transmission rod (701), the first gear (702) is meshed with the gear-lack (507);

a first bevel gear (703), wherein the first bevel gear (703) is arranged on the lower side of the second transmission rod (701);

the second transmission shaft (704), the lower part of one side of the first bracket (3) is rotatably provided with the second transmission shaft (704);

the second bevel gear (705), the second bevel gear (705) is arranged in the middle of the second transmission shaft (704), and the first bevel gear (703) is meshed with the second bevel gear (705);

the first driving wheels (706) are arranged on two sides of the second driving shaft (704);

the third transmission shafts (707) are rotatably arranged on two sides of the upper part of the base (1);

the second driving wheel (708) is arranged on two sides of the third transmission shaft (707) at one side;

a belt (709) is wound between the first driving wheel (706) and the second driving wheel (708) on the same side;

the middle part of the third transmission shaft (707) at one side is provided with a third transmission wheel (710);

a fourth driving wheel (711), wherein the middle part of the third driving shaft (707) on the other side is provided with the fourth driving wheel (711);

and a conveyor belt (712), wherein the conveyor belt (712) is wound between the third driving wheel (710) and the fourth driving wheel (711).

3. The polyurethane material shaping and cutting device for the new energy automobile as claimed in claim 2, further comprising a blanking component (9), wherein the blanking component (9) comprises:

the third brackets (901) are arranged on two sides of the upper part of the base (1);

a blanking cylinder (902), wherein a blanking cylinder (902) is arranged between the upper sides of the third brackets (901);

a sliding plate (903), wherein the sliding plate (903) is symmetrically arranged on the lower side of the blanking cylinder (902) in a sliding manner;

the wedge blocks (904), the outer part of one side of the sliding plate (903) is provided with the wedge blocks (904) in a sliding manner;

the third springs (905) are connected between the wedge blocks (904) on the same side and the sliding plate (903);

the third contact rods (906) are symmetrically arranged on two sides of the conveyor belt (712), and the third contact rods (906) are matched with the wedge blocks (904);

the middle part of one side of the blanking cylinder (902) is symmetrically provided with a fourth contact rod (907), and the fourth contact rod (907) is matched with the wedge block (904);

baffle (908), baffle (908) is symmetrically arranged on one side of the top of base (1);

and the fourth springs (909) are connected between the same-side baffle (908) and the sliding plate (903).

4. A polyurethane material shaping and cutting device for new energy automobiles as claimed in claim 3, and further comprising a contraposition component (10), wherein the contraposition component (10) comprises:

the support frame (1001) is symmetrically arranged on one side of the top of the workbench (2);

the sliding rods (1002) are arranged on the inner sides of the supporting frames (1001);

the clamping plates (1003) are arranged on the inner sides of the sliding rods (1002) in a sliding mode;

and a fifth spring (1004) is connected between the clamping plate (1003) on the same side and the supporting frame (1001), and the fifth springs (1004) are respectively sleeved on the sliding rod (1002).

5. The polyurethane material shaping and cutting device for new energy vehicles according to claim 4, wherein the cutter (605) is made of stainless steel.