CN112677254B - Multifunctional tongue depressor production and manufacturing equipment - Google Patents

Abstract

The invention relates to medical auxiliary equipment, in particular to multifunctional tongue depressor production and manufacturing equipment, which comprises a raw material sorting mechanism, an intermittent material pushing mechanism, a cutting and forming mechanism and a collecting mechanism, wherein the equipment can be used for adjusting raw materials in order, can be used for feeding and feeding materials intermittently, can be used for cutting and forming materials, and can be used for collecting finished products and scraps, the intermittent material pushing mechanism is connected with the two raw material sorting mechanisms, and the intermittent material pushing mechanism is connected with the cutting and forming mechanism.

Description

Multifunctional tongue depressor production and manufacturing equipment

Technical Field

The invention relates to medical auxiliary equipment, in particular to multifunctional tongue depressor production and manufacturing equipment.

Background

The tongue depressor belongs to the medical supplies commonly used in otolaryngology branch of academic or vocational study, and current production facility structure is complicated and fail to collect the sweeps that produces in the production process, need to consume artifical clearance consuming time hard, and this design is collected the mechanism through the design and is collected product and sweeps classified collection, and equipment structure is simple, production efficiency and degree of automation are higher.

Disclosure of Invention

The invention mainly solves the technical problem of providing the multifunctional tongue depressor production and manufacturing equipment, the equipment can adjust raw materials in order, the equipment can feed and feed materials intermittently, the equipment can cut materials intermittently, and the equipment can collect finished products and scraps.

In order to solve the technical problems, the invention relates to medical auxiliary equipment, in particular to multifunctional tongue depressor production and manufacturing equipment which comprises a raw material sorting mechanism, an intermittent pushing mechanism, a cutting and forming mechanism and a collecting mechanism.

The intermittent material pushing mechanism is connected with the two raw material arranging mechanisms, and the intermittent material pushing mechanism is connected with the cutting and forming mechanism.

As a further optimization of the technical scheme, the raw material sorting mechanism of the multifunctional tongue depressor production and manufacturing equipment comprises a first support rod, a first motor with a shaft, a first gear, a second gear, a first rotating shaft, a first sliding rod, a first transmission block, a first spring, a first connecting block, a first sliding block, a second sliding rod supporting frame, a right-angle adjusting block and a third sliding rod.

As a further optimization of the technical scheme, the intermittent pushing mechanism of the multifunctional tongue depressor production and manufacturing equipment comprises a plurality of second support rods, a first platform, a plurality of third support rods, a first two sliding chutes, two regulating block stroke windows, a processing cavity, a first two side baffles, a sliding rack, a square pushing head, a lifting baffle, a first piston rod, a first hydraulic cylinder, a plurality of fourth support rods, a plurality of fifth support rods, a second belt shaft motor, a third gear and a fourth gear, wherein the plurality of second support rods are connected with the first platform, the first platform is connected with the plurality of third support rods, the first platform is provided with two regulating block stroke windows, the first platform is provided with the processing cavity, the first platform is provided with the two side baffles, the first platform is contacted with the square pushing head, the first platform is connected with the plurality of fifth support rods, the first platform is connected with the fourth gear in a rotating manner, the plurality of third support rods are connected with the first two sliding chutes, the first two sliding chutes are connected with the sliding rack, the first two side baffles are connected with the lifting baffle, the sliding rack is connected with the square pushing head, the lifting baffle is connected with the first piston rod, the first hydraulic cylinder is connected with the four support rods, the gear is connected with the gear, the four gear, the second gear is connected with the four gear, and the four gear, and the motor, and the gear is connected with the four gear.

As a further optimization of the technical scheme, the cutting and forming mechanism of the multifunctional tongue depressor production and manufacturing equipment comprises a plurality of six support rods, a third motor with a shaft, a fifth gear, a sixth gear, a first support seat, a first transmission shaft, a first rotating wheel, a first connecting rod, a cutting cavity, a second sliding groove, a first sliding board and a second sliding board, wherein the six support rods are connected with the third motor with a shaft, the third motor with a shaft is rotatably connected with the fifth gear, the fifth gear is meshed with the sixth gear, the sixth gear is connected with the first transmission shaft, the first transmission shaft is rotatably connected with the first support seat, the first transmission shaft is connected with the rotating wheel, the rotating wheel is hinged with the first connecting rod, the first connecting rod is hinged with the cutting cavity, the cutting cavity is slidably connected with the second sliding groove, the cutting cavity is connected with the first sliding board, and the second sliding board is connected with the second sliding board.

As a further optimization of the technical scheme, the collecting mechanism of the multifunctional tongue depressor production and manufacturing equipment comprises a plurality of belt shaft motors four, a plurality of gears seven, a plurality of gears eight, a plurality of supporting seats two, a plurality of rotating rollers one, a conveyor belt one, a plurality of belt shaft motors five, a gear nine, a gear ten, a plurality of supporting seats three, a plurality of rotating rollers two, a conveyor belt two, a waste collecting tank, a platform two, a plurality of platform two supporting rods, a finished product collecting tank and a plurality of supporting rods seven, wherein the plurality of belt shaft motors four are connected with the plurality of supporting rods seven, the plurality of belt shaft motors four are connected with the plurality of gears seven in a rotating manner, the plurality of gears eight are connected with the plurality of rotating rollers one, the plurality of rotating rollers one are connected with the plurality of supporting seats two in a rotating manner, the plurality of belt shaft motors five are connected with the plurality of gears nine, the plurality of belt shaft motors five are connected with the platform two, the gear nine is connected with the gear ten, the gear ten is connected with the plurality of rotating rollers two, the plurality of rotating rollers are connected with the conveyor belt shaft motors five are connected with the platform two, the supporting seats are connected with the plurality of supporting seats, and the platform two rotating rollers are connected with the supporting seats.

As further optimization of the technical scheme, the second motor with the shaft is a stepping motor.

The multifunctional tongue depressor production and manufacturing equipment has the beneficial effects that:

according to the multifunctional tongue depressor production and manufacturing equipment, raw materials can be adjusted to be orderly, the equipment can feed materials intermittently, the equipment can cut materials to be formed, and the equipment can collect finished products and scraps.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first structural schematic diagram of a multifunctional tongue depressor production and manufacturing device of the invention.

Fig. 2 is a second structural schematic diagram of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 3 is a schematic structural diagram III of multifunctional tongue depressor production and manufacturing equipment.

Fig. 4 is a first structural schematic diagram of a raw material sorting mechanism 1 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 5 is a second structural schematic diagram of a raw material sorting mechanism 1 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 6 is a third structural schematic diagram of a raw material sorting mechanism 1 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 7 is a first structural schematic diagram of an intermittent pushing mechanism 2 of a multifunctional tongue depressor production and manufacturing device of the invention.

Fig. 8 is a second structural schematic diagram of an intermittent pushing mechanism 2 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 9 is a third structural schematic diagram of an intermittent pushing mechanism 2 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 10 is a first structural schematic diagram of the cutting and forming mechanism 3 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 11 is a second structural schematic diagram of the cutting and forming mechanism 3 of the multifunctional tongue depressor production and manufacturing equipment of the present invention.

Fig. 12 is a third structural schematic diagram of the cutting and forming mechanism 3 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 13 is a first structural schematic diagram of the collecting mechanism 4 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 14 is a second structural schematic diagram of the collecting mechanism 4 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

Fig. 15 is a third structural schematic diagram of the collecting mechanism 4 of the multifunctional tongue depressor production and manufacturing equipment of the invention.

In the figure: a raw material sorting mechanism 1; 1-1 of a first support rod; 1-2 of a motor with a shaft; 1-3 of a first gear; 1-4 parts of a second gear; 1-5 of a first rotating shaft; 1-6 sliding rods; 1-7 of a transmission block I; 1-8 parts of a first spring; 1-9 parts of a first connecting block; 1-10 of a first sliding block; 1-11 parts of a second sliding block; 1-12 sliding rods; a slide bar support frame 1-13; adjusting the right angle blocks 1-14; 1-15 parts of a sliding rod III; an intermittent material pushing mechanism 2; 2-1 parts of a second supporting rod; 2-2 of a platform I; supporting rods III 2-3; 2-4 of a first sliding chute; adjusting block stroke window 2-5; processing the cavity 2-6; 2-7 parts of a side baffle plate I; 2-8 of a sliding rack; 2-9 parts of a square push head; 2-10 parts of a lifting baffle; a first piston rod 2-11; 2-12 parts of a first hydraulic cylinder; 2-13 parts of a support rod; 2-14 parts of a support rod; 2-15 parts of a second motor with a shaft; gear three 2-16; gear four 2-17; a cutting and forming mechanism 3; supporting rod six 3-1; a motor III with a shaft 3-2; 3-3 parts of a gear; 3-4 parts of a gear; 3-5 parts of a first supporting seat; 3-6 parts of a first transmission shaft; 3-7 of a rotating wheel; 3-8 of a first connecting rod; 3-9 parts of a cutting cavity; 3-10 parts of a second sliding chute; 3-11 parts of a first slide; 3-12 parts of a slide II; a collecting mechanism 4; 4-1 of a motor with a shaft; gear seven 4-2; eight 4-3 gears; 4-4 parts of a second supporting seat; 4-5 of a first rotating roller; 4-6 of a first conveyor belt; 4-7 of a motor with a shaft; nine 4-8 gears; ten 4-9 gears; 4-10 parts of a supporting seat; 4-11 of a second rotating roller; 4-12 parts of a second conveyor belt; a waste collection tank 4-13; 4-14 of a second platform; 4-15 of a second platform supporting rod; a finished product collecting tank 4-16; seven support rods 4-17.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, and fig. 15, the invention relates to a medical auxiliary device, and more specifically, to a multifunctional tongue depressor production and manufacturing device, which includes a raw material sorting mechanism 1, an intermittent material pushing mechanism 2, a cutting and forming mechanism 3, and a collecting mechanism 4, and the device can adjust the raw materials in order, feed the materials intermittently, cut the materials and form the materials, and collect finished products and scraps.

The intermittent material pushing mechanism 2 is connected with the two raw material sorting mechanisms 1, and the intermittent material pushing mechanism 2 is connected with the cutting and forming mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15. The embodiment further describes the embodiment, the embodiment describes the first embodiment, the raw material sorting mechanism 1 comprises a first supporting rod 1-1, a first motor with a shaft 1-2, a first gear 1-3, a second gear 1-4, a first rotating shaft 1-5, a first sliding rod 1-6, a first transmission block 1-7, a first spring 1-8, a first connecting block 1-9, a first sliding block 1-10, a second sliding block 1-11, a second sliding rod 1-12, a supporting frame for the sliding rod 1-13, a right angle adjusting block 1-14, and a third sliding rod 1-15, the first supporting rod 1-1 is connected with the first motor with the shaft 1-2, the first motor with the shaft 1-2 is connected with the first gear 1-3, the first gear 1-3 is engaged with the second gear 1-4, the second transmission block 1-4 is connected with the first sliding block 1-10, the first sliding block 1-9, the sliding block 1-10 is connected with the sliding block 1-9, the second sliding block 1-10, the sliding block is connected with the sliding block 1-4, the sliding block 1-9, the sliding block 1-4, the sliding block is connected with the sliding block, the sliding block 1-9, two sliding blocks II 1-11 are connected with two sliding rods II 1-12 in a sliding mode, two sliding blocks II 1-11 are connected with sliding rods III 1-15, two sliding rods II 1-12 are connected with sliding rod supporting frames 1-13, a plurality of raw material wood boards are placed in the sliding blocks II, a motor I1-2 with a shaft drives a gear I1-3 to rotate, the gear I1-3 drives a gear II 1-4 to rotate, the gear II 1-4 drives a transmission block I1-7 to move, the transmission block I1-7 drives the sliding rod I1-6 to move, the sliding rod I1-6 drives a connecting block I1-9 to move, the connecting block I1-9 drives the sliding blocks I1-10 to slide on the sliding rods III 1-15, when the first sliding block 1-10 moves to a limit position, the first connecting block 1-9 continues to move to compress the first spring 1-8, meanwhile, the first sliding rod 1-6 is pressed to slide along the first transmission block 1-7, the first sliding block 1-10 drives the third sliding rod 1-15 to move, the third sliding rod 1-15 drives the second sliding blocks 1-11 to slide along the second sliding rods 1-12, the first sliding block 1-10 drives the right-angle adjusting blocks 1-14 to reciprocate in the stroke windows 2-5 of the adjusting blocks by changing the forward and reverse rotation of the first belt shaft motor 1-2, so that the equipment adjusts a plurality of raw material wood boards to be in transverse and longitudinal tidiness and conveys the raw material wood boards to a working position with the front ends in contact with the lifting baffle plates 2-10.

The third concrete implementation mode:

the embodiment is described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the embodiment further describes a first embodiment, in which the intermittent pushing mechanism 2 includes a plurality of support rods 2-1, a platform 2-2, a plurality of support rods three 2-3, two sliding chutes one 2-4, two adjusting block stroke windows 2-5, a processing cavity 2-6, two side baffles one 2-7, a sliding rack 2-8, a square push head 2-9, a lifting baffle 2-10, a piston rod one 2-11, a hydraulic cylinder one 2-12, a plurality of support rods four 2-13, a plurality of support rods five 2-14, a motor two 2-15 with a shaft, a gear three 2-16, and a gear four 2-17, the plurality of support rods II 2-1 are connected with the platform I2-2, the platform I2-2 is connected with the plurality of support rods III 2-3, the platform I2-2 is provided with two regulating block stroke windows 2-5, the platform I2-2 is provided with a processing cavity 2-6, the platform I2-2 is provided with two side baffles I2-7, the platform I2-2 is contacted with a square pushing head 2-9, the platform I2-2 is connected with the plurality of support rods V2-14, the platform I2-2 is rotatably connected with the gear IV 2-17, the plurality of support rods III 2-3 is connected with the two chutes I2-4, the two chutes I2-4 are slidably connected with the sliding rack 2-8, and the two side baffles I2-7 are slidably connected with the lifting baffles 2-10, the sliding rack 2-8 is connected with the square pushing head 2-9, the lifting baffle 2-10 is connected with the piston rod one 2-11, the piston rod one 2-11 is connected with the hydraulic cylinder one 2-12 in a sliding mode, the hydraulic cylinder one 2-12 is connected with the plurality of support rods four 2-13, the plurality of support rods five 2-14 are connected with the belt shaft motor two 2-15, the belt shaft motor two 2-15 is connected with the gear three 2-16 in a rotating mode, the gear three 2-16 is meshed with the gear four 2-17, the gear four 2-17 is meshed with the sliding rack 2-8, the hydraulic cylinder one 2-12 releases pressure to drive the piston rod one 2-11 to retract, the piston rod one 2-11 drives the lifting baffle 2-10 to slide along the two side baffle plates one 2-7 and descend to the top end to be on the same horizontal plane with the platform one 2-2, the gear three 2-15 drives the gear three 2-16 to rotate, the gear three 2-16 drives the gear four 2-17 to rotate, the gear four 2-17 drives the sliding rack 2-8 to slide along the two sliding chutes one 2-4, the square pushing head 2-8 slides, and the square pushing head is driven to intermittently and the feeding device to move forward.

The fourth concrete implementation mode:

the embodiment is described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the embodiment further describes a first embodiment, in which the cutting and forming mechanism 3 includes a plurality of support rods six 3-1, a motor three with a shaft 3-2, a gear five 3-3, a gear six 3-4, a support seat one 3-5, a transmission shaft one 3-6, a rotating wheel 3-7, a connecting rod one 3-8, a cutting cavity 3-9, two sliding chutes two 3-10, a sliding ladder one 3-11, and a sliding ladder two 3-12, in which the plurality of support rods six 3-1 are connected with the motor three with a shaft 3-2, the motor three with a shaft 3-2 is rotatably connected with the gear five 3-3, a fifth gear 3-3 is meshed with a sixth gear 3-4, the sixth gear 3-4 is connected with a first transmission shaft 3-6, the first transmission shaft 3-6 is rotatably connected with a first support seat 3-5, the first transmission shaft 3-6 is connected with a first rotating wheel 3-7, the first rotating wheel 3-7 is hinged with a first connecting rod 3-8, the first connecting rod 3-8 is hinged with a cutting cavity 3-9, the cutting cavity 3-9 is slidably connected with two second sliding chutes 3-10, the cutting cavity 3-9 is connected with a first sliding chute 3-11, the two second sliding chutes 3-10 are connected with a second sliding chute 3-12, a third motor 3-2 with a shaft drives the fifth gear 3-3 to rotate, the fifth gear 3-3 drives the sixth gear 3-4 to rotate, the sixth gear 3-4 drives the first transmission shaft 3-6 to rotate, the first transmission shaft 3-6 drives the rotating wheel 3-7 to rotate, the rotating wheel 3-7 drives the connecting rod I3-8 to move, the connecting rod I3-8 drives the cutting cavity 3-9 to slide in the two sliding chutes II 3-1, and the cutting cavity 3-9 rises to form pressure with the fixed processing cavity 2-6 to press materials to be cut and formed, so that the equipment has a cutting and forming function.

The fifth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and the present embodiment further describes the first embodiment, in which the collecting mechanism 4 includes a plurality of belt shaft motors four 4-1, a plurality of gears seven 4-2, a plurality of gears eight 4-3, a plurality of supporting seats two 4-4, a plurality of rotating rollers one 4-5, a conveyor belt one 4-6, a plurality of belt shaft motors five 4-7, a gear nine 4-8, a gear ten 4-9, a plurality of supporting seats three 4-10, a plurality of rotating rollers two 4-11, a conveyor belt two 4-12, a waste collecting tank 4-13, a platform two 4-14, a plurality of platform two supporting rods 4-15, a finished product collecting tank 4-16, a plurality of supporting rods seven 4-17, a plurality of belt shaft motors four 4-1 are connected with a plurality of support rods seven 4-17, a plurality of belt shaft motors four 4-1 are rotationally connected with a plurality of gears seven 4-2, a plurality of gears seven 4-2 are meshed with a plurality of gears eight 4-3, a plurality of gears eight 4-3 are connected with a plurality of rotating rollers one 4-5, a plurality of rotating rollers one 4-5 are rotationally connected with a plurality of support seats two 4-4, a plurality of rotating rollers one 4-5 are in friction connection with a conveyor belt one 4-6, a plurality of belt shaft motors five 4-7 are rotationally connected with a gear nine 4-8, a plurality of belt shaft motors five 4-7 are connected with a platform two 4-14, a gear nine 4-8 is meshed with a gear ten 4-9, a gear ten 4-9 is connected with a plurality of rotating rollers two 4-11, the multiple rotating rollers 4-11 are rotatably connected with the multiple supporting seats three 4-10, the multiple supporting seats three 4-10 are connected with the platform two 4-14, the multiple rotating rollers two 4-11 are in friction connection with the conveyor belt two 4-12, the platform two 4-14 is connected with the multiple platform two supporting rods 4-15, finished products slide from the cutting cavities 3-9 and drop onto the conveyor belt one 4-6 through the slide boards two 3-12, the multiple belt shaft motors four 4-1 drive the multiple gears seven 4-2 to rotate, the multiple gears seven 4-2 drive the multiple gears eight 4-3 to rotate, the multiple gears eight 4-3 drive the multiple rotating rollers one 4-5 to rotate, the multiple rotating rollers one 4-5 drive the conveyor belt one 4-6 to move to collect the finished products into the finished product collecting tanks 4-16, residual waste chips slide onto the conveyor belt two 4-12 through the slide boards one 3-11, the multiple belt shaft motors five 4-7 drive the gears nine 4-8 to rotate, the gears ten gears nine 4-8 to drive the gears 9 to rotate, the multiple gears 4-9 to drive the waste chips to rotate, the multiple conveyor belt rollers 4-11 to drive the waste chips to move, and the multiple belt rollers 11 to collect the waste chips into the finished products, and the finished products into the collecting tanks 13.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, and 15, and the first embodiment will be further described, in which the second axial motor 2-15 is a stepping motor.

The working principle of the device is as follows: the equipment can adjust raw materials orderly, a plurality of raw material boards are placed into the equipment, a first motor 1-2 with a shaft drives a first gear 1-3 to rotate, a first gear 1-3 drives a second gear 1-4 to rotate, a second gear 1-4 drives a first transmission block 1-7 to move, a first transmission block 1-7 drives a first sliding rod 1-6 to move, a first sliding rod 1-6 drives a first connecting block 1-9 to move, a first connecting block 1-9 drives a first sliding block 1-10 to slide on a third sliding rod 1-15, the first connecting block 1-9 continues to move a first compression spring 1-8 when the first sliding block 1-10 moves to limit, the first sliding rod 1-6 is pressed to slide along the first transmission block 1-7, the first sliding block 1-10 drives a third sliding rod 1-15 to move, the third sliding rod 1-15 drives two second sliding blocks 1-11 to slide along the second sliding rods 1-12, the first sliding block 1-10 drives an adjusting straight angle block 1-14 to do reciprocating motion in a stroke window 2-5 of the adjusting block by changing the forward and backward rotation of the first motor 1-2 with the shaft, so that the equipment can adjust the plurality of raw materials to be conveyed to the front end of the boards to be in a reciprocating way, and the front end of the baffle plate to be in order to be in a front end of the baffle plate to be in a working position; the equipment can intermittently feed and feed materials, a hydraulic cylinder I2-12 releases pressure to drive a piston rod I2-11 to return, the piston rod I2-11 drives a lifting baffle 2-10 to slide along two side baffles I2-7 and descend to the point that the top end is in the same horizontal plane with a platform I2-2, a belt shaft motor II 2-15 drives a gear III 2-16 to rotate at the moment, the gear III 2-16 drives a gear IV 2-17 to rotate, the gear IV 2-17 drives a sliding rack 2-8 to slide along two sliding chutes I2-4, and the sliding rack 2-8 drives a square push head 2-9 to advance to push a plurality of neat raw material plates to intermittently feed, so that the equipment has an intermittent feeding function; the equipment can cut materials to be formed; the device can collect finished products and scraps, the finished products slide from a cutting cavity 3-9 and fall onto a first conveying belt 4-6 through a second slide 3-12, a plurality of shaft motors four 4-1 drive a plurality of gears seven 4-2 to rotate, a plurality of gears seven 4-2 drive a plurality of gears eight 4-3 to rotate, a plurality of gears eight 4-3 drive a plurality of rollers one 4-5 to rotate, a plurality of rollers one 4-5 drive the first conveying belt one 4-6 to move so as to collect the finished products into a finished product collecting tank 4-16, the residual scraps slide onto a second conveying belt 4-12 through the first slide 3-11, a plurality of shaft motors five 4-7 drive gears nine 4-8 to rotate, gears nine 4-8 drive gears ten 4-9 to rotate, gears ten 4-9 drive a plurality of rollers two 4-11 to rotate, a plurality of rollers two 4-11 drive the second conveying belt 4-12 to move so as to collect the scraps into a scrap collecting tank 4-13, and the device has a function of classifying and recycling the finished products and the scraps.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of the technicians in the field, the invention belongs to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the invention does not explain the control mode and the circuit connection in detail

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (2)

1. The utility model provides a multi-functional tongue depressor production and manufacturing equipment, includes raw materials arrangement mechanism (1), intermittent type pushing equipment (2), cutting forming mechanism (3), collects mechanism (4), its characterized in that: the intermittent material pushing mechanism (2) is connected with the two raw material sorting mechanisms (1), and the intermittent material pushing mechanism (2) is connected with the cutting and forming mechanism (3);

the raw material sorting mechanism (1) comprises a first support rod (1-1), a first motor with a shaft (1-2), a first gear (1-3), a second gear (1-4), a first rotating shaft (1-5), a first sliding rod (1-6), a first transmission block (1-7), a first spring (1-8), a first connecting block (1-9), a first sliding block (1-10), a second sliding block (1-11), a second sliding rod (1-12), a sliding rod supporting frame (1-13), a right angle adjusting block (1-14) and a third sliding rod (1-15), wherein the first support rod (1-1) is connected with the first motor with the shaft (1-2), the first motor with the shaft (1-2) is rotationally connected with the first gear (1-3), the first gear (1-3) is meshed with the second gear (1-4), the second gear (1-4) is rotationally connected with the first rotating shaft (1-5), the second gear (1-4) is connected with the first transmission block (1-7), the first rotating shaft (1-5) is connected with the first sliding rod (1-7), and the first sliding rod (1-7), the transmission block I (1-7) is in contact with the spring I (1-8), the spring I (1-8) is in contact with the connecting block I (1-9), the connecting block I (1-9) is hinged with the sliding block I (1-10), the sliding block I (1-10) is connected with the adjusting right-angle block (1-14), the sliding block I (1-10) is in sliding connection with the sliding rod III (1-15), the two sliding blocks II (1-11) are in sliding connection with the two sliding rods II (1-12), the two sliding blocks II (1-11) are connected with the sliding rod III (1-15), and the two sliding rods II (1-12) are connected with the sliding rod supporting frame (1-13);

the intermittent material pushing mechanism (2) comprises a plurality of second supporting rods (2-1), a first platform (2-2), a plurality of third supporting rods (2-3), two first sliding chutes (2-4), two stroke windows (2-5) of adjusting blocks, a processing cavity (2-6), two first side baffles (2-7), a sliding rack (2-8), a square pushing head (2-9), a lifting baffle (2-10), a first piston rod (2-11), a first hydraulic cylinder (2-12), a plurality of fourth supporting rods (2-13), a plurality of fifth supporting rods (2-14), a second motor with a shaft (2-15), a third gear (2-16) and a fourth gear (2-17), the supporting rods II (2-1) are connected with the supporting rods III (2-3), the supporting rods I (2-2) are provided with two adjusting block stroke windows (2-5), the supporting rods I (2-2) are provided with processing cavities (2-6), the supporting rods I (2-2) are provided with two side baffles I (2-7), the supporting rods I (2-2) are in contact with the square push heads (2-9), and the supporting rods I (2-2) are connected with the supporting rods V (2-14) The first platform (2-2) is rotatably connected with the fourth gear (2-17), the plurality of supporting rods (2-3) are connected with the first two sliding chutes (2-4), the first two sliding chutes (2-4) are slidably connected with the sliding racks (2-8), the first two side baffles (2-7) are slidably connected with the lifting baffles (2-10), the sliding racks (2-8) are connected with the square pushing heads (2-9), the lifting baffles (2-10) are connected with the first piston rods (2-11), the first piston rods (2-11) are slidably connected with the first hydraulic cylinders (2-12), the first hydraulic cylinders (2-12) are connected with the fourth supporting rods (2-13), the fifth supporting rods (2-14) are connected with the second belt shaft motors (2-15), the second belt shaft motors (2-15) are rotatably connected with the third gears (2-16), the third gears (2-16) are meshed with the fourth gear (2-17), and the fourth gear (2-17) is meshed with the sliding racks (2-8);

the cutting and forming mechanism (3) comprises a plurality of support rods six (3-1), a motor three with a shaft (3-2), a gear five (3-3), a gear six (3-4), a support seat one (3-5), a transmission shaft one (3-6), a rotating wheel (3-7), a connecting rod one (3-8), a cutting cavity (3-9), two sliding chutes two (3-10), a slide one (3-11) and a slide two (3-12), wherein the plurality of support rods six (3-1) are connected with the motor three with the shaft (3-2), the motor three with the shaft (3-2) is rotatably connected with the gear five (3-3), the gear five (3-3) is meshed with the gear six (3-4), the gear six (3-4) is connected with the transmission shaft one (3-6), the transmission shaft one (3-6) is rotatably connected with the support seat one (3-5), the transmission shaft one (3-6) is connected with the rotating wheel (3-7), the connecting rod (3-7) is hinged with the first sliding chute (3-8), the connecting rod (3-8) is hinged with the cutting cavity (3-9), the cutting cavity (3-9) is connected with the first slide (3-11), and the two sliding chutes (3-10) are connected with the second slide (3-12);

the collecting mechanism (4) comprises a plurality of belt shaft motors four (4-1), a plurality of gears seven (4-2), a plurality of gears eight (4-3), a plurality of supporting seats two (4-4), a plurality of rotating rollers one (4-5), a conveyor belt one (4-6), a plurality of belt shaft motors five (4-7), a gear nine (4-8), a gear ten (4-9), a plurality of supporting seats three (4-10), a plurality of rotating rollers two (4-11), a conveyor belt two (4-12), a waste collecting tank (4-13), a platform two (4-14), a plurality of platform two supporting rods (4-15), a finished product collecting tank (4-16) and a plurality of supporting rods seven (4-17), wherein the plurality of belt shaft motors four (4-1) are connected with the plurality of supporting rods seven (4-17), the plurality of belt shaft motors four (4-1) are rotatably connected with the plurality of gears seven (4-2), the plurality of gears seven (4-2) are meshed with the plurality of gears eight gears (4-3), the plurality of belt shaft motors four (4-1) are rotatably connected with the plurality of gears seven (4-3), the plurality of belt shaft motors four (4-1) are rotatably connected with the plurality of gears seven (4-5) and the plurality of rollers (4-5) are connected with the plurality of the supporting seats (4-5), the multiple belt shaft motors five (4-7) are rotatably connected with the gears nine (4-8), the multiple belt shaft motors five (4-7) are connected with the platforms two (4-14), the gears nine (4-8) are meshed with the gears ten (4-9), the gears ten (4-9) are connected with the multiple rotary rollers two (4-11), the multiple rotary rollers two (4-11) are rotatably connected with the multiple supporting seats three (4-10), the multiple supporting seats three (4-10) are connected with the platforms two (4-14), the multiple rotary rollers two (4-11) are in friction connection with the conveyor belts two (4-12), and the platforms two (4-14) are connected with the multiple supporting rods (4-15) of the platforms two.

2. The production and manufacturing equipment of the multifunctional tongue depressor as claimed in claim 1, characterized in that: and the second motor (2-15) with the shaft is a stepping motor.

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