CN210094706U - Automatic safe mould cup forming machine - Google Patents

Abstract

The utility model discloses an automatic safe mould cup shaping machine, which comprises a base, wherein a placing platform is arranged on the base, the placing table is provided with a controller, the base is provided with an external power line for connecting a power supply, the base is provided with a first conveying device and a second conveying device, the utility model is provided with a transmission mechanism, the sponge on the lower die is automatically moved to the second conveying device and the first conveying device through the conveying belt, and carry out respectively and add the hot mould design and cold mould design and handle, solved current mould cup former, the design of cold and hot mould is mostly manual, has just also stereotyped the hot mould, and the manual work puts the material on the cold mould again and goes the design, and production efficiency is low, and the security performance is not high, and mould itself has nearly 200 degrees high temperatures, will scald operating personnel carelessly, causes the injured problem of operating personnel.

Description

Automatic safe mould cup forming machine

Technical Field

The utility model relates to a forming machine technical field especially relates to an automatic safe mould cup forming machine.

Background

The mould cup is the cup that a continuous process low temperature or high temperature mould design formed (press the cup promptly), then remove the car by taking these cups and become a brassiere, current mould cup modular system, the design of cold and hot mould is mostly manual, also finalize the design and accomplish the hot mould, the manual work is put the material again and is removed the design on the cold mould, production efficiency is low, the security performance is not high, mould itself has the high temperature of nearly 200 degrees, operating personnel will be scalded carelessly, cause the injured problem of operating personnel.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problems and providing an automatic, high-production-efficiency and safe mold cup setting machine.

In order to achieve the above purpose, the utility model provides a following technical scheme:

an automatic and safe mold cup setting machine comprises a base, wherein a placing table is arranged on the base, a controller is arranged on the placing table, an external power supply wire used for connecting a power supply is arranged on the base, a first conveying device and a second conveying device are arranged on the base, the first conveying device and the second conveying device respectively comprise a support, a connecting plate is connected onto the support, an electric push rod is arranged on the connecting plate, an inner rod is arranged on the electric push rod, a sliding plate is connected onto the inner rod, a supporting column is arranged on the connecting plate, a sliding column is arranged on the supporting column, an infrared sensor used for receiving infrared rays is arranged at one end, close to the base, of the sliding column, the sliding plate is connected with the sliding column in a sliding manner, a conveying mechanism is arranged on the base and comprises a conveying belt, a plurality of lower molds are arranged on the conveying belt, the improved conveyor belt is characterized in that an infrared emitter is arranged on the lower die, a rack is arranged at one end, away from the lower die, of the conveyor belt, a first gear and a second gear are meshed at two ends of the rack, a motor, a control panel and a supporting block are arranged inside the base, an output shaft of the motor is connected with the first gear, and the supporting block is connected with the second gear through a rotating rod.

As the utility model discloses a further setting, first conveyor is connected with the cold mould through the slide, and second conveyor is connected with the hot mould through the slide, first conveyor and second conveyor are located same water flat line.

As the utility model discloses a further setting, the inside electric heating pipe that is used for heating the hot mould that is provided with of hot mould, hot mould border position is provided with pressure sensor.

As a further setting of the utility model, lower mould edge both ends are provided with the briquetting, the briquetting passes through the hinge and is connected with the lower mould rotation.

As a further setting of the utility model, last microprocessor, time relay, first inductive switch, second inductive switch, third inductive switch and the fourth inductive switch of being provided with of control panel, external power cord is coupled with the controller, the controller is all coupled with microprocessor, cold mould, infrared sensor, electric heating pipe, pressure sensor and infra-red emitter, microprocessor is all coupled with first inductive switch, second inductive switch, third inductive switch and fourth inductive switch, first inductive switch and second inductive switch are coupled with electric putter, third inductive switch is coupled with time relay, fourth inductive switch is coupled with the motor.

As a further setup, infrared sensor and pressure sensor are used for transmitting signal and give microprocessor, microprocessor sends corresponding first inductive switch, second inductive switch, third inductive switch and fourth inductive switch after with signal processing, first inductive switch and second inductive switch are used for controlling electric putter's motion state, third inductive switch is used for controlling time relay's operating condition, fourth inductive switch is used for controlling motor's motion state, time relay is used for timing and transmitting signal and gives microprocessor.

The utility model has the advantages that:

the utility model is provided with a transmission mechanism on a workbench, the rotation of a gear is driven by the rotation of a motor on the transmission mechanism, thereby driving the movement of a transmission belt, then the cooperation of an infrared emitter and an infrared sensor is utilized, the infrared sensor transmits different signals to a microprocessor, then the microprocessor controls the running state of a motor through a fourth induction switch after processing the signals, thereby achieving the effect of moving and positioning a lower die, then the microprocessor controls the running of an electric push rod through a first induction switch and a second induction switch, thereby achieving the effect of automatically matching a hot die with the lower die, thereby realizing the automatic shaping of a die cup, next, the transmission belt moves the die cup after heat shaping to the bottom end of a first conveying device, the automatic cold die shaping of the die cup is realized through the first conveying device, and the prior die cup shaping equipment is effectively solved, the design of cold and hot mould is mostly manual, also finalizes the design and finishes the hot mould, and the manual work is put the material again and is gone the design on the cold mould, and production efficiency is low, and the security performance is not high, and mould itself has the high temperature of nearly 200 degrees, will scald operating personnel carelessly, causes the injured problem of operating personnel.

Drawings

The invention will be further explained with the aid of the accompanying drawings, in which, however, the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, without inventive step, further drawings can be obtained in accordance with the following drawings:

FIG. 1 is a schematic structural view of an automatic and safe mold cup forming machine of the present invention;

fig. 2 is a schematic structural view of the first conveying device and the second conveying device of the present invention;

FIG. 3 is a schematic structural view of the hot mold of the present invention;

fig. 4 is a schematic structural view of the lower die of the present invention;

FIG. 5 is a schematic view of the structure inside the base of the present invention;

FIG. 6 is a schematic structural view of the conveyor belt of the present invention;

fig. 7 is a schematic structural diagram of the control panel of the present invention.

In the figure: 1. a base; 2. a first conveying device; 3. a transport mechanism; 4. a second conveying device; 5. a placing table; 6. a controller; 7. connecting a power line externally; 8. hot molding; 9. cooling the mold; 10. A lower die; 11. a support; 12. a connecting plate; 13. an electric push rod; 14. an inner rod; 15. an infrared sensor; 16. a traveler; 17. a support pillar; 18. a slide plate; 19. an electric heating tube; 20. a pressure sensor; 21. briquetting; 22. an infrared emitter; 23. a third inductive switch; 24. a motor; 25. a control panel; 26. a support block; 27. rotating the rod; 28. a first gear; 29. a rack; 30. a conveyor belt; 31. a second gear; 32. a microprocessor; 33. a time relay; 34. A first inductive switch; 35. a second inductive switch; 36. and a fourth inductive switch.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1 to 7, an automatic safe mold cup forming machine comprises a base 1, a placing table 5 is arranged on the base 1, a controller 6 is arranged on the placing table 5, an external power line 7 for connecting a power supply is arranged on the base 1, a first conveying device 2 and a second conveying device 4 are arranged on the base 1, the first conveying device 2 and the second conveying device 4 both comprise a support 11, a connecting plate 12 is connected on the support 11, an electric push rod 13 is arranged on the connecting plate 12, an inner rod 14 is arranged on the electric push rod 13, a sliding plate 18 is connected on the inner rod 14, a supporting column 17 is arranged on the connecting plate 12, a sliding column 16 is arranged on the supporting column 17, an infrared sensor 15 for receiving infrared rays is arranged at one end of the sliding column 16 close to the base 1, the sliding plate 18 is connected with the sliding column 16 in a sliding manner, a transmission mechanism 3 is arranged on the base 1, a plurality of lower dies 10 are arranged on a conveyor belt 30, an infrared emitter 22 is arranged on the lower dies 10, a rack 29 is arranged at one end of the conveyor belt 30 far away from the lower dies 10, a first gear 28 and a second gear 31 are meshed at two ends of the rack 29, a motor 24, a control panel 25 and a supporting block 26 are arranged inside the base 1, an output shaft of the motor 24 is connected with the first gear 28, the supporting block 26 is connected with the second gear 31 through a rotating rod 27, the first conveying device 2 is connected with a cold die 9 through a sliding plate 18, the second conveying device 4 is connected with a hot die 8 through a sliding plate 18, the first conveying device 2 and the second conveying device 4 are positioned on the same horizontal line, an electric heating pipe 19 for heating the hot die 8 is arranged inside the hot die 8, a pressure sensor 20 is arranged at the edge position of the hot die 8, and the horizontal distance between the first conveying device 2 and the second conveying device 4 is five, two ends of the edge of the lower die 10 are provided with press blocks 21, the press blocks 21 are rotatably connected with the lower die 10 through hinges, a control panel 25 is provided with a microprocessor 32, a time relay 33, a first inductive switch 34, a second inductive switch 35, a third inductive switch 23 and a fourth inductive switch 36, an external power line 7 is coupled with a controller 6, the controller 6 is coupled with the microprocessor 32, a cold die 9, an infrared sensor 15, an electric heating pipe 19, a pressure sensor 20 and an infrared emitter 22, the microprocessor 32 is coupled with the first inductive switch 34, the second inductive switch 35, the third inductive switch 23 and the fourth inductive switch 36, the first inductive switch 34 and the second inductive switch 35 are coupled with an electric push rod 13, the third inductive switch 23 is coupled with the time relay 33, the fourth inductive switch 36 is coupled with a motor 24, the infrared sensor 15 and the pressure sensor 20 are used for transmitting signals to the microprocessor 32, the microprocessor 32 processes the signals and sends the processed signals to a corresponding first inductive switch 34, a corresponding second inductive switch 35, a corresponding third inductive switch 23 and a corresponding fourth inductive switch 36, the first inductive switch 34 and the second inductive switch 35 are used for controlling the motion state of the electric push rod 13, the third inductive switch 23 is used for controlling the working state of the time relay 33, the fourth inductive switch 36 is used for controlling the motion state of the motor 24, and the time relay 33 is used for timing and transmitting the signals to the microprocessor 32.

When a user needs to produce a cup model, sponge is placed at a proper position on a lower die 10 through a pressing block 21, an external power supply line 7 is used for connecting an external power supply, an electric heating pipe 19 in a hot die 8 is heated through a controller 6, a cold die 9 is refrigerated, meanwhile, an infrared sensor 15, a pressure sensor 20, an infrared emitter 22 and a microprocessor 32 are opened through the controller 6, after the temperature of the hot die 8 and the temperature of the cold die 9 meet the requirements of the user, a motor 24 is started through the controller 6, the motor 24 rotates to drive a first gear 28 to rotate, the rotation of the first gear 28 drives a rack 29 and a second gear 31 to rotate, so as to drive a conveyor belt 30 to rotate, the lower die 10 with the sponge is conveyed to the bottom end of a second conveying device 4, when the infrared sensor 15 receives infrared rays from the infrared emitter 22 on the lower die 10, the infrared sensor 15 transmits a signal to the microprocessor 32, at this time, the microprocessor 32 processes the signal and transmits the processed signal to the first inductive switch 34 and the fourth inductive switch 36, at this time, the fourth inductive switch 36 is turned off to control the motor 24 to stop rotating, so as to achieve the effect of positioning the lower die 10, at the same time, the first inductive switch 34 is turned on, so that the electric push rod 13 on the second conveying device 4 moves the hot die 8 towards the lower die 10, when the hot die 8 is in contact clamping with the lower die 10, the pressure sensor 20 on the edge of the hot die 8 receives a pressure transmission signal to the microprocessor 32, at this time, the microprocessor 32 processes the signal and transmits the signal to the third inductive switch 23 and the first inductive switch 34, the third inductive switch 23 is turned on, so as to turn on the time relay 33 for timing, and at the same time, the first inductive switch 34 is turned off, so that the hot mold 8 is placed on the lower mold 10 to heat-set the sponge, at this time, the user can use the heat-set time to place the sponge on the proper position on the other lower mold 10 close to the placing table 5, when the time relay 33 reaches a set point after timing, the time relay 33 transmits a signal to the microprocessor 32, the microprocessor 32 processes the signal and transmits the signal to the second inductive switch 35, the second inductive switch 35 is started to control the electric push rod 13 to move away from the lower mold 10, when the time relay 33 reaches another set point after timing, the microprocessor 32 transmits the signal to the microprocessor 32 again, at this time, the microprocessor 32 processes the signal and transmits the signal to the second inductive switch 35, the third inductive switch 23 and the fourth inductive switch 36, the second inductive switch 35 is closed to stop the electric push rod 13 from rising effect, the third inductive switch 23 is closed to stop the timing of the time relay 33, meanwhile, the fourth inductive switch 36 is started to achieve the effect of continuously rotating the conveyor belt 30, the hot-shaped sponge is transferred to the position right below the cold die 9 to carry out the shaping of the cold die 9, if the sponge is continuously shaped by cold and hot in the way of motion, the effect of automatically shaping the mold cup is achieved, and the horizontal distance between the first conveying device 2 and the second conveying device 4 is five times that between the adjacent lower molds 10, so that when the hot mold 8 is shaped, realize cold mould 9 design simultaneously, improved the production efficiency of model forming machine, solved current mould cup modular system, cold mould 9, hot mould 8's design is mostly manual, has just also stereotyped hot mould 8, and the manual work is put the material again and is gone on cold mould 9 and stereotype, and production efficiency is low, and the security performance is not high, and mould itself has nearly 200 degrees high temperature, will scald operating personnel carelessly, causes the injured problem of operating personnel.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides an automatic safe mould cup forming machine, includes base (1), be provided with on base (1) and place platform (5), it is provided with controller (6) on platform (5) to place, be provided with external power supply line (7) that are used for connecting power on base (1), its characterized in that: the infrared ray detection device is characterized in that a first conveying device (2) and a second conveying device (4) are arranged on the base (1), the first conveying device (2) and the second conveying device (4) both comprise a support (11), a connecting plate (12) is connected onto the support (11), an electric push rod (13) is installed on the connecting plate (12), an inner rod (14) is arranged on the electric push rod (13), a sliding plate (18) is connected onto the inner rod (14), a supporting column (17) is arranged on the connecting plate (12), a sliding column (16) is arranged on the supporting column (17), an infrared sensor (15) used for receiving infrared rays is arranged at one end, close to the base (1), of the sliding column (16), the sliding plate (18) is in sliding connection with the sliding column (16), a conveying mechanism (3) is arranged on the base (1), and the conveying mechanism (3) comprises a conveying belt (30), be provided with a plurality of lower mould (10) on conveyer belt (30), be provided with infrared emitter (22) on lower mould (10), the one end that lower mould (10) were kept away from in conveyer belt (30) is provided with rack (29), rack (29) both ends meshing has first gear (28) and second gear (31), base (1) inside is provided with motor (24), control panel (25) and supporting shoe (26), the output shaft and the first gear (28) of motor (24) are connected, supporting shoe (26) are connected with second gear (31) through dwang (27).

2. An automatic safe mould cup forming machine according to claim 1, characterized in that: the first conveying device (2) is connected with a cold die (9) through a sliding plate (18), the second conveying device (4) is connected with a hot die (8) through the sliding plate (18), and the first conveying device (2) and the second conveying device (4) are located on the same horizontal line.

3. An automatic safe mould cup forming machine according to claim 2, characterized in that: an electric heating pipe (19) used for heating the hot die (8) is arranged in the hot die (8), and a pressure sensor (20) is arranged at the edge of the hot die (8).

4. An automatic safe mould cup forming machine according to claim 1, characterized in that: and pressing blocks (21) are arranged at two ends of the edge of the lower die (10), and the pressing blocks (21) are rotatably connected with the lower die (10) through hinges.

5. An automatic safe mold cup setting machine as claimed in claim 2 or 3, wherein: the control panel (25) is provided with a microprocessor (32), a time relay (33), a first inductive switch (34), a second inductive switch (35), a third inductive switch (23) and a fourth inductive switch (36), the external power line (7) is coupled with the controller (6), the controller (6) is coupled with the microprocessor (32), the cold die (9), the infrared sensor (15), the electric heating pipe (19), the pressure sensor (20) and the infrared emitter (22), the microprocessor (32) is coupled with the first inductive switch (34), the second inductive switch (35), the third inductive switch (23) and the fourth inductive switch (36), the first inductive switch (34) and the second inductive switch (35) are coupled with the electric push rod (13), and the third inductive switch (23) is coupled with the time relay (33), the fourth inductive switch (36) is coupled to the motor (24).

6. An automatic safe mold cup setting machine as claimed in claim 5, wherein: the infrared sensor (15) and the pressure sensor (20) are used for transmitting signals to the microprocessor (32), the microprocessor (32) processes the signals and then sends the processed signals to the corresponding first inductive switch (34), the second inductive switch (35), the third inductive switch (23) and the fourth inductive switch (36), the first inductive switch (34) and the second inductive switch (35) are used for controlling the motion state of the electric push rod (13), the third inductive switch (23) is used for controlling the working state of the time relay (33), the fourth inductive switch (36) is used for controlling the motion state of the motor (24), and the time relay (33) is used for timing and transmitting signals to the microprocessor (32).

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