CN111890616A

CN111890616A - Small-size automatic integrated continuous hot-pressing forming device

Info

Publication number: CN111890616A
Application number: CN202010732915.7A
Authority: CN
Inventors: 张立元; 郑洋; 宋铖鑫; 殷旭
Original assignee: University of Science and Technology Beijing USTB
Current assignee: University of Science and Technology Beijing USTB
Priority date: 2020-07-27
Filing date: 2020-07-27
Publication date: 2020-11-06

Abstract

The invention provides a small automatic integrated continuous hot-press forming device, and belongs to the technical field of automatic hot-press forming. The device is including heating rabbling mechanism, drive mechanism, punching press mechanism, ejecting mechanism, and the device is through heating rabbling mechanism with solid-state raw materials flash mixed, even heating, and the control discharge gate is opened and is made the raw materials fall to the lower mould, and heating rabbling mechanism begins next round of raw materials preparation work, and the mould is moulded with melting raw materials to motor drive last mould in the punching press mechanism, and cam mechanism operation lifting shaping product simultaneously, and ejecting mechanism work realizes that the product takes out and places. The device has the characteristics of stable mechanical structure, high integration degree, strong continuity, high production efficiency, detachable and miniaturized mechanism and the like, can realize continuous stamping molding and automatic taking out and placing of small and medium-sized products or products with simple appearance, and can provide new ideas for the development of automatic integrated continuous hot-pressing molding by workers in the operation process of the device.

Description

Small-size automatic integrated continuous hot-pressing forming device

Technical Field

The invention relates to the technical field of automatic hot-press molding, in particular to a small automatic integrated continuous hot-press molding device.

Background

Since the 21 st century, the problems of environmental destruction and data waste have become increasingly serious, and the requirements for protecting the environment and recycling resources have gradually increased, which have a corresponding impact on the manufacturing industry. Meanwhile, most of the traditional hot-press forming machines are controlled by manual operation, so that the labor intensity of workers is increased, certain potential safety hazards exist, a large amount of time and labor resources also need to be consumed, and the production efficiency is low. At the present stage, the solid powdery raw materials are not preheated and stirred, and a forming device for continuous production is realized.

In view of the above problems, the invention provides a small-sized automatic integrated continuous hot-press molding device, which can realize automatic integrated production of small and medium-sized products, especially products with simple appearance, thereby reducing the labor intensity of personnel, eliminating potential safety hazards, saving time and cost, improving efficiency, and realizing energy-saving and environment-friendly effects of waste utilization.

Disclosure of Invention

The invention aims to solve the technical problem of providing a small automatic integrated continuous hot-press forming device so as to realize continuous stamping molding and automatic taking out and placing of small and medium-sized products or products with simple appearance.

The device comprises a heating and stirring mechanism, a transmission mechanism, a punching mechanism and a pushing mechanism, wherein the heating and stirring mechanism comprises a box body, a box cover, a packing gland, a silicon rubber heating plate, a heat preservation and insulation layer, a stirring blade, a box body supporting frame, a steering engine, a switch baffle and a connecting component, the transmission mechanism comprises a base, a slide rail sliding block set, a lead screw, a connecting nut, a lower die connecting plate and a motor, the punching mechanism comprises an upper die, a lower die, a motor-gear set, a supporting column and a motor box mounting platform, the pushing mechanism comprises a cam, a rotary cylinder, a lifting platform, a cylinder, a push plate and a cylinder fixing frame, the box body is provided with the box cover and is mounted on the box body supporting frame, the outer side of the box body is wrapped by the silicon rubber heating plate, the steering engine is connected with the switch catch, the steering engine and the support ring are connected with the box body support frame, the box body support frame is connected with the outer side of the front section of the base, a slide rail sliding block set, a lead screw, a connecting nut and a lower die connecting plate are arranged on the base, an upper die of the punching mechanism is arranged right above a punching working position of the lower die, a motor box mounting platform is arranged right above the upper die, a motor-gear set is mounted on the base, a support column is connected with the base of the transmission mechanism through a connecting piece, the other end of the support column penetrates through the upper die and is connected with the motor box mounting platform, the lower die is connected with the connecting nut and the slide rail sliding block set on the lead screw through the lower die connecting plate, a cam is contained in the middle part of the lower die, a lifting platform is connected with the, the front side of the cylinder is provided with a push plate to form an outward pushing mechanism, and the cam mechanism and the outward pushing mechanism together form the pushing mechanism.

A packing gland is arranged on the box cover, and a stirring blade is arranged in the box body

The support ring is welded with the box body through L-shaped steel.

The transmission mechanism adopts a screw rod and a nut as transmission elements.

The punching mechanism is powered by a motor-gear set, and the support column restrains the upper die to move in the vertical direction.

The rotary cylinder is used as a prime mover.

The outer pushing mechanism is a transverse device and is positioned on the same cross section with the punching mechanism.

The technical scheme of the invention has the following beneficial effects:

the device realizes the volume miniaturization and the device simplification of the automatic hot-press forming machine, has stable mechanical structure, higher integration degree and stronger continuity, each mechanical mechanism is mutually independent and can be quickly disassembled, and each part is controlled by an external circuit to realize the continuous stamping molding and the automatic taking out and placing of small and medium-sized products or products with simple appearance. Simultaneously, the device can guarantee the mutual independence that heating stirring and punching press released twice process at the operation in-process, realizes the function of two products of simultaneous processing, greatly improves production efficiency, and the manual work only needs to provide the raw materials, greatly uses manpower sparingly resource. In practical application, the device can be arranged indoors, the occupied area is small, the space resources are saved, the recycling of waste such as coffee grounds is realized by combining with the thermoplastic additive, the energy is saved, the environment is protected, and a new thought is provided for the miniaturization, the continuity and the integration development of the automatic hot-press forming machine.

Drawings

Fig. 1 is a schematic working diagram of the device of the present invention, wherein (a) is a material receiving working state, (b) is a stamping working state, and (c) is a finished product pushing working state;

FIG. 2 is a schematic structural view of a heating and stirring mechanism in the apparatus of the present invention;

FIG. 3 is a schematic view of the inside and outside structures of the case in the apparatus of the present invention, wherein (a) is an internal sectional view and (b) is a bottom view;

FIG. 4 is a schematic structural view of a screw slide-driving mechanism in the device of the present invention;

FIG. 5 is a schematic structural view of a punching mechanism in the apparatus of the present invention;

FIG. 6 is a schematic view of the cam mechanism of the ejector mechanism of the present invention;

FIG. 7 is a schematic view showing the structure of an outward pushing mechanism in the apparatus of the present invention;

fig. 8 is a schematic view of the overall structure of the device of the present invention.

Wherein: 1-a box cover, 2-a box body, 3-a box body support frame, 4-a packing gland, 5-a stirring blade, 6-a silicon rubber heating plate, 7-a heat insulation layer, 8-a steering engine, 9-a switch catch, 10-a sliding rail sliding block set, 11-a screw rod and connecting nut, 12-a lower die connecting plate, 13-a base, 14-a motor-gear set, 15-a motor box mounting platform, 16-an upper die, 17-a lower die, 18-a lifting platform, 19-a cam shaft, 20-a rotating cylinder, 21-a push plate, 22-a cylinder and 23-a cylinder fixing frame.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

The invention provides a small automatic integrated continuous hot-press forming device.

As shown in fig. 8, the device comprises a heating and stirring mechanism, a transmission mechanism, a stamping mechanism and a pushing-out mechanism, wherein as shown in fig. 2 and fig. 3, the heating and stirring mechanism comprises a box body 2, a box cover 1, a packing gland 4, a silicon rubber heating plate 6, a heat insulation layer 7, a stirring blade 5, a box body supporting frame 3, a steering engine 8, a switch blocking sheet 9 and a connecting component, as shown in fig. 4, the transmission mechanism comprises a base 13, a sliding rail sliding block set 10, a screw rod and connecting nut 11, a lower die connecting plate 12 and a motor, as shown in fig. 5, the stamping mechanism comprises an upper die 16, a lower die 17, a motor-gear set 14, a supporting column and a motor box mounting platform 15, as shown in fig. 6 and fig. 7, the pushing-out mechanism comprises a cam, a rotary cylinder 20, a lifting platform 18, a cylinder 22, a pushing plate 21 and, a packing gland 4 is arranged on a box cover 1, stirring blades 5 are arranged in a box body 2, the outer side of the box body 2 is wrapped by a silicon rubber heating plate 6, a heat insulation layer 7 covers the outer side of the silicon rubber heating plate 6, a box body discharge port is attached and sealed with one surface of a switch baffle 9, the lower part of the box body 2 is supported by a support ring, a steering engine 8 is connected with the switch baffle 9, the steering engine 8 and the support ring are connected with a box body support frame 3, the box body support frame 3 is connected with the outer side of the front section of a base 13, a sliding rail sliding block set 10, a lead screw, a connecting nut 11 and a lower die connecting plate 12 are arranged on the base 13, an upper die 16 of a punching mechanism is arranged right above the punching working position of a lower die 17, a motor box mounting platform 15 is arranged right above the upper die 16, a motor, the lower die 17 is connected with a connecting nut on a screw rod and a sliding block set 10 of a sliding rail through a lower die connecting plate 12, a cam is contained in the middle of the lower die 17, a lifting platform 18 is connected with the lower die 17 through a spring, a cam shaft 19 penetrates through the lower die 17, one side of the cam shaft is fixed in the axial position through a bearing, the other side of the cam shaft is connected with a rotary cylinder 20 to form a cam mechanism, a cylinder 22 is connected with a base 13 through a cylinder fixing frame 23, a push plate 21 is arranged on the front side of the cam shaft to form an outward pushing mechanism. The push plate 21 pushes the finished product lifted on the lifting platform 18 out of the lower die 17. The heating and stirring mechanism and the punching mechanism are longitudinally arranged on the base, a cam mechanism in the pushing mechanism is contained in the middle of the lower die 17, and the pushing mechanism is transversely arranged and is basically positioned on the same cross section as the punching mechanism.

The following description is given with reference to specific examples.

Example 1

In order to better embody the capability of the device for automatically integrating the continuous compression molding, the description of relevant parts and functions is particularly carried out by taking the coffee grounds-polylactic acid mixture as a raw material to produce a two-piece product.

The heating and stirring mechanism of the device consists of a box cover 1, a box body 2, a box body supporting frame 3, a packing gland 4, stirring blades 5, a silicon rubber heating plate 6, a heat preservation and insulation layer 7, a steering engine 8, a switch blocking piece 9 and a connecting component, and the whole body is connected with a base 13 through the box body supporting frame 3. As shown in fig. 3(a), the preferred stirring blade is a dispersion plate stirring blade, which has a good stirring effect on the solid powdery raw materials, so that the raw materials are uniformly mixed; the box can be wrapped up to preferred silicon rubber hot plate, realizes the even heating to inside raw materials, and accessible peripheral hardware circuit control temperature is convenient for continuous production to increase heat preservation insulating layer 7 in the outside, improve heat utilization rate and device safety in utilization. As shown in fig. 3(b), the bottom of the box body 2 is welded with a support ring in the middle by L-shaped steel, and a switch catch 9 is controlled by a steering engine 8 to slide between the support ring and a discharge hole at the bottom of the box body, so that the amount of single stamping raw materials, namely the amount required by processing of a single finished product, is controlled, and the processing is completed in one step without cutting. The switch separation blade is preferred heat-resisting rubber, realizes better sealed effect, and the design of switch separation blade shape makes its great ejection of compact flow of control at less angle, and is efficient.

The transmission mechanism of the device consists of a sliding rail block set 10, a screw rod and connecting nut 11, a lower die connecting plate 12, a base 13 and a stepping motor, wherein the stepping motor is connected with the screw rod through a coupler to provide main power. The slide block and the screw rod nut are connected with the lower die 17 through the lower die connecting plate 12, the slide block bears the weight and ensures the smooth movement of the lower die 17; the screw rod and the connecting nut 11 play a transmission role, and the lower die 17 is driven by the motor to be switched back and forth between the two working positions.

The punching mechanism of the device consists of a motor-gear set 14, a motor box mounting platform 15, an upper die 16, a lower die 17 and a support column, and the motor provides main power to complete the punching process. The preferred 220V gear motor runs stably, has higher power, can provide higher torque, and combines a rack and a rack box to form the motor-gear set 14, thereby ensuring that the stamping process is rapid and accurate. A certain chamfer is reserved at the stamping end of the upper die 16, the stamping precision is further improved, and the lower die 17 is accurately positioned by an external circuit control motor, so that the machining precision is ensured.

The push-out mechanism of the device consists of two parts, wherein the cam mechanism comprises a lifting platform 18, a cam shaft 19 and a rotary cylinder 20; the pushing mechanism comprises a pushing plate 21, an air cylinder 22 and an air cylinder fixing frame 23. The cam is designed into a shape that the lift is slightly higher than the depth of the punching part of the lower die 17, and the rotary cylinder 20 is used as a driving link to control the cam shaft 19 to rotate within a range of 90 degrees, so that the lifting platform 18 is driven to move up and down to lift a finished product. Meanwhile, the pushing-out mechanism cylinder 22 on one side controls the front end pushing plate 21 to push out the lifted finished product from the lower die, fall into the storage device on the other side, and return to wait for the next pushing-out. The spring is connected to the bottom of the lifting platform 18, and when the lifting platform is installed, the spring is tightened when the lifting platform is in an initial state, so that the stamping process is prevented from being influenced by the lifting platform 18.

Introducing a coffee grounds-polylactic acid mixture from a box cover feeding port, electrifying a silicon rubber heating plate 6 between a heat-insulating layer 7 and a box body 2 to uniformly heat solid mixed raw materials in the box body 2, simultaneously starting a stepping motor to operate to drive a stirring blade 5 to rotate so as to uniformly mix the raw materials, controlling a steering engine 8 to operate when the raw materials are gradually heated to a molten state, enabling a switch blocking piece 9 to rotate, opening a box body discharging port, enabling the device to be in a material receiving working state shown in figure 1(a), enabling the molten raw materials to fall to the center of a lower die, then returning the switch blocking piece 9 to the original position, closing the discharging port, and ending the first round of raw material heating and stirring process; and continuously feeding materials into the box body 2, and starting the heating and stirring process of the second round of products. After the lower die 17 receives the material, the motor starts to operate to drive the screw rod to rotate, the lower die 17 is enabled to move to the punching working position shown in the drawing (b) at a constant speed and stop through a specific program, the motor-gear set 14 in the punching mechanism is powered on to operate, the rack connecting upper die 16 is pressed down to a set position at a constant speed, the raw material in the lower die 17 is punched and molded, the cooling time is set in advance, the upper die 16 is lifted after the raw material is stably molded, meanwhile, the cam mechanism operates, as shown in the drawing 6, the cam shaft 19 in the lower die 17 is driven by the rotary cylinder 20 to rotate, so that the lifting platform 18 lifts the product, in order to avoid the product from falling due to unbalance in the process, 4 long and thin cylinders which are pairwise symmetrical about the cam groove are arranged outside the bottom of the lifting platform 18 and are positioned and guided, and in order to enable the lifting platform 18 to recover to the initial, and the holding spring is tightened when the lifting platform 18 is in the initial state, and the finished product is integrally lifted out of the lower die when the cam shaft 19 rotates to the highest position. As shown in fig. 1(c), at this time, the cylinder 22 of the outward pushing mechanism is started to make the front end push plate 21 move forward at a constant speed, so as to push the finished product out of the lower die from one side, the cylinder 22 drives the push plate 21 to reset, the cam mechanism returns to the initial position, the lifting platform 18 is reset by the pulling force of the spring, and the first round of product stamping and pushing-out process is finished. Then the motor is reversed, the lower die 17 is reversely and accurately returned to the material receiving position shown in fig. 1(a), the raw material for producing a second product is received, a second round of stamping and pushing-out process is started, and the production target of continuous hot-press forming is realized. The whole process is controlled by an external circuit, the integration degree is high, and the working process is rapid, accurate and efficient.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. The utility model provides a continuous hot briquetting device of small-size automatic integration which characterized in that: comprises a heating and stirring mechanism, a transmission mechanism, a stamping mechanism and a pushing mechanism, wherein the heating and stirring mechanism comprises a box body (2), a box cover (1), a packing gland (4), a silicon rubber heating plate (6), a heat insulation layer (7), stirring blades (5), a box body supporting frame (3), a steering engine (8), a switch blocking sheet (9) and a connecting component, the transmission mechanism comprises a base (13), a slide rail sliding block set (10), a lead screw and connecting nut (11), a lower die connecting plate (12) and a motor, the stamping mechanism comprises an upper die (16), a lower die (17), a motor-gear set (14), a supporting column and a motor box mounting platform (15), the pushing mechanism comprises a cam, a rotary cylinder (20), a lifting platform (18), a cylinder (22), a push plate (21) and a cylinder fixing frame (23), the box body (2), the box body (2) is arranged on a box body supporting frame (3), the outer side of the box body (2) is wrapped by a silicon rubber heating plate (6), the outer side of the silicon rubber heating plate (6) is covered with a heat preservation and insulation layer (7), a box body discharge port is attached and sealed with one surface of a switch separation blade (9), the lower part of the box body (2) is supported by a supporting ring, a steering engine (8) is connected with the switch separation blade (9), the steering engine (8) and the supporting ring are connected with the box body supporting frame (3), the box body supporting frame (3) is connected with the outer side of the front section of a base (13), a sliding rail set (10), a screw rod, a connecting nut (11) and a lower die connecting plate (12) are arranged on the base (13), an upper die (16) of a stamping mechanism is arranged right above the stamping working position of a lower die (17), the supporting column is connected with, the lower die (17) is connected with a screw rod, a connecting nut (11) and a sliding block set (10) of a sliding rail through a lower die connecting plate (12), a motor box mounting platform (15) is arranged right above an upper die (16), a motor-gear set (14) is mounted on the motor box mounting platform (15), a cam is contained in the middle of the lower die (17), a lifting platform (18) is connected with the lower die (17) through a spring, a cam shaft (19) penetrates through the lower die (17), the axial position of one side of the cam shaft is fixed through a bearing, the other side of the cam shaft is connected with a rotary cylinder (20) to form a cam mechanism, a cylinder (22) is connected with a base (13) through a cylinder fixing frame (23), a push plate (21) is mounted on the front side of the cylinder (22) to form an outward pushing mechanism, the cam mechanism and the outward pushing mechanism jointly form the pushing mechanism.

2. The small automatic integrated continuous hot press molding device according to claim 1, wherein: a packing gland (4) is arranged on the box cover (1), and a stirring blade (5) is arranged in the box body (2).

3. The small automatic integrated continuous hot press molding device according to claim 1, wherein: the support ring is welded with the box body (2) through L-shaped steel.

4. The small automatic integrated continuous hot press molding device according to claim 1, wherein: the transmission mechanism adopts a screw rod and a nut as transmission elements.

5. The small automatic integrated continuous hot press molding device according to claim 1, wherein: the punching mechanism is powered by a motor-gear set (14), and the support column restricts the upper die (16) to move in the vertical direction.

6. The small automatic integrated continuous hot press molding device according to claim 1, wherein: the rotary cylinder (20) serves as a prime mover.

7. The small automatic integrated continuous hot press molding device according to claim 1, wherein: the outer pushing mechanism is a transverse device and is positioned on the same cross section with the punching mechanism.