CN114193682A - Air-cooling and water-cooling integrated drainage plate forming die - Google Patents

Abstract

The invention discloses an air-cooling and water-cooling integrated drainage plate forming die which comprises a bearing table, a backflow pipeline, a second support plate and a material receiving mechanism, wherein the second support plate is fixed on the other side of the upper end face of the bearing table, the material receiving mechanism is fixed on the bearing table, a second conveyor belt device is rotatably connected to the top of the bearing table, and a second bearing frame is fixed on the bearing table. This forced air cooling, water-cooling integral type drain bar forming die, water is at the conduit inner loop flow, conveniently utilize water-cooled mode to accelerate the shaping speed of raw materials, after the raw materials shaping, the movable mould moves right, second electric telescopic handle extension simultaneously, convenient ejecting material, the material is thereupon fallen on first conveyer belt device and is moved left under first conveyer belt device's operation effect, the material can be moved left under the operation effect of second conveyer belt device after falling on the second conveyer belt device, at this in-process, the second radiator fan is bloied downwards, the convenience carries out more thorough cooling shaping to the material and is handled.

Description

Air-cooling and water-cooling integrated drainage plate forming die

Technical Field

The invention relates to the technical field related to drain board processing, in particular to an air-cooling and water-cooling integrated drain board forming die.

Background

The plastic drainage plate alias plastic drainage area has multiple shapes such as wave type, harmonica type, in order to obtain the drainage plate of appointed shape, then needs to use drainage plate forming die, and current drainage plate forming die is not fast high-efficient enough to the shaping processing of raw materials, and inconvenient automatic unloading, and the shaping effect is thorough inadequately simultaneously.

Disclosure of Invention

The invention aims to provide an air-cooling and water-cooling integrated drainage plate forming die, and aims to solve the problems that the existing drainage plate forming die in the background art cannot perform forming treatment on raw materials quickly and efficiently, is inconvenient to perform automatic blanking, and cannot perform thorough forming effect.

In order to achieve the purpose, the invention provides the following technical scheme: an air-cooling and water-cooling integrated drainage plate forming die comprises a bearing platform, a backflow pipeline, a second support plate and a material receiving mechanism,

a first supporting plate is fixed on one side of the upper end face of the bearing table, a static mold is fixed on one side of the first supporting plate, a water passage is formed in the static mold, a water storage tank is fixed on the other side of the first supporting plate, a water pump is fixed at the inner bottom of the water storage tank, a water delivery pipeline is fixed at the top of the water pump, and the water delivery pipeline penetrates through the top of the water storage tank and the top of the static mold and is communicated with the water passage;

the second support plate is fixed on the other side of the upper end face of the bearing table, one side of the second support plate is connected with the movable mold through the first electric telescopic rod, and an electric material injection valve is fixed on the movable mold;

the receiving mechanism is fixed on the bearing platform and located between the first support plate and the second support plate, a second conveying belt device is arranged on the lower side of the tail end of the receiving mechanism, the second conveying belt device is rotatably connected to the top of the bearing platform, a second bearing frame is arranged on the outer side of the second conveying belt device, the second bearing frame is fixed on the bearing platform, and a second heat dissipation fan is fixed in the top of the second bearing frame.

Through adopting above-mentioned technical scheme, water can circulate in the water channel and flow, conveniently utilizes the water-cooled mode to accelerate the shaping speed of raw materials, accomplishes the shaping of raw materials and accomplishes the unloading operation after, the material is carried left, and the usable air-cooled mode of the usable forced air cooling of second heat dissipation fan of collocation use makes the shaping effect of material more thorough.

Preferably, the inner wall of the water passage is fixed with heat conducting fins which are distributed at equal intervals.

By adopting the technical scheme, the contact area between the heat conducting fins distributed at equal intervals and water can be increased, so that the water-cooling forming operation is more efficient.

Preferably, the top of the water storage tank and the bottom of the water storage tank are both fixed with electric water valves.

By adopting the technical scheme, the electric water valve at the top of the water storage tank is opened to feed water into the water storage tank, and the electric water valve at the bottom of the water storage tank is opened to discharge water in the water storage tank.

Preferably, one end of the backflow pipeline penetrates through the bottom of the static mold and is communicated with the water channel, the other end of the backflow pipeline penetrates through the top of the water storage tank and is connected with the suction pump, and meanwhile, the backflow pipeline and the water conveying pipeline are distributed between the static mold and the water storage tank at equal distances.

Through adopting above-mentioned technical scheme, rivers can flow back to the storage water tank through the backward flow pipeline behind the water channel in, and the collocation uses water pump, conduit, backward flow pipeline and suction pump can make water circulate and flow in water channel.

Preferably, the backflow pipeline is located at the outer side of the first bearing frame, the first bearing frame is fixed at one side of the water storage tank, and a first heat dissipation fan is fixed at the inner side of the first bearing frame.

Through adopting above-mentioned technical scheme, first heat dissipation fan can be to the water in the return line cooling heat dissipation processing.

Preferably, the first heat dissipation fans are circumferentially and uniformly distributed on the first bearing frame.

Through adopting above-mentioned technical scheme, circumference evenly distributed's first heat dissipation fan can make the radiating effect more comprehensive.

Preferably, first electric telescopic rods are fixed in one end face of the movable mold and one end face of the static mold, and the first electric telescopic rods on the static mold and the first electric telescopic rods on the movable mold are arranged in a one-to-one correspondence mode.

By adopting the technical scheme, after the forming treatment of the raw materials is completed, the movable die moves rightwards, and meanwhile, the first electric telescopic rod extends, so that the materials can be conveniently and automatically pushed.

Preferably, receiving mechanism includes spout, pneumatic cylinder, piston rod, bearer frame, gyro wheel, recess and first belt conveyor, and the spout is seted up at the bearer table top, be fixed with the pneumatic cylinder on the inner wall of spout, and one side of pneumatic cylinder is connected with the bearer frame through the piston rod, in the bottom sliding connection spout of bearer frame simultaneously, the bilateral symmetry of terminal surface is fixed with the gyro wheel under the bearer frame, and the gyro wheel setting is in the recess, and the recess is seted up at the bearer table top simultaneously, the inboard rotation of bearer frame is connected with first belt conveyor.

Through adopting above-mentioned technical scheme, at the in-process of unloading, first conveyor means plays the effect of accepting to the shaping material, and the carriage can move around repeatedly simultaneously, makes the material can level and smoothly spread out on first conveyor means.

Preferably, the second heat dissipation fans are circumferentially and uniformly distributed on the second bearing frame.

By adopting the technical scheme, the second heat radiation fan plays a role in air cooling on the material conveyed on the second conveyor belt device, so that the forming effect is more thorough.

Compared with the prior art, the invention has the beneficial effects that: the air-cooling and water-cooling integrated drainage plate forming die,

(1) before the device is used, water can be introduced into a water storage tank, a static die and a movable die are closed together, after a raw material is injected between the static die and the movable die by opening an electric material injection valve, the water in the water storage tank can enter a water passage through a water conveying pipeline under the action of a water pump and return to the water storage tank through a return pipeline under the action of a suction pump, the water circularly flows in the water conveying pipeline, and the forming speed of the raw material is accelerated by conveniently utilizing a water cooling mode;

(2) in the process that water flows in the return pipeline, the first heat dissipation fan blows air leftwards, so that the water in the return pipeline is conveniently cooled and dissipated, and the water used for cooling the raw materials can be kept in a low-temperature state for a long time;

(3) after the raw materials are molded, the movable die moves rightwards, meanwhile, the second electric telescopic rod extends to facilitate ejection of the materials, the materials fall onto the first conveyor belt device and move leftwards under the operation action of the first conveyor belt device, the materials can move leftwards under the operation action of the second conveyor belt device after falling onto the second conveyor belt device, and in the process, the second heat dissipation fan blows downwards, so that the materials are cooled and molded more thoroughly;

(4) in the process of carrying the molding material by using the first conveyor belt device, the bearing frame has a limiting effect on the material, and can move back and forth repeatedly, so that the material can be flatly spread on the first conveyor belt device.

Drawings

FIG. 1 is a schematic diagram of a right-side cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the front view of the present invention;

FIG. 3 is a schematic front sectional view of the present invention;

FIG. 4 is a schematic top view of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 6 is a schematic view of a connection structure of the carriage and the roller according to the present invention.

In the figure: 1. the bearing platform, 2, a first support plate, 3, a static mould, 4, a water passage, 5, a heat conducting strip, 6, a water storage tank, 7, an electric water valve, 8, a water pump, 9, a water pipeline, 10, a backflow pipeline, 11, a suction pump, 12, a first bearing frame, 13, a first heat dissipation fan, 14, a second support plate, 15, a first electric telescopic rod, 16, a movable mould, 17, an electric injection valve, 18, a second electric telescopic rod, 19, a material receiving mechanism, 1901, a sliding chute, 1902, a hydraulic cylinder, 1903, a piston rod, 1904, a bearing frame, 1905, a roller, 1906, a groove, 1907, a first conveying belt device, 20, a second conveying belt device, 21, a second bearing frame, 22 and a second heat dissipation fan.

Detailed Description

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

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides an air-cooled, water-cooling integral type drain bar forming die, as shown in figure 1 and figure 2, one side of plummer 1 up end is fixed with first extension board 2, and one side of first extension board 2 is fixed with quiet mould 3, water channel 4 has been seted up in quiet mould 3 simultaneously, be fixed with conducting strip 5 on water channel 4's the inner wall, and 5 equidistance of conducting strip distribute, the shaping speed of raw materials can be accelerated at the in-process that water channel 4 inner loop flows to water, 5 contact area with water of conducting strip that the equidistance distributes can increase, conveniently improve the cooling shaping effect.

According to the drawings of fig. 1 and 3, a water storage tank 6 is fixed on the other side of the first support plate 2, a water pump 8 is fixed at the inner bottom of the water storage tank 6, electric water valves 7 are fixed on the top of the water storage tank 6 and the bottom of the water storage tank 6, the electric water valve 7 on the top of the water storage tank 6 can be opened to supply water to the water storage tank 6 before the device is used, and the electric water valve 7 on the bottom of the water storage tank 6 can be opened to drain water in the water storage tank 6 when water in the water storage tank 6 cannot be used continuously.

According to fig. 1, 2 and 3, a water pipe 9 is fixed on the top of the water pump 8, the water pipe 9 penetrates through the top of the water storage tank 6 and the top of the static mold 3 to be communicated with the water passage 4, one end of the backflow pipeline 10 penetrates through the bottom of the static mold 3 to be communicated with the water passage 4, the other end of the backflow pipeline 10 penetrates through the top of the water storage tank 6 to be connected with the suction pump 11, meanwhile, the backflow pipeline 10 and the water pipe 9 are distributed between the static mold 3 and the water storage tank 6 at equal distances, water in the water storage tank 6 can return to the water storage tank 6 through the backflow pipeline 10 under the action of the suction pump 11 after entering the water passage 4 through the water pipe 9, the water can circularly flow in the water passage 4, so that the cooling and forming effects are more thorough, the backflow pipeline 10 and the water pipe 9 which are distributed at equal distances can increase the water flow, and the forming efficiency is conveniently improved.

As shown in fig. 1, 2 and 4, the backflow pipe 10 is located outside the first carrying frame 12, the first carrying frame 12 is fixed on one side of the water storage tank 6, and the first heat dissipation fan 13 is fixed on the inner side of the first carrying frame 12, so that the water can be subjected to heat dissipation treatment under the action of the first heat dissipation fan 13 in the process of flowing in the backflow pipe 10, and the water for cooling the raw material can be in a low temperature state for a long time.

As shown in fig. 1, 2, 3 and 4, the first heat dissipation fans 13 are uniformly distributed on the first carrying frame 12 in the circumferential direction, and the first heat dissipation fans 13 uniformly distributed in the circumferential direction can perform comprehensive and efficient heat dissipation treatment on the water in the return duct 10.

As shown in fig. 1, 2, 3, 4 and 5, the second support plate 14 is fixed to the other side of the upper end surface of the plummer 1, one side of the second support plate 14 is connected to the movable mold 16 through the first electric telescopic rod 15, the movable mold 16 is fixed with the electric material injection valve 17, the first electric telescopic rods 15 are fixed in one end surface of the movable mold 16 and one end surface of the stationary mold 3, the first electric telescopic rods 15 on the stationary mold 3 and the first electric telescopic rods 15 on the movable mold 16 are arranged in a one-to-one correspondence manner, after the molding processing of the raw materials is completed, the movable mold 16 moves to the right, and the first electric telescopic rods 15 on the stationary mold 3 and the first electric telescopic rods 15 on the movable mold 16 extend, so that the materials can be ejected automatically.

Referring to fig. 1, 2, 3, 4 and 6, the receiving mechanism 19 is fixed on the carrier platform 1, the receiving mechanism 19 is located between the first support plate 2 and the second support plate 14, the second conveyor belt device 20 is disposed at the lower side of the end of the receiving mechanism 19, the receiving mechanism 19 includes a chute 1901, a hydraulic cylinder 1902, a piston rod 1903, a carrier frame 1904, a roller 1905, a groove 1906 and a first conveyor belt device 1907, the chute 1901 is disposed at the top of the carrier platform 1, the hydraulic cylinder 1902 is fixed on an inner wall of the chute 1901, one side of the hydraulic cylinder 1902 is connected with the carrier frame 1904 through the piston rod 1903, the bottom of the carrier frame 1904 is slidably connected in the chute 1901, the rollers 1905 are symmetrically fixed on two sides of the lower end face of the carrier frame 1904, the roller 1905 is disposed in the groove 1906, the groove 1906 is disposed at the top of the carrier platform 1, the inner side of the carrier frame 1904 is rotatably connected with the first conveyor belt device 1907, after the material is molded and ejected by the first electric telescopic rod 15, the material falls onto the first conveyor belt 1907, the bearing frame 1904 stops the material and limits the material, the piston rod 1903 can repeatedly extend and retract under the action of the hydraulic cylinder 1902, the bearing frame 1904 repeatedly slides back and forth in the sliding groove 1901, the material can be finally spread on the first conveyor belt 1907, the roller 1905 plays an auxiliary role in the process of moving the bearing frame 1904 back and forth, and the bearing frame 1904 can move smoothly.

According to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, the second conveyor belt device 20 is rotatably connected to the top of the bearing table 1, a second bearing frame 21 is arranged outside the second conveyor belt device 20, the second bearing frame 21 is fixed on the bearing table 1, a second heat dissipation fan 22 is fixed in the top of the second bearing frame 21, the second heat dissipation fan 22 is circumferentially and uniformly distributed on the second bearing frame 21, and in the process of conveying the material on the second conveyor belt device 20 to the left, the second heat dissipation fan 22 blows air downwards, so that the material is further cooled, the material forming effect is more thorough, and the second heat dissipation fan 22 circumferentially and uniformly distributed can perform comprehensive and efficient heat dissipation treatment on the material.

When the material injection device is used, water can be introduced into the water passage 4 after the material is injected between the static die 3 and the movable die 16, so that the forming speed of the material can be accelerated in a water cooling mode, after the material is formed, the movable die 16 moves rightwards, after the material is pushed onto the first conveyor 1907 by the second electric telescopic rod 18, the material moves leftwards and falls onto the second conveyor 20, then the material continues to move leftwards, the material can be more completely formed by using the second heat dissipation fan 22 in a wind cooling mode, and the content which is not described in detail in the specification belongs to the prior art which is known by technicians in the field.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (9)

1. The utility model provides an air-cooled, water-cooling integral type drain bar forming die, includes plummer (1), return line (10), second extension board (14) and receiving mechanism (19), its characterized in that:

a first support plate (2) is fixed on one side of the upper end face of the bearing table (1), a static mold (3) is fixed on one side of the first support plate (2), a water passage (4) is formed in the static mold (3), a water storage tank (6) is fixed on the other side of the first support plate (2), a water pump (8) is fixed on the inner bottom of the water storage tank (6), a water conveying pipeline (9) is fixed on the top of the water pump (8), and the water conveying pipeline (9) penetrates through the top of the water storage tank (6) and the top of the static mold (3) to be communicated with the water passage (4);

the second support plate (14) is fixed on the other side of the upper end face of the bearing table (1), one side of the second support plate (14) is connected with the movable die (16) through the first electric telescopic rod (15), and meanwhile, the movable die (16) is fixed with the electric material injection valve (17);

the receiving mechanism (19) is fixed on the bearing platform (1), the receiving mechanism (19) is located between the first support plate (2) and the second support plate (14), meanwhile, a second conveying belt device (20) is arranged on the lower side of the tail end of the receiving mechanism (19), the second conveying belt device (20) is rotatably connected to the top of the bearing platform (1), a second bearing frame (21) is arranged on the outer side of the second conveying belt device (20), the second bearing frame (21) is fixed on the bearing platform (1), and a second heat dissipation fan (22) is fixed in the top of the second bearing frame (21).

2. The air-cooling and water-cooling integrated drain board forming die as claimed in claim 1, wherein: and heat-conducting fins (5) are fixed on one inner wall of the water passage (4), and the heat-conducting fins (5) are distributed at equal intervals.

3. The air-cooling and water-cooling integrated drain board forming die as claimed in claim 1, wherein: and electric water valves (7) are fixed at the top of the water storage tank (6) and the bottom of the water storage tank (6).

4. The air-cooling and water-cooling integrated drain board forming die as claimed in claim 1, wherein: one end of the backflow pipeline (10) penetrates through the bottom of the static mold (3) to be communicated with the water passage (4), the other end of the backflow pipeline (10) penetrates through the top of the water storage tank (6) to be connected with the suction pump (11), and meanwhile the backflow pipeline (10) and the water pipeline (9) are distributed between the static mold (3) and the water storage tank (6) at equal distances.

5. The air-cooling and water-cooling integrated drain board forming die as claimed in claim 4, wherein: the backflow pipeline (10) is located on the outer side of the first bearing frame (12), the first bearing frame (12) is fixed on one side of the water storage tank (6), and meanwhile the inner side of the first bearing frame (12) is fixed with the first heat dissipation fan (13).

6. The air-cooling and water-cooling integrated drain board forming die of claim 5, wherein: the first heat dissipation fans (13) are circumferentially and uniformly distributed on the first bearing frame (12).

7. The air-cooling and water-cooling integrated drain board forming die as claimed in claim 1, wherein: and first electric telescopic rods (15) are fixed in one end face of the movable mold (16) and one end face of the static mold (3), and the first electric telescopic rods (15) on the static mold (3) and the first electric telescopic rods (15) on the movable mold (16) are arranged in a one-to-one correspondence manner.

8. The air-cooling and water-cooling integrated drain board forming die as claimed in claim 1, wherein: receiving mechanism (19) includes spout (1901), pneumatic cylinder (1902), piston rod (1903), bears frame (1904), gyro wheel (1905), recess (1906) and first belt conveyor (1907), and sets up at plummer (1) top in spout (1901), be fixed with pneumatic cylinder (1902) on the inner wall of spout (1901), and one side of pneumatic cylinder (1902) is connected with bearing frame (1904) through piston rod (1903), bears the bottom sliding connection spout (1901) of frame (1904) simultaneously, the bilateral symmetry of terminal surface is fixed with gyro wheel (1905) under bearing frame (1904), and gyro wheel (1905) set up in recess (1906), and recess (1906) are set up at plummer (1) top simultaneously, the inboard rotation of bearing frame (1904) is connected with first belt conveyor (1907).

9. The air-cooling and water-cooling integrated drain board forming die as claimed in claim 1, wherein: the second heat dissipation fans (22) are circumferentially and uniformly distributed on the second bearing frame (21).

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