CN214447932U - Curing device for accelerating steam penetration by multi-pipeline steam admission - Google Patents
Curing device for accelerating steam penetration by multi-pipeline steam admission Download PDFInfo
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- CN214447932U CN214447932U CN202023268990.7U CN202023268990U CN214447932U CN 214447932 U CN214447932 U CN 214447932U CN 202023268990 U CN202023268990 U CN 202023268990U CN 214447932 U CN214447932 U CN 214447932U
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Abstract
The utility model relates to a multicircuit admission accelerates the penetrable curing device of steam, it is slower in order to solve among the prior art curing device admission steam, the inhomogeneous problem of curing, a technical scheme is proposed: a curing device with multi-pipeline steam inlet and steam penetration acceleration comprises a steam inlet main pipe, a fixed mold steam inlet main pipe, a movable mold steam inlet main pipe, a fixed mold steam inlet pipe, a movable mold steam inlet pipe, a mold frame, a fixed mold steam exhaust pipe, a movable mold steam exhaust pipe, a fixed mold steam exhaust main pipe, a movable mold steam exhaust main pipe, a steam exhaust main pipe and a steam inlet distributor; the fixed die steam inlet main pipe and the moving die steam inlet main pipe are both connected with the steam inlet main pipe; the fixed die exhaust main pipe and the moving die exhaust main pipe are connected with the exhaust main pipe; the mold frame comprises a mold fixing mold frame and a mold moving mold frame; the upper end of the die fixing frame is provided with a die fixing steam inlet; a die fixing die plate for installing a die is also arranged on the die fixing die frame; the upper end of the mould moving frame is provided with a mould moving steam inlet. The utility model provides a curing device advances steam fast, and the curing is even.
Description
Technical Field
The utility model relates to a curing device, concretely relates to multicell way admission accelerates the penetrating curing device of steam, mainly used EPS foam molding machine.
Background
The EPS foam forming machine is a mechanical device for processing EPS foam particles into products with certain shapes, and the processing process comprises the steps of firstly putting the EPS foam particles into a formed die cavity, then introducing steam for a certain time to cure the EPS foam particles, and further bonding the EPS foam particles into a whole to form the EPS foam products. The curing device of the existing forming machine also has the problems of relatively slow curing speed and non-uniform curing.
Chinese patent publication No. CN207365148U discloses a steam heating device for a foam molding machine, in which a spiral guide tube is used at the bottom of the steam heating device and is conducted through a plurality of vertical heat transfer tubes to ensure the heat conduction stability of the bottom of the molding machine, and the vertical heat transfer tubes are connected between a steam inlet connection tube connected with an external steam generator and the spiral guide tube to shorten the transfer distance of the heating steam; the patent really discloses a mechanism capable of adjusting the steam quantity, and the phenomenon of uneven curing degree is easy to occur.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome the above-mentioned not enough that exists among the prior art, and provide a structural design is reasonable, advances the quick, even multicircuit admission of steam and accelerates the penetrable curing device of steam.
The utility model provides a technical scheme that above-mentioned problem adopted is: the curing device with the multi-pipeline steam inlet and the steam penetration acceleration function comprises a steam inlet main pipe, a fixed mold steam inlet main pipe, a mold moving steam inlet main pipe, a fixed mold steam inlet pipe, a mold moving steam inlet pipe, a mold frame, a fixed mold steam exhaust pipe, a mold moving steam exhaust pipe, a fixed mold steam exhaust main pipe, a movable mold steam exhaust main pipe, a steam exhaust main pipe and a steam inlet distributor; the fixed die steam inlet main pipe and the moving die steam inlet main pipe are both connected with a steam inlet main pipe; the fixed die exhaust main pipe and the moving die exhaust main pipe are connected with the exhaust main pipe; the mold frame comprises a mold fixing mold frame and a mold moving mold frame; the upper end of the die fixing frame is provided with a die fixing steam inlet; the die fixing frame is also provided with a die fixing die plate for mounting a die; the upper end of the mould moving mould frame is provided with a mould moving steam inlet; the mould moving frame is also provided with a mould moving mould plate for installing a mould; one end of the fixed die steam inlet pipe is connected with the fixed die steam inlet main pipe, and the other end of the fixed die steam inlet pipe is connected with a fixed die steam inlet on the fixed die frame; a fixed die regulating valve for controlling the steam inlet quantity of the fixed die steam inlet pipe is also arranged between the fixed die steam inlet pipe and the fixed die steam inlet main pipe; one end of the mold moving steam inlet pipe is connected with the mold moving steam inlet main pipe, and the other end of the mold moving steam inlet pipe is connected with a mold moving steam inlet on the mold moving frame; a mould shifting regulating valve for controlling the steam inlet quantity of the mould shifting steam inlet pipe is also arranged between the mould shifting steam inlet pipe and the mould shifting steam inlet main pipe; one end of the fixed die steam exhaust pipe is connected with the fixed die steam exhaust main pipe, and the other end of the fixed die steam exhaust pipe is connected with the fixed die frame; one end of the mold moving steam exhaust pipe is connected with the mold moving steam exhaust main pipe, and the other end of the mold moving steam exhaust pipe is connected with the mold moving frame; and the fixed die frame and the movable die frame are both provided with steam inlet distributors.
Preferably, the utility model discloses in still be equipped with the mould shifting steam admission house steward hose portion that is used for cooperating the action of mould shifting form frame on the mould shifting steam admission house steward.
Preferably, the utility model discloses in still be equipped with the mould shifting steam extraction house steward hose portion that is used for cooperating the action of mould shifting form frame on the mould shifting steam extraction house steward.
As preferred, in the utility model discloses in solid mould board and the cooperation of moving mould board are installed the mould.
Preferably, the steam inlet distributor of the present invention comprises a square loop formed by two vertical pipes and two horizontal pipes, and a connecting pipe between the two vertical pipes.
Preferably, the vertical pipe, the horizontal pipe and the connecting pipe of the utility model are all provided with spray heads; the upper end of the steam inlet distributor is also provided with a distributor steam inlet for connecting a fixed mold steam inlet or a movable mold steam inlet.
Preferably, in the utility model, the steam inlet distributor is fixedly connected to the fixed mold frame or the movable mold frame through a fixing part.
Preferably, the spray head on the vertical pipe on the die fixing frame faces the die mounting position on the die fixing die plate; and the spray head on the vertical pipe on the mold moving mold frame faces the mold mounting position on the mold moving mold plate.
Compared with the prior art, the utility model, have following advantage and effect:
1. the utility model discloses set up a plurality of solid mould admission pipes and moved mould admission pipe and be connected with solid mould framed and the mould framed of shifting respectively, the admission distributor on solid mould framed of deuterogamying and the mould framed of shifting can make the raw materials in the mould fully, cure evenly to the design of a plurality of admission pipes also is favorable to accelerating steam and lets in speed, improves curing efficiency.
2. The utility model discloses set up solid mould governing valve and mould shifting governing valve on solid mould admission pipe and mould shifting admission pipe respectively, can finely tune the steam admission volume of each solid mould admission pipe and mould shifting admission pipe through solid mould governing valve and mould shifting governing valve, the steam admission volume that the staff can distribute each position according to concrete needs.
3. The utility model provides a move and all be equipped with the hose portion on mould admission house steward and the mould exhaust house steward that moves, can make things convenient for the action of mould frame that moves like this, prevent that the mould frame that moves from removing obstructed.
Drawings
Fig. 1 is a schematic perspective view of a curing device with multiple steam inlets for accelerating steam penetration in the embodiment of the present invention.
Fig. 2 is a schematic perspective view of a mold frame according to an embodiment of the present invention.
Fig. 3 is a schematic structural view of a mold fixing frame in an embodiment of the present invention.
Fig. 4 is a schematic structural diagram of the form shifting frame in the embodiment of the present invention.
Fig. 5 is a schematic structural diagram of an inlet steam distributor according to an embodiment of the present invention.
In the figure: the device comprises a steam inlet main pipe 1, a fixed mold steam inlet main pipe 2, a mold moving steam inlet main pipe 3, a fixed mold steam inlet pipe 4, a mold moving steam inlet pipe 5, a mold frame 6, a fixed mold steam exhaust pipe 7, a mold moving steam exhaust pipe 8, a fixed mold steam exhaust main pipe 9, a mold moving steam exhaust main pipe 10, a steam exhaust main pipe 11, a steam inlet distributor 12, a mold moving steam inlet main pipe hose part 31, a fixed mold regulating valve 41, a mold moving regulating valve 51, a fixed mold frame 61, a mold moving mold frame 62, a mold moving steam exhaust main pipe hose part 101, a vertical pipe 121, a horizontal pipe 122, a connecting pipe 123, a spray head 124, a distributor steam inlet 125, a fixing part 126, a fixed mold steam inlet 611, a fixed mold plate 612, a mold moving steam inlet 621 and a mold moving mold plate 622.
Detailed Description
The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and are not intended to limit the present invention.
Examples are given.
Referring to fig. 1 to 5, the curing device for accelerating steam penetration by multi-pipeline steam admission in the present embodiment includes a steam admission main pipe 1, a fixed mold steam admission main pipe 2, a mold moving steam admission main pipe 3, a fixed mold steam admission pipe 4, a mold moving steam admission pipe 5, a mold frame 6, a fixed mold steam exhaust pipe 7, a mold moving steam exhaust pipe 8, a fixed mold steam exhaust main pipe 9, a mold moving steam exhaust main pipe 10, a steam exhaust main pipe 11 and a steam admission distributor 12; the fixed mold steam inlet main pipe 2 and the movable mold steam inlet main pipe 3 are both connected with the steam inlet main pipe 1; the fixed die steam exhaust main pipe 9 and the moving die steam exhaust main pipe 10 are both connected with a steam exhaust main pipe 11.
The mold frame 6 in the present embodiment includes a mold fixing frame 61 and a mold moving frame 62; the upper end of the die fixing frame 61 is provided with a die fixing steam inlet 611; a die fixing die plate 612 for installing a die is further arranged on the die fixing die frame 61; the upper end of the mold-moving frame 62 is provided with a mold-moving steam inlet 621; the mold moving frame 62 is also provided with a mold moving mold plate 622 for mounting a mold; the fixed die plate 612 and the moving die plate 622 cooperate to mount the dies.
In the embodiment, one end of the fixed mold steam inlet pipe 4 is connected with the fixed mold steam inlet main pipe 2, and the other end is connected with a fixed mold steam inlet 611 on the fixed mold frame 61; a fixed die regulating valve 41 for controlling the steam inlet amount of the fixed die steam inlet pipe 4 is also arranged between the fixed die steam inlet pipe 4 and the fixed die steam inlet main pipe 2; one end of the mould shifting steam inlet pipe 5 is connected with the mould shifting steam inlet main pipe 3, and the other end is connected with a mould shifting steam inlet 621 on the mould shifting frame 62; a mould shifting regulating valve 51 for controlling the steam inlet amount of the mould shifting steam inlet pipe 5 is also arranged between the mould shifting steam inlet pipe 5 and the mould shifting steam inlet main pipe 3; one end of the fixed die steam exhaust pipe 7 is connected with the fixed die steam exhaust main pipe 9, and the other end is connected with the fixed die frame 61; one end of the mould moving steam exhaust pipe 8 is connected with the mould moving steam exhaust main pipe 10, and the other end is connected with the mould moving frame 62; the mould shifting steam inlet main pipe 3 is also provided with a mould shifting steam inlet main pipe hose part 31 which is used for matching the action of the mould shifting mould frame 62; the shifting mold steam exhaust main pipe 10 is also provided with a shifting mold steam exhaust main pipe hose part 101 used for matching with the shifting mold frame 62. The plurality of die fixing steam inlet pipes 4 and the die moving steam inlet pipes 5 are arranged, so that raw materials in the die can be fully and uniformly cured, and the design of the plurality of steam inlet pipes is also favorable for accelerating the steam introduction speed and improving the curing efficiency.
The fixed die frame 61 and the moving die frame 62 in the embodiment are both provided with the steam inlet distributor 12; the steam inlet distributor 12 comprises a square loop consisting of two vertical pipes 121 and two horizontal pipes 122, and a connecting pipe 123 between the two vertical pipes 121; spray heads 124 are arranged on the vertical pipes 121, the horizontal pipes 122 and the connecting pipes 123; the upper end of the steam inlet distributor 12 is also provided with a distributor steam inlet 125 for connecting a fixed mold steam inlet 611 or a moving mold steam inlet 621; the steam inlet distributor 12 is fixedly connected to the fixed mold frame 61 or the movable mold frame 62 through a fixing piece 126; the spray nozzle 124 on the vertical pipe 121 on the die fixing die frame 61 faces the die mounting position on the die fixing die plate 612; the spray head 124 on the standpipe 121 on the transfer die frame 62 faces the die mounting location on the transfer die plate 622. The steam inlet distributor 12 allows the incoming steam to be more dispersed so that the steam can sufficiently penetrate the material in the mold.
The curing method of the curing device for accelerating penetration of steam by multi-pipeline steam inlet in the embodiment comprises the following steps:
the method comprises the following steps: installing the molds on a fixed mold plate 612 and a movable mold plate 622 respectively, closing the molds, filling raw materials into the molds, opening a steam main valve, slowly introducing steam, introducing the steam into a fixed mold steam inlet main pipe 2 and a movable mold steam inlet main pipe 3 from a steam inlet main pipe 1, introducing the steam into a fixed mold frame 61 and a movable mold frame 62 through a fixed mold steam inlet pipe 4 and a movable mold steam inlet pipe 5 respectively, and preheating by fully penetrating the raw materials in the molds through steam inlet distributors 12 on the fixed mold frame 61 and the movable mold frame 62;
step two: after preheating is finished, increasing the steam introduction amount, and fully penetrating the raw materials in the die by the steam inlet distributors 12 on the die fixing frame 61 and the die moving frame 62 to cure the raw materials;
step three: steam entering the die penetrates through the raw materials, enters a die fixing steam exhaust main pipe 9 and a die moving steam exhaust main pipe 10 through a die fixing steam exhaust pipe 7 and a die moving steam exhaust pipe 8, and then is converged into a steam exhaust main pipe 11 to be exhausted;
step four: and (3) cooling and discharging the raw materials in the moulds after the raw materials are fully cured, observing the curing degree of the products in each mould, finely adjusting the steam inlet amount of each position through the mould fixing adjusting valve 41 and the mould moving adjusting valve 51 if the curing degrees are different, and performing next curing to finally obtain the products with uniform curing degrees.
In addition, it should be noted that the specific embodiments described in the present specification may be different in the components, the shapes of the components, the names of the components, and the like, and the above description is only an example of the structure of the present invention. All the equivalent changes or simple changes made according to the structure, characteristics and principle of the utility model are included in the protection scope of the utility model. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.
Claims (8)
1. A curing device with multi-pipeline steam inlet and steam penetration acceleration comprises a steam inlet main pipe (1), a fixed mold steam inlet main pipe (2), a mold moving steam inlet main pipe (3), a fixed mold steam exhaust pipe (7), a mold moving steam exhaust pipe (8), a fixed mold steam exhaust main pipe (9), a mold moving steam exhaust main pipe (10) and a steam exhaust main pipe (11); it is characterized by also comprising a fixed mould steam inlet pipe (4), a moving mould steam inlet pipe (5), a mould frame (6) and a steam inlet distributor (12); the fixed mould steam inlet main pipe (2) and the movable mould steam inlet main pipe (3) are both connected with the steam inlet main pipe (1); the fixed die steam exhaust main pipe (9) and the movable die steam exhaust main pipe (10) are connected with a steam exhaust main pipe (11); the mould frame (6) comprises a fixed mould frame (61) and a movable mould frame (62); the upper end of the die fixing frame (61) is provided with a die fixing steam inlet (611); a die fixing die plate (612) for installing a die is further arranged on the die fixing die frame (61); the upper end of the mould moving frame (62) is provided with a mould moving steam inlet (621); a mould moving mould plate (622) for installing a mould is also arranged on the mould moving mould frame (62); one end of the fixed mold steam inlet pipe (4) is connected with the fixed mold steam inlet main pipe (2), and the other end of the fixed mold steam inlet pipe is connected with a fixed mold steam inlet (611) on the fixed mold frame (61); a die fixing adjusting valve (41) for controlling the steam inlet amount of the die fixing steam inlet pipe (4) is also arranged between the die fixing steam inlet pipe (4) and the die fixing steam inlet main pipe (2); one end of the mould moving steam inlet pipe (5) is connected with the mould moving steam inlet main pipe (3), and the other end of the mould moving steam inlet pipe is connected with a mould moving steam inlet (621) on the mould moving frame (62); a mould shifting regulating valve (51) for controlling the steam inlet amount of the mould shifting steam inlet pipe (5) is also arranged between the mould shifting steam inlet pipe (5) and the mould shifting steam inlet main pipe (3); one end of the fixed die steam exhaust pipe (7) is connected with the fixed die steam exhaust main pipe (9), and the other end of the fixed die steam exhaust pipe is connected with the fixed die frame (61); one end of the mould moving steam exhaust pipe (8) is connected with the mould moving steam exhaust main pipe (10), and the other end of the mould moving steam exhaust pipe is connected with the mould moving frame (62); and the fixed die frame (61) and the movable die frame (62) are both provided with steam inlet distributors (12).
2. A multi-pipe steam-admission accelerated aging device according to claim 1, characterized in that the shifting mold steam-admission main pipe (3) is further provided with a shifting mold steam-admission main pipe hose portion (31) for cooperating with the shifting mold frame (62).
3. A multi-pipe steam admission accelerated steam penetration maturing device of claim 1 characterized in that the form-shifting steam exhaust manifold (10) is further provided with a form-shifting steam exhaust manifold hose portion (101) for cooperating with the form-shifting frame (62).
4. A multi-channel steam admission accelerated steam penetration maturation device according to claim 1, in which the fixed die plate (612) and the moving die plate (622) cooperate to mount the dies.
5. A maturation device according to claim 1, characterized in that the steam inlet distributor (12) comprises a square loop of two vertical pipes (121) and two cross pipes (122) and a connection pipe (123) between the two vertical pipes (121).
6. A ripening device with multiple steam inlets for faster steam penetration according to claim 5, wherein spray heads (124) are provided on the standpipe (121), the cross pipe (122) and the connecting pipe (123); the upper end of the steam inlet distributor (12) is also provided with a distributor steam inlet (125) for connecting a fixed mold steam inlet (611) or a movable mold steam inlet (621).
7. A maturation device according to claim 5 or 6, characterized in that said steam distributors (12) are fixedly attached to the solid mould frame (61) or the moving mould frame (62) by means of fixing elements (126).
8. A multi-channel steam admission accelerated steam penetration maturation device according to claim 6, in which the spray nozzles (124) on the risers (121) on the solid mould frame (61) are directed towards the mould mounting locations on the solid mould plate (612); spray heads (124) on the risers (121) on the form-shifting die frame (62) face die mounting locations on the form-shifting die plate (622).
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CN202023268990.7U CN214447932U (en) | 2020-12-30 | 2020-12-30 | Curing device for accelerating steam penetration by multi-pipeline steam admission |
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CN202023268990.7U CN214447932U (en) | 2020-12-30 | 2020-12-30 | Curing device for accelerating steam penetration by multi-pipeline steam admission |
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