CN211861971U - 3D seamless freezing and shaping adsorption machine - Google Patents

Abstract

The utility model relates to the technical field of shoemaking equipment, in particular to a 3D seamless freezing and shaping adsorption machine, which comprises a lower layer frame body, a middle frame body, an upper layer frame body and a control system, wherein the lower layer frame body, the middle frame body and the upper layer frame body are arranged in an upper-middle-lower stacking manner, an electric appliance box, a compressor, an air storage tank, a condenser, a vacuum pump and two adsorption frame push-pull air cylinders which are symmetrically arranged are arranged on the lower layer frame body, a vacuum box is arranged on the middle frame body, a shoe last placing plate is arranged on the vacuum box, an adsorption frame is arranged on one side of the shoe last placing plate, the vacuum suction molding and continuous circular blowing heating structure combination is adopted, the heating uniformity and the heating speed of the shoe last with the high temperature resistant glue film are increased, the vacuum pump is used for vacuumizing the shoe last with a film, TPU material can be rapidly adsorbed on the knitted, and finally, a refrigerating system is adopted to carry out quick refrigeration and shaping on the film-coated fly-woven vamp, so that the processing efficiency is improved.

Description

3D seamless freezing and shaping adsorption machine

The technical field is as follows:

the utility model relates to the technical field of shoemaking equipment, in particular to a 3D seamless freezing and shaping adsorption machine.

Background art:

the vamp is used as an important part of the shoe, and the common vamp can be made by simply brushing glue or sewing. With the progress of shoe making technology and technology, people further improve the wearing comfort and the appearance aesthetic of the shoes, and the spliced vamps and the fly-woven vamps which are produced at the same time are obviously favored by people. However, the delicate facing made of TPU material needs to be added on the common shoe uppers, but the processing process is more complicated. The high-frequency and infrared irradiation applications are adopted in the market at present, but the heating forming effect is not ideal enough, some common die shrinking machines only have heating equipment but do not have a formed quick cooling system, and heating and cooling need to be processed separately, so that the manufacturing cost is increased, the processing cycle period is prolonged, and the shoe making efficiency is reduced.

The utility model has the following contents:

the utility model aims at prior art not enough, and provide 3D seamless freezing design adsorption apparatus, its structural design science, adopt vacuum forming and the continuous circulation to blow the structural grouping who heats, make the shoe tree surface fly to knit the vamp and increase the degree of consistency and the rate of being heated after high temperature resistant silica gel membrane, and use the vacuum pump to carry out the evacuation to the shoe tree of tectorial membrane, force the TPU material can adsorb fast on knitting vamp, improve the shoe tree surface and fly the effect of knitting vamp tectorial membrane, adopt refrigerating system to fly to knit the vamp after the tectorial membrane at last and carry out quick refrigeration design, and the machining efficiency is improved.

In order to realize the purpose, the utility model adopts the following technical scheme that the 3D seamless freezing and shaping adsorption machine comprises a lower layer frame body, a middle frame body, an upper layer frame body and a control system, wherein the lower layer frame body, the middle frame body and the upper layer frame body are arranged in an upper-middle-lower stacking manner, the bottom surface of the lower layer frame body is provided with foundation screws, an electric appliance box, a compressor, an air storage tank, a condenser, a vacuum pump and two symmetrically arranged adsorption frame push-pull air cylinders are arranged on the lower layer frame body, the front surface of the middle frame body is provided with an operating button table, the middle frame body is provided with a vacuum box, the vacuum box is provided with a shoe last placing plate, one side of the shoe last placing plate is provided with an adsorption frame, one side of the adsorption frame is movably connected with the shoe last placing plate, the middle frame body is also provided with two horizontally arranged and parallel guide rail assemblies, each guide rail assembly, be equipped with the oven on the adjusting screw, be equipped with the hair-dryer on the oven, the front of upper support body is equipped with control panel, the bottom surface of upper support body is equipped with oven push cylinder, be equipped with the cold air box above the upper support body, one side of cold air box is equipped with the air exhauster, still be equipped with cold wind groove lift cylinder above the upper support body, be connected with the cold wind groove on the piston rod of cold wind groove lift cylinder, the both sides of cold wind groove lift cylinder are equipped with the lift guide arm that the symmetry set up, the lower extreme and the cold wind groove of lift guide arm are connected, be connected through flexible tuber pipe between.

The piston rod of the adsorption frame push-pull cylinder is movably connected with two adjacent sides of the movable side edge of the adsorption frame, and the adsorption frame moves on one side of the last placing plate through the power of the adsorption frame push-pull cylinder.

The oven and the last placing plate are arranged in parallel, a piston rod of the oven pushing cylinder is connected with the oven, and the oven makes reciprocating horizontal motion on the guide rail assembly through the power of the oven pushing cylinder.

The cold air groove and the last placing plate are arranged in a vertically corresponding mode, and the cold air groove moves in a reciprocating mode vertically through the power of the cold air groove lifting air cylinder.

The compressor, the condenser, the cold air box and the exhaust fan are connected through pipelines, and the vacuum pump is connected with the vacuum box through a pipeline.

The compressor, the condenser, the vacuum pump, the oven, the blower, the cold air box and the exhaust fan are all electrically connected with the electric appliance box.

The utility model discloses beneficial effect does: A3D seamless freezing and shaping adsorption machine comprises a lower layer frame body, a middle frame body, an upper layer frame body and a control system, wherein the lower layer frame body, the middle frame body and the upper layer frame body are arranged in an up-to-down stacking mode, an electric appliance box, a compressor, an air storage tank, a condenser, a vacuum pump and two adsorption frame push-pull air cylinders which are symmetrically arranged are arranged on the lower layer frame body, a vacuum box is arranged on the middle frame body, a shoe last placing plate is arranged on the vacuum box, an adsorption frame is arranged on one side of the shoe last placing plate, one side of the adsorption frame is movably connected with the shoe last placing plate, the vacuum suction molding and continuous circular blowing heating structure combination is adopted, so that the heating uniformity and heating speed of a high-temperature resistant silicon adhesive film are increased on a flying-woven shoe last surface, the vacuum pump is used for vacuumizing the film-coated shoe last, TPU materials can be rapidly adsorbed, and finally, a refrigerating system is adopted to carry out quick refrigeration and shaping on the film-coated fly-woven vamp, so that the processing efficiency is improved.

Description of the drawings:

fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic view of the internal structure of the present invention;

fig. 3 is a schematic view of the internal structure of the present invention in another direction.

The specific implementation mode is as follows:

see fig. 1-3 for: the utility model discloses a 3D seamless freezing shaping adsorption apparatus, including lower floor's support body 1, middle support body 2, upper strata support body 3, control system, lower floor's support body 1, middle support body 2, upper strata support body 3 are upper-middle-lower range upon range of setting, the bottom surface of lower floor's support body 1 is equipped with rag screw 10, be equipped with electrical apparatus case 11 above lower floor's support body 1, compressor 12, gas holder 13, condenser 14, vacuum pump 16 and two absorption frame push-and-pull cylinders 15 that are symmetrically arranged, the front of middle support body 2 is equipped with control button platform 4, be equipped with vacuum box 20 on middle support body 2, be equipped with shoe-last placing plate 21 on vacuum box 20, one side of shoe-last placing plate 21 is equipped with absorption frame 22, one side of absorption frame 22 and shoe-last placing plate 21 swing joint, still be equipped with two guide rail set up horizontally and guide rail set up and parallel to each other 23 above the, oven mount pad 24 is equipped with two adjusting screw 25 that set up perpendicularly with guide rail set 23, be equipped with oven 26 on adjusting screw 25, be equipped with hair-dryer 27 on the oven 26, the front of upper rack 3 is equipped with control panel 5, the bottom surface of upper rack 3 is equipped with oven push cylinder 31, be equipped with cold air box 32 above the upper rack 3, one side of cold air box 32 is equipped with air exhauster 33, still be equipped with cold wind groove lift cylinder 35 above the upper rack 3, be connected with cold wind groove 37 on the piston rod of cold wind groove lift cylinder 35, the both sides of cold wind groove lift cylinder 35 are equipped with the lift guide arm 36 that the symmetry set up, the lower extreme and the cold wind groove 37 of lift guide arm 36 are connected, be connected through flexible tuber pipe 34 between air exhauster 33 and the cold wind groove 37.

The piston rod of the adsorption frame push-pull cylinder 15 is movably connected with two adjacent sides of the movable side edge of the adsorption frame 22, and the adsorption frame 22 moves on one side of the last placing plate 21 through the power of the adsorption frame push-pull cylinder 15.

The oven 26 is arranged in parallel with the last placing plate 21, a piston rod of the oven pushing cylinder 31 is connected with the oven 26, and the oven 26 makes reciprocating horizontal movement on the guide rail assembly 23 by the power of the oven pushing cylinder 31.

The cold air groove 37 and the last placing plate 21 are arranged up and down correspondingly, and the cold air groove 37 makes reciprocating vertical motion through the power of the cold air groove lifting cylinder 35.

The compressor 12, the condenser 14, the cold air box 32 and the exhaust fan 33 are connected through pipelines to form a refrigerating system, and the vacuum pump 16 is connected with the vacuum box 20 through a pipeline.

The compressor 12, the condenser 14, the vacuum pump 16, the oven 26, the blower 27, the cold air box 32 and the exhaust fan 33 are all electrically connected with the electric appliance box 11.

The technical advantages are as follows: adopt vacuum plastic uptake and continuous circulation to blow the structural grouping of heating, make the shoe tree surface fly to weave the vamp increase the degree of consistency and the speed of being heated after high temperature resistant silica gel membrane to use the vacuum pump to carry out the evacuation to the shoe tree of tectorial membrane, force the TPU material can adsorb fast on knitting vamp, improve the effect that the vamp tectorial membrane was fly to weave on the shoe tree surface, adopt refrigerating system to fly to weave the vamp after the tectorial membrane at last and carry out quick refrigeration design, improve machining efficiency.

The operation mode is as follows: when the equipment is standby, the cold air groove 37 is arranged at the top, the oven 26 is arranged at the tail, the adsorption frame push-pull air cylinder 15 opens the adsorption frame 22, the oven 26 is started to heat, the compressor 12, the condenser 14 and the cold air box 32 are started, the high-temperature-resistant silicon film is loaded on the adsorption frame 22, the last is placed on the last placing plate 21, the control panel 5 is controlled to start, the adsorption frame push-pull air cylinder 15 closes the adsorption frame 22 and the last placing plate 21, the vacuum pump 16 is started at the moment to evacuate the air in the vacuum box 20, then the oven push air cylinder 31 pushes the oven 26 to the upper part of the adsorption frame 22, the blower 27 is started to circulate the heat in the oven 26, so that the adsorption frame 22 at the lower part is uniformly heated, the high-temperature-resistant silicon film on the adsorption frame 22 is uniformly heated and then attached to the last after being baked for a certain time, the high-temperature-resistant silicon, the cold air groove lifting cylinder 35 pushes the cold air groove 37 to the upper portion of the adsorption frame 22, the exhaust fan 33 is started to blow cold air to the last attached with the high-temperature-resistant silicon film to cool the last, after the last attached with the high-temperature-resistant silicon film is completely cooled and shaped, the cold air groove lifting cylinder 35 pushes the cold air groove 37 to the top of the adsorption frame 22, the adsorption frame push-pull cylinder 15 opens the adsorption frame 22, and the manufactured last can be taken out.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (6)

1.3D seamless freezing design adsorption apparatus, including lower floor support body (1), middle support body (2), upper support body (3), control system, its characterized in that: the lower-layer frame body (1), the middle frame body (2) and the upper-layer frame body (3) are arranged in an upper-middle-lower stacking mode, foundation screws (10) are arranged on the bottom surface of the lower-layer frame body (1), an electric appliance box (11), a compressor (12), an air storage tank (13), a condenser (14), a vacuum pump (16) and two symmetrically-arranged absorption frame push-pull air cylinders (15) are arranged on the upper surface of the lower-layer frame body (1), an operating button table (4) is arranged on the front surface of the middle frame body (2), a vacuum box (20) is arranged on the middle frame body (2), a last placing plate (21) is arranged on the vacuum box (20), an absorption frame (22) is arranged on one side of the last placing plate (21), one side edge of the absorption frame (22) is movably connected with the last placing plate (21), two horizontally-arranged and mutually-parallel guide rail assemblies (23) are further arranged on the upper, oven mount pad (24) are equipped with two adjusting screw (25) that set up perpendicularly with guide rail set spare (23), be equipped with oven (26) on adjusting screw (25), be equipped with hair-dryer (27) on oven (26), the front of upper support body (3) is equipped with control panel (5), the bottom surface of upper support body (3) is equipped with oven push cylinder (31), be equipped with cold air box (32) above upper support body (3), one side of cold air box (32) is equipped with air exhauster (33), still be equipped with cold wind groove lift cylinder (35) above upper support body (3), be connected with cold wind groove (37) on the piston rod of cold wind groove lift cylinder (35), the both sides of cold wind groove lift cylinder (35) are equipped with lift guide arm (36) that the symmetry set up, the lower extreme and the cold wind groove (37) of lift guide arm (36) are connected, be connected through flexible wind pipe (34) between air exhauster (33) and cold wind.

2. The 3D seamless freeze-styling adsorber of claim 1, wherein: the piston rod of the adsorption frame push-pull cylinder (15) is movably connected with two adjacent sides of the movable side edge of the adsorption frame (22), and the adsorption frame (22) moves on one side of the last placing plate (21) through the power of the adsorption frame push-pull cylinder (15).

3. The 3D seamless freeze-styling adsorber of claim 1, wherein: the oven (26) and the last placing plate (21) are arranged in parallel, a piston rod of the oven pushing cylinder (31) is connected with the oven (26), and the oven (26) makes reciprocating horizontal motion on the guide rail assembly (23) through the power of the oven pushing cylinder (31).

4. The 3D seamless freeze-styling adsorber of claim 1, wherein: the cold air groove (37) and the last placing plate (21) are arranged up and down correspondingly, and the cold air groove (37) makes reciprocating vertical motion through the power of the cold air groove lifting cylinder (35).

5. The 3D seamless freeze-styling adsorber of claim 1, wherein: the air conditioner is characterized in that the compressor (12), the condenser (14), the cold air box (32) and the exhaust fan (33) are connected through pipelines, and the vacuum pump (16) is connected with the vacuum box (20) through a pipeline.

6. The 3D seamless freeze-styling adsorber of claim 1, wherein: the compressor (12), the condenser (14), the vacuum pump (16), the oven (26), the blower (27), the cold air box (32) and the exhaust fan (33) are all electrically connected with the electric appliance box (11).

Images