CN218969550U - High-temperature setting machine for composite fiber material - Google Patents

Abstract

The utility model provides a high-temperature setting machine for composite fiber materials, which relates to the technical field of high-temperature setting machines and comprises a setting cavity, wherein a door body is arranged at the rear end of the setting cavity, a transmission roller is arranged in the setting cavity, a belt pulley structure is arranged at one end of the setting cavity, one end of the belt pulley structure is respectively connected with one end of the setting roller, a first servo motor is arranged at the other end of the belt pulley structure, an adjusting mechanism is arranged at one side of the inside of the setting cavity, a cleaning mechanism is arranged at the left side of the setting cavity, and an air cooling mechanism is arranged at the right side of the setting cavity; through being provided with adjustment mechanism in the inside in design chamber, utilize adjustment mechanism's mutually supporting, can adjust the rate of tension of composite fiber material when the design for the material all is in the state of tightening at any time, makes composite fiber material's design effect better, thereby has improved the work efficiency of this machine when using greatly.

Description

High-temperature setting machine for composite fiber material

Technical Field

The utility model relates to the technical field of high-temperature setting machines, in particular to a high-temperature setting machine for a composite fiber material.

Background

With the continuous improvement of the technical level along with the development of economy, composite fiber materials are increasingly used in daily life, composite fibers are one of multicomponent fibers, are terms aiming at artificial fiber varieties, and two or more polymer fibers which are not mixed exist on the same fiber section, and are called as composite fibers;

the composite fiber material needs to be shaped by a high-temperature shaping machine during production, and as disclosed in application number CN216338480U, a high Wen Maojin shaping machine for preventing fabric shrinkage is disclosed, and specifically: the middle position of the upper part of the bottom box is fixedly provided with a shell, the outer walls of the two vertical sides of the shell are respectively provided with a cloth inlet along the length direction, the inner walls of the upper side and the lower side of the shell are respectively and symmetrically fixedly provided with a semicircular cover, a plurality of air outlet grooves are respectively and rotationally arranged in the two semicircular covers, a circle of air outlet grooves are axially formed in the outer walls of the air outlet grooves, the sizes of the grooves of the plurality of air outlet grooves are sequentially increased, a steam conveying mechanism is arranged between the bottom box and the air outlet pipes, one side of the bottom box is provided with a heat recovery mechanism, the semicircular covers are respectively arranged at the upper end and the lower end in the shell, the air outlet pipes are rotationally arranged in the semicircular covers, and the steam conveying mechanism and the steam quantity adjusting assembly are matched with each other to ensure that when people perform high-temperature setting, only a towel passes through the cloth inlet on the two sides of the shell, the towel passes between the two air outlet pipes, and then the boiler is started, steam enters the two air outlet pipes respectively through the steam pipe and the door-shaped pipe, and then the steam is exposed through the air outlet grooves formed in the outer wall of the air outlet pipe, so that the towel is subjected to high-temperature steam shaping treatment, which is different from the traditional method that the steam is led into the housing for high-temperature treatment, the device enables the steam to be emitted out of the air outlet grooves in a targeted manner, the surface of the towel is more accurately acted, the shaping effect is better, the energy consumption is saved, the whole shell is not required to be filled with steam, when the towel with different cloth needs different steam amounts, the air outlet grooves with different notch sizes are required to be driven to rotate by the driving motor, the multi-stage control of the steam amount is realized, however, in the technology, due to the inconvenience in adjusting the tensioning degree of the material, when the material is relatively loose, the material is easy to wrinkle during shaping, the working efficiency of the machine is reduced when the machine is used, therefore, the present utility model provides a high temperature setting machine for composite fiber materials to solve the above problems.

Disclosure of Invention

Aiming at the problems, the utility model provides a high-temperature setting machine for composite fiber materials, which solves the problems that the prior art is inconvenient to adjust the tension of the materials, and when the materials are loose, the materials are easy to wrinkle during setting.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the utility model provides a high temperature forming machine for composite fiber materials, includes the forming cavity, the door body is installed to the rear end of forming cavity, the internally mounted of forming cavity has the transmission roller, high temperature steam generator is all installed on the top and the bottom of forming cavity inside, the gas outlet is installed to high temperature steam generator's one end, the forming roller is installed to one side of the inside gas outlet of forming cavity, belt pulley structure is installed to one end of forming cavity, belt pulley structure's one end is connected with one end of forming roller respectively, first servo motor is installed to belt pulley structure's the other end, one side of forming cavity inside is provided with adjustment mechanism, the left side of forming cavity is provided with cleaning mechanism, the right side of forming cavity is provided with air cooling mechanism;

the utility model provides a regulating mechanism, including fixed chamber, mounting panel, second servo motor, driving gear, screw thread change cover, transmission tooth, threaded rod, mounting bracket, dancer roll and limit structure, the fixed chamber is installed on the top of design intracavity portion, the below of fixed chamber is provided with screw thread change the cover, the screw thread is changeed the inside of cover and is run through there is the threaded rod, the mounting bracket is installed to the bottom of threaded rod, the internally mounted of mounting bracket has the dancer roll, the transmission tooth is installed to the lateral wall of screw thread change the cover, the mounting panel is installed in the below of fixed chamber one side, the driving gear is installed to the below of mounting panel, intermeshing between driving gear and the transmission tooth, second servo motor is installed on the top of mounting panel, the output of second servo motor is connected with the one end of driving gear.

The further improvement is that: the limiting structure comprises a limiting groove, rotating blocks, limiting rods, limiting sleeves and a connecting plate, wherein the limiting groove is arranged below two sides of the inside of a fixed cavity, the rotating blocks are arranged in the limiting groove, one ends of the rotating blocks are connected with the outer side walls of the threaded rotating sleeves, the limiting rods are arranged on two sides of the inside of the fixed cavity, the limiting sleeves are arranged on the outer side walls of the limiting rods, the connecting plate is arranged on the top end of the threaded rod, and one sides of the limiting sleeves are connected with one ends of the connecting plate.

The further improvement is that: the inner diameter of the limiting groove is larger than the outer diameter of the rotating block, and a rotating mechanism is formed between the limiting groove and the rotating block.

The further improvement is that: the limiting rods are arranged in the fixing cavity, and the two limiting rods are symmetrically distributed with respect to the central axis of the fixing cavity.

The further improvement is that: the cleaning mechanism comprises a dust storage cavity, a dust collection opening and an exhaust fan, wherein the dust storage cavity is arranged on two sides of the shaping cavity, the dust collection opening is arranged at one end of the dust storage cavity, and the exhaust fan is arranged at the other end of the dust storage cavity.

The further improvement is that: the air cooling mechanism comprises a heat radiation fan and a dust screen, the heat radiation fan is arranged on one side of the shaping cavity, and the dust screen is arranged at the other end of the heat radiation fan.

The beneficial effects of the utility model are as follows: the adjusting mechanism is arranged in the shaping cavity, and the tensioning degree of the composite fiber material during shaping can be adjusted by utilizing the mutual matching of the fixing cavity of the adjusting mechanism, the mounting plate, the second servo motor, the driving gear, the thread rotating sleeve, the transmission tooth, the threaded rod, the limiting groove, the rotating block, the limiting rod, the limiting sleeve, the connecting plate, the mounting frame and the adjusting roller, so that the shaping effect of the composite fiber material is better at any time, and the working efficiency of the machine during use is greatly improved; through being provided with clean mechanism in one side in the design chamber, utilize clean mechanism's dust storage chamber, dust absorption mouth and air exhauster's mutually supporting, can carry out cleaning treatment to composite fiber material, adsorb the rubbish on material surface into the inside in dust storage chamber through the dust absorption mouth for composite fiber material is cleaner when the design, thereby has improved the neatly nature of this forming machine when using greatly.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of an elevation cross-sectional structure of an adjusting mechanism of the present utility model;

FIG. 3 is a schematic view of the structure of the present utility model shown in FIG. 2 at a partially enlarged scale;

fig. 4 is a schematic view of a partial enlarged structure at B in fig. 2 according to the present utility model.

Wherein: 1. a cavity is fixed; 2. a conveying roller; 3. a high temperature steam generator; 4. an air outlet; 5. a shaping roller; 6. a pulley structure; 7. a first servo motor; 8. a heat radiation fan; 9. a dust screen; 10. a fixed cavity; 11. a mounting plate; 12. a second servo motor; 13. a drive gear; 14. a thread rotating sleeve; 15. a drive tooth; 16. a threaded rod; 17. a limit groove; 18. a rotating block; 19. a limit rod; 20. a limit sleeve; 21. a connecting plate; 22. a mounting frame; 23. an adjusting roller; 24. a dust storage cavity; 25. a dust collection port; 26. and (5) an exhaust fan.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to the high-temperature forming machine for composite fiber materials, shown in fig. 1, 2, 3 and 4, the high-temperature forming machine comprises a forming cavity 1, a door body is arranged at the rear end of the forming cavity 1, a transmission roller 2 is arranged in the forming cavity 1, a high-temperature steam generator 3 is arranged at the top end and the bottom end of the forming cavity 1, an air outlet 4 is arranged at one end of the high-temperature steam generator 3, a forming roller 5 is arranged at one side of the air outlet 4 in the forming cavity 1, a belt pulley structure 6 is arranged at one end of the forming cavity 1, one end of the belt pulley structure 6 is connected with one end of the forming roller 5 respectively, a first servo motor 7 is arranged at the other end of the belt pulley structure 6, an adjusting mechanism is arranged at one side of the inner part of the forming cavity 1, a cleaning mechanism is arranged at the left side of the forming cavity 1, and an air cooling mechanism is arranged at the right side of the forming cavity 1.

The adjusting mechanism comprises a fixed cavity 10, a mounting plate 11, a second servo motor 12, a driving gear 13, a thread rotating sleeve 14, a transmission tooth 15, a threaded rod 16, a mounting frame 22, an adjusting roller 23 and a limiting structure, wherein the fixed cavity 10 is arranged at the top end of the inside of the shaping cavity 1, the thread rotating sleeve 14 is arranged below the fixed cavity 10, the threaded rod 16 penetrates through the inside of the thread rotating sleeve 14, the mounting frame 22 is arranged at the bottom end of the threaded rod 16, the adjusting roller 23 is arranged inside the mounting frame 22, the transmission tooth 15 is arranged on the outer side wall of the thread rotating sleeve 14, the mounting plate 11 is arranged below one side of the fixed cavity 10, the driving gear 13 is arranged below the mounting plate 11, the driving gear 13 is meshed with the transmission tooth 15, the second servo motor 12 is arranged at the top end of the mounting plate 11, when the tension of the material is required to be adjusted, the second servo motor 12 is started to drive the driving gear 13 to rotate, the driving gear 13 is meshed with the thread rotating sleeve 14, the thread rotating sleeve 14 is driven to rotate through the transmission gear 15 under the limit of the limit groove 17 and the rotating block 18, the thread rotating sleeve 14 is connected with the threaded rod 16 through the threads, the threaded rod 16 is driven to move under the limit of the limit rod 19, the limit sleeve 20 and the connecting plate 21, the mounting frame 22 and the adjusting roller 23 are driven to move, the tension of the composite fiber material during shaping can be adjusted, the material is in a tight state at any time, the shaping effect of the composite fiber material is better, and therefore the working efficiency of the machine during use is greatly improved.

The limiting structure comprises a limiting groove 17, rotating blocks 18, limiting rods 19, limiting sleeves 20 and connecting plates 21, wherein the limiting groove 17 is arranged below two sides of the inside of the fixed cavity 10, the rotating blocks 18 are arranged inside the limiting groove 17, one ends of the rotating blocks 18 are connected with the outer side walls of the threaded rotating sleeves 14, the limiting rods 19 are arranged on two sides of the inside of the fixed cavity 10, the limiting sleeves 20 are arranged on the outer side walls of the limiting rods 19, the connecting plates 21 are arranged on the top ends of the threaded rods 16, one sides of the limiting sleeves 20 are connected with one ends of the connecting plates 21, the inner diameter of the limiting grooves 17 is larger than the outer diameter of the rotating blocks 18, a rotating mechanism is formed between the limiting grooves 17 and the rotating blocks 18, the limiting rods 19 are symmetrically distributed about the central axis of the fixed cavity 10, when the limiting mechanism is used, the threaded rotating sleeves 14 can be subjected to limiting treatment during rotation by means of mutual matching between the limiting grooves 17 and the rotating blocks 18, the threaded rotating sleeves 14 are enabled to be more stable during rotation, and the threaded rotating sleeves 14 can be subjected to stable during mutual limiting treatment when the threaded rods 16 are used for moving the threaded rods 16.

The cleaning mechanism comprises a dust storage cavity 24, dust collection openings 25 and exhaust fans 26, the dust storage cavity 24 is arranged on two sides of the shaping cavity 1, the dust collection openings 25 are arranged at one ends of the dust storage cavity 24, the exhaust fans 26 are arranged at the other ends of the dust storage cavity 24, when the cleaning mechanism is used, the exhaust fans 26 are started afterwards, dust and the like at two ends of a composite fiber material are adsorbed into the dust storage cavity 24 by the aid of the dust collection openings 25, the composite fiber material is cleaner during shaping, and accordingly the cleanliness of the shaping machine during use is greatly improved.

The forced air cooling mechanism includes radiator fan 8 and dust screen 9, radiator fan 8 installs in one side in design chamber 1, dust screen 9 is installed to the other end of radiator fan 8, and during the use, start radiator fan 8 and carry out the heat dissipation to the material that is heated for the design effect of material is better, is difficult for the shrink, and the use of dust screen 9 makes the dust be difficult for blowing to the material through radiator fan 8 simultaneously.

Working principle: the staff first penetrates the material into the shaping cavity 1 from the left side, passes through the two transmission rollers 2 from the lower part of the regulating roller 23, passes through the upper part of the transmission rollers 2, passes through the two air outlets 4, passes through the two shaping rollers 5, passes through the shaping cavity 1 from the two transmission rollers 2 on the right side, winds the shaping rollers on the winding rollers, starts the winding rollers to slowly wind the material, then starts the exhaust fan 26, sucks garbage and dust and the like at two ends of the composite fiber material into the dust storage cavity 24 by utilizing the dust collection opening 25, starts the high-temperature steam generator 3 at the moment, generates high-temperature steam by utilizing the high-temperature steam generator 3, sprays the high-temperature steam at two ends of the material by the air outlets 4, uniformly heats the material, starts the first servo motor 7 to drive the belt pulley structure 6 to rotate, and drives the two shaping rollers 5 to rotate, the material that is heated carries out pressfitting design, then start cooling fan 8 and carry out the heat dissipation to the material that is heated and handle for the shaping effect of material is better, be difficult for shrink, when the rate of tension of material needs to be adjusted, start second servo motor 12 and drive driving gear 13 and rotate, because intermesh between driving gear 13 and the screw thread changes the cover 14, so under the spacing of spacing groove 17 and commentaries on classics piece 18, drive screw thread changes the cover 14 and rotate through drive tooth 15, because screw thread changes the threaded connection between cover 14 and the threaded rod 16, so under the spacing of gag lever post 19, stop collar 20 and connecting plate 21, drive threaded rod 16 and remove, and then drive mounting bracket 22 and dancer roll 23 remove, adjust the rate of tension of material, make the shaping effect of composite fiber material better.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a high temperature forming machine of composite fiber material, includes and decides die cavity (1), its characterized in that: the novel high-temperature steam forming machine comprises a forming cavity (1), wherein a door body is arranged at the rear end of the forming cavity (1), a transmission roller (2) is arranged in the forming cavity (1), a high-temperature steam generator (3) is arranged at the top end and the bottom end of the inside of the forming cavity (1), an air outlet (4) is arranged at one end of the high-temperature steam generator (3), a forming roller (5) is arranged at one side of the air outlet (4) inside the forming cavity (1), a belt pulley structure (6) is arranged at one end of the forming cavity (1), one end of the belt pulley structure (6) is connected with one end of the forming roller (5) respectively, a first servo motor (7) is arranged at the other end of the belt pulley structure (6), an adjusting mechanism is arranged at one side of the inside of the forming cavity (1), a cleaning mechanism is arranged at the left side of the forming cavity (1), and an air cooling mechanism is arranged at the right side of the forming cavity (1).

Adjustment mechanism includes fixed chamber (10), mounting panel (11), second servo motor (12), driving gear (13), screw thread change cover (14), drive tooth (15), threaded rod (16), mounting bracket (22), dancer roll (23) and limit structure, fixed chamber (10) are installed on the inside top in design chamber (1), the below in fixed chamber (10) is provided with screw thread change cover (14), threaded rod (16) are run through to the inside of screw thread change cover (14), mounting bracket (22) are installed to the bottom of threaded rod (16), mounting bracket (22) internally mounted has dancer roll (23), drive tooth (15) are installed to the lateral wall of screw thread change cover (14), mounting panel (11) are installed in the below of fixed chamber (10) one side, driving gear (13) are installed to the below of mounting panel (11), intermeshing between driving gear (13) and drive tooth (15), second servo motor (12) are installed on the top of mounting panel (11), output of second servo motor (12) and one end of driving gear (13) are connected.

2. The high temperature setting machine for composite fiber materials according to claim 1, wherein: the limiting structure comprises a limiting groove (17), a rotating block (18), a limiting rod (19), a limiting sleeve (20) and a connecting plate (21), wherein the limiting groove (17) is arranged below two sides of the inside of the fixed cavity (10), the rotating block (18) is arranged in the limiting groove (17), one end of the rotating block (18) is connected with the outer side wall of the threaded rotating sleeve (14), the limiting rod (19) is arranged on two sides of the inside of the fixed cavity (10), the limiting sleeve (20) is arranged on the outer side wall of the limiting rod (19), the connecting plate (21) is arranged on the top end of the threaded rod (16), and one side of the limiting sleeve (20) is connected with one end of the connecting plate (21).

3. The high temperature setting machine for composite fiber materials according to claim 2, wherein: the inner diameter of the limiting groove (17) is larger than the outer diameter of the rotating block (18), and a rotating mechanism is formed between the limiting groove (17) and the rotating block (18).

4. A high temperature setting machine for composite fiber materials as in claim 3, wherein: the two limiting rods (19) are arranged in the fixing cavity (10), and the two limiting rods (19) are symmetrically distributed relative to the central axis of the fixing cavity (10).

5. The high temperature setting machine for composite fiber materials according to claim 1, wherein: the cleaning mechanism comprises a dust storage cavity (24), a dust collection opening (25) and an exhaust fan (26), wherein the dust storage cavity (24) is arranged on two sides of the shaping cavity (1), the dust collection opening (25) is arranged at one end of the dust storage cavity (24), and the exhaust fan (26) is arranged at the other end of the dust storage cavity (24).

6. The high temperature setting machine for composite fiber materials according to claim 1, wherein: the air cooling mechanism comprises a heat radiation fan (8) and a dust screen (9), wherein the heat radiation fan (8) is arranged on one side of the shaping cavity (1), and the dust screen (9) is arranged at the other end of the heat radiation fan (8).

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