CN111070696B

CN111070696B - Ironing process

Info

Publication number: CN111070696B
Application number: CN202010002685.9A
Authority: CN
Inventors: 陈秀莲
Original assignee: Shantou Yili Machine Equipment Co ltd
Current assignee: Shantou Yili Machine Equipment Co ltd
Priority date: 2020-01-02
Filing date: 2020-01-02
Publication date: 2022-09-09
Anticipated expiration: 2040-01-02
Also published as: CN111070696A

Abstract

The invention discloses a hot-pressing process, which comprises the following steps: arranging an upper heating plate and a lower heating plate at a hot pressing station; setting an upper water cooling plate and a lower water cooling plate at a shaping station; the first cylinder and the second cylinder are adopted to respectively drive the lower heating plate and the lower water cooling plate to move up and down; further comprising the steps of: an upper group of rails and a lower group of rails are fixed on two sides, and the upper group of rails and the lower group of rails respectively extend outwards to form a throwing station; an upper bearing frame and a lower bearing frame are respectively arranged in the upper group of tracks and the lower group of tracks; respectively placing the upper working plate and the lower working plate in the upper bearing frame and the lower bearing frame; the upper and lower driving mechanisms respectively drive the upper and lower bearing frames to enable the upper and lower bearing frames and the upper and lower working discs to respectively move back and forth along the upper and lower groups of tracks, and the upper and lower working discs can be positioned between the upper and lower heating plates, or between the upper and lower water cooling plates, or outside the front end of the shell; the control mechanism controls the upper and lower driving mechanisms to work, and the control mechanism controls the first and second cylinders to act.

Description

Ironing process

Technical Field

The invention belongs to seamless and traceless pressing of materials, and relates to a method for hot pressing of turned edges of materials, in particular to a material ironing process for pressing by adopting a hot die plate and shaping by adopting a cold die plate.

Background

At present, the bonding of fabrics such as clothes, raincoats and the like is mainly completed by hot pressing. Generally, the material to be bonded can not directly be piled up after hot pressing, needs to tile the material to prevent that the material from wrinkling because of higher temperature, for this reason, on the ironing press of material, need be equipped with two processes that tile before, afterwards usually.

The traditional method for ironing materials mainly comprises two methods: one is to realize hot pressing of materials by utilizing the up-and-down movement of an upper die head or an upper template and the upper die head or the lower template, and the product obtained by the hot pressing method has good flatness but longer technological process; the other system adopts the upper conveying roller and the lower conveying roller to realize hot pressing of the materials, the technological process is fast, but the materials are subjected to hot pressing by the upper and the lower rollers, so that the wavy lines are easily generated on the surfaces of the materials, and the flatness of the materials is poor.

In order to solve the problems, the Chinese patent application 201610923289.3 provides a material bonder, which adopts a hot upper template and a hot lower template, a cold upper template and a cold lower template arranged in a casing, wherein the material is hot-pressed by the hot upper template and the hot lower template, and then is cooled by the cold upper template and the cold lower template, so that the material can be rapidly shaped without being tiled in a subsequent procedure.

However, the method adopted by this machine still has the following disadvantages: the hot pressing station and the shaping station in the machine can not be simultaneously utilized, the use efficiency of the whole machine is still low, in addition, the machine has a certain length, materials enter from one end of the machine and are finally sent out from the other end of the machine, workers need to be both in front of and behind the machine, and the problems of high labor intensity or more labor number of the staff still exist. All this results in no further reduction in product cost and price.

Disclosure of Invention

The invention aims to overcome the defects and provide a hot pressing process, which adopts the technical scheme that working discs are arranged in a machine in an up-down distribution mode, an upper driving mechanism and a lower driving mechanism respectively control the upper working disc and the lower working disc to enter each station so as to carry out hot pressing and shaping operations at the same time, feeding and taking materials are unified at the same position, and workers can carry out corresponding operations without walking back and forth.

The purpose of the invention is realized as follows:

an ironing process comprises the following steps:

an upper heating plate and a lower heating plate are arranged at a hot-pressing station in the shell; an upper water cooling plate and a lower water cooling plate are arranged at a shaping station in the shell; a first cylinder and a second cylinder are adopted to respectively drive the lower heating plate and the lower water cooling plate to move along the up-down direction;

the method is characterized by further comprising the following steps:

two groups of rails are fixed on two sides in the casing, the two groups of rails are vertically distributed and divided into an upper group of rails and a lower group of rails, the upper group of rails and the lower group of rails respectively extend outwards to the outside of the front end of the casing, and a feeding station is formed outside the front end of the casing;

an upper bearing frame and a lower bearing frame are respectively arranged in the upper group of tracks and the lower group of tracks;

respectively placing an upper working disc and a lower working disc in an upper bearing frame and a lower bearing frame;

the upper and lower driving mechanisms respectively drive the upper and lower bearing frames, so that the upper bearing frame, the upper working plate, the lower bearing frame and the lower working plate can respectively move back and forth along the upper and lower groups of tracks, and the upper and lower working plates can be positioned between the upper heating plate and the lower heating plate, or between the upper water cooling plate and the lower water cooling plate, or at a throwing and taking station outside the front end of the shell;

the control mechanism controls the upper driving mechanism and the lower driving mechanism, the upper driving mechanism and the lower driving mechanism respectively drive the upper bearing frame and the lower bearing frame to pass through the hot pressing station and the shaping station in turn, and the control mechanism controls the first air cylinder and the second air cylinder to act.

Preferably, in the above scheme, the upper driving mechanism uses an upper synchronous motor, an upper synchronous wheel and an upper synchronous belt, the upper synchronous motor drives the upper synchronous belt to drive through the upper synchronous wheel, and the upper synchronous belt drives the upper bearing frame and the upper working disc to move in the upper group track.

Preferably, in the above scheme, the lower driving mechanism adopts a lower synchronous motor, a lower synchronous wheel and a lower synchronous belt, the lower synchronous motor drives the lower synchronous belt to drive through the lower synchronous wheel, and the lower synchronous belt drives the lower bearing frame and the lower working plate to move in the lower group of tracks.

The synchronous motor, the synchronous wheel and the synchronous belt are adopted for driving, so that the position of the working disc is more accurate in moving, and the matching of the working disc with the upper and lower heat-generating plates and the upper and lower water cooling plates can be better ensured.

According to the process, no matter the upper working plate or the lower working plate is arranged, materials on the upper working plate and the working plate can be conveyed to a position between the upper heating plate and the lower heating plate through the upper bearing frame and the lower bearing frame by the upper driving mechanism and the lower driving mechanism, or the upper water cooling plate and the lower water cooling plate, or the outer side of the front end of the shell can be hot-pressed by the upper heating plate and the lower heating plate, the upper water cooling plate and the lower water cooling plate are used for shaping, finally the feeding and taking stations are sent back by the upper driving mechanism and the lower driving mechanism, and the upper working plate and the lower working plate can finish feeding, hot pressing, shaping, material taking and other operations.

In addition, in the hot pressing process, the control mechanism can control the first air cylinder, the lower heating plate is jacked up by the first air cylinder, the lower heating plate moves upwards to drive the upper working plate or the lower working plate and the materials to ascend, so that the upper working plate or the lower working plate is separated from the upper bearing frame or the lower bearing frame, and the upper heating plate and the lower heating plate are used for hot pressing; in the shaping process, the control mechanism can control the second cylinder, the lower water cooling plate is jacked up by the second cylinder, the lower water cooling plate moves upwards to drive the upper working plate or the lower working plate to ascend together with materials, so that the upper working plate or the lower working plate is separated from the upper bearing frame or the lower bearing frame, and the upper water cooling plate and the lower water cooling plate are used for cooling.

Furthermore, under the control of the control mechanism, the upper and lower driving mechanisms can respectively drive the upper and lower working discs to move back and forth along the upper and lower groups of rails, and the upper and lower working discs can be alternately positioned at the hot-pressing station and the shaping station, so that materials on the upper and lower working discs can be correspondingly operated at the hot-pressing station and the shaping station in turn, and the hot-pressing station and the shaping station can be simultaneously operated.

According to the hot-pressing process, the upper working plate and the lower working plate can be operated on the hot-pressing station, the shaping station and the feeding station in a circulating mode, so that the utilization rates of the upper heating plate, the lower heating plate, the upper water cooling plate and the lower water cooling plate are improved, and the overall working efficiency of the process is improved greatly.

According to the hot-pressing process, the feeding station and the taking station are unified at the feeding station and are positioned at the same side of the machine, and the working disc can be automatically sent out of the front end of the machine shell by the driving mechanism, so that the operation of workers does not need to be rushed back and forth at the front end and the rear end of the machine or two workers are arranged at the front end and the rear end of the machine, the labor intensity of the workers is greatly reduced or the number of workers is reduced.

The upper working plate and the lower working plate are movably arranged with the upper bearing frame and the lower bearing frame respectively, the upper working plate and the lower working plate can be driven to lift together with materials by utilizing the up-down movement of the lower heating plate and the lower water cooling plate, so that the upper working plate and the lower working plate can use the upper heating plate and the lower heating plate or the upper water cooling plate and the lower water cooling plate together, meanwhile, the upper working plate and the lower working plate respectively use the upper group of rails and the lower group of rails for conveying, the material conveying accuracy is facilitated, and the materials can be conveniently returned to the feeding station.

The hot pressing process can adopt the mode that the hot pressing station works and the shaping station does not work, or the mode that the hot pressing station does not work and the shaping station works, namely, the single hot pressing process or the single shaping process can be carried out to meet the requirement of bonding of different materials, and meanwhile, the process steps are simple.

Drawings

FIG. 1 is a schematic view of an ironing press implementing structure using the ironing process of the present invention;

FIG. 2 is a schematic cross-sectional view of the press of FIG. 1 taken along A-A;

fig. 3 is a schematic view of the ironing press of fig. 1 with the top surface structure removed.

Detailed Description

The following detailed description of the invention is made with reference to the accompanying drawings:

referring to fig. 1 to 3, the ironing process of the embodiment of the present invention includes the following steps:

10. an upper heating plate 1 and a lower heating plate 2 are arranged at a hot-pressing station in the shell;

20. an upper water cooling plate 3 and a lower water cooling plate 4 are arranged at a shaping station in a shell, and a first air cylinder A and a second air cylinder B are adopted to respectively drive a lower heating plate 2 and the lower water cooling plate 4 to move along the up-and-down direction;

further comprising the steps of:

30. two groups of rails are fixed on two sides in the casing, the two groups of rails are vertically distributed into an upper group of rails 5 and a lower group of rails 6, the upper group of rails 5 and the lower group of rails 6 respectively extend outwards to the outside of the front end of the casing, and a throwing station is formed outside the front end of the casing;

40. an upper bearing frame 7 and a lower bearing frame 8 are respectively arranged in the upper group of tracks 5 and the lower group of tracks 6;

50. an upper working plate 9 and a lower working plate 10 are respectively arranged in an upper bearing frame 7 and a lower bearing frame 8;

60. respectively putting materials on the working plate 9 and the working plate 10;

70. an upper driving mechanism 11 is controlled by a control mechanism, and the upper bearing frame 7 and the upper working disc 9 are driven by the upper driving mechanism 11 to move to a hot pressing station along the upper group of rails 5;

80. a control mechanism is adopted to control the first cylinder A, the first cylinder A jacks up the upper working plate 9, so that the upper working plate 9 and the material rise together to leave the upper bearing frame 7, and the upper heating plate 1 and the lower heating plate 2 are used for hot pressing;

90. a control mechanism is adopted to control the first air cylinder A, the first air cylinder A drives the upper working disc 9, so that the upper working disc 9 descends together with the materials, and the upper working disc 9 returns to the upper bearing frame 7;

100. the control mechanism is adopted to control the upper driving mechanism 11, the upper bearing frame 7 and the working disc 9 are driven by the upper driving mechanism 11 to continuously move to the shaping station along the upper group track 5, meanwhile, the control mechanism is adopted to control the lower driving mechanism 12, and the lower bearing frame 8 and the lower working disc 10 are driven by the lower driving mechanism 12 to move to the hot pressing station along the lower group track 6;

110. the control mechanism is adopted to control the second cylinder B, the second cylinder B jacks up the upper working plate 9, so that the upper working plate 9 and the material ascend together to leave the upper bearing frame 7 and are cooled by the upper water cooling plate 3 and the lower water cooling plate 4, meanwhile, the control mechanism is adopted to control the first cylinder A, the first cylinder A jacks up the lower working plate 10, so that the lower working plate 10 and the material ascend together to leave the lower bearing frame 8, and the upper heating plate 1 and the lower heating plate 2 are used for hot pressing;

120. the control mechanism is adopted to control the second air cylinder B, the second air cylinder B drives the upper working plate 9 to enable the upper working plate 9 to descend together with the materials, and the upper working plate 9 returns to the upper bearing frame 7, meanwhile, the control mechanism is adopted to control the first air cylinder A, the first air cylinder A drives the lower working plate 10 to enable the lower working plate 10 to descend together with the materials, and the lower working plate 10 returns to the lower bearing frame 8;

130. the control mechanism is adopted to control the upper driving mechanism 11, the upper bearing frame 7 and the upper working disc 9 are driven by the upper driving mechanism 11 to move along the upper group track 5 and return to the throwing and taking station, meanwhile, the control mechanism is adopted to control the lower driving mechanism 12, and the lower bearing frame 8 and the lower working disc 10 are driven by the lower driving mechanism 12 to continue to move along the lower group track 6 to the shaping station;

140. the control mechanism is adopted to control the second cylinder B, the second cylinder B jacks the lower working plate 10, so that the lower working plate 10 and the material ascend together to leave the lower bearing frame 8 and are cooled by the upper water cooling plate 3 and the lower water cooling plate 4, after cooling is completed, the control mechanism is adopted to control the second cylinder B, the second cylinder B drives the lower working plate 10, so that the lower working plate 10 and the material descend together, the upper working plate descends to the lower bearing frame 8, and meanwhile, the upper working plate 9 is taken and fed at the feeding station;

150. a control mechanism is adopted to control a lower driving mechanism 12, a lower bearing frame 8 and a lower working disc 10 are driven by the lower driving mechanism 12 to move along a lower group rail 6 and return to a feeding station, the lower working disc 10 is fed and taken at the feeding station, meanwhile, the control mechanism is adopted to control an upper driving mechanism 11, and an upper bearing frame 7 and an upper working disc 9 are driven by the upper driving mechanism 11 to move along an upper group rail 5 to a hot pressing station;

160. step 80 is repeated.

In addition, the upper driving mechanism 11 adopts an upper synchronous motor 11a, an upper synchronous wheel 11b and an upper synchronous belt 11c, the upper synchronous motor 11a drives the upper synchronous belt 11c to transmit through the upper synchronous wheel 11b, and the upper synchronous belt 11c drives the upper bearing frame 7 and the upper working disc 9 to move in the upper group track 5;

furthermore, the lower driving mechanism 12 employs a lower synchronous motor 12a, a lower synchronous wheel 12b and a lower synchronous belt 12c, the lower synchronous motor 12a drives the lower synchronous belt 12c to transmit through the lower synchronous wheel 12b, and the lower synchronous belt 12c drives the lower carrier frame 8 and the lower working plate 10 to move in the lower group track 6.

Therefore, the upper working disc 9 and the lower working disc 10 can be operated continuously on different stations in turn, the upper working disc 9 and the lower working disc 10 respectively complete hot pressing and shaping of materials, and the upper heating plate 1 and the lower heating plate 2 are hot pressed, and the upper water cooling plate 3 and the lower water cooling plate 4 are shaped to be fully utilized.

Claims

1. An ironing process comprises the following steps:

the method is characterized by further comprising the following steps:

the control mechanism controls the upper and lower driving mechanisms, the upper and lower driving mechanisms respectively drive the upper bearing frame and the lower bearing frame to pass through the hot pressing station and the shaping station in turn, and the control mechanism controls the first air cylinder and the second air cylinder to act;

in the hot pressing process, the control mechanism can control the first air cylinder, the lower heating plate is jacked up by the first air cylinder, the lower heating plate moves upwards to drive the upper working plate or the lower working plate and the materials to ascend, so that the upper working plate or the lower working plate is separated from the upper bearing frame or the lower bearing frame, and the upper heating plate and the lower heating plate are used for hot pressing;

in the shaping process, the control mechanism can control the second cylinder, the lower water cooling plate is jacked up by the second cylinder, the lower water cooling plate moves upwards to drive the upper working plate or the lower working plate to ascend together with materials, so that the upper working plate or the lower working plate is separated from the upper bearing frame or the lower bearing frame, and the upper water cooling plate and the lower water cooling plate are used for cooling.

2. A hot stamping process comprises the following steps:

10. an upper heating plate (1) and a lower heating plate (2) are arranged at a hot-pressing station in the shell;

20. an upper water cooling plate (3) and a lower water cooling plate (4) are arranged at a shaping station in the shell, and a first air cylinder A and a second air cylinder B are adopted to respectively drive the lower water cooling plate (2) and the lower water cooling plate (4) to move along the vertical direction;

the method is characterized by further comprising the following steps:

30. two groups of rails are fixed on two sides in the casing, the two groups of rails are vertically distributed and divided into an upper group of rails (5) and a lower group of rails (6), the upper group of rails (5) and the lower group of rails (6) respectively extend outwards to the outside of the front end of the casing, and a throwing station is formed outside the front end of the casing;

40. an upper bearing frame (7) and a lower bearing frame (8) are respectively arranged in the upper group of tracks (5) and the lower group of tracks (6);

50. an upper working disc (9) and a lower working disc (10) are respectively arranged in an upper bearing frame (7) and a lower bearing frame (8);

60. respectively putting materials on the working disc (9) and the working disc (10);

70. an upper driving mechanism (11) is controlled by a control mechanism, and the upper bearing frame (7) and the upper working disc (9) are driven by the upper driving mechanism (11) to move to a hot pressing station along the upper group of rails (5);

80. a control mechanism is adopted to control a first cylinder A, the first cylinder A jacks up an upper working plate (9), so that the upper working plate (9) and the material rise together to leave an upper bearing frame (7), and an upper heating plate (1) and a lower heating plate (2) are used for hot pressing;

90. a control mechanism is adopted to control the first air cylinder A, the first air cylinder A drives the upper working plate (9), so that the upper working plate (9) descends together with the materials, and the upper working plate (9) returns to the upper bearing frame (7);

100. the upper driving mechanism (11) is controlled by the control mechanism, the upper bearing frame (7) and the working disc (9) are driven by the upper driving mechanism (11) to continuously move to a shaping station along the upper group track (5), meanwhile, the lower driving mechanism (12) is controlled by the control mechanism, and the lower bearing frame (8) and the lower working disc (10) are driven by the lower driving mechanism (12) to move to a hot pressing station along the lower group track (6);

110. the control mechanism is adopted to control the second cylinder B, the second cylinder B jacks up the upper working plate (9) to enable the upper working plate (9) to ascend together with the materials to be separated from the upper bearing frame (7), and the upper water cooling plate (3) and the lower water cooling plate (4) are used for cooling, meanwhile, the control mechanism is adopted to control the first cylinder A, the first cylinder A jacks up the lower working plate (10) to enable the lower working plate (10) to ascend together with the materials to be separated from the lower bearing frame (8), and the upper heating plate (1) and the lower heating plate (2) are used for hot pressing;

120. the control mechanism is adopted to control the second air cylinder B, the second air cylinder B drives the upper working disc (9) to enable the upper working disc (9) to descend together with the materials, and the upper working disc (9) returns to the upper bearing frame (7), meanwhile, the control mechanism is adopted to control the first air cylinder A, the first air cylinder A drives the lower working disc (10) to enable the lower working disc (10) to descend together with the materials, and the lower working disc (10) returns to the lower bearing frame (8);

130. an upper driving mechanism (11) is controlled by a control mechanism, an upper bearing frame (7) and an upper working disc (9) are driven by the upper driving mechanism (11) to move along an upper group track (5) and return to a throwing and taking station, meanwhile, a lower driving mechanism (12) is controlled by the control mechanism, and a lower bearing frame (8) and a lower working disc (10) are driven by the lower driving mechanism (12) to continuously move along a lower group track (6) to a shaping station;

140. the control mechanism is adopted to control the second cylinder B, the lower working disc (10) is jacked up by the second cylinder B, the lower working disc (10) and the materials rise together to leave the lower bearing frame (8), the upper water cooling plate (3) and the lower water cooling plate (4) are used for cooling, after cooling is completed, the control mechanism is adopted to control the second cylinder B, the second cylinder B drives the lower working disc (10), the lower working disc (10) and the materials descend together, the upper working disc is returned to the lower bearing frame (8), and meanwhile, the upper working disc (9) is taken and fed at the feeding station;

150. the lower driving mechanism (12) is controlled by the control mechanism, the lower bearing frame (8) and the lower working disc (10) are driven by the lower driving mechanism (12) to move back to the feeding and taking station along the lower group track (6), the lower working disc (10) is taken and fed at the feeding and taking station, meanwhile, the upper driving mechanism (11) is controlled by the control mechanism, and the upper bearing frame (7) and the upper working disc (9) are driven by the upper driving mechanism (11) to move to the hot pressing station along the upper group track (5);

160. step 80 is repeated.