CN109552925B

CN109552925B - Cloth outlet heat absorbing device

Info

Publication number: CN109552925B
Application number: CN201910080860.3A
Authority: CN
Inventors: 郑永忠; 彭木生; 汪培旺; 包力军
Original assignee: Guangdong Sanji Klangz Mechanical Technology Co ltd
Current assignee: Guangdong Sanji Klangz Mechanical Technology Co ltd
Priority date: 2019-01-28
Filing date: 2019-01-28
Publication date: 2024-04-05
Anticipated expiration: 2039-01-28
Also published as: CN109552925A

Abstract

The invention discloses a cloth outlet heat absorber which comprises a heat absorbing net cage, a tension roller, a cloth outlet net belt and a cloth outlet roller for enabling the cloth outlet net belt to transmit cloth, wherein the cloth outlet net belt is tightly looped on the cloth outlet roller and the tension roller, and the heat absorbing net cage is arranged in the cloth outlet net belt loop and between the cloth outlet roller and the tension roller; the heat absorption net cage is used for absorbing heat of cloth transmitted by the cloth net belt and comprises a heat absorption air draft pore plate and a heat absorption air draft tube cavity, a part of the edge of the heat absorption air draft pore plate and the heat absorption air draft tube cavity form a circulation port, an exhaust fan is connected, and the rest part of the edge of the heat absorption air draft pore plate is in sealing connection with the heat absorption air draft tube cavity. The invention has simple structure, convenient operation and high cloth heat absorption efficiency, and ensures the stability of cloth performance.

Description

Cloth outlet heat absorbing device

Technical Field

The invention belongs to the field of setting machine equipment, and particularly relates to a cloth discharging heat absorber on a cloth discharging mechanism of a setting machine.

Technical Field

In the working process of the setting machine, the cloth is subjected to a drying and setting process and then is finally collected, and if the temperature of the cloth is still higher during the collection, the stability of the cloth performance can be influenced, and the color of the cloth is changed, even parameters such as shrinkage are changed.

Disclosure of Invention

The invention provides a cloth outlet heat absorber which absorbs heat in cloth, so that the temperature of the dried and shaped cloth is reduced at any time, and the stability of the cloth performance is ensured.

In order to solve the technical problems, the cloth outlet heat absorber comprises a heat absorbing net cage, a tension roller, a cloth outlet net belt and a cloth outlet roller for enabling the cloth outlet net belt to transmit cloth, wherein the cloth outlet net belt is tightly looped on the cloth outlet roller and the tension roller, and the heat absorbing net cage is arranged in the cloth outlet net belt loop and between the cloth outlet roller and the tension roller; the heat absorption net cage is used for absorbing heat of cloth transmitted by the cloth net belt and comprises a heat absorption air draft pore plate and a heat absorption air draft tube cavity, a part of the edge of the heat absorption air draft pore plate and the heat absorption air draft tube cavity form a circulation port, an exhaust fan is connected, and the rest part of the edge of the heat absorption air draft pore plate is in sealing connection with the heat absorption air draft tube cavity.

The suction fan works to enable the surface of the heat absorption net cage to form negative pressure, the cloth outlet net belt provides power for transmitting cloth through the cloth outlet roller, and when the cloth passes through the heat absorption net cage, negative pressure air flow takes away heat of the cloth, so that the temperature of the cloth is lowered.

Further, the heat absorption exhaust tube cavity comprises a guide plate, the guide plate corresponds to the heat absorption exhaust hole plate vertically, the vertical distance is gradually increased along the direction of the heat absorption exhaust hole plate approaching the circulation port, and the guide plate is further connected with a first guide bent plate. Therefore, heat flows along the guide plate and the first guide bent plate under the drive of negative pressure air flow and flows out of the circulation port, and the streamline arrangement of the first guide bent plate improves the flow speed of the air flow to a certain extent.

Further, the heat absorbing net cage is provided with a second flow guiding bent plate, and the second flow guiding bent plate is connected with the heat absorbing air draft pore plate and the circulation port.

Further, the heat-absorbing exhaust tube cavity is provided with a cleaning port and is matched with a cleaning port cover plate. Thus, staff can regularly clean the heat-absorbing exhaust tube cavity.

Further, tension adjusting mechanisms are arranged at two ends of the tension roller and can rotate relative to the tension adjusting mechanisms, and the tension adjusting mechanisms are used for adjusting the positions of the tension roller relative to the cloth outlet roller. Therefore, the position of the tension roller relative to the cloth outlet roller is adjusted, so that the cloth outlet net belt is tensioned, and the transportation stability is kept.

Further, tension adjustment mechanism includes first slider, second slider, mount pad and adjusting screw, but tension roller both ends relative rotation installs in the mount pad, and first slider, second slider are equipped with the slip boss, and the mount pad is equipped with the spout of matching, and first slider, second slider both ends are connected through first supporting shoe, second supporting shoe respectively, and adjusting screw threaded connection is first supporting shoe and mount pad in proper order to the matching has the fixation nut who is used for fixed tension roller position.

From this through rotatory adjusting screw, drive the mount pad and slide between first slider, second slider, and then adjust the position of tension roller, rethread fixation nut screws and fixes, and this tension adjustment mechanism simple structure adjusts simply and conveniently.

Further, baffles are arranged on the surface of the heat-absorbing air draft pore plate and on two sides of the transmission movement of the outlet mesh belt. Therefore, when the cloth outlet mesh belt is in transmission motion, the cloth outlet mesh belt and cloth transported by the cloth outlet mesh belt are not deviated from the heat absorption area of the heat absorption air draft pore plate.

The invention has simple structure, convenient operation and high cloth heat absorption efficiency, and ensures the stability of cloth performance.

Drawings

FIG. 1 is a schematic view of a cloth heat sink according to the present invention;

FIG. 2 is an enlarged view of the cloth heat sink shown in FIG. 1 at A;

FIG. 3 is a schematic view of the heat absorbing net cage of the cloth heat absorber shown in FIG. 1;

fig. 4 is a schematic view of the use and installation of the cloth heat sink shown in fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 4, the cloth outlet heat absorber is installed on a cloth outlet frame 7 of a setting machine when in use, and comprises a heat absorbing net cage 1, a tension roller 2, a cloth outlet net belt 3 and a cloth outlet roller 4, wherein the cloth outlet net belt 3 is tightly looped on the cloth outlet roller 4 and the tension roller 2, and the heat absorbing net cage 1 is arranged in the cloth outlet net belt 3 and between the cloth outlet roller 4 and the tension roller 2. The two ends of the cloth outlet roller 4 are arranged on a cloth outlet frame 7 through bearings, and are driven to rotate through a motor 6, so that the cloth outlet net belt 3 is driven to move to transfer cloth. The tension roller 2 is used for keeping the cloth outlet net belt 3 in a tensioning state, ensuring the transportation stability of cloth, adjusting the relative position of the cloth outlet roller 4 through tension adjusting mechanisms 5 at the two ends of a roller shaft of the cloth outlet net belt, and being arranged on a cloth outlet frame 7 through the tension adjusting mechanisms 5.

As shown in fig. 3, the tension adjusting mechanism 5 includes a first slider 51, a second slider 52, a mounting seat 53 and an adjusting screw 54, two ends of the tension roller 2 are mounted on the mounting seat 53 through aligning bearings, the first slider 51 and the second slider 52 are provided with sliding bosses 50, the mounting seat 53 is provided with matching sliding grooves 531, and the mounting seat 53 is clamped between the first slider 51 and the second slider 52 and can slide between the first slider 51 and the second slider 52. The two ends of the first sliding block 51 and the second sliding block 52 are respectively connected through a first supporting block 55 and a second supporting block 56, and the adjacent sliding blocks and the supporting blocks are in threaded connection. The mounting seat 53 is further provided with a fixing ring 532, the adjusting screw 54 is sequentially connected with the first supporting block 55 and the fixing ring 532 of the mounting seat 53 in a threaded manner, and fixing nuts 541 are matched on two sides of the fixing ring 532 along the adjusting screw 54 and on one side, close to the head of the adjusting screw 54, of the first supporting block 55. Through rotatory adjusting screw 54, drive mount pad 53 and slide between first slider 51, second slider 52, and then adjust the position of tension roller 2, the rethread fixation nut 541 screws and fixes, and this tension adjustment mechanism 5 simple structure adjusts simply and conveniently. The first slider 51 and the second slider 52 are screwed to the cloth discharge frame 7, and the tension adjusting mechanism 5 and the tension roller 2 are attached to the cloth discharge frame 7.

As shown in fig. 2, the heat absorbing net cage 1 comprises a heat absorbing and exhausting hole plate 11 and a heat absorbing and exhausting tube cavity 12, the heat absorbing and exhausting hole plate 11 is a rectangular plate and is provided with a plurality of heat absorbing holes, one side of the heat absorbing and exhausting hole plate is provided with a circulation port 13 with the heat absorbing and exhausting tube cavity 12, the circulation port 13 is square, and an adapter 14 is welded to connect with an exhausting bent tube 15; the opening of one end of the adapter 14 is square, the opening of the other end is round, one end of the round opening of the adapter 14 is in flange connection with the exhaust elbow 15, the exhaust elbow 15 is in flange connection with the exhaust fan 16, and the exhaust fan 16 is arranged on the cloth outlet frame 7 through a fixing seat 161. The other three sides of the heat absorption and exhaust pore plate 11 are welded with the heat absorption and exhaust tube cavity 12. The baffles 111 are arranged on the surface of the heat-absorbing air-extracting pore plate 11 and on two sides of the transmission motion of the cloth-discharging mesh belt 3, so that the cloth-discharging mesh belt 3 and cloth transported by the cloth-discharging mesh belt 3 are not deviated from the heat-absorbing area of the heat-absorbing air-extracting pore plate 11 when the cloth-discharging mesh belt 3 is in transmission motion.

The side of the heat absorption exhaust tube cavity 12, which corresponds to the heat absorption exhaust orifice 11 vertically, is a guide plate 121, the vertical distance between the guide plate 121 and the heat absorption exhaust orifice 11 gradually increases along the direction of the heat absorption exhaust orifice 11 approaching the circulation port 13, and is welded with a first guide bent plate 122, and a second guide bent plate 123 is welded between the heat absorption exhaust orifice 11 and the circulation port 13. When the exhaust fan 16 works, air flows along the guide plate 121 and the first guide bent plate 122, flows to the exhaust bent pipe 15 through the adapter 14, and flows out of an air outlet of the exhaust fan 16. The streamlined arrangement of the first and second flow-guiding curved plates 122, 123 increases the flow velocity of the air flow to some extent. The heat absorption exhaust tube cavity 12 is further provided with a cleaning port, and a cleaning port cover plate 125 is matched with the heat absorption exhaust tube cavity, and the cleaning port cover plate 125 is in threaded connection sealing, so that a worker can conveniently clean the heat absorption exhaust tube cavity 12 regularly.

The two ends of the heat absorption net cage 1 are connected with fixing plates 17 in a threaded manner, and the fixing plates 17 are connected with the cloth outlet frame 7 in a threaded manner, so that the heat absorption net cage 1 is installed on the cloth outlet frame 7. A reinforcing beam 18 is welded between the two fixing plates 17 to reinforce the structure of the heat absorbing net cage 1.

Working principle: the suction fan 16 works to enable the surface of the heat absorption suction orifice plate 11 of the heat absorption net cage 1 to form negative pressure, the cloth outlet net belt 3 provides power for transmitting cloth through the motor and the cloth outlet roller 4, when the cloth enters the cloth outlet net belt 3 from one side of the tension roller 2 and passes through the heat absorption suction orifice plate 11, negative pressure air flow takes away heat of the cloth, the heat flows along the guide plate 121 and the first guide bent plate 122 under the driving of the air flow, and then flows to the suction bent pipe 15 through the adapter 14 and finally flows out of the air outlet of the suction fan 16, so that the temperature of the cloth is lowered.

What has been described above is merely some embodiments of the present invention. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the invention.

Claims

1. The cloth outlet heat absorber is characterized by comprising a heat absorbing net cage (1), a tension roller (2), a cloth outlet net belt (3) and a cloth outlet roller (4) for enabling the cloth outlet net belt (3) to transmit cloth, wherein the cloth outlet net belt (3) is tensioned to the cloth outlet roller (4) and the tension roller (2), the heat absorbing net cage (1) is arranged in the cloth outlet net belt (3) and between the cloth outlet roller (4) and the tension roller (2),

the heat absorption net cage (1) comprises a heat absorption air suction orifice plate (11) and a heat absorption air suction tube cavity (12), a part of the edge of the heat absorption air suction orifice plate (11) and the heat absorption air suction tube cavity (12) form a circulation port (13) and are connected with an air suction fan (16), the heat absorption air suction orifice plate (11) is a rectangular plate and is distributed with a plurality of heat absorption holes, one side edge of the heat absorption air suction orifice plate forms a circulation port (13) with the heat absorption air suction tube cavity (12), the rest part of the edge of the heat absorption air suction orifice plate (11) is in sealing connection with the heat absorption air suction tube cavity (12), the rest three side edges of the heat absorption air suction orifice plate (11) are welded with the heat absorption air suction tube cavity (12),

the surface of the heat-absorbing air draft pore plate (11) is provided with baffle plates (111) along the two sides of the transmission movement of the cloth outlet mesh belt (3), when the cloth outlet mesh belt (3) transmits the movement, the cloth outlet mesh belt (3) and the cloth transported by the cloth outlet mesh belt do not deviate from the heat absorption area of the heat-absorbing air draft pore plate (11),

the heat absorption exhaust tube cavity (12) comprises a guide plate (121), the guide plate (121) corresponds to the heat absorption exhaust hole plate (11) vertically, the vertical distance is gradually increased along the direction of the heat absorption exhaust hole plate (11) approaching to the circulation port (13), the guide plate (121) is connected with a first guide bent plate (122),

the heat absorption net cage (1) is provided with a second flow guide bent plate (123), the second flow guide bent plate (123) is connected with a heat absorption air draft pore plate (11) and a circulation port (13), the first flow guide bent plate (122) and the second flow guide bent plate (123) are in streamline arrangement,

the heat absorption exhaust tube cavity (12) is provided with a cleaning opening (124) and is matched with a cleaning opening cover plate (125).

2. The cloth outlet heat absorber according to claim 1, wherein tension adjusting mechanisms (5) are arranged at two ends of the tension roller (2) and can rotate relative to the tension adjusting mechanisms (5), and the tension adjusting mechanisms (5) are used for adjusting the position of the tension roller (2) relative to the cloth outlet roller (4).

3. The cloth outlet heat absorber according to claim 2, wherein the tension adjusting mechanism (5) comprises a first sliding block (51), a second sliding block (52), a mounting seat (53) and an adjusting screw (54), two ends of the tension roller (2) can be relatively rotatably mounted on the mounting seat (53), the first sliding block (51) and the second sliding block (52) are provided with sliding bosses (50), the mounting seat (53) is provided with matched sliding grooves (531), two ends of the first sliding block (51) and two ends of the second sliding block (52) are respectively connected through a first supporting block (55) and a second supporting block (56), and the adjusting screw (54) is sequentially connected with the first supporting block (55) and the mounting seat (53) in a threaded mode and is matched with fixing nuts (541) for fixing the positions of the tension roller (2).