阅读说明：本技术 一种耐磨保温涤纶丝批量蒸纱设备 (Wear-resisting heat preservation dacron silk evaporates yarn equipment in batches ) 是由 胡兰英 于 2021-08-25 设计创作，主要内容包括：本发明涉及一种蒸纱设备,尤其涉及一种耐磨保温涤纶丝批量蒸纱设备。本发明提供一种体积较大,能够批量对涤纶丝进行蒸纱,可循环利用水,节省水资源的耐磨保温涤纶丝批量蒸纱设备。一种耐磨保温涤纶丝批量蒸纱设备,包括：蒸炉,其一侧设有第一固定块；转动门,第一固定块上转动式设有转动门,转动门与蒸炉转动配合。有益效果：通过第三加热器对蒸汽桶内的水进行高温加热,使水沸腾产生高压,随之便将水进行转换为蒸汽,蒸汽便沿通气管进行传输,进而蒸汽排放至蒸炉内,人们启动循环风机,循环风机吹出的风便对排出的蒸汽进行吹散,接着蒸汽便均匀附加在涤纶丝上,如此便可对涤纶丝进行蒸纱的效果。(The invention relates to yarn steaming equipment, in particular to batch yarn steaming equipment for wear-resistant heat-preservation polyester yarns. The invention provides a large-volume batch yarn steaming device for wear-resistant heat-preservation polyester yarns, which can steam the polyester yarns in batches, can recycle water and save water resources. The utility model provides a yarn equipment is evaporated in batches to wear-resisting heat preservation dacron silk, includes: a first fixing block is arranged on one side of the steam stove; the rotating door is rotatably arranged on the first fixing block and is in rotating fit with the steam oven. Has the advantages that: carry out high temperature heating through the water of third heater in to the steam drum, make the water boiling produce the high pressure, just convert water into steam thereupon, steam just transmits along the breather pipe, and then in steam emission to the steam ager, people start circulating fan, and the wind that circulating fan blew off just blows off exhaust steam, and steam just evenly attaches on the dacron silk after that, so alright carry out the effect of evaporating the yarn to the dacron silk.)

1. The utility model provides a yarn equipment is evaporated in batches to wear-resisting heat preservation dacron silk which characterized in that: the method comprises the following steps:

the steam stove (1) is provided with a first fixing block (2) on one side;

the rotary door (3) is rotatably arranged on the first fixing block (2), the rotary door (3) can slide on the first fixing block (2), the rotary door (3) is in rotary fit with the steam oven (1), and a glass cover is arranged on the right side of the rotary door (3) to facilitate viewing of the condition in the steam oven (1);

the steam stove comprises a cylinder support (4), wherein the cylinder support (4) is arranged on one side of the top of the steam stove (1);

the top of the cylinder support (4) is provided with a telescopic cylinder (5);

the output shaft of the telescopic cylinder (5) is provided with the connecting block (6), and the connecting block (6) is connected and matched with the rotating door (3);

the first heaters (7) are mounted on two sides inside the steaming furnace (1) and are used for heating and drying the polyester yarns;

the second heater (8) is installed at the top in the steaming furnace (1) and used for drying moisture originally carried by the polyester yarns;

the material conveying mechanism (9) is arranged in the steaming furnace (1) and can be used for placing the batch of polyester yarns;

the steam mechanism (10) is arranged on one side in the steaming furnace (1), and yarn steaming can be carried out on the polyester yarns.

2. The batch yarn steaming equipment for the wear-resistant heat-preservation polyester yarns as claimed in claim 1, which is characterized in that: the material conveying mechanism (9) comprises:

four rollers (92) are arranged at the bottom in the steaming furnace (1);

the supporting plate (91) is rotatably arranged among the tops of the four rollers (92);

the connecting frames (93) are arranged on two sides of the top of the supporting plate (91);

the storage rack (94) is used for placing the polyester yarns, and a plurality of storage racks (94) are uniformly arranged between the two connecting racks (93).

3. The batch yarn steaming equipment for the wear-resistant heat-preservation polyester yarns as claimed in claim 2, which is characterized in that: the steam mechanism (10) includes:

the mounting block (101) is arranged at the other side in the steaming furnace (1);

the steam oven is characterized by comprising a fixed disc (102), wherein the fixed disc (102) is arranged on two sides in the steam oven (1);

the steam barrel (103) is arranged between the two fixed disks (102), and the steam barrel (103) is positioned on the left side of the mounting block (101);

a third heater (106), wherein the third heater (106) is arranged in the steam barrel (103);

the two sides of the top of the steam barrel (103) are respectively provided with a vent pipe (104), and the other end of the vent pipe (104) is connected and matched with the mounting block (101);

circulating fan (105), circulating fan (105) are all installed to inside both sides of installation piece (101), and circulating fan (105) are located two breather pipes (104) below.

4. The batch yarn steaming equipment for the wear-resistant heat-preservation polyester yarns as claimed in claim 3, which is characterized in that: still including exhaust steam mechanism (11), exhaust steam mechanism (11) includes:

a condenser (1101), wherein the condenser (1101) is installed on one side of the top of the installation block (101);

the condenser pipe (1102), one side of the condenser (1101) is provided with the condenser pipe (1102), and the other end of the condenser pipe (1102) is connected and matched with the steam barrel (103);

an air inlet pipe (1103) is arranged at each of two sides of the condenser (1101);

the pressure release valves (1104) are mounted on one sides of the two air inlet pipes (1103), and exhaust ports are formed in the pressure release valves (1104) and used for steam transmission;

the sliding rings (1105) are arranged on the two pressure release valves (1104) in a sliding manner;

the first spring (1106) is connected between the sliding ring (1105) and the pressure release valve (1104);

the pushing blocks (1107) are arranged at the bottoms of the two pressure release valves (1104) in a sliding manner;

u type pole (1108), two promotion piece (1107) bottoms all are equipped with U type pole (1108), and two U type pole (1108) other ends are connected the cooperation with homonymy slip ring (1105) respectively.

5. The batch yarn steaming equipment for the wear-resistant heat-preservation polyester yarns, according to claim 4, is characterized in that: still include screens mechanism (12), screens mechanism (12) includes:

the fixing rod (1201) is arranged on one side, away from the mounting block (101), of the interior of the steam stove (1);

the fixture block (1202), the fixing rod (1201) is provided with the fixture block (1202) in a sliding way;

and a second spring (1203), wherein the second spring (1203) is connected between the fixture block (1202) and the fixing rod (1201).

6. The batch yarn steaming equipment for the wear-resistant heat-preservation polyester yarns as claimed in claim 5, is characterized in that: still including pressure relief mechanism (13), pressure relief mechanism (13) include:

the outer sides of the two U-shaped rods (1108) are provided with the top blocks (1301);

the pistons (1302) are arranged on two sides of the upper part of the mounting block (101) in a sliding manner;

the corner blocks (1303) are arranged on one sides of the two pistons (1302), and the corner blocks (1303) are in contact fit with the top block (1301);

the two sides of the upper part of the mounting block (101) are both provided with sliding rods (1304) in a sliding manner, the sliding rods (1304) are positioned on the outer sides of the pistons (1302), and the sliding rods (1304) are connected and matched with the corner blocks (1303);

two first guide blocks (1306) are arranged on two sides of the upper portion of the mounting block (101), and the first guide blocks (1306) are in sliding fit with the sliding rod (1304);

and the third spring (1305) is connected between the first guide block (1306) and the sliding rod (1304).

7. The batch yarn steaming equipment for the wear-resistant heat-preservation polyester yarns as claimed in claim 6, is characterized in that: still including sheltering from mechanism (14), shelter from mechanism (14) and include:

the lower part of the other side of the mounting block (101) is provided with two guide sleeves (1401);

the push plate (1402) is arranged between the two guide sleeves (1401) in a sliding mode, and the push plate (1402) is in sliding fit with the support plate (91);

two fourth springs (1409) are connected between the push plate (1402) and the guide sleeve (1401);

the lower part of one side of the mounting block (101) is provided with two second guide blocks (1407), and the two second guide blocks (1407) are positioned between the inner sides of the two guide sleeves (1401);

the two second guide blocks (1407) are internally provided with wedge-shaped rods (1408) in a sliding manner, and the wedge-shaped rods (1408) are in sliding fit with the push plate (1402);

the fifth spring (1410) is connected between the wedge-shaped rod (1408) and the second guide block (1407);

the mounting block (101) is provided with a second fixing block (1403) close to both sides of the piston (1302);

the sliding blocks (1404) are arranged in the two second fixed blocks (1403) in a sliding mode, and the sliding blocks (1404) are in sliding fit with the air pipes (104);

the extension springs (1411) are connected between the second fixed block (1403) and the sliding block (1404);

two reels (1405) are rotatably arranged on two sides of the middle part of the mounting block (101), and the reels (1405) are positioned below the second fixing block (1403);

the bottom of the two sliding rods (1304) and the top of the two wedge-shaped rods (1408) are respectively provided with a pull rope (1406), and the pull rope (1406) on the same side is wound on the reel (1405) on the same side.

8. The batch yarn steaming equipment for the wear-resistant heat-preservation polyester yarns as claimed in claim 7, is characterized in that: still including mistake proofing mechanism (15), mistake proofing mechanism (15) include:

a first rack (150), wherein a first rack (150) is arranged on one side of the push plate (1402);

the steam stove comprises a support frame (151), wherein two support frames (151) are arranged on one side in the steam stove (1), and the two support frames (151) are positioned on one side of an installation block (101);

the gear (152) is rotatably arranged between the two support frames (151) through a rotating shaft, and the gear (152) is meshed with the first rack (150);

a second rack (153), wherein the second rack (153) is arranged at one side of the steam oven (1) close to the first rack (150) in a sliding manner, and the second rack (153) is meshed with the gear (152);

a sixth spring (154), wherein the sixth spring (154) is connected between the second rack (153) and the steam oven (1);

a push rod (155), wherein one side of the second rack (153) is provided with the push rod (155);

the middle side in the steaming furnace (1) is provided with a guide groove (156), and the push rod (155) is in sliding fit with the guide groove (156) in the steaming furnace (1);

the round block (157) is arranged on the right side of the push rod (155);

the button (158), one side is slipped and equipped with the button (158) in the round block (157), the button (158) passes the electric connection with the revolving door (3);

and a seventh spring (159), wherein the seventh spring (159) is connected between the button (158) and the round block (157).

Technical Field

The invention relates to yarn steaming equipment, in particular to batch yarn steaming equipment for wear-resistant heat-preservation polyester yarns.

Background

The polyester yarn is generally used when the polyester yarn is manufactured by manufacturers, the performance of the polyester yarn is generally changed by a yarn steaming mode after the polyester yarn is manufactured by the manufacturers, so that the polyester yarn after the yarn steaming is high in toughness, can bear larger pulling force and is higher in fire resistance, the existing yarn steaming mode for the polyester yarn is that the polyester yarn is firstly placed in a steaming furnace, then steam is transmitted in the steaming furnace, the steam is contacted with the polyester yarn, and then the polyester yarn with the steam is dried, so that the performance of the polyester yarn is changed, the polyester yarn is more durable, but the existing yarn steaming device for the polyester yarn is smaller in size, when the yarn steaming is carried out on the polyester yarn, only one or two polyester yarns can be steamed at a time, if the yarn steaming is carried out on the batch of polyester yarns, the workload is difficult to finish by the existing device, and meanwhile, the existing device is used for the yarn steaming process for the polyester yarn, the used steam needs to be converted by water, and after the polyester yarn steaming is completed, redundant steam is directly discharged, so that water resources are wasted.

Therefore, a wear-resistant heat-preservation polyester yarn batch yarn steaming device which is large in size, can steam polyester yarns in batches, can recycle water and saves water resources is needed.

Disclosure of Invention

In order to overcome the defects that the conventional polyester yarn steaming device is small in size, only one or two polyester yarns can be steamed at a time, the workload is difficult to complete, meanwhile, in the process of steaming the polyester yarns, the steam used by the conventional device needs to be converted by water, and after the yarn steaming of the polyester yarns is completed, the redundant steam is directly discharged, so that the water resource is wasted, the technical problem of the invention is as follows: the utility model provides a yarn equipment is evaporated in batches to wear-resisting heat preservation dacron silk that volume is great, can evaporate the yarn to the dacron silk in batches, but cyclic utilization water, the water resource is saved.

The technical scheme is as follows: the utility model provides a yarn equipment is evaporated in batches to wear-resisting heat preservation dacron silk, includes:

a first fixing block is arranged on one side of the steam stove;

the rotary door is rotatably arranged on the first fixing block and can slide on the first fixing block, the rotary door is in rotary fit with the steam oven, and a glass cover is arranged on the right side of the rotary door, so that the condition in the steam oven can be conveniently watched;

the steam stove comprises a cylinder bracket, wherein the cylinder bracket is arranged on one side of the top of the steam stove;

the telescopic cylinder is arranged at the top of the cylinder support;

the connecting block is arranged on an output shaft of the telescopic cylinder and is connected and matched with the rotating door;

the first heaters are arranged on two sides in the steaming furnace and used for heating and drying the polyester yarns;

the second heater is arranged at the top in the steaming furnace and used for drying moisture originally carried by the polyester yarns;

the material conveying mechanism is arranged in the steaming furnace and can be used for placing the polyester yarns in batches;

the steam mechanism is arranged on one side in the steaming furnace and can steam the polyester yarns.

As a further preferable mode, the material conveying mechanism comprises:

four rollers are arranged at the bottom in the steaming furnace;

the supporting plates are rotatably arranged among the tops of the four rollers;

the connecting frames are arranged on two sides of the top of the supporting plate;

supporter, evenly be equipped with a plurality of supporter between two links for place the dacron silk.

As a further preferable mode, the steam mechanism includes:

the other side in the steaming furnace is provided with an installation block;

the fixed disks are arranged on both sides in the steaming furnace;

the steam barrel is arranged between the two fixed disks and is positioned on the left side of the mounting block;

the third heater is arranged in the steam barrel;

the two sides of the top of the steam barrel are provided with vent pipes, and the other ends of the vent pipes are connected and matched with the mounting block;

circulating fan, circulating fan is all installed to the inside both sides of installation piece, and circulating fan is located two breather pipes below.

As a further preferable scheme, the steam exhaust device further comprises a steam exhaust mechanism, and the steam exhaust mechanism comprises:

the condenser is arranged on one side of the top of the mounting block;

one side of the condenser is provided with a condenser pipe, and the other end of the condenser pipe is connected and matched with the steam barrel;

the air inlet pipes are arranged on both sides of the condenser;

the pressure release valves are arranged on one sides of the two air inlet pipes and are provided with exhaust ports for steam transmission;

the two pressure release valves are both provided with sliding rings in a sliding manner;

the first springs are connected between the sliding ring and the pressure release valve;

the pushing blocks are arranged at the bottoms of the two pressure release valves in a sliding manner;

u type pole, two promotion piece bottoms all are equipped with U type pole, and two U type pole other ends are connected the cooperation with homonymy slip ring respectively.

As a further preferable scheme, the device further comprises a clamping mechanism, and the clamping mechanism comprises:

the fixing rod is arranged on one side, far away from the mounting block, in the steam stove;

the fixture block is arranged on the fixed rod in a sliding manner;

and a second spring is connected between the clamping block and the fixed rod.

As a further preferable mode, the device further comprises a pressure relief mechanism, and the pressure relief mechanism comprises:

the outer sides of the two U-shaped rods are provided with ejector blocks;

the pistons are arranged on both sides of the upper part of the mounting block in a sliding manner;

the corner blocks are arranged on one sides of the two pistons and are in contact fit with the jacking blocks;

the sliding rods are arranged on two sides of the upper part of the mounting block in a sliding manner and are positioned outside the piston, and the sliding rods are connected and matched with the corner blocks;

two first guide blocks are arranged on two sides of the upper part of the mounting block and are in sliding fit with the sliding rod;

and the third spring is connected between the first guide block and the sliding rod.

As a further preferable aspect, the apparatus further includes a shielding mechanism, and the shielding mechanism includes:

the lower part of the other side of the mounting block is provided with two guide sleeves;

the push plate is arranged between the two guide sleeves in a sliding mode and is in sliding fit with the supporting plate;

two fourth springs are connected between the push plate and the guide sleeve;

the lower part of one side of the mounting block is provided with two second guide blocks which are positioned between the inner sides of the two guide sleeves;

the two second guide blocks are internally provided with wedge-shaped rods in a sliding manner, and the wedge-shaped rods are in sliding fit with the push plate;

the fifth springs are connected between the wedge-shaped rods and the second guide blocks;

the mounting block is provided with a first fixing block close to the two sides of the piston;

the sliding blocks are arranged in the two second fixing blocks in a sliding manner and are in sliding fit with the vent pipes;

the extension spring is connected between the second fixed block and the sliding block;

two reels are rotatably arranged on two sides of the middle of the mounting block and are positioned below the second fixing block;

stay cord, two slide bar bottoms all are equipped with the stay cord with two wedge pole tops, and the homonymy stay cord wraparound is on the homonymy reel.

As a further preferable scheme, the device further comprises a mistake-proofing mechanism, and the mistake-proofing mechanism comprises:

the first rack is arranged on one side of the push plate;

two support frames are arranged on one side in the steam stove and are positioned on one side of the mounting block;

the two support frames are rotatably provided with a gear through a rotating shaft, and the gear is meshed with the first rack;

a second rack is arranged at one side of the steam stove close to the first rack in a sliding manner and is meshed with the gear;

a sixth spring is connected between the second rack and the steaming furnace;

a push rod is arranged on one side of the second rack;

the middle side in the steam oven is provided with a guide groove, and the push rod is in sliding fit with the guide groove in the steam oven;

the round block is arranged on the right side of the push rod;

the button is arranged on one side in the round block in a sliding mode and is electrically connected with the rotating door;

and a seventh spring is connected between the button and the round block.

The invention has the beneficial effects that: 1. the water in the steam barrel is heated at high temperature by the third heater, so that the water is boiled to generate high pressure, the water is converted into steam, the steam is transmitted along the vent pipe, the steam is discharged into the steam oven, people start the circulating fan, the air blown out by the circulating fan blows away the discharged steam, and then the steam is uniformly attached to the polyester yarns, so that the polyester yarns can be steamed;

2. after the steam in the steam boiler reaches a certain pressure, the steam can be extruded to the pushing block, the pushing block drives the U-shaped rod to move towards the upper side, the U-shaped rod drives the sliding ring to move towards the upper side, the first spring is compressed, the sliding ring can not block the exhaust port of the pressure release valve when moving towards the upper side, the steam is input along the exhaust port of the pressure release valve, the pressure release valve releases the steam, the steam is transmitted into the air inlet pipe through the pressure release valve and then discharged into the condenser along the air inlet pipe, the condenser converts the steam into water drops, the water drops are formed into water drops when the steam is cooled, and then the water drops flow into the steam barrel along the condensing pipe, so that the steam can be prevented from cracking when the temperature of the steam reaches a certain degree, the water can be recycled, and the water resource can be saved;

3. the connecting frame is pushed by people to drive the supporting plate to move towards the left side along the steam stove, the supporting plate is contacted with the clamping block, then the clamping block moves towards the lower side, the second spring is compressed, then the connecting frame is continuously pushed by people to drive the supporting plate to move towards the left side, the supporting plate moves until the supporting plate is not contacted with the clamping block any more, and under the reset action of the second spring, the clamping block moves towards the upper side to reset, so that the clamping block limits the supporting plate, and the supporting plate is prevented from moving randomly;

4. when stopping discharging steam through the breather pipe, steam atmospheric pressure just can not be to the piston extrusion, the slide bar drives the hornblock and moves to the left side, the piston moves to reset to the left side, the piston just blocks the breather pipe, the hornblock moves to the left side and contacts with the kicking block, the kicking block just moves to the upper side, the kicking block drives U type pole and slip ring and moves to the upside, the slide ring just can not block the relief valve gas vent, steam just inputs along the relief valve gas vent, the relief valve just carries out the pressure release with steam along with it, thereby prevent that people from gushing out at the brake gas of opening the turnstile, harm the human body.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial cross-sectional view of the present invention.

Fig. 3 is a partial perspective view of the present invention.

Fig. 4 is a schematic perspective view of the material conveying mechanism of the present invention.

FIG. 5 is a first partial cross-sectional view of the steam mechanism and steam exhaust mechanism of the present invention.

FIG. 6 is a second partial cross-sectional view of the steam mechanism and steam exhaust mechanism of the present invention.

Fig. 7 is a schematic perspective view of a portion of the steam exhaust mechanism and the pressure relief mechanism of the present invention.

Fig. 8 is a schematic perspective view of a part of the pressure relief mechanism of the present invention.

Fig. 9 is a schematic perspective view of a first locking mechanism of the present invention.

Fig. 10 is a schematic perspective view of a second locking mechanism of the present invention.

Fig. 11 is a schematic perspective view of the shielding mechanism of the present invention.

Fig. 12 is a schematic perspective view of the shielding mechanism and the error-proofing mechanism according to the present invention.

Fig. 13 is a first partial cross-sectional view of the error proofing mechanism of the present invention.

Fig. 14 is an enlarged perspective view of the present invention at a.

Fig. 15 is a second partial cross-sectional view of the error proofing mechanism of the present invention.

Description of reference numerals: 1-a steam oven, 2-a first fixed block, 3-a revolving door, 4-a cylinder bracket, 5-a telescopic cylinder, 6-a connecting block, 7-a first heater, 8-a second heater, 9-a material conveying mechanism, 91-a supporting plate, 92-a roller, 93-a connecting frame, 94-a storage rack, 10-a steam mechanism, 101-a mounting block, 102-a fixed disc, 103-a steam barrel, 104-a vent pipe, 105-a circulating fan, 106-a third heater, 11-a steam exhausting mechanism, 1101-a condenser, 1102-a condensing pipe, 1103-an air inlet pipe, 1104-a pressure relief valve, 1105-a sliding ring, 1106-a first spring, 1107-a pushing block, 1108-a U-shaped rod, 12-a clamping mechanism and 1201-a fixed rod, 1202-a block, 1203-a second spring, 13-a pressure relief mechanism, 1301-a top block, 1302-a piston, 1303-an angle block, 1304-a sliding rod, 1305-a third spring, 1306-a first guide block, 14-a shielding mechanism, 1401-a guide sleeve, 1402-a push plate, 1403-a second fixed block, 1404-a sliding block, 1405-a reel, 1406-a pull rope, 1407-a second guide block, 1408-a wedge rod, 1409-a fourth spring, 1410-a fifth spring, 1411-an extension spring, 15-an error-prevention mechanism, 150-a first rack, 151-a support frame, 152-a gear, 153-a second rack, 154-a sixth spring, 155-a push rod, 156-a guide groove, 157-a round block, 158-a button, 159-a seventh spring.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

A wear-resistant heat-preservation polyester yarn batch steaming device is shown in figures 1-4 and comprises a steaming furnace 1, a first fixing block 2, a rotating door 3, a cylinder bracket 4, a telescopic cylinder 5, a connecting block 6, a first heater 7, a second heater 8, a material conveying mechanism 9 and a steam mechanism 10, wherein the first fixing block 2 is arranged on the front right side of the steaming furnace 1, the rotating door 3 is rotatably arranged on the first fixing block 2, the rotating door 3 can slide on the fixing block 2, the rotating door 3 is rotatably matched with the steaming furnace 1, a glass cover is arranged on the right side of the rotating door 3 to facilitate the observation of the conditions in the steaming furnace 1, the cylinder bracket 4 is arranged on the right front side of the top of the steaming furnace 1, the telescopic cylinder 5 is arranged on the top of the cylinder bracket 4, the connecting block 6 is arranged on an output shaft of the telescopic cylinder 5, the connecting block 6 is connected and matched with the rotating door 3, the first heater 7 is arranged on the front and back sides in the steaming furnace 1, the second heater 8 is arranged on the top in the steaming furnace 1, a material conveying mechanism 9 is arranged in the steaming furnace 1, and a steam mechanism 10 is arranged on the left side in the steaming furnace 1.

When the polyester yarns are required to be steamed in batches, firstly, people uniformly place the polyester yarns on the material conveying mechanism 9, then the telescopic cylinder 5 is started, the telescopic rod of the telescopic cylinder 5 drives the connecting block 6 to move towards the right side, the connecting block 6 drives the rotating door 3 to rotate along the first fixing block 2 to be opened, then people push the material conveying mechanism 9 along the steaming oven 1, after the material conveying mechanism 9 is pushed to a proper position, people stop pushing the material conveying mechanism 9, then the telescopic rod of the telescopic cylinder 5 drives the connecting block 6 to move towards the left side, the connecting block 6 drives the rotating door 3 to rotate reversely to be closed, people start the second heater 8, originally existing moisture on the polyester yarns can be removed through the second heater 8, then people inject water into the steam mechanism 10, start the steam mechanism 10, heat the water at high temperature through the steam mechanism 10, and enable the water to be boiled to generate high pressure, just, just convert water into steam thereupon, and then discharge steam to steam ager 1 in, steam is evenly distributed on the dacron silk afterwards, then people start first heater 7, first heater 7 is dried the dacron silk, through dacron silk and steam contact, the mode of drying thereupon, thereby change the performance of dacron silk, it is more durable to make the dacron silk, finally can realize changing the dacron silk performance through the mode of steam with drying, after the operation, it can to close telescopic cylinder 5.

Pass material mechanism 9 including backup pad 91, gyro wheel 92, link 93 and supporter 94, four gyro wheels 92 have been placed to the bottom in steam stove 1, and the rotary type is equipped with backup pad 91 between four gyro wheel 92 tops, and the backup pad 91 top left and right sides all is equipped with link 93, evenly is equipped with a plurality of supporter 94 between two links 93.

When needs place the dacron silk, at first people evenly place the dacron silk on supporter 94 earlier, start telescopic cylinder 5 afterwards, telescopic cylinder 5 telescopic link drives connecting block 6 and removes to the right side, connecting block 6 just drives revolving door 3 and rotates along first fixed block 2 and open, people promote link 93 and drive backup pad 91 along with it, remove subaerial through gyro wheel 92, gyro wheel 92 drives backup pad 91 and removes to steam ager 1 in, remove to suitable position after, people just stop promoting link 93, make gyro wheel 92 stall, supporter 94 just drives the dacron silk and gets into in the steam ager 1, telescopic cylinder 5 telescopic link drives connecting block 6 and removes to the left side thereupon, connecting block 6 drives revolving door 3 reverse rotation and closes, can finally realize carrying out the mesh of placing the dacron silk, after the operation, it can to close telescopic cylinder 5.

Steam mechanism 10 is including installation piece 101, fixed disk 102, steam drum 103, breather pipe 104, circulating fan 105 and third heater 106, the left side is equipped with installation piece 101 in the steam ager 1, left front and back both sides all are equipped with fixed disk 102 in the steam ager 1, install steam drum 103 between two fixed disks 102, steam drum 103 is located installation piece 101 left side, install third heater 106 in the steam drum 103, both sides all are equipped with breather pipe 104 around steam drum 103 top, the cooperation is connected with installation piece 101 to the breather pipe 104 other end, circulating fan 105 is all installed to both sides around the installation piece 101 is inside, circulating fan 105 is located two breather pipe 104 belows.

When yarn steaming is needed to be carried out on the polyester yarns, people firstly inject water into the steam barrel 103, then the third heater 106 is started, the third heater 106 carries out high-temperature heating on the water in the steam barrel 103, the water is boiled to generate high pressure, then the water is converted into steam, the steam is transmitted along the vent pipe 104 and then is discharged into the steaming furnace 1, people start the circulating fan 105, the air blown out by the circulating fan 105 blows the discharged steam, then the steam is uniformly distributed on the polyester yarns, then the first heater 7 is started, the first heater 7 heats and dries the polyester yarns, and the steam on the polyester yarns is dried, so that the performance of the polyester yarns can be changed, the polyester yarns are more durable, after the operation is finished, the third heater 106 is turned off, then the first heater 7 is turned off, and then the circulating fan 105 is turned off.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14 and 15, the steam exhaust device 11 further comprises a steam exhaust mechanism 11, wherein the steam exhaust mechanism 11 comprises a condenser 1101, a condenser pipe 1102, an air inlet pipe 1103, a pressure relief valve 1104, a sliding ring 1105, a first spring 1106, a push block 1107 and a U-shaped rod 1108, the condenser 1101 is installed on the left side of the top of the installation block 101, the condenser pipe 1102 is installed on the left side of the condenser 1101, the other end of the condenser pipe 1102 is connected and matched with the steam barrel 103, the air inlet pipe 1103 is installed on the front side and the rear side of the condenser 1101, the pressure relief valves 1104 are installed on the right sides of the two air inlet pipes 1103, the air outlet is arranged on the air inlet pipe 1104 for steam transmission, the sliding ring 1105 is arranged on the two pressure relief valves 1104, the first spring 1106 is connected between the sliding ring 1105 and the pressure relief valve 1104, the push block 1107 is arranged on the inner bottom of the two pressure relief valves 1104, the bottoms of the two pushing blocks 1107 are respectively provided with a U-shaped rod 1108, and the other ends of the two U-shaped rods 1108 are respectively connected and matched with the sliding rings 1105 on the same side.

When the steam in the steam oven 1 needs to be discharged and recycled, the space in the steam oven 1 is limited, and the steam is continuously discharged, so that the steam in the steam oven 1 reaches a certain pressure, the push block 1107 is squeezed, the push block 1107 drives the U-shaped rod 1108 to move towards the upper side, the U-shaped rod 1108 drives the sliding ring 1105 to move towards the upper side, the first spring 1106 is compressed, the sliding ring 1105 moves towards the upper side and cannot block the exhaust port of the pressure release valve 1104, the steam is input along the exhaust port of the pressure release valve 1104, the pressure release valve 1104 releases the pressure of the steam, then the steam is transmitted into the air inlet pipe 1103 through the pressure release valve 1104, the steam is discharged into the condenser 1101 along the air inlet pipe 1103, the condenser 1101 converts the steam into water droplets, the water droplets are condensed into water droplets when the steam is cooled, then the water droplets flow into the steam barrel 103 along the condensation pipe 1102, the steam barrel 103 heats the water droplets at a high temperature, and discharges the steam into the steam discharged into the steam in the steam oven 1, so carry out the operation repeatedly, alright cyclic utilization water, save the water resource, when the steam in the steam ager 1 discharges to the certain degree, pressure just reduces to pressure just can not extrude promotion piece 1107, under the reset action of first spring 1106, slip 1105 drives U type pole 1108 and moves to the downside, and slip 1105 just can block the gas vent on the relief valve 1104, from this alright prevent that steam temperature from breaking when reaching the certain degree, and can the cyclic utilization water, save the water resource.

The steam oven is characterized by further comprising a clamping mechanism 12, wherein the clamping mechanism 12 comprises a fixing rod 1201, a fixture block 1202 and a second spring 1203, the fixing rod 1201 is arranged on the right rear side inside the steam oven 1, the fixture block 1202 is arranged on the fixing rod 1201 in a sliding mode, and the second spring 1203 is connected between the fixture block 1202 and the fixing rod 1201.

When needs carry on spacingly to backup pad 91, people promote link 93 and drive backup pad 91 along steaming furnace 1 to the left side removal, backup pad 91 and fixture block 1202 contact, fixture block 1202 just moves to the downside after that, second spring 1203 is compressed, people continue to promote link 93 and drive backup pad 91 and move to the left side along with it, backup pad 91 moves to no longer contact with fixture block 1202, under the reset action of second spring 1203, fixture block 1202 moves to the upside and resets for fixture block 1202 carries on spacingly to backup pad 91, prevent backup pad 91 from moving at will.

The pressure relief mechanism 13 comprises a top block 1301, a piston 1302, an angle block 1303, a sliding rod 1304, a third spring 1305 and a first guide block 1306, the top block 1301 is arranged on the outer side of each of two U-shaped rods 1108, the pistons 1302 are arranged on the front side and the rear side of the right side of the upper portion of the mounting block 101 in a sliding mode, the angle blocks 1303 are arranged on the right sides of the two pistons 1302, the angle blocks 1303 are in contact fit with the top block 1301, the sliding rods 1304 are arranged on the front side and the rear side of the upper portion of the right side of the mounting block 101 in a sliding mode, the sliding rods 1304 are located on the outer side of the piston 1302, the sliding rods 1304 are connected with the angle blocks 1303 in a matching mode, the two first guide blocks 1306 are arranged on the front side and the rear side of the upper portion of the right side of the mounting block 101, the first guide blocks 1306 are in sliding fit with the sliding rods 1304, and the third springs 1305 are connected between the first guide blocks 1306 and the sliding rods 1304.

When people need to open the rotating door 3, steam in the steam oven 1 needs to be discharged firstly, the steam is discharged along the vent pipe 104, the piston 1302 is extruded by the air pressure in the steam, the piston 1302 moves towards the right side, the piston 1302 cannot block the vent pipe 104, the steam is discharged along the vent pipe 104, the piston 1302 moves towards the right side to drive the corner block 1303 to move towards the right side, meanwhile, the corner block 1303 drives the sliding rod 1304 to move towards the right side, the third spring 1305 is stretched, accordingly, when the vent pipe 104 stops discharging the steam, the steam air pressure cannot extrude the piston 1302, under the reset action of the third spring, the sliding rod 1304 drives the corner block 1303 to move towards the left side, the piston 1302 moves towards the left side to reset, the piston 1302 blocks 104 block 1303 move towards the left side to be in contact with the top block 1301, the top block 1301 moves upwards, the top block 1301 drives the U-shaped rod 1108 and the sliding ring 1105 to move towards the upper side, slip ring 1105 just can not block relief valve 1104 gas vent, steam just inputs along relief valve 1104 gas vent, relief valve 1104 just carries out the pressure release with steam thereupon, steam just transmits to the intake pipe 1103 in through relief valve 1104, steam discharges to the condenser 1101 along the intake pipe 1103 again in, condenser 1101 converts steam into drop of water, meet the cold drop of water through steam, the drop of water just flows to the steam drum 103 along the condenser pipe 1102 thereupon, after the steam emission in steam ager 1 is accomplished, people alright open swing door 3, take out the dacron silk that the yarn that evaporates was accomplished, from this alright when people need open swing door 3, discharge the steam in steam ager 1, thereby prevent that people from gushing out at the gas of a brake that opens swing door 3, harm the human body.

The shielding device is characterized by further comprising a shielding mechanism 14, the shielding mechanism 14 comprises a guide sleeve 1401, a push plate 1402, a second fixed block 1403, a sliding block 1404, a winding wheel 1405, a pulling rope 1406, a second guide block 1407, a wedge-shaped rod 1408, a fourth spring 1409, a fifth spring 1410 and an extension spring 1411, two guide sleeves 1401 are arranged at the lower part of the right side of the mounting block 101, the push plate 1402 is arranged between the two guide sleeves 1401 in a sliding manner, the push plate 1402 is in sliding fit with the support plate 91, the two fourth springs 1409 are connected between the push plate 1402 and the guide sleeve 1401, the two second guide blocks 1407 are arranged at the lower part of the right side of the mounting block 101, the wedge-shaped rods 1408 are arranged in the two second guide blocks 1407 in a sliding manner, the wedge-shaped rods 1408 are in sliding fit with the push plate 1402, the fifth springs 1410 are connected between the wedge-shaped rods 1408 and the second guide blocks 1407, the second fixed blocks 1403 are arranged at the front side and the back side of the upper part of the mounting block 101, all slidingtype is equipped with the sliding block 1404 in two second fixed blocks 1403, and sliding block 1404 and breather pipe 104 sliding fit all are connected with extension spring 1411 between second fixed block 1403 and the sliding block 1404, and the both sides rotary type is equipped with two reels 1405 around the middle part of installation piece 101 right side, and reel 1405 is located second fixed block 1403 below, and two slide bar 1304 bottoms all are equipped with stay cord 1406 with two wedge pole 1408 tops, and homonymy stay cord 1406 is around connecing on homonymy reel 1405.

When people push the support plate 91 into the steam oven 1 to the left side, the rotating door 3 is closed, the support plate 91 moves to the left side to be contacted with the push plate 1402, the push plate 1402 moves to the left side along the guide sleeve 1401, the fourth spring 1409 is compressed, the push plate 1402 moves to the left side to be contacted with the wedge rod 1408, the wedge rod 1408 moves to the lower side, the fifth spring 1410 is stretched, the wedge rod 1408 pulls the pull rope 1406 to move to the lower side, the pull rope 1406 drives the sliding block 1404 to move to the lower side, the pull spring 1411 is stretched, the pull rope 1406 drives the winding wheel 1405 to rotate during moving to the lower side, the friction is reduced during the movement of the pull rope 1406 by the rotation of the winding wheel 1405, the sliding block 1404 moves to the lower side to be not blocked by the vent pipe 104, steam can be discharged into the steam oven 1 along the vent pipe 104, when people pull the support plate 91 to move to the right side, the support plate 91 cannot be contacted with the push plate 1402, under the reset action of the fourth spring 1409, the push plate 1402 moves to the right side for resetting, the push plate 1402 moves to the left side and cannot be contacted with the wedge-shaped rod 1408 any more, under the reset action of the fifth spring 1410, the wedge-shaped rod 1408 moves to the upper side for resetting, the wedge-shaped rod 1408 moves upwards to drive the pull rope 1406 to move to the upper side, the pull rope 1406 is loosened, under the reset action of the extension spring 1411, the sliding block 1404 moves to the upper side, the sliding block 1404 blocks the vent pipe 104, steam cannot be discharged, if an overhaul person enters the steam oven 1, the rotary door 3 is closed carelessly, therefore, steam discharge can be blocked, and harm of steam to a human body is reduced.

The steam oven also comprises an error-proof mechanism 15, the error-proof mechanism 15 comprises a first rack 150, a support frame 151, a gear 152, a second rack 153, a sixth spring 154, a push rod 155, a guide groove 156, a round block 157, a button 158 and a seventh spring 159, the first rack 150 is arranged at the middle of the left side of a push plate 1402, two support frames 151 are arranged at the left side in the steam oven 1, the two support frames 151 are positioned at the right side of the mounting block 101, the gear 152 is rotatably arranged between the two support frames 151 through a rotating shaft, the gear 152 is meshed with the first rack 150, the second rack 153 is slidably arranged at the left side in the steam oven 1, the second rack 153 is meshed with the gear 152, the sixth spring 154 is connected between the second rack 153 and the steam oven 1, the push rod 155 is arranged at the right side of the second rack 153, the guide groove 156 is arranged at the middle side in the steam oven 1, the push rod 155 is slidably matched with the guide groove 156 in the steam oven 1, the round block 157 is arranged at the right side of the push rod 155, the slide button 158 is arranged at the right side in the round block 157, the button 158 is electrically connected to the rotary door 3, and a seventh spring 159 is connected between the button 158 and the round block 157.

When the device needs to be overhauled, the telescopic cylinder 5 is started, the rotating door 3 is opened, an overhaul person walks into the steam oven 1, then the overhaul person overhauls the device, if the rotating door 3 is closed carelessly in the overhaul process, the overhaul person can push the push plate 1402 to move towards the left side, the fourth spring 1409 is compressed, the push plate 1402 drives the first rack 150 to move towards the left side, the first rack 150 moves towards the left side to drive the gear 152 to rotate, the gear 152 drives the second rack 153 to move towards the right side, the sixth spring 154 is stretched, the second rack 153 drives the push rod 155 to move towards the right side, the push rod 155 drives the round block 157 and the button 158 to move towards the right side, the button 158 moves towards the right side to be contacted with the rotating door 3, the button 158 moves towards the left side, the seventh spring 159 is compressed, then the rotating door 3 rotates to open, then the overhaul person can walk out, the overhaul person does not apply force to the push plate 1402 any more, under the reset action of the fourth spring 1409, the push plate 1402 drives the first rack 150 to move towards the right side, the first rack 150 moves towards the right side to drive the gear 152 to rotate reversely, the gear 152 drives the second rack 153 to move towards the left side, the fourth spring 1409 plays a role of buffering, the second rack 153 drives the push rod 155 to move towards the left side for resetting, then the push rod 155 drives the round block 157 and the button 158 to move towards the left side for resetting, the button 158 is separated from contact with the rotating door 3, and under the reset action of the seventh spring 159, the button 158 moves towards the right side for resetting, so that the rotating door 3 can be prevented from being closed carelessly in the process of overhauling by an inspector, the rotating door 3 is further opened, and after the operation is finished, the telescopic cylinder 5 is closed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.