阅读说明：本技术 一种绳状水洗机容布量检测机构 (Rope-shaped fabric accommodating quantity detection mechanism of washing machine ) 是由 戴洪汝 吴刚 顾得军 于 2021-08-18 设计创作，主要内容包括：本发明涉及一种绳状水洗机容布量检测机构,它包括前后两个检测支架(101),所述检测支架(101)上设置有轴承座(102),前后两个轴承座(102)之间穿装有转轴(103),所述转轴(103)上设置有检测板结合件(104)。本发明一种绳状水洗机容布量检测机构,其能够准确获知容布斗内容布状况,以便水洗机及时调整前后轧辊转速,防止织物在容布斗内堆积过多影响水洗机的正常运转,有效保证了水洗效率和水洗效果。(The invention relates to a cloth containing amount detection mechanism of a rope-shaped washing machine, which comprises a front detection bracket (101) and a rear detection bracket (101), wherein a bearing seat (102) is arranged on the detection brackets (101), a rotating shaft (103) is arranged between the front bearing seat and the rear bearing seat (102) in a penetrating way, and a detection plate connector (104) is arranged on the rotating shaft (103). The cloth containing amount detection mechanism of the rope-shaped washing machine can accurately know the cloth containing condition of the cloth containing bucket, so that the washing machine can adjust the rotating speed of the front roller and the rear roller in time, prevent excessive accumulation of fabrics in the cloth containing bucket from influencing the normal operation of the washing machine, and effectively ensure the washing efficiency and the washing effect.)

1. The utility model provides a rope rinsing machine holds cloth volume detection mechanism which characterized in that: the detection device comprises a front detection bracket and a rear detection bracket (101), wherein a bearing seat (102) is arranged on the detection bracket (101), a rotating shaft (103) penetrates between the front bearing seat and the rear bearing seat (102), and a detection plate connector (104) is arranged on the rotating shaft (103).

2. The cloth holding amount detection mechanism of a rope-like washing machine according to claim 1, characterized in that: the detection plate connector (104) comprises a support frame (104.1), the rotating shaft (103) is arranged at the upper part of the support frame (104.1) in a penetrating mode, a collision plate (104.2) is obliquely arranged at the bottom of the support frame (104.1) towards one side, and a floating plate (104.3) is arranged at the bottom of the collision plate (104.2).

3. The cloth holding amount detection mechanism of a rope-like washing machine according to claim 2, characterized in that: the floating plate (104.3) is hinged with the striking plate (104.2) through a hinge (104.4).

4. The cloth holding amount detection mechanism of a rope-like washing machine according to claim 2, characterized in that: the supporting frame (104.1) is provided with a linear switch (105) on one side corresponding to the collision plate (104.2), and the linear switch (105) is connected with the middle part of the supporting frame (104.1) through a pull rod (106).

5. The cloth holding amount detection mechanism of a rope-like washing machine according to claim 4, characterized in that: the outer side of the lower box body (2) of the rope-shaped washing machine is provided with a linear switch seat (107), and the linear switch (105) is arranged on the linear switch seat (107).

6. The cloth holding amount detection mechanism of a rope-like washing machine according to claim 2, characterized in that: be provided with on lower box (2) lateral wall of rope form rinsing machine extension spring axle (108), be provided with arm-tie (109) on extension spring axle (108), support frame (104.1) upper end is provided with connecting axle (1010) in the corresponding one side of arm-tie (109), be connected through extension spring (1011) between arm-tie (108) and connecting axle (1010).

7. The cloth holding amount detection mechanism of a rope-like washing machine according to claim 6, characterized in that: the tension plate (108) is provided with a plurality of tension spring holes (1012), and the tension spring shaft (108) is arranged in one of the tension spring holes (1012) in a penetrating manner.

8. The cloth holding amount detection mechanism of a rope-like washing machine according to claim 2, characterized in that: the detection support (101) on the opposite side of the tension spring (1011) is provided with a limiting pipe (1013), and the limiting pipe (1013) is matched with the support frame (104.1).

Technical Field

The invention relates to a cloth holding amount detection mechanism of a rope-shaped washing machine, and belongs to the technical field of printing and dyeing equipment.

Background

The rope-shaped washing machine is usually used for washing pure cotton, polyester cotton, blended fabrics, chemical fibers and other fabrics after printing and dyeing so as to wash away the residual floating color sizing agent or auxiliary agent on the cloth surface and further fix the color of the fabric. The traditional rope-shaped washing machine has the defects of large occupied area, high manufacturing cost, high equipment operation energy consumption, poor washing effect, large water consumption, low production efficiency and the like.

The invention with the application number of 201910733588.4 discloses a continuous rope-shaped jet washing machine, which comprises a plurality of washing units connected in series, wherein each washing unit comprises an upper box body and a lower box body, the lower box body is of a U-shaped structure with an upward opening, a plurality of vertical partition plates are arranged in the lower box body along a cloth feeding direction at intervals, the lower box body is divided into a plurality of washing cavities by the partition plates, two adjacent washing cavities are connected through a cloth walking pipe, the cloth walking pipe is of an S-shaped structure longitudinally and is of a Z-shaped structure transversely, and the continuous rope-shaped jet washing machine has the advantages of saving occupied space, reducing manufacturing cost, improving washing effect and saving water consumption. However, the U-shaped lower case of the washing unit of the continuous rope-like jet washing machine has no cloth-holding amount detection mechanism, and the cloth-holding amount in the lower case cannot be accurately known, so that the lower case is easily clogged.

Disclosure of Invention

The invention aims to solve the technical problem of providing a cloth containing amount detection mechanism of a rope-shaped washing machine, which can accurately know the cloth containing condition of a cloth containing bucket, so that the washing machine can adjust the rotating speeds of front and rear rollers in time, prevent the normal operation of the washing machine from being influenced by excessive accumulation of fabrics in the cloth containing bucket, and effectively ensure the washing efficiency and the washing effect.

The technical scheme adopted by the invention for solving the problems is as follows: the cloth containing amount detection mechanism of the rope-shaped washing machine comprises a front detection support and a rear detection support, wherein a bearing seat is arranged on each detection support, a rotating shaft penetrates between the front bearing seat and the rear bearing seat, and a detection plate combining piece is arranged on each rotating shaft.

Optionally, the detection plate connector comprises a support frame, the rotating shaft is arranged on the upper portion of the support frame in a penetrating mode, a collision plate is obliquely arranged at the bottom of the support frame towards one side, and a floating plate is arranged at the bottom of the collision plate.

Optionally, the floating plate is hinged to the striking plate through a hinge.

Optionally, the support frame is provided with a linear switch on one side corresponding to the collision plate, and the linear switch is connected with the middle part of the support frame through a pull rod.

Optionally, a linear switch seat is arranged on the outer side of the lower box body of the rope-shaped washing machine, and the linear switch is arranged on the linear switch seat.

Optionally, a tension spring shaft is arranged on the side wall of the lower box body of the rope-shaped washing machine, a pulling plate is arranged on the tension spring shaft, a connecting shaft is arranged at one corresponding side of the pulling plate at the upper end of the support frame, and the pulling plate is connected with the connecting shaft through a tension spring.

Optionally, a plurality of tension spring holes are formed in the tension plate, and the tension spring shaft is mounted in one of the tension spring holes in a penetrating manner.

Optionally, a limiting pipe is arranged on the detection support on the opposite side of the tension spring, and the limiting pipe is matched with the support frame.

Compared with the prior art, the invention has the advantages that:

the cloth containing amount detection mechanism of the rope-shaped washing machine can accurately know the cloth containing condition of the cloth containing bucket, so that the washing machine can adjust the rotating speed of the front roller and the rear roller in time, prevent excessive accumulation of fabrics in the cloth containing bucket from influencing the normal operation of the washing machine, and effectively ensure the washing efficiency and the washing effect.

Drawings

FIG. 1 is a schematic view of a loose type showering rope type washing machine according to the present invention.

Fig. 2 is a side view of fig. 1.

Fig. 3 is a top view of fig. 1.

Fig. 4 is a schematic structural view of the cloth hopper half-contained in fig. 2.

Fig. 5 is a top view of fig. 4.

Fig. 6 is a sectional view a-a of fig. 4.

Fig. 7 is a schematic structural view of the outer half cloth bucket in fig. 2.

Fig. 8 is a top view of fig. 7.

Fig. 9 is a view from direction B of fig. 7.

Fig. 10 is a schematic structural view of the cloth containing amount detection mechanism in fig. 2.

Fig. 11 is a side view of fig. 11.

Fig. 12 is a schematic structural view of the detecting plate binder of fig. 10.

Fig. 13 is a partial side view of fig. 12.

Fig. 14 is a view in the direction C of fig. 12.

Fig. 15 is a schematic structural view of the pile detection mechanism in fig. 1.

Fig. 16 is a top view of fig. 15.

Fig. 17 is a schematic structural view of the blister detection mechanism in fig. 1.

Fig. 18 is a top view of fig. 17.

Fig. 19 is a schematic structural view of the shower assembly of fig. 1.

Fig. 20 is a schematic structural view of the pre-shower assembly of fig. 1.

Wherein:

the device comprises an upper box body 1, a lower box body 2, a roller group 3, a clapboard 4, a washing chamber 5, a cloth holding bucket 6, an inner semi-cloth holding bucket 61, a left end plate 611, an inner bottom plate 612, an inner circular arc connecting section 612.1, an inner transverse supporting section 612.2, an inner side plate 613, a water inlet 614, a web 615, an outer semi-cloth holding bucket 62, a cloth outlet 621, a cloth inlet 622, an outer top plate 623, an outer bottom plate 624, an outer side plate 625, an outer transverse supporting section 626, an outer circular arc transition section 627, an outer bent section 628, a buffer plate 629, a connecting flange 6210, an intermediate connecting section 63, a spraying assembly 7, a water box 71, a first cloth passing hole 72, a cloth passing conical cylinder 73, an intermediate clapboard 74, a second cloth passing hole 75, a guide conical cylinder 76, a spraying channel 77, a cloth passing bent pipe 78, a supporting leg plate 79, a supporting conical plate 710, a spraying water inlet 711, a cloth passing pipe 8, a circulating and filtering mechanisms 9, a circulating pump 91, a water return pipe 92, a water inlet 93, a filtering device 94, a water inlet branch pipe 95, Cloth containing amount detection mechanism 10, detection bracket 101, bearing seat 102, rotating shaft 103, detection plate connector 104, support frame 104.1, striking plate 104.2, floating plate 104.3, hinge 104.4, linear switch 105, pull rod 106, linear switch seat 107, pull spring shaft 108, pull plate 109, connecting shaft 1010, tension spring 1011, tension spring hole 1012, limit pipe 1013, cloth piling detection mechanism 11, first support leg 111, first detection rod 112, first cloth passing ring 113, first cloth blocking rod 114, first counterweight hammer 115, first detection support 116, first detection switch 117, first limit plate 118, first limit bolt 119, cloth guide ring assembly 12, bubbling detection mechanism 13, second support leg 131, second detection rod 132, second cloth passing ring 133, second cloth blocking rod 134, second counterweight hammer 135, second detection support 136, second detection switch 137, second limit plate 138, second limit bolt 139, pre-rinsing assembly 14, outer cylinder 141, second limit plate 138, second counterweight hammer 135, pre-rinsing assembly 14, and outer cylinder 141, The support base plate 142, the third cloth passing hole 143, the inner cylinder 144, the upper cone 145, the lower cone 146, the edge-protecting round steel 147, the pre-flushing water inlet 148, the cloth feeding assembly 15, the cloth discharging assembly 16 and the support beam 17.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 20, the loose type showering rope-shaped washing machine related to the present invention comprises an upper box body 1 and a lower box body 2, wherein a plurality of roll sets 3 are arranged in the upper box body 1 at intervals along a cloth feeding direction (front-back direction), a plurality of partition plates 4 are arranged in the lower box body 1 at intervals along the cloth feeding direction (front-back direction), the lower box body 2 is divided into a plurality of washing chambers 5 by the plurality of partition plates 4, a ship-shaped cloth holding hopper 6 is correspondingly arranged at each position of the washing chambers 5, and the ship-shaped cloth holding hoppers 6 are arranged along the left-right direction;

the cloth containing bucket 6 comprises a half inner cloth containing bucket 61 and a half outer cloth containing bucket 62, the half inner cloth containing bucket 61 is arranged in the washing chamber 5, the half outer cloth containing bucket 62 is connected and arranged at one side outside the washing chamber 5, and the half inner cloth containing bucket 61 is communicated with the half outer cloth containing bucket 62;

the whole half-containing cloth bucket 61 is of a trihedral structure, and the upper side and the right side of the cloth bucket are open;

the inner half-containing cloth bucket 61 comprises a left end plate 611, an inner bottom plate 612, a front inner side plate 613, a rear inner side plate 613, the inner bottom plate 612 comprises an inner arc connecting section 612.1 and an inner transverse supporting section 612.2, and a plurality of water inlet holes 614 are formed in the front inner side plate 613, the rear inner side plate 612.1 and the inner arc connecting section 612.1;

the tops of the front inner side plate 613 and the rear inner side plate 613 are respectively provided with a web plate 615 in an outward turning manner, the front side wall and the rear side wall of the washing chamber 5 are provided with supporting beams 6, the inner half cloth containing bucket 61 is placed on the front supporting beam 17 and the rear supporting beam 17 of the washing chamber 5 through the front web plate 615 and the rear web plate 615, and the web plates 615 are connected with the supporting beams 17 through connecting bolts;

the outer half cloth holding bucket 62 is integrally in a four-sided closed structure, the left end of the outer half cloth holding bucket is a cloth outlet 621, and the right end of the outer half cloth holding bucket is bent towards the left upper part to form a cloth inlet 622;

the outer half cloth holding bucket 62 comprises an outer top plate 623, an outer bottom plate 624 and a front outer side plate 625 and a rear outer side plate 625, wherein the outer top plate 623 and the outer bottom plate 624 each comprise an outer transverse supporting section 626, an outer circular arc transition section 627 and an outer bending section 628;

a buffer plate 629 is arranged at the position of an outer arc transition section 627 of the outer bottom plate 623;

a connecting flange 6210 is arranged at the position of the cloth outlet 621, and the outer half cloth holding hopper 62 is connected with the lower box body 2 through the connecting flange 6210;

the inner half cloth holding bucket 61 and the outer half cloth holding bucket 62 are connected through a middle connecting section 63;

a spraying assembly 7 is arranged between two adjacent roll sets 3, the spraying assembly 7 is positioned below the roll sets 3, and the spraying assembly 7 is connected with a ship-shaped cloth containing hopper 6 through a cloth moving pipe 8;

the cloth feeding pipe 8 is arranged in a downward inclined mode;

the spraying assembly 7 comprises a water box 71, the top of the water box 71 is open, a first cloth passing hole 72 is formed in the bottom of the water box 71, a cloth passing cone 73 with a large upper part and a small lower part is arranged at the position of the first cloth passing hole 72 in an upward mode, a middle partition plate 74 is arranged above the cloth passing cone 73, a second cloth passing hole 75 is formed in the middle partition plate 74, a guide cone 76 with a large upper part and a small lower part is arranged at the position of the second cloth passing hole 75 in a downward mode, the guide cone 76 is positioned on the inner side of the cloth passing cone 73, and a spraying channel 77 is formed between the guide cone 76 and the cloth passing cone 73;

the lower end of the cloth passing conical cylinder 73 is connected with a cloth passing elbow 78;

the inner wall of the middle part of the water box 71 is provided with supporting foot plates 79, and the middle partition plate 74 is arranged on the four supporting foot plates 79;

a support conical plate 710 is arranged downwards at the position of the first cloth passing hole 72, and the cloth passing conical cylinder 73 is supported and arranged on the support conical plate 710;

one end of the cloth feeding pipe 8 is connected with the cloth passing bent pipe 78, and the other end of the cloth feeding pipe 8 is connected with a cloth inlet 622 of the outer half cloth containing bucket 62;

a circulating filter mechanism 9 is correspondingly arranged outside each washing bin 5;

the circulating and filtering mechanism 9 comprises a circulating pump 91, a water inlet of the circulating pump 91 is connected with the washing chamber 5 through a water return pipe 92, and a water outlet of the circulating pump 91 is connected with the spraying component 7 through a water inlet pipe 93;

a filter 94 is arranged on the water return pipe 92;

a spraying water inlet 711 is formed in one side of the water box 71, and the spraying water inlet 711 is connected with the water inlet pipe 93;

the height of the spraying water inlet 711 is lower than that of the cloth cone 73;

the connection position of the washing chamber 5 and the water return pipe 92 is positioned below the inner half cloth containing bucket 61;

each washing chamber 5 is internally provided with a cloth containing amount detection mechanism 10, and the cloth containing amount detection mechanism 10 is positioned above the content cloth bucket 61;

the cloth containing amount detection mechanism 10 comprises a front detection bracket 101 and a rear detection bracket 101, wherein a bearing seat 102 is arranged on the detection brackets 101, a rotating shaft 103 penetrates between the front bearing seat and the rear bearing seat 102, and a detection plate connector 104 is arranged on the rotating shaft 103;

the detection plate connector 104 comprises a support frame 104.1, the rotating shaft 103 penetrates through the upper part of the support frame 104.1, a collision plate 104.2 is arranged at the bottom of the support frame 104.1 in a rightward inclined mode, and a floating plate 104.3 is arranged at the bottom of the collision plate 104.2;

the floating plate 104.3 is hinged with the striking plate 104.2 through a hinge 104.4;

a linear switch 105 is arranged on the right side of the washing chamber 5, and the linear switch 105 is connected with the middle part of the support frame 104.1 through a pull rod 106;

a linear switch seat 107 is arranged on the outer side of the lower box body 2, the linear switch seat 107 is positioned above the outer half cloth holding bucket 62, and the linear switch 105 is arranged on the linear switch seat 107;

a tension spring shaft 108 is arranged on the left side or the right side of the washing chamber 5, a tension plate 109 is arranged on the tension spring shaft 108, a connecting shaft 1010 is arranged at the upper end of the supporting frame 104.1 on the corresponding side of the tension plate 109, and the tension plate 108 is connected with the connecting shaft 1010 through a tension spring 1011;

the pulling plate 108 is provided with a plurality of pulling spring holes 1012, the pulling spring shaft 108 is arranged in one of the pulling spring holes 1012 in a penetrating manner, and the pulling force of the pulling spring can be adjusted by arranging the pulling spring shaft in the pulling spring holes at different positions in a penetrating manner;

a limiting pipe 1013 is arranged on the detection bracket 101 at the opposite side of the tension spring 1011, and the limiting pipe 1013 is matched with the support frame 104.1;

a cloth stacking detection mechanism 11 is arranged above the spraying assembly 7;

the cloth stacking detection mechanism 11 comprises a first supporting foot 111, the first supporting foot 111 is fixedly arranged on the left side wall or the right side wall of the upper box body 1, a first detection rod 112 penetrates through the first supporting foot 111 along the left-right direction, one end of the first detection rod 112 extends out of the upper box body 1, a first cloth passing ring 113 is arranged on the first detection rod 112 forwards or backwards, a first cloth blocking rod 114 is arranged in the first cloth passing ring 113, the first cloth blocking rod 114 is arranged in parallel with the first detection rod 112, and a first counterweight hammer 115 is arranged at one side, opposite to the first cloth passing ring 113, of the outer end of the first detection rod 112;

a first detection support 116 is arranged at a position corresponding to the outer end of the first counter weight hammer 115, the first detection support 116 is fixedly arranged on the upper box body 1, and a first detection switch 117 is arranged on the first detection support 116;

a first limiting plate 118 is arranged at the connecting position of the first supporting leg 111 and the upper box body 1, an upper first limiting bolt 119 and a lower first limiting bolt 119 are arranged on the first limiting plate 118, and the upper first limiting bolt 119 and the lower first limiting bolt 119 are respectively positioned at the upper side and the lower side of the first counterweight hammer 115;

the upper and lower first limit bolts 119 are respectively positioned at the front and rear sides of the first detection rod 112, wherein the upper first limit bolt 119 is positioned at the corresponding side of the first cloth passing ring 113, and the lower first limit bolt 119 is positioned at the corresponding side of the first counterweight 115;

a cloth guide ring component 12 is arranged between two adjacent spraying components 7;

a bubbling detection mechanism 13 is arranged below the cloth guide ring component 12;

the bubbling detection mechanism 13 comprises a second supporting foot 131, the second supporting foot 131 is fixedly arranged on the left side wall or the right side wall of the upper box body 1, a second detection rod 132 penetrates through the second supporting foot 131 along the left-right direction, one end of the second detection rod 132 extends out of the upper box body 1, a second cloth passing ring 133 is arranged on the second detection rod 132 forwards or backwards, a second cloth blocking rod 134 is arranged in the second cloth passing ring 133, the second cloth blocking rod 134 is arranged in parallel with the second detection rod 132, and a second counterweight hammer 135 is arranged at one corresponding side of the second cloth passing ring 133 at the outer end of the second detection rod 132;

a second detection support 136 is arranged at a position corresponding to the outer end of the second counterweight hammer 135, the second detection support 136 is fixedly arranged on the upper box body 1, and a second detection switch 137 is arranged on the second detection support 136;

a second limiting plate 138 is arranged at the connecting position of the second supporting leg 131 and the upper box body 1, an upper second limiting bolt 139 and a lower second limiting bolt 139 are arranged on the second limiting plate 138, and the upper second limiting bolt 139 and the lower second limiting bolt 139 are respectively positioned at the upper side and the lower side of the second counterweight hammer 135;

the upper and lower second limit bolts 139 are respectively located at the front and rear sides of the second detection rod 132, wherein the upper second limit bolt 139 is located at a side far away from the second cloth passing ring 133, and the lower second limit bolt 139 is located at a side close to the second cloth passing ring 133;

the upper box body 1 is also internally provided with a front pre-spraying assembly 14 and a rear pre-spraying assembly 14, and the front pre-spraying assembly 14 and the rear pre-spraying assembly 14 are respectively positioned below the first roll group 3 and the last roll group 3;

the pre-shower assembly 14 includes an outer cylinder 141, the top of the outer cylinder 141 is open, a support bottom plate 142 is disposed at the bottom of the outer cylinder 141, a third cloth passing hole 143 is disposed on the support bottom plate 142, and an inner cylinder 144 is upwardly disposed at the position of the third cloth passing hole 143;

the top of the inner cylinder 144 is upwards provided with an upper conical cylinder 145 with a big top and a small bottom;

a lower conical cylinder 146 with a large upper part and a small lower part is arranged at the bottom of the outer cylinder 141 downwards;

the bottom of the lower conical cylinder 146 is provided with edge protection round steel 147;

a pre-shower water inlet 148 is formed in one side of the outer cylinder 141, water inlet branch pipes 95 are formed in the water inlet pipes 93 of the frontmost and rearmost circulating and filtering mechanisms 9, and the pre-shower water inlet 148 is connected with the water inlet branch pipes 95;

the front side and the rear side of the upper box body 1 are respectively provided with a cloth feeding assembly 15 and a cloth discharging assembly 16.

The working principle is as follows:

the fabric is sent into an upper box body of the rope-shaped washing machine through the fabric feeding assembly, is upwards pre-sprayed by the front side pre-spraying assembly and then enters a first roll set, then is downwards sprayed by the spraying assembly and then is sent into a ship-shaped fabric containing bucket below through the fabric feeding pipe for washing, the fabric after being washed by the ship-shaped fabric containing bucket then upwards enters a next roll set, then is downwards sprayed by the next spraying assembly and then is sent into the next ship-shaped fabric containing bucket through the next fabric feeding pipe for washing, and after the fabric is sequentially sprayed by the multiple spraying assemblies and washed by the multiple ship-shaped fabric containing buckets, the fabric is finally pre-sprayed by the rear side pre-spraying assembly and then is sent out of the rope-shaped washing machine through the fabric discharging assembly to complete the whole washing process.

And a cloth containing amount detection mechanism is arranged in each washing chamber. The fabric is sent into the boat-shaped fabric containing hopper through the fabric feeding pipe, if the fabric content in the boat-shaped fabric containing hopper is too much, the fabric extrudes a collision plate and a floating plate of the fabric containing amount detection mechanism leftwards, so that the support frame rotates leftwards, the pull rod pulls the linear switch, and the linear switch feeds a signal back to the control system at the moment, so that the rotating speed of the upstream roller group is controlled, the fabric feeding amount is reduced, and the fabric in the fabric containing hopper is prevented from being accumulated to influence the washing quality; when the cloth containing amount in the cloth containing hopper returns to normal, the fabric does not extrude the cloth containing amount detection mechanism any more, at the moment, the support frame, the pull rod and the linear switch are reset under the action of the tension spring, at the moment, the linear switch transmits a signal to the control system, and therefore the rotating speed of the upstream roller group is controlled to return to normal;

a pile cloth detection mechanism is arranged above each spraying assembly. When the fabric enters the showering assembly downwards after passing through the roller group, if the fabric does not generate piled fabric, the fabric can smoothly pass through a fabric passing ring of the piled fabric detection mechanism; when the fabrics passing through the roller group are piled up, the piled fabrics are blocked by the cloth passing ring and the cloth blocking rod and cannot pass smoothly, when the piled weight exceeds the weight of the counterweight hammer, the cloth passing ring is driven to rotate downwards, the counterweight hammer upwards tilts and leaves the position of the detection switch, the detection switch feeds a signal back to the control system to stop and give an alarm, and a worker can recover normal production after cleaning the fabrics at the position of the piled cloth detection mechanism;

similarly, when the fabric enters the roller group upwards, the fabric needs to pass through the bubbling detection mechanism below the fabric guide ring, and when the fabric does not generate bubbling, the fabric can pass through the fabric passing ring of the bubbling detection mechanism smoothly; will extrude the cloth ring of crossing of tympanic bulla detection mechanism when the fabric produces the tympanic bulla, will drive when extrusion strength surpasss counterweight hammer weight and go up the rotation of cloth ring, the counterweight hammer upwards perks leaves the detection switch position, and detection switch shuts down and sends the police dispatch newspaper with signal feedback to control system this moment, and the staff just can resume normal production after clearing up the fabric of tympanic bulla detection mechanism position.

In addition, the present invention also includes other embodiments, and any technical solutions formed by equivalent transformation or equivalent replacement should fall within the protection scope of the claims of the present invention.