CN113587565A - Drying device for blowing water to rubber tube after static pressure detection - Google Patents

Abstract

The invention discloses a water blowing and drying device for a rubber hose after static pressure detection, which belongs to the field of rubber hose drying. The invention discloses a water blowing and drying device for a rubber hose after static pressure detection. Blow the trailing water ball into the bent middle of the hose to test the water, so that the trailing water ball can absorb the water that may exist in the middle of the hose. When the trailing ball is directly blown out of the hose, it means that there is more water inside. When the trailing water test ball is not blown out, pull it out of the hose through the pull rope, and the distribution range of toner particles on the color detection suction ring expands, indicating that there is accumulated water inside. There is very little water, and the drying of the hose can be completed by continuing to blow water for 1-2 minutes. Compared with the existing technology, the situation of blindly extending the water blowing time is effectively avoided, thereby greatly improving the drying efficiency of the rubber hose.

Description

Drying device for blowing water to rubber tube after static pressure detection

Technical Field

The invention relates to the field of rubber tube drying, in particular to a rubber tube water blowing drying device after static pressure detection.

Background

More or less ponding can remain in the body after the hose is detected at the static pressure, needs the sanitization, has avoided influencing finished product packing and customer's use. At present, accumulated water in the pipe body is blown off by compressed air mainly in an artificial mode in the industry.

However, due to the slender structure of the rubber tube, when water is blown, the middle part of the rubber tube is often bent, so that accumulated water is easy to exist at the position and is difficult to clean, workers are difficult to know the cleaning condition of residual accumulated water in the rubber tube in time, and the static accumulated water is ensured to be blown by generally prolonging the blowing time, but the efficiency of blowing and drying the rubber tube is low due to the condition, and the number of the dry rubber tubes in unit time is reduced.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a rubber tube water blowing and drying device after static pressure detection, which is characterized in that through the arrangement of a trailing water testing ball, after the water is blown and dried for a certain time, the tailing water testing ball can be blown into the bent middle part of the rubber tube for water testing, so that the tailing water testing ball can absorb accumulated water possibly existing in the middle part of the rubber tube, when the trailing water testing ball is directly blown out of the rubber tube, the accumulated water in the rubber tube is more, and when the trailing water testing ball is not blown out, the rubber tube is pulled out by a pull rope, the distribution range of the color powder particles on the color checking suction ring is expanded, the condition that the inside of the rubber tube contains accumulated water is shown, when the color detection suction ring has no obvious change, the accumulated water is very little, and the drying of the rubber tube can be completed by continuously blowing water for 1-2 min.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A device for drying rubber tube after static pressure detection comprises a device body, wherein a pair of air cylinders are installed at the upper end of the device body, the upper end of each air cylinder is connected with a controller, clamping plates which are matched with each other are fixedly connected to the upper end of the device body and the lower end of each air cylinder, two ends of each rubber tube are respectively clamped on two pairs of clamping plates, an air inlet pipe communicated with an air blower is installed at the outer end of the device body, the air blower and the air cylinders are electrically connected with the controllers, a multi-way pipe matched with one pair of clamping plates is fixedly connected to the upper end of the device body, the multi-way pipe is communicated with the air inlet pipe and the rubber tube with the end part positioned in the clamping plates, a ball inlet box is fixedly connected to the upper end of the multi-way pipe, a blocking block is arranged at the top plug of the ball inlet box, a trailing water testing ball is tied to one end in the ball inlet box, the trailing water testing ball comprises a pull rope tied to the blocking block and a color change ball connected to the end part of the pull rope, colored inspection suction ring of look change ball middle part fixed connection, through the setting of trailing inspection ball, after the dry certain time of blowing, can blow in the middle part that the rubber tube was buckled with trailing inspection ball, test water, make trailing inspection ball absorb the ponding that the rubber tube middle part probably exists, it is direct by blowing out the rubber tube when trailing inspection ball, show inside ponding more, when trailing inspection ball it is not blown out, pull out the rubber tube through the stay cord, look and examine the suction ring and color the powder granule distribution range and enlarge, show inside and contain ponding, when look examining the suction ring and do not have obvious change, show that ponding is very few, continue to blow water and can accomplish the drying of rubber tube for 1-2min, compare in prior art, effectively avoid the long condition of blindly prolonging the time of blowing, and then increase substantially the drying efficiency of rubber tube.

Further, when blowing water, the sprue is in the normally closed state, and when testing water, earlier the air-blower of control stops to aerify, then takes out the sprue and will tailing and test the water ball and connect at the sprue inboard, later with the sprue stopper back in situ again, make the water-blowing in-process, gaseous difficult from the multi-pipe department reveal to showing the utilization ratio that improves the air supply, making simultaneously to blow water drying efficiency higher.

Furthermore, the length of the pull rope is within the range of plus or minus 1cm of the half length of the rubber tube, and the diameter of the color-changing ball is smaller than the inner diameter of the rubber tube, so that the pull rope can just reach the part of the middle part of the rubber tube, which is bent and is easy to accumulate water, and the water testing is convenient.

Furthermore, a plurality of separation assisting balls are placed in a space defined by the color changing balls and the color detecting and sucking ring, the separation assisting balls are made of ferromagnetic materials, and when the color changing balls are separated from the pull rope and are not blown out, an external magnetic field generates adsorption force between the external magnetic field and the separation assisting balls, so that the color changing balls can be effectively guided to be taken out from the rubber tube.

Further, the color detection suction ring comprises a water absorption cotton layer fixedly connected to the middle part of the color changing ball and a partition ball ring fixedly embedded on the outer surface of the water absorption cotton layer, a thread hole is chiseled in the middle of the water absorption cotton layer, a limiting hemisphere is fixedly connected at the opening part of the thread hole far away from the pull rope, the end part of the pull rope movably penetrates through the color changing ball and the wire hole and extends into the limiting hemisphere, the wire hole and the limiting hemisphere are both filled with an inner solid layer, the inner solid layer is made of water-soluble materials, when the accumulated water in the rubber tube is more, the accumulated water permeates the water absorption cotton layer to make the inner solid layer water-soluble or partially water-soluble, at the moment, under the extrusion force of air during water blowing, the pull rope is separated from the color changing ball, so that the color changing ball is blown out of the rubber tube conveniently, when the accumulated water is less, the inner solid layer is not enough to be dissolved or loosened, the color-changing ball can be pulled out of the rubber tube through the pull rope, and the accumulated water condition in the rubber tube is roughly judged according to the surface change of the rubber tube.

Furthermore, the wire hole is fixedly connected with a plurality of limiting bent pieces towards the opening part of the limiting hemisphere, the end part of the pull rope is fixedly connected with a limiting ball, the limiting ball penetrates through the gaps among the limiting bent pieces and extends to the right side of the limiting bent pieces, the limiting bent pieces are of bent arc-shaped structures, the bent parts of the limiting bent pieces are bent towards the pull rope, the gaps among the bent parts of the limiting bent pieces are smaller than the diameter of the end part of the limiting ball, the diameter of the limiting ball is smaller than the diameter of the hole of the color changing ball and the inner diameter of the wire hole, the limiting bent pieces can generate a certain limiting effect on the limiting ball, when the spacing ball is not dissolved in water and is loosened by the extrusion force of gas, the spacing ball is not easy to deform outwards, the effective limiting ball makes the spacing ball difficult to turn over the limiting bent pieces, so that the color changing ball is not easy to separate from the pull rope, when the accumulated water is large, the inner solid layer is dissolved and loosened by the water, at this moment, under the action of gas extrusion force, great pulling force is generated between the color-changing ball and the pull rope, so that the limiting bent pieces are deformed outwards, and the limiting ball can conveniently turn over a plurality of limiting bent pieces.

Furthermore, the partition ball ring comprises a plurality of color developing balls, air control suction balls and a plurality of color guide pipes which are uniformly distributed and connected between the adjacent color developing balls and the air control suction balls respectively, the color developing balls, the color guide pipes and the air control suction balls are communicated with each other, and toner particles are filled in the color developing balls.

Further, the air control suction ball comprises a pre-color changing ball connected with the color guide tube and an outer water absorption layer wrapped outside the pre-color changing ball, the outer water absorption layer is made of transparent water absorption materials, compressed gas is filled in the pre-color changing ball, the end part of the color guide tube, which is positioned in the outer water absorption layer, is in a flat shape of extrusion and lamination, an outer solid layer is filled between the flat color guide tube and the outer water absorption layer, the outer solid layer is made of water-soluble materials, after water absorption, the outer solid layer is gradually dissolved in water and loosened, under the action of the compressed gas, the flat color guide tube is propped open, so that the disconnected part in the partition ball ring is partially or mostly eliminated, at the moment, toner particles gradually spread from the color changing ball towards the interior of the pre-color changing ball due to the vibration of the color changing ball caused by water blowing, the distribution range is expanded, and the accumulated water condition in the glue tube is conveniently solved by workers through the visual change, thereby effectively controlling the water blowing process and shortening the whole water blowing time.

3. Advantageous effects

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

(1) the setting of water ball is tested through the smear to this scheme, after the dry certain time of blowing water, can blow in the middle part that the rubber tube was buckled with the smear water ball, test water, make the smear water ball of testing absorb the ponding that the rubber tube middle part probably exists, test water ball directly by blowing out the rubber tube when the smear, explain inside ponding more, test water ball when the smear it is not blown out, pull out its rubber tube through the stay cord, look is examined and is inhaled the extension of color powder granule distribution range, explain inside contains ponding, when look is examined when inhaling the ring and do not have obvious change, it is few to explain ponding, continue to blow water 1-2min and can accomplish the drying of rubber tube, compare in prior art, effectively avoid the long condition of blindly prolonging the water blowing, and then increase substantially the drying efficiency of rubber tube.

(2) When blowing water, the sprue is in normally closed state, and when testing water, the air-blower of controlling earlier stops to aerify, then takes out the sprue and will tailing and test the water ball and connect inboard at the sprue, later with sprue stopper return-to-the-original-position again, make the water-blowing in-process, gaseous difficult from the multi-channel pipe department reveal to showing the utilization ratio that improves the air supply, it is higher to make the dry efficiency that blows water simultaneously.

(3) The length of the stay cord is within the range of plus or minus 1cm of half of the length of the rubber tube, and the diameter of the color-changing ball is smaller than the inner diameter of the rubber tube, so that the stay cord can just reach the part of the rubber tube, which is bent and is easy to accumulate water, and water testing is facilitated.

(4) When the color changing balls are separated from the pull rope and are not blown out, an external magnetic field generates adsorption force between the external magnetic field and the separation assisting balls, so that the color changing balls can be effectively guided and can be taken out from the rubber tube.

(5) Look is examined and is inhaled ring includes the cotton layer of absorbing water and the fixed wall ball ring of inlaying at the cotton layer surface that absorbs water of fixed connection at look change ball middle part, it has the line hole to open the chisel in cotton layer middle part of absorbing water, the oral area fixedly connected with spacing hemisphere of stay cord is kept away from to the line hole, stay cord tip activity runs through look change ball and line hole and extends to in the spacing hemisphere, it has the internal solid layer all to fill in line hole and the spacing hemisphere, the internal solid layer is made for water-soluble material, when the ponding is more in the rubber tube, ponding soaks the cotton layer of absorbing water and makes the internal solid layer water-soluble or partly water-soluble, gaseous extrusion force effect when blowing water this moment, stay cord and look change ball break away from, the look change ball of being convenient for is blown out the rubber tube, when ponding is less, be not enough to make the internal solid layer water-soluble or not hard up, can pull out the rubber tube with look change ball through the stay cord this moment, according to its surface variation, roughly judge the ponding condition inside the rubber tube.

(6) The wire hole is fixedly connected with a plurality of limiting bent pieces towards the opening part of the limiting hemisphere, the end part of the pull rope is fixedly connected with a limiting ball, the limiting ball penetrates through gaps among the limiting bent pieces and extends to the right side of the limiting bent pieces, the limiting bent pieces are of bent arc-shaped structures, the bent parts of the limiting bent pieces are bent towards the pull rope, the gaps among the bent parts of the limiting bent pieces are smaller than the diameter of the end part of the limiting ball, the diameter of the limiting ball is smaller than the pore of the color changing ball movably penetrating through the pull rope and the inner diameter of the wire hole, the limiting bent pieces can have a certain limiting effect on the limiting ball, when the limiting ball is not dissolved in water, the limiting ball is not easily deformed outwards when being subjected to gas extrusion force, the limiting ball is effectively intercepted and is not easy to turn over the limiting bent pieces, so that the color changing ball is not easily separated from the pull rope, when water is accumulated, the inner solid layer is dissolved in water and is not loosened, at the moment, under the action of the gas, the color changing ball and the pull rope produce large pulling force to make the limiting bent sheet deform outwards, so that the limiting ball can conveniently turn over a plurality of limiting bent sheets.

(7) The partition ball ring comprises a plurality of color developing balls, air control suction balls and a plurality of color guide pipes which are uniformly distributed and connected between the adjacent color developing balls and the air control suction balls respectively, the color developing balls, the color guide pipes and the air control suction balls are communicated with each other, and toner particles are filled in the color developing balls.

(8) The air control suction ball comprises a pre-color changing ball connected with the color guide tube and an outer water absorption layer wrapped outside the pre-color changing ball, the outer water absorption layer is made of transparent water absorption materials, compressed air is filled in the pre-color changing ball, the end part of the color guide tube positioned in the outer water absorption layer is in a flat shape which is extruded and attached, an outer solid layer is filled between the flat color guide tube and the outer water absorption layer, the outer solid layer is made of water-soluble materials, after water absorption, the outer solid layer is gradually dissolved in water and loosened, under the action of the compressed air, the flat color guide tube is propped, the inner disconnected part of the ball partition ring is partially or mostly eliminated, at the moment, toner particles gradually spread from the color changing ball towards the pre-color changing ball from the color changing ball due to the vibration of the blowing water to the color changing ball, the distribution range is expanded, and through the visual change, the accumulated water condition in the glue tube can be conveniently dissolved by a worker, so that the water blowing process can be effectively controlled, the whole water blowing time is shortened.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a schematic view of the structure at A in FIG. 2;

FIG. 4 is a schematic view of the structure of the present invention when water is tested during water blowing;

FIG. 5 is a schematic structural view of the trailing water-testing ball of the present invention;

FIG. 6 is a schematic view of a partial structure of a partition ball ring according to the present invention;

FIG. 7 is a schematic view of the structure at B in FIG. 6;

FIG. 8 is a schematic view of the front side of the color detection ring of the present invention;

fig. 9 is a schematic structural view of the limiting bent piece part of the invention.

The reference numbers in the figures illustrate:

the device comprises a device body 1, a cylinder 2, a clamping plate 3, a multi-way pipe 31, a ball inlet box 32, an air inlet pipe 4, a pull rope 5, a limiting ball 51, a color-changing ball 6, a water-absorbing cotton layer 7, a ball separating ring 8, a color-developing ball 81, a color-guiding pipe 82, an outer water-absorbing layer 831, a pre-color-changing ball 832, a limiting hemisphere 9, an outer solid layer 10, an inner solid layer 11, a limiting bent sheet 12 and a separation-assisting ball 13.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1, a drying device for blowing water to a rubber tube after static pressure detection comprises a device body 1, wherein a pair of cylinders 2 is installed at the upper end of the device body 1, the upper end of each cylinder 2 is connected with a controller, clamping plates 3 which are matched with each other are fixedly connected to the upper end of the device body 1 and the lower end of each cylinder 2, two ends of the rubber tube are respectively clamped on the two pairs of clamping plates 3, an air inlet pipe 4 communicated with an air blower is installed at the outer end of the device body 1, and the air blower and the cylinders 2 are electrically connected with the controller.

Referring to fig. 2-3, the upper end of the device body 1 is fixedly connected with a multi-way pipe 31 matched with one pair of clamping plates 3, the multi-way pipe 31 is communicated with an air inlet pipe 4 and a rubber pipe with the end part positioned in the clamping plates 3, the upper end part of the multi-way pipe 31 is fixedly connected with a ball inlet box 32, and the top of the ball inlet box 32 is plugged with a block, one end of the block facing the ball inlet box 32 is tied with a trailing water testing ball, the trailing water testing ball comprises a pull rope 5 tied with the block and a color change ball 6 connected with the end part of the pull rope 5, the middle part of the color change ball 6 is fixedly connected with a colored suction ring, when blowing water, the block is in a normally closed state, when testing water, the blower is controlled to stop charging air firstly, then the block is taken out and the trailing water testing ball is connected to the inner side of the block, and then the block is plugged back to the original position, so that in the water blowing process, gas is not easy to leak from the multi-way pipe 31, so that the utilization rate of a gas source is obviously improved, and meanwhile, the water blowing and drying efficiency is higher.

The length of the pull rope 5 is within the range of plus or minus 1cm of half of the length of the rubber tube, and the diameter of the color-changing ball 6 is smaller than the inner diameter of the rubber tube, as shown in figure 4, the pull rope 5 can just reach the part of the middle part of the rubber tube, which is bent and is easy to accumulate water, so that the water testing is convenient.

It is to be noted that when the hose bending portion is not the middle portion, the length of the pulling rope 5 is adaptively adjusted to the length from the air inlet to the bending portion.

Referring to fig. 5, the color testing suction ring comprises a water absorbing cotton layer 7 fixedly connected to the middle of the color changing ball 6 and a partition ball ring 8 fixedly embedded on the outer surface of the water absorbing cotton layer 7, a line hole is drilled in the middle of the water absorbing cotton layer 7, a limiting hemisphere 9 is fixedly connected to the opening of the line hole far away from the pull rope 5, the end of the pull rope 5 movably penetrates through the color changing ball 6 and the line hole and extends into the limiting hemisphere 9, inner solid layers 11 are filled in the line hole and the limiting hemisphere 9, the inner solid layers 11 are made of water-soluble materials, when water is accumulated in the rubber hose, the accumulated water permeates the water absorbing cotton layer 7 to enable the inner solid layers 11 to be water-soluble or partially water-soluble, at this time, under the action of the extrusion force of air during blowing, the pull rope 5 is separated from the color changing ball 6, so that the color changing ball 6 is blown out of the rubber hose, when the accumulated water is less, the inner solid layers 11 are not enough to be water-soluble or loosened, at this time, the color changing ball 6 can be pulled out of the rubber hose through the pull rope 5, according to the surface change, and roughly judging the water accumulation condition in the rubber tube.

When the color changing ball 6 is separated from the pull rope 5 and is not blown out, an external magnetic field generates adsorption force between the external magnetic field and the separation assisting ball 13, so that the color changing ball 6 can be effectively guided to be taken out from the rubber tube.

Referring to fig. 6 and 8, the blocking ball ring 8 includes a plurality of color developing balls 81, air-controlling suction balls, and a plurality of color guide tubes 82 respectively connected between the adjacent color developing balls 81 and air-controlling suction balls, the color developing balls 81, the color guide tubes 82, and the air-controlling suction balls are communicated with each other, the color developing balls 81 are filled with colored powder particles, as shown in fig. 7, the air-controlling suction balls include pre-color developing balls 832 connected with the color guide tubes 82, and outer water absorbing layers 831 wrapped outside the pre-color developing balls 832, the outer water absorbing layers 831 are made of transparent water absorbing materials, the pre-color developing balls 832 are filled with compressed gas, the end portions of the color guide tubes 82 located inside the outer water absorbing layers 831 are in a flat shape of being squeezed fit, an outer fixing layer 10 is filled between the flat color guide tubes 82 and the outer water absorbing layers 831, the outer fixing layer 10 is made of water-soluble materials, after water absorption, the outer fixing layer 10 is loosened, the flat color guide tubes 82 are gradually dissolved in water under the action of the compressed gas, the part that cuts off in the messenger cuts off ball ring 8 is eliminated by part or most, because blow the vibrations that water caused to look changing ball 6 this moment, makes the toner granule stretch from developing ball 81 towards in advance changing ball 832 gradually, enlarges the distribution range, through this visual change directly perceived, the staff of being convenient for has separated the ponding condition in the glued pipe to the effective control blows the water process, shortens holistic water time of blowing.

Referring to fig. 9, the wire hole is fixedly connected to a plurality of limiting bent pieces 12 facing the opening of the limiting hemisphere 9, the end of the pull rope 5 is fixedly connected to a limiting ball 51, the limiting ball 51 penetrates through the gaps among the limiting bent pieces 12 and extends to the right side of the limiting bent pieces 12, the limiting bent pieces 12 are of bent arc-shaped structures, the bent portions of the limiting bent pieces 12 are bent toward the pull rope 5, the gaps among the bent portions of the limiting bent pieces 12 are smaller than the diameter of the end of the limiting ball 51, the diameter of the limiting ball 51 is smaller than the gap where the pull rope 5 movably penetrates through the color changing ball 6 and the inner diameter of the wire hole, the limiting bent pieces 12 can limit the limiting ball 51 to a certain extent, when the limiting ball is not dissolved in water and loosened, the limiting ball is not easily deformed outward due to the extrusion force of gas, the limiting ball 51 is effectively intercepted so that the limiting ball is not easily to turn over the limiting bent pieces 12, so that the color changing ball 6 is not easily separated from the pull rope 5, when a large amount of water is accumulated, the water-soluble not hard up of interior solid layer 11, at this moment under the effect of gaseous extrusion force, produce great pulling force between look change ball 6 and stay cord 5, make spacing bent piece 12 outwards deform, the spacing ball 51 of being convenient for is turned over a plurality of spacing bent pieces 12.

Through the setting of trailing water testing ball, after the dry certain time of blowing water, can blow in the middle part that the rubber tube was buckled with trailing water testing ball, test water, make trailing water testing ball absorb the ponding that the rubber tube middle part probably exists, test water ball directly by blowing out the rubber tube when trailing, it is more to explain inside ponding, test water ball when trailing, it is not blown out, pull out the rubber tube with it through stay cord 5, look is examined and is inhaled the extension of color powder granule distribution range, explain inside contains ponding, when look is examined when inhaling the ring and do not have obvious change, it is few to explain ponding, continue to blow water 1-2min and can accomplish the drying of rubber tube, compare in prior art, effectively avoid the long condition of blindly prolonging water blowing, and then increase substantially the drying efficiency of rubber tube.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims (9)

1. A device for blowing and drying a rubber hose after static pressure detection, comprising a device body (1), a pair of air cylinders (2) are installed on the upper end of the device body (1), and a controller is connected to the upper end of the air cylinder (2), The upper end of the device body (1) and the lower end of the cylinder (2) are fixedly connected with mutually matching clamping plates (3), and the two ends of the rubber hose are respectively clamped on two pairs of clamping plates (3). ), the outer end of the device body (1) is provided with an air intake pipe (4) that communicates with the blower, and the blower and the cylinder (2) are electrically connected to the controller, characterized in that: the device body (1) The upper end is fixedly connected with a multi-pass pipe (31) matched with one of the pair of clamping plates (3), the multi-pass pipe (31) is communicated with the air intake pipe (4) and the end portion located in the clamping plate (3). A rubber hose, the upper end of the multi-channel pipe (31) is fixedly connected with a goal box (32), and a block is plugged at the top of the goal box (32), and the block is facing one end in the goal box (32) A trailing water test ball is tied, and the trailing water test ball includes a pull rope (5) tied to the block and a color-changing ball (6) connected to the end of the pull rope (5). The color-changing ball (6) ) The middle part is fixedly connected with a colored detection suction ring; When blowing water, the blocking block is in a normally closed state. When testing water, first control the blower to stop inflation, then take out the blocking block and connect the trailing water ball to the inside of the blocking block, and then plug the blocking block back to its original position. After blowing and drying for a certain period of time, blow the trailing water ball into the bent middle of the hose to test the water, so that the trailing water ball can absorb the accumulated water in the middle of the hose. There is a lot of accumulated water. When the trailing water test ball is not blown out, pull it out of the hose through the pull rope (5), and the distribution range of the toner particles on the color detection suction ring expands, indicating that there is accumulated water inside. When there is no obvious change in the ring, it means that there is little water accumulation. Continue to blow water for 1-2 minutes to complete the drying of the hose. 2 . The water blowing and drying device for rubber hose after static pressure detection according to claim 2 , wherein the length of the pull rope ( 5 ) is within the range of plus or minus 1 cm of half the length of the rubber hose, and the color-changing ball The diameter of (6) is smaller than the inner diameter of the hose. 3. The device according to claim 1, characterized in that: a plurality of separation-assisting balls are placed in the space enclosed by the color-changing ball (6) and the color-detecting suction ring (13), the separation-assisting ball (13) is made of ferromagnetic material. 4. The device for blowing and drying a hose after static pressure detection according to claim 3, wherein the color detection suction ring comprises a water-absorbing cotton layer (7) fixedly connected to the middle of the color-changing ball (6) and A partition ball ring (8) inlaid on the outer surface of the water-absorbing cotton layer (7) is fixed, a wire hole is drilled in the middle of the water-absorbing cotton layer (7), and the wire hole is fixedly connected to the limiting hemisphere away from the mouth of the pulling rope (5). (9), the end of the pulling rope (5) moves through the color-changing ball (6) and the wire hole and extends into the limiting hemisphere (9), and the wire hole and the limiting hemisphere (9) are filled with Internal solid layer (11). 5. The device for blowing and drying rubber hoses after static pressure detection according to claim 4, characterized in that: a plurality of limit bends (12) are fixedly connected with the line hole toward the mouth of the limit hemisphere (9). ), the end of the pull rope (5) is fixedly connected to a limiting ball (51), and the limiting ball (51) penetrates the gap between the plurality of limiting bends (12) and extends to the limiting bend (12). )Right. 6 . The device for blowing and drying rubber hoses after static pressure detection according to claim 5 , characterized in that: the limit bends ( 12 ) are curved arc structures, and a plurality of the limit bends ( The bent parts of 12) are all bent toward the pull rope (5), and the gap between the bending parts of the plurality of limit bending pieces (12) is smaller than the diameter of the end of the limit ball (51), the limit ball (51) The diameter is smaller than the inner diameter of the hole where the pulling rope (5) moves through the color-changing ball (6) and the wire hole. 7. The device according to claim 4, characterized in that: the partition ball ring (8) comprises a plurality of evenly distributed color developing balls (81), air-controlling suction balls and a plurality of color guide tubes (82) respectively connected between adjacent color developing balls (81) and air control suction balls, the color developing balls (81), color guide tubes (82) and air control suction balls connected with each other, and the color developing ball (81) is filled with toner particles. 8 . The device for blowing and drying rubber hoses after static pressure detection according to claim 7 , wherein the air-control suction ball comprises a pre-colored ball (832) connected to the color guide tube (82) and a The outer water-absorbing layer (831) outside the pre-colored ball (832), the pre-colored ball (832) is filled with compressed gas, and the end of the color guide tube (82) inside the outer water-absorbing layer (831) is squeezed. Press-fitted flat, and the outer solid layer (10) is filled between the flat color guide tube (82) and the outer water absorption layer (831). 9 . The water blowing and drying device for a hose after static pressure detection according to claim 8 , wherein the outer solid layer ( 10 ) and the inner solid layer ( 11 ) are made of water-soluble materials, and the The outer water-absorbing layer (831) is made of transparent water-absorbing material.

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