CN111829121B - Heating pipe system utilizing steam for humidification - Google Patents

Abstract

The invention relates to the technical field of air humidification, in particular to a heat supply pipe system utilizing steam for humidification, which comprises a communicating pipe, a conical pipe, an air inlet mechanism, a condensed water collecting mechanism, a condensed water removing mechanism, a filtering mechanism, a sealing mechanism, a temperature measuring mechanism, a vacuum sleeve and a controller, wherein the conical pipe is arranged in the air inlet mechanism; the two ends of a communicating pipe are connected with a bathroom and a room needing humidification, a conical pipe is arranged at the output end of the communicating pipe, an air inlet mechanism is arranged at the input end of the communicating pipe, a condensed water collecting mechanism is connected with the bottom end of the communicating pipe in a sliding manner, a condensed water removing mechanism is integrally positioned in the communicating pipe, one end of a filtering mechanism is fixed at the output end of the conical pipe, the other end of the filtering mechanism is fixedly arranged at the joint of the air inlet mechanism and the communicating pipe, a temperature measuring mechanism is arranged at the output end of a sealing mechanism; the scheme can effectively remove condensed water, the filter screen can be conveniently replaced, the cleanliness is high, the assembly is convenient, and the working strength of workers is reduced.

Description

Heating pipe system utilizing steam for humidification

Technical Field

The invention relates to the technical field of air humidification, in particular to a heat supply pipe system utilizing steam for humidification.

Background

A large amount of water vapor is generated in the bathing process, and the water vapor is not utilized, so that the waste of water sources and energy sources is caused. At present, most household toilets are provided with ventilation fans which are mainly used for ventilation of the toilets and cannot discharge a large amount of water vapor during bathing, so that the water vapor is condensed on a ceiling, and the following problems are caused:

1. bacteria are easy to breed in the humid air, and the toiletries are polluted, so that the health of human bodies is influenced;

2. the water vapor is condensed on the ceiling and attached to the inner surface of the bathroom, which has adverse effect on the internal decoration;

3. the water drops condensed on the inner surface are gathered to a certain degree and continuously drop under the action of gravity, so that the human body is uncomfortable, and the uncomfortable feeling is more serious especially after the bathing is finished.

On the other hand, for other indoor rooms, in cold and dry winter, the relative humidity is low and is far lower than the comfort level of a human body, most people often select small-sized humidifiers, but most humidifiers in the market are low in efficiency, large in power consumption and uneven in humidification, and the expected effect cannot be achieved.

Chinese patent CN201410173577.2 discloses a bathing steam humidifying device, which comprises a steam humidifying pipe, a steam sleeve, a drainage fan and a filter, wherein the steam sleeve is sleeved on the outer layer of the steam humidifying pipe, air holes communicated with the steam sleeve are densely distributed on the wall of the steam humidifying pipe, the drainage fan is arranged in the air inlet of the steam humidifying pipe, and the filter is arranged at the air outlet of the steam humidifying pipe. The invention uses the bath steam to humidify the indoor room, compared with the prior art, the invention converts the waste and harmful bath steam into humid air, and saves energy and water source. However, the invention has a limited effect of cleaning the condensed water generated by the water vapor, and the filter device cannot be replaced conveniently and timely.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a heating pipe system utilizing steam for humidification, the technical scheme solves the problems, condensed water can be effectively removed, a filter screen can be conveniently replaced, the cleanliness is high, the assembly is convenient, and the working strength of workers is reduced.

In order to solve the technical problems, the invention provides the following technical scheme:

a heating pipe system utilizing steam for humidification is characterized by comprising a communicating pipe, a conical pipe, an air inlet mechanism, a condensed water collecting mechanism, a condensed water removing mechanism, a filtering mechanism, a sealing mechanism, a temperature measuring mechanism, a vacuum sleeve and a controller;

the bathroom and the room needing humidification are connected at two ends of a communicating pipe, a conical pipe is installed at the output end of the communicating pipe, an air inlet mechanism is installed at the input end of the communicating pipe, a condensed water collecting mechanism is in sliding connection with the bottom end of the communicating pipe and is communicated with the bottom end of the communicating pipe, the lower portion of a condensed water removing mechanism is located inside the communicating pipe, the bottom end of the condensed water removing mechanism extends into the lowest position of the condensed water collecting mechanism, the input end of the condensed water removing mechanism is fixed on the communicating pipe, the output end of the condensed water removing mechanism is located at the output end of the communicating pipe and faces the filtering end of a filtering mechanism, one end, close to the condensed water removing mechanism, of the filtering mechanism is fixed at the output end of the conical pipe, one end, far away from the condensed water removing mechanism, of the filtering mechanism is fixedly installed at the connection position of the air inlet mechanism and the communicating pipe, a vacuum sleeve is sleeved outside the communicating pipe, a gap is reserved between the vacuum sleeve and the outer wall of the communicating pipe, a sealing mechanism is installed at the vacuum sleeve and the communicating pipe, The joint of the condensed water collecting mechanism, the air inlet mechanism, the condensed water removing mechanism, the filtering mechanism, the temperature measuring mechanism and the vacuum sleeve are all electrically connected with the controller.

As a preferred scheme of a heating pipe system utilizing steam for humidification, the communicating pipe is provided with a sliding chute, a first building platform, a first flange and an external connecting pipe; the bottom at communicating pipe horizontal segment is seted up along the axis direction of communicating pipe to the spout, and first set of platform is seted up in spout upper end both sides position along spout length direction, and first set of platform collects the mechanism with the comdenstion water and goes up the overlap joint cooperation, and first flange mounting is at communicating pipe input department, first flange and filter mechanism one end fixed connection, and the outer takeover is seted up on the communicating pipe outer wall, and the comdenstion water is clear away the mechanism input and is followed outer takeover and locate the process.

As a preferable scheme of the heating pipe system humidified by steam, the condensed water collecting mechanism comprises a water receiving tank, a lap joint part and a ramp; the overlap joint portion sets up in water receiving tank top both sides position along the length direction of water receiving tank, and the ramp is installed in water receiving tank bottom department and is leaned down towards communicating pipe output end side, water receiving tank and communicating pipe sliding connection, overlap joint portion and communicating pipe overlap joint cooperation, and the one end at the bottom of the slope of ramp is stretched into in the water receiving tank to comdenstion water clearance mechanism bottom.

As a preferred scheme of a heating pipe system utilizing steam for humidification, the condensed water removing mechanism comprises a fixed connecting pipe, a venturi, a water suction pipe and an air pump, wherein the fixed connecting pipe is fixedly connected with a communicating pipe, the output end of the fixed connecting pipe is connected with the input end of the venturi, the output end of the venturi is positioned at the output end of the communicating pipe and faces the filtering end of the filtering mechanism, the water suction pipe is arranged at the throat part of the venturi and extends downwards into the lowest part of the condensed water collecting mechanism, and the air pump is communicated with the input end of the fixed connecting pipe and is electrically connected with the controller.

As a preferred scheme of a heating pipe system utilizing steam for humidification, the filtering mechanism comprises an anti-blocking detection assembly, a filter screen mounting seat, a filter disc and a pull ring; prevent stifled determine module and set up in the junction of communicating pipe and air inlet mechanism and filter screen mount pad and temperature measurement mechanism junction, the filter screen mount pad other end and conical tube output fixed connection, filter element and filter screen mount pad sliding connection, pull ring fixed mounting is in the filter element bottom, prevents stifled determine module and controller electricity and is connected.

As a preferable scheme of the heating pipe system using steam for humidification, the anti-blocking detection assembly comprises a first flowmeter and a second flowmeter; the first flowmeter is arranged at the joint of the communicating pipe and the air inlet mechanism, the two ends of the first flowmeter are connected with the communicating pipe and the air inlet mechanism through flanges, the second flowmeter is arranged between the filter screen mounting seat and the temperature measuring mechanism, the two ends of the second flowmeter are connected with the filter screen mounting seat and the temperature measuring mechanism through flanges, and the first flowmeter and the second flowmeter are electrically connected with the controller.

As a preferable scheme of the heating pipe system using steam for humidification, the filter screen mounting seat comprises an annular part, an insertion groove and a second platform; the two ends of the annular part are respectively communicated with the output end of the conical pipe and the input end of the temperature measuring mechanism, the insertion groove is formed in the side wall of the annular part, and the second lapping table is formed at the outermost end of the insertion groove and is lapped with the outer side of the filter disc.

As a preferable scheme of the heating pipeline system using steam for humidification, the sealing mechanism comprises a first end sealing cover, a second end sealing cover and a sealing ring; the first end sealing cover is arranged at the output end of the communicating pipe and the output end of the vacuum sleeve to fix the communicating pipe and the vacuum sleeve together, the first end sealing cover is also abutted against the end of the condensed water collecting mechanism, the second end sealing cover is arranged at the other end of the condensed water collecting mechanism, and the sealing ring is fixedly arranged at the joint of the input end of the communicating pipe and the output end of the vacuum sleeve.

As a preferable scheme of the heating pipe system using steam for humidification, the temperature measuring mechanism comprises an air outlet pipe, a second flange and an electronic thermometer; the outlet duct is located the stroke end of steam transmission, and the second flange sets up at the input end department of outlet duct, and second flange and filter mechanism fixed connection, electronic thermometer fix on the outlet duct and filter the end and stretch into in the outlet duct, and electronic thermometer is connected with the controller electricity.

As a preferable scheme of the heating pipe system using steam for humidification, the vacuum sleeve is provided with a butt plate, a vacuum pumping pipe and an electromagnetic valve; the vacuum sleeves are mutually attached in pairs so as to be wrapped outside the communicating pipe, the butt joint plate is arranged at the butt joint of the vacuum sleeves, the vacuumizing pipe is arranged on the outer wall of the vacuum sleeves, and the electromagnetic valve is arranged on the vacuumizing pipe and electrically connected with the controller.

Compared with the prior art, the invention has the beneficial effects that:

the air inlet mechanism is a fan. The staff is earlier with conical duct input fixed mounting on the output of communicating pipe, then collect the comdenstion water and construct sliding connection to communicating pipe on, put into communicating pipe output and make it and communicating pipe fixed connection with the comdenstion water clearance mechanism again, the comdenstion water clearance mechanism's output aligns with the output of communicating pipe. Then the vacuum sleeve is sleeved outside the communicating pipe, then the communicating pipe and the vacuum sleeve are fixed together in a collinear way by utilizing the sealing mechanism, and gaps are reserved between the inner wall of the vacuum sleeve and the communicating pipe as well as between the inner wall of the vacuum sleeve and the condensed water collecting mechanism, and the vacuum sleeve is connected with the communicating pipe only at the end part. Air in the gap between the interior of the vacuum sleeve and the communicating pipe and between the interior of the vacuum sleeve and the condensed water collecting mechanism is pumped by an air pump to ensure that the interior is vacuum. Then the staff installs the filter end of filter mechanism and the detection end of filter mechanism on the taper pipe output end in proper order again, then installs another detection end of filter mechanism and inlet air mechanism on the input end of communicating pipe in proper order again. When the device works, a worker sends a signal to the air inlet mechanism through the controller, the air inlet mechanism receives the signal and then introduces bathing steam generated in a bathroom into the communicating pipe, and then the steam enters the humidifying area after passing through the communicating pipe, the conical pipe, the filtering mechanism and the temperature measuring mechanism in sequence. The temperature measuring mechanism is arranged at the joint of the air inlet mechanism and the communicating pipe and the joint of the conical pipe and the temperature measuring mechanism. The temperature measuring mechanism is located at the tail end of the steam transmission stroke, so that accurate final temperature can be measured, and the conditions of overhigh temperature and the like can be prevented. The caliber of the output end of the conical structure of the conical tube is smaller than that of the input end, so that the flow rate of steam can be increased. The vacuum environment in the vacuum sleeve helps to isolate heat, making the steam less likely to condense in the communicating tube. A small amount of condensed liquid drops fall into a condensed water collecting mechanism at the bottom of the horizontal section of the communicating pipe and are finally collected to the lowest position in the condensed water collecting mechanism. The controller sends a signal to the condensed water removing mechanism periodically, the condensed water removing mechanism sprays the condensed water collected in the condensed water collecting mechanism in an atomized manner from the output end of the communicating pipe after receiving the signal, and the sprayed condensed water and the steam are filtered together by the filtering mechanism. The filter end of filter mechanism is detachable design, and its filter end probably has the condition of jam after filter mechanism uses for a long time, breeds the bacterium easily, and filter mechanism is through detecting the flow monitoring steam transmission condition of air inlet mechanism input end department and temperature measurement mechanism input end department. When the steam flow entering the input end of the temperature measuring mechanism is greatly smaller than the steam flow detected by the output end of the air inlet mechanism, the filtering mechanism is blocked, the controller gives an alarm in time, and a worker can replace the filtering end component of the filtering mechanism in time so as to ensure the filtering effect. The problem of residual condensed water in the pipeline is solved through the cooperation of the condensed water collecting mechanism and the condensed water removing mechanism, and the cleanness in the pipeline is further ensured.

1. Condensed water can be effectively removed;

2. the filter screen can be conveniently replaced, and the cleanliness is high;

3. convenient assembling reduces staff working strength.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a front view of the present invention;

FIG. 4 is a sectional view taken along line A-A of FIG. 3;

FIG. 5 is a perspective view of a communication tube of the present invention;

FIG. 6 is a perspective view of the condensate collection mechanism of the present invention;

FIG. 7 is an exploded perspective view of FIG. 6;

FIG. 8 is a perspective view of the condensate removal mechanism of the present invention;

FIG. 9 is an enlarged view of a portion of FIG. 4 at B;

FIG. 11 is a perspective view of the vacuum bushing of the present invention;

FIG. 12 is a perspective view of the temperature measuring mechanism of the present invention;

FIG. 13 is a partial perspective view of the filter mechanism of the present invention;

fig. 14 is an exploded perspective view of fig. 13.

The reference numbers in the figures are:

1. a communicating pipe; 1a, a chute; 1b, a first platform; 1c, a first flange; 1d, an external connecting pipe;

2. a tapered tube;

3. an air intake mechanism;

4. a condensed water collection mechanism; 4a, a water receiving tank; 4b, a lap joint part; 4c, a ramp;

5. a condensed water removing mechanism; 5a, fixing a connecting pipe; 5b, a venturi; 5c, a water suction pipe;

6. a filtering mechanism; 6a, an anti-blocking detection component; 6a1, first flow meter; 6a2, second flow meter; 6b, a filter screen mounting seat; 6b1, annular portion; 6b2, a plug groove; 6b3, second landing; 6c, a filter disc; 6d, a pull ring;

7. a sealing mechanism; 7a, a first end sealing cover; 7b, a second end seal cap; 7c, a sealing ring;

8. a temperature measuring mechanism; 8a and an air outlet pipe; 8b, a second flange; 8c, an electronic thermometer;

9. a vacuum bushing; 9a, a butt plate; 9b, vacuumizing a tube; 9c, an electromagnetic valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity 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," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 4, a heat supply pipe system humidified by steam includes a communication pipe 1, a tapered pipe 2, an air inlet mechanism 3, a condensed water collecting mechanism 4, a condensed water removing mechanism 5, a filtering mechanism 6, a sealing mechanism 7, a temperature measuring mechanism 8, a vacuum sleeve 9, and a controller;

the two ends of a communicating pipe 1 are connected with a bathroom and a room needing humidification, a conical pipe 2 is arranged at the output end of the communicating pipe 1, an air inlet mechanism 3 is arranged at the input end of the communicating pipe 1, a condensed water collecting mechanism 4 is connected with the bottom end of the communicating pipe 1 in a sliding way and is communicated with each other, the lower part of a condensed water removing mechanism 5 is positioned inside the communicating pipe 1, the bottom end of the condensed water collecting mechanism 4 extends into the lowest part of the condensed water collecting mechanism 4, the input end of the condensed water removing mechanism 5 is fixed on the communicating pipe 1, the output end of the condensed water removing mechanism 5 is positioned at the output end of the communicating pipe 1 and faces the filtering end of a filtering mechanism 6, one end of the filtering mechanism 6 close to the condensed water removing mechanism 5 is fixed at the output end of the conical pipe 2, one end of the filtering mechanism 6 far away from the condensed water removing mechanism 5 is fixedly arranged at the joint of the air inlet mechanism 3 and the communicating pipe 1, a temperature measuring mechanism 8 is arranged at the output end of a sealing mechanism 7, a vacuum sleeve 9 is sleeved outside the communicating pipe 1, and a gap is reserved between the inside and the outer wall of the communicating pipe 1, the sealing mechanism 7 is arranged at the joint of the vacuum sleeve 9 and the communicating pipe 1 and the condensed water collecting mechanism 4, and the air inlet mechanism 3, the condensed water removing mechanism 5, the filtering mechanism 6, the temperature measuring mechanism 8 and the vacuum sleeve 9 are all electrically connected with the controller.

The air intake mechanism 3 is a fan. The staff will be with conical duct 2 input end fixed mounting on the output of communicating pipe 1 earlier, then collect the comdenstion water and construct 4 sliding connection to communicating pipe 1 on, put into communicating pipe 1 output and make it and communicating pipe 1 fixed connection with comdenstion water clearance mechanism 5 again, the output of comdenstion water clearance mechanism 5 aligns with the output of communicating pipe 1. Then the vacuum sleeve 9 is sleeved outside the communicating pipe 1, then the axes of the communicating pipe 1 and the vacuum sleeve 9 are fixed together in a collinear way by utilizing the sealing mechanism 7, and gaps are reserved between the inner wall of the vacuum sleeve 9 and the communicating pipe 1 and between the inner wall of the vacuum sleeve 9 and the condensed water collecting mechanism 4, and the connection is only carried out at the end part. Air in the gap between the inside of the vacuum sleeve 9 and the communicating pipe 1 and the condensed water collecting mechanism 4 is pumped by an air pump to ensure that the inside is vacuum. Then the staff installs the filter end of filter mechanism 6 and the detection end of filter mechanism 6 on the output end of taper pipe 2 in proper order again, then installs another detection end of filter mechanism 6 and inlet unit 3 on the input end of communicating pipe 1 in proper order again. When the device works, a worker sends a signal to the air inlet mechanism 3 through the controller, the air inlet mechanism 3 receives the signal and then introduces bathing steam generated in a bathroom into the communicating pipe 1, and then the steam enters a humidifying area after passing through the communicating pipe 1, the conical pipe 2, the filtering mechanism 6 and the temperature measuring mechanism 8 in sequence. The temperature measuring mechanism 8 is arranged at the joint of the air inlet mechanism 3 and the communicating pipe 1 and the joint of the conical pipe 2 and the temperature measuring mechanism 8. The temperature measuring mechanism 8 is located at the tail end of the steam transmission stroke, so that accurate final temperature can be measured, and the conditions of overhigh temperature and the like can be prevented. The caliber of the output end of the conical structure of the conical pipe 2 is smaller than that of the input end, so that the steam flow rate can be increased. The vacuum environment within vacuum sleeve 9 helps to insulate heat so that the vapor does not easily condense within snorkel 1. A small amount of condensed liquid drops fall into a condensed water collecting mechanism 4 at the bottom of the horizontal section of the communicating pipe 1 and are finally collected to the lowest position in the condensed water collecting mechanism 4. The controller sends a signal to the condensed water removing mechanism 5 periodically, the condensed water removing mechanism 5 sprays the condensed water collected in the condensed water collecting mechanism 4 in an atomized manner from the output end of the communicating pipe 1 after receiving the signal, and the sprayed condensed water and the steam are filtered together by the filtering mechanism 6. The filter house of filter house 6 is detachable design, and its filter house probably has the condition of jam after filter house 6 uses for a long time, breeds the bacterium easily, and filter house 6 is through detecting the flow monitoring steam transmission condition of 3 input ends on the mechanism of admitting air and 8 input ends on the temperature measurement mechanism. When the steam flow entering the input end of the temperature measuring mechanism 8 is greatly smaller than the steam flow detected by the output end of the air inlet mechanism 3, the filtering mechanism 6 is blocked, the controller gives an alarm in time, and a worker can replace the filtering end component of the filtering mechanism 6 in time so as to ensure the filtering effect. The problem of residual condensed water in the pipeline is solved through the cooperation of the condensed water collecting mechanism 4 and the condensed water removing mechanism 5, and the cleanness in the pipeline is further ensured.

As shown in fig. 5, the communication pipe 1 is provided with a chute 1a, a first platform 1b, a first flange 1c and an external connection pipe 1 d; the bottom at 1 horizontal segment of communicating pipe is seted up along 1 axial direction of communicating pipe in spout 1a, 1b of first platform of taking is seted up in 1a upper end both sides position of spout along 1a length direction of spout, 1b of first platform of taking collects the edge overlap joint cooperation on the mechanism 4 with the comdenstion water, 1c of first flange is installed at 1 input end department of communicating pipe, 1c of first flange and 6 one end fixed connection of filter equipment, external pipe 1d is seted up on 1 outer wall of communicating pipe, 5 inputs of mechanism are clear away to the comdenstion water are followed external pipe 1d and are located the process.

Can conveniently assemble comdenstion water on communicating pipe 1 with mechanism 4 is assembled to the comdenstion water through spout 1a, can prevent through first platform 1b that the comdenstion water from collecting mechanism 4 and falling from communicating pipe 1, the junction is all done sealed and is handled. The condensed water removing mechanism 5 is fixed through the external connecting pipe 1d and the condensed water removing mechanism 5 can be communicated with the outside.

As shown in fig. 6 and 7, the condensed water collecting mechanism 4 includes a water receiving tank 4a, a lap portion 4b, and a ramp 4 c; overlap joint portion 4b sets up in water receiving tank 4a top both sides position along water receiving tank 4 a's length direction, and ramp 4c installs in water receiving tank 4a tank department and inclines downwards towards 1 output end direction of communicating pipe, water receiving tank 4a and 1 sliding connection communicating pipe, overlap joint portion 4b and 1 overlap joint cooperation communicating pipe, and the one end at slope bottom place of ramp 4c in water receiving tank 4a is stretched into to 5 bottoms of comdenstion water clearance mechanism.

The condensed water in the communication pipe 1 is collected by the water receiving tank 4a, and the condensed water is concentrated towards the end part of the water receiving tank 4a through the inclined structure of the ramp 4c, so that the condensed water is pumped away by the condensed water removing mechanism 5. Overlapping the entirety of condensed water collection mechanism 4 on communication pipe 1 by overlapping portion 4b prevents condensed water collection mechanism 4 from falling off communication pipe 1. Both ends of the water receiving tank 4a are sealed by a sealing mechanism 7.

As shown in fig. 8, the condensed water removing mechanism 5 includes a fixed connection pipe 5a, a venturi 5b, a water suction pipe 5c and an air pump, the fixed connection pipe 5a is fixedly connected with the communication pipe 1, an output end of the fixed connection pipe 5a is connected with an input end of the venturi 5b, an output end of the venturi 5b is located at an output end of the communication pipe 1 and faces a filtering end of the filtering mechanism 6, the water suction pipe 5c is installed at a throat position of the venturi 5b and downwardly extends into a lowest position of the condensed water collecting mechanism 4, and the air pump is communicated with an input end of the fixed connection pipe 5a and electrically connected with the controller.

The air pump is not shown in the figure. The controller sends a signal to the air pump, the air pump sprays air into the venturi tube 5b through the fixed connecting tube 5a, and the venturi tube 5b sprays the condensed water at the bottom of the condensed water collecting mechanism 4 and the air to the filtering end of the filtering mechanism 6 from the output end through the water suction pipe 5 c. The condensed water droplets can generate an atomization effect after being mixed with air, and are fully contacted with the filtering mechanism 6 so as to be fully filtered.

As shown in fig. 2 and 13, the filtering mechanism 6 includes an anti-blocking detection assembly 6a, a filter screen mounting seat 6b, a filter sheet 6c and a pull ring 6 d; prevent stifled determine module 6a and set up in communicating pipe 1 and the junction of mechanism 3 that admits air and filter screen mount pad 6b and temperature measurement mechanism 8 junction, the filter screen mount pad 6b other end and 2 output fixed connection of conical duct, filter 6c and filter screen mount pad 6b sliding connection, pull ring 6d fixed mounting is in filter 6c bottom, prevents stifled determine module 6a and is connected with the controller electricity.

The anti-blocking detection component 6a sends the measured flow data to the controller, and the controller compares the data to judge whether the filter 6c is blocked. The worker can pull out the filter sheet 6c from the filter screen mounting seat 6b by hooking the pull ring 6d, and then mount the filter sheet 6c on the filter screen mounting seat 6b after cleaning.

As shown in fig. 9 and 10, the anti-clogging detecting assembly 6a includes a first flow meter 6a1 and a second flow meter 6a 2; the first flowmeter 6a1 is arranged at the joint of the communicating pipe 1 and the air inlet mechanism 3, two ends of the first flowmeter are connected with the communicating pipe 1 and the air inlet mechanism 3 in a flange mode, the second flowmeter 6a2 is arranged between the filter screen mounting seat 6b and the temperature measuring mechanism 8, two ends of the second flowmeter are connected with the filter screen mounting seat 6b and the temperature measuring mechanism 8 in a flange mode, and the first flowmeter 6a1 and the second flowmeter 6a2 are both electrically connected with the controller.

The first flowmeter 6a1 and the second flowmeter 6a2 are both electromagnetic flowmeters, the first flowmeter 6a1 and the second flowmeter 6a2 respectively measure the values of the front end and the rear end on the steam transmission path and send the values to the controller, and the controller compares the data difference to judge whether the filter 6c is clogged.

As shown in fig. 13 and 14, the filter screen mounting seat 6b includes a ring-shaped portion 6b1, a plug-in slot 6b2 and a second platform 6b 3; two ends of the annular part 6b1 are respectively communicated with the output end of the conical tube 2 and the input end of the temperature measuring mechanism 8, the insertion groove 6b2 is arranged on the side wall of the annular part 6b1, and the second platform 6b3 is arranged at the outermost end of the insertion groove 6b2 and is overlapped with the outer side of the filter disc 6 c.

The filter sheet 6c can be conveniently mounted on the annular part 6b1 through the insertion groove 6b2, so that the meshes cover the through holes on the annular part 6b1, and the steam and the atomized condensed water from the direction of the conical pipe 2 can fully contact with the filter sheet 6 c. The second platform 6b3 can be used to easily position the ring-shaped part 6b1 and the filter element 6c, and then the two are fixed by bolts.

As shown in fig. 2, 9 and 10, the sealing mechanism 7 includes a first end sealing cover 7a, a second end sealing cover 7b and a sealing ring 7 c; the first end sealing cover 7a is installed at the output ends of the communicating pipe 1 and the vacuum sleeve 9 to fix the communicating pipe 1 and the vacuum sleeve 9 together, the first end sealing cover 7a is also abutted against the end part of the condensed water collecting mechanism 4, the second end sealing cover 7b is arranged at the other end of the condensed water collecting mechanism 4, and the sealing ring 7c is fixedly installed at the connecting position of the input end of the communicating pipe 1 and the output end of the vacuum sleeve 9.

The first end sealing cover 7a, the second end sealing cover 7b and the sealing ring 7c play a role in sealing and fixedly connecting the structure, and prevent steam and condensed water from leaking.

As shown in fig. 9 and 12, the temperature measuring mechanism 8 includes an outlet tube 8a, a second flange 8b and an electronic thermometer 8 c; the outlet pipe 8a is positioned at the tail end of the steam transmission stroke, the second flange 8b is arranged at the input end of the outlet pipe 8a, the second flange 8b is fixedly connected with the filtering mechanism 6, the electronic thermometer 8c is fixed on the outlet pipe 8a, the working end of the electronic thermometer extends into the outlet pipe 8a, and the electronic thermometer 8c is electrically connected with the controller.

The steam is jetted from the outlet pipe 8a, and the electronic thermometer 8c detects the temperature of the steam at the outlet pipe 8a and sends the temperature to the controller.

As shown in fig. 11, the vacuum sleeve 9 is provided with a butt plate 9a, an evacuation tube 9b and a solenoid valve 9 c; the vacuum sleeves 9 are mutually attached in pairs so as to be wrapped outside the communicating pipe 1, the butt joint plate 9a is arranged at the butt joint position of the vacuum sleeves 9, the vacuumizing pipe 9b is arranged on the outer wall of the vacuum sleeves 9, and the electromagnetic valve 9c is arranged on the vacuumizing pipe 9b and is electrically connected with the controller.

The controller opens the electromagnetic valve 9c by sending a signal, and then vacuumizes the interior of the vacuum sleeve 9 by using the vacuum pump, so that the heat transfer between the vacuum sleeve 9 and the communicating pipe 1 is reduced, and the heat preservation effect is achieved.

The working principle of the invention is as follows:

the air intake mechanism 3 is a fan. The staff will be with conical duct 2 input end fixed mounting on the output of communicating pipe 1 earlier, then collect the comdenstion water and construct 4 sliding connection to communicating pipe 1 on, put into communicating pipe 1 output and make it and communicating pipe 1 fixed connection with comdenstion water clearance mechanism 5 again, the output of comdenstion water clearance mechanism 5 aligns with the output of communicating pipe 1. Then the vacuum sleeve 9 is sleeved outside the communicating pipe 1, then the axes of the communicating pipe 1 and the vacuum sleeve 9 are fixed together in a collinear way by utilizing the sealing mechanism 7, and gaps are reserved between the inner wall of the vacuum sleeve 9 and the communicating pipe 1 and between the inner wall of the vacuum sleeve 9 and the condensed water collecting mechanism 4, and the connection is only carried out at the end part. Air in the gap between the inside of the vacuum sleeve 9 and the communicating pipe 1 and the condensed water collecting mechanism 4 is pumped by an air pump to ensure that the inside is vacuum. Then the staff installs the filter end of filter mechanism 6 and the detection end of filter mechanism 6 on the output end of taper pipe 2 in proper order again, then installs another detection end of filter mechanism 6 and inlet unit 3 on the input end of communicating pipe 1 in proper order again. When the device works, a worker sends a signal to the air inlet mechanism 3 through the controller, the air inlet mechanism 3 receives the signal and then introduces bathing steam generated in a bathroom into the communicating pipe 1, and then the steam enters a humidifying area after passing through the communicating pipe 1, the conical pipe 2, the filtering mechanism 6 and the temperature measuring mechanism 8 in sequence. The temperature measuring mechanism 8 is arranged at the joint of the air inlet mechanism 3 and the communicating pipe 1 and the joint of the conical pipe 2 and the temperature measuring mechanism 8. The temperature measuring mechanism 8 is located at the tail end of the steam transmission stroke, so that accurate final temperature can be measured, and the conditions of overhigh temperature and the like can be prevented. The caliber of the output end of the conical structure of the conical pipe 2 is smaller than that of the input end, so that the steam flow rate can be increased. The vacuum environment within vacuum sleeve 9 helps to insulate heat so that the vapor does not easily condense within snorkel 1. A small amount of condensed liquid drops fall into a condensed water collecting mechanism 4 at the bottom of the horizontal section of the communicating pipe 1 and are finally collected to the lowest position in the condensed water collecting mechanism 4. The controller sends a signal to the condensed water removing mechanism 5 periodically, the condensed water removing mechanism 5 sprays the condensed water collected in the condensed water collecting mechanism 4 in an atomized manner from the output end of the communicating pipe 1 after receiving the signal, and the sprayed condensed water and the steam are filtered together by the filtering mechanism 6. The filter house of filter house 6 is detachable design, and its filter house probably has the condition of jam after filter house 6 uses for a long time, breeds the bacterium easily, and filter house 6 is through detecting the flow monitoring steam transmission condition of 3 input ends on the mechanism of admitting air and 8 input ends on the temperature measurement mechanism. When the steam flow entering the input end of the temperature measuring mechanism 8 is greatly smaller than the steam flow detected by the output end of the air inlet mechanism 3, the filtering mechanism 6 is blocked, the controller gives an alarm in time, and a worker can replace the filtering end component of the filtering mechanism 6 in time so as to ensure the filtering effect. The problem of residual condensed water in the pipeline is solved through the cooperation of the condensed water collecting mechanism 4 and the condensed water removing mechanism 5, and the cleanness in the pipeline is further ensured.

Claims (9)

1. A heating pipe system utilizing steam for humidification is characterized by comprising a communicating pipe (1), a conical pipe (2), an air inlet mechanism (3), a condensed water collecting mechanism (4), a condensed water removing mechanism (5), a filtering mechanism (6), a sealing mechanism (7), a temperature measuring mechanism (8), a vacuum sleeve (9) and a controller;

the two ends of a communicating pipe (1) are connected with a bathroom and a room needing humidification, a conical pipe (2) is installed at the output end of the communicating pipe (1), an air inlet mechanism (3) is installed at the input end of the communicating pipe (1), a condensed water collecting mechanism (4) is in sliding connection with the bottom end of the communicating pipe (1) and is communicated with each other, the lower part of a condensed water removing mechanism (5) is positioned inside the communicating pipe (1), the bottom end of the condensed water removing mechanism extends into the lowest position of the condensed water collecting mechanism (4), the input end of the condensed water removing mechanism (5) is fixed on the communicating pipe (1), the output end of the condensed water removing mechanism (5) is positioned at the output end of the communicating pipe (1) and faces the filtering end of a filtering mechanism (6), one end, close to the condensed water removing mechanism (5), of the filtering mechanism (6) is fixedly installed at the connecting position of the air inlet mechanism (3) and the communicating pipe (1), the temperature measuring mechanism (8) is arranged at the output end of the sealing mechanism (7), the vacuum sleeve (9) is sleeved outside the communicating pipe (1), a gap is reserved between the inside of the vacuum sleeve and the outer wall of the communicating pipe (1), the sealing mechanism (7) is arranged at the joint of the vacuum sleeve (9) and the communicating pipe (1) as well as the condensed water collecting mechanism (4), and the air inlet mechanism (3), the condensed water removing mechanism (5), the filtering mechanism (6), the temperature measuring mechanism (8) and the vacuum sleeve (9) are all electrically connected with the controller;

the condensed water removing mechanism (5) comprises a fixed connecting pipe (5 a), a venturi (5 b), a water suction pipe (5 c) and an air pump, the fixed connecting pipe (5 a) is fixedly connected with the communicating pipe (1), the output end of the fixed connecting pipe (5 a) is connected with the input end of the venturi (5 b), the output end of the venturi (5 b) is located at the output end of the communicating pipe (1) and faces the working end of the filtering mechanism (6), the water suction pipe (5 c) is installed at the throat position of the venturi (5 b) and downwardly extends into the lowest position of the condensed water collecting mechanism (4), and the air pump is communicated with the input end of the fixed connecting pipe (5 a) and is electrically connected with the controller.

2. The heating pipeline system using steam humidification according to claim 1, wherein the communication pipe (1) is provided with a chute (1 a), a first platform (1 b), a first flange (1 c) and an external pipe (1 d); the bottom at communicating pipe (1) horizontal segment is seted up in the axis direction of communicating pipe (1) in spout (1 a), first platform (1 b) of taking is seted up in spout (1 a) upper end both sides position along spout (1 a) length direction, first platform (1 b) of taking collects mechanism (4) with the comdenstion water and goes up the overlap joint cooperation, install in communicating pipe (1) input end department first flange (1 c), first flange (1 c) and filtering mechanism (6) one end fixed connection, set up on communicating pipe (1) outer wall outer pipe (1 d), comdenstion water scavenging mechanism (5) input is followed outer takeover (1 d) and is located the process.

3. The heating pipeline system using steam humidification as claimed in claim 1, wherein the condensed water collecting mechanism (4) comprises a water receiving tank (4 a), a lap joint part (4 b) and a ramp (4 c); overlap joint portion (4 b) set up in water receiving tank (4 a) top both sides position along the length direction of water receiving tank (4 a), ramp (4 c) are installed and are leaned down in water receiving tank (4 a) tank bottom department and towards communicating pipe (1) output end direction, water receiving tank (4 a) and communicating pipe (1) sliding connection, overlap joint portion (4 b) and communicating pipe (1) overlap joint cooperation, the one end at the bottom of slope of ramp (4 c) in water receiving tank (4 a) is stretched into to comdenstion water clearance mechanism (5) bottom.

4. The heating pipeline system using steam humidification as claimed in claim 1, wherein the filtering mechanism (6) comprises an anti-blocking detection assembly (6 a), a filter screen mounting seat (6 b), a filter disc (6 c) and a pull ring (6 d); prevent stifled determine module (6 a) and set up in the junction of communicating pipe (1) and mechanism (3) admits air and filter screen mount pad (6 b) and temperature measurement mechanism (8) junction, filter screen mount pad (6 b) other end and conical tube (2) output end fixed connection, filter disc (6 c) and filter screen mount pad (6 b) sliding connection, pull ring (6 d) fixed mounting is in filter disc (6 c) bottom, prevent stifled determine module (6 a) and be connected with the controller electricity.

5. The heating pipeline system using steam humidification according to claim 4, wherein the block-prevention detecting assembly (6 a) comprises a first flow meter (6 a 1) and a second flow meter (6 a 2); the first flowmeter (6 a 1) is arranged at the joint of the communicating pipe (1) and the air inlet mechanism (3), the two ends of the first flowmeter are connected with the communicating pipe (1) and the air inlet mechanism (3) through flanges, the second flowmeter (6 a 2) is arranged between the filter screen mounting seat (6 b) and the temperature measuring mechanism (8), the two ends of the second flowmeter are connected with the filter screen mounting seat (6 b) and the temperature measuring mechanism (8) through flanges, and the first flowmeter (6 a 1) and the second flowmeter (6 a 2) are electrically connected with the controller.

6. The heating pipeline system using steam humidification as claimed in claim 4, wherein the screen mounting seat (6 b) comprises a ring-shaped portion (6 b 1), an insertion groove (6 b 2) and a second stand (6 b 3); two ends of the annular part (6 b 1) are respectively communicated with the output end of the conical tube (2) and the input end of the temperature measuring mechanism (8), the insertion groove (6 b 2) is formed in the side wall of the annular part (6 b 1), and the second platform (6 b 3) is formed in the outermost end of the insertion groove (6 b 2) and is in lap joint with the outer side of the filter disc (6 c).

7. The heating pipeline system using steam humidification as claimed in claim 1, wherein the sealing mechanism (7) comprises a first end sealing cover (7 a), a second end sealing cover (7 b) and a sealing ring (7 c); the first end sealing cover (7 a) is installed at the output ends of the communicating pipe (1) and the vacuum sleeve (9) to fix the communicating pipe (1) and the vacuum sleeve (9) together, the first end sealing cover (7 a) is also abutted to the end of the condensed water collecting mechanism (4), the second end sealing cover (7 b) is arranged at the other end of the condensed water collecting mechanism (4), and the sealing ring (7 c) is fixedly installed at the joint of the input end of the communicating pipe (1) and the output end of the vacuum sleeve (9).

8. The heating pipeline system using steam for humidification as claimed in claim 1, wherein the temperature measuring mechanism (8) comprises an air outlet pipe (8 a), a second flange (8 b) and an electronic thermometer (8 c); the air outlet pipe (8 a) is positioned at the tail end of the steam transmission stroke, the second flange (8 b) is arranged at the input end of the air outlet pipe (8 a), the second flange (8 b) is fixedly connected with the filtering mechanism (6), the electronic thermometer (8 c) is fixed on the air outlet pipe (8 a), the working end of the electronic thermometer extends into the air outlet pipe (8 a), and the electronic thermometer (8 c) is electrically connected with the controller.

9. The heating pipeline system using steam humidification according to claim 1, wherein the vacuum sleeve (9) is provided with a butt plate (9 a), a vacuum tube (9 b) and a solenoid valve (9 c); the vacuum sleeves (9) are mutually attached in pairs so as to be wrapped on the outer side of the communicating pipe (1), the butt joint plate (9 a) is arranged at the butt joint position of the vacuum sleeves (9), the vacuumizing pipe (9 b) is arranged on the outer wall of the vacuum sleeves (9), and the electromagnetic valve (9 c) is arranged on the vacuumizing pipe (9 b) and is electrically connected with the controller.

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