KR20210099797A - Easy to replace thermocouple slot tube for silo of fire monitoring and suppression unit - Google Patents

Abstract

The present invention relates to a slot tube with easy replacement of a thermocouple of a silo fire monitoring and suppressing unit. According to the present invention, the slot tube (40) can be maintained in an original state without heat shrinkage or thermal deformation by heat caused by fire and at an internal temperature of a coal silo. Also, a flexible tension guide part (100) which is flexible to maintain the straightness when unfolded while being wound to minimize the restrictions of a place on storage and process arrangement is continuously formed. With respect to a problem that a thermocouple cannot be separated from a slot tube due to the shrinkage and deformation of the slot tube due to the thermal deformation thereof caused by vulnerability of a heat source of an existing teflon and a synthetic vinyl material to which the thermocouple is fitted, the straightness can be maintained since thermal deformation does not occur by securing the heat resistance of the slot tube robust for heat, such that loss of straightness due to thermal deformation does not occur to easily perform the entire and partial replacement of the thermocouple due to a malfunction and damage of the thermocouple installed in a silo. Also, only a part of the thermocouple can be replaced and repaired to easily perform reinstallation, and thus, maintenance is simple, costs for maintenance can be reduced, and the inactivity for fire monitoring can be minimized.

Description

{Easy to replace thermocouple slot tube for silo of fire monitoring and suppression unit}

The present invention relates to a slot tube that is easy to replace a thermocouple of a silo fire monitoring and suppression unit, and more particularly, by measuring the temperature inside a silo for storing coal or grain, coal or grain stored in the silo The thermocouple replacement type is formed to monitor the fire caused by spontaneous ignition from the inside and to quickly extinguish the fire that occurs inside the silo due to unexpected ignition. As the slot tube formed in a cylindrical shape is made of conventional Teflon or synthetic vinyl, it is difficult to replace the thermocouple fitted inside the slot tube due to the problem of shrinkage or deformation due to heat conduction through the hole. It protects the thermocouple from damage and breakage caused by external factors by improving the problems that have not occurred, and makes it easy to replace the thermocouple when replacing the thermocouple due to damage, breakage, or malfunction of the thermocouple. It is easy to wind up due to its flexible characteristics during movement and storage, and it is easy to install because it is easy to return to its original state due to winding deformation between installation after winding. It relates to a slot tube in which the thermocouple replacement of the unit for fire monitoring and suppression is easy between inducing and replacing the thermocouple more easily.

In general, coal is used as an operating raw material for generating electricity in thermal power plants, and since a significant amount of coal is consumed in the operation process, continuous supply through storage of raw materials is required for continuity of operation for electricity production. Therefore, fossil fuels such as coal are stored in yards, closed storage, or separate silos.

Normally, the coal silo is a storage part in the final stage for supplying fuel in operation for thermal power generation, and is formed of a cylindrical storage part and a hopper-type discharge part so that the coal required for operation can be quickly discharged as needed. do. This type of silo storage is used for storing grains or various powders in addition to the part for storing coal of thermal power generation, and in particular, in the case of coal silo, a large amount of coal for thermal power generation can be stored and discharged. Because it has to have a function, it is being manufactured on a fairly large scale.

However, coal is a combustible material, and when the constituent molecules of coal adsorb oxygen in the air, an exothermic oxidation reaction occurs in a part of the locally stored coal. If oxygen is continuously supplied along with the increase in the internal temperature of the coal stored in the silo, the exothermic oxidation reaction is gradually accelerated, and there is a high possibility of exposure to the risk of fire due to spontaneous combustion inside the silo.

Since the causes and influencing factors of such spontaneous combustion are very complex, it is not easy to prevent them in advance. It may cause equipment loss, and above all, it may cause problems in the continuity of operation for thermal power generation.

In addition, since coal is a porous material, it has a large amount of oxygen adsorbed per unit weight, which is advantageous for oxidation reactions, while its low thermal conductivity makes it difficult to release heat once heat is generated. If not released, it can also cause a gas explosion. That is, spontaneous ignition in the silo where coal is stored may induce dust explosion, so fire monitoring in the silo by spontaneous ignition is the most important part.

In order to prevent spontaneous ignition through such fire monitoring, Spontaneous Ignition Temperature (SIT) is the most widely used characteristic value for estimating the possibility of spontaneous ignition, which is the lowest temperature that can cause spontaneous ignition.

Here, the autoignition temperature is not a material coefficient, it can be determined by experimentation, and is affected by various factors. In detail, the auto-ignition temperature includes the shape and size of the storage file (surface area to volume, height, compression degree, etc.), the type and quality of coal (carbon content, volatile matter, carbonization period, etc.), and the physical and chemical properties of the coal (chemical composition). , calorific value, thermal conductivity, particle distribution, moisture content, packing density, etc.), air flow, climatic conditions (humidity, temperature, etc.), storage period, etc. Silver ignites at a high temperature of about 600°C, but when it is deposited and piled up, it spontaneously ignites at a low temperature of about 200°C.

In addition, even in the case of accumulated dust, there is a characteristic that the ignition temperature is rapidly lowered as the deposited layer of the dust is thicker. That is, the spontaneous ignition temperature changes according to the amount (height) of the coal stored in the coal silo, and there is a high possibility that the spontaneous ignition occurs due to the frictional pressure between the coals stored in the silo.

Among these coals, anthracite has little chance of spontaneous combustion, bituminous coal has a high probability of spontaneous ignition during long-term storage, and bituminous coal is most likely to spontaneously ignite. Therefore, the loading height of coal is not limited in the case of low volatile matter coal, and in the case of volatile coal (15-40%), the maximum loading height is 8m. When the temperature of the loaded coal increases by 10℃, the oxidation reactivity is doubled and the reaction rate rises by more than 50%, so more caution is required in summer.

Spontaneous ignition as described above mostly occurs in a closed storage shed stored in the form of a silo or a silo rather than in a silo, but caution is required because it does not occur in the silo. That is, the coal stored in the silo has a possibility of spontaneous ignition even under the above conditions, but there is a risk of spontaneous ignition due to the temperature increase due to friction in the process of discharging through the hopper under the silo, and the inside of the closed silo due to the seasonal temperature increase. The risk of spontaneous ignition due to the increase in temperature is emerging as a bigger problem. Therefore, in order to prevent spontaneous ignition of the coal silo in advance, it is necessary to continuously monitor the temperature inside the coal silo instead of being able to observe it through an additional device such as an infrared camera such as a yard or a storage shed.

According to the height of the silo, a temperature measuring device in which a number of thermocouples are combined is installed inside the silo according to the height of the silo, and the temperature inside the silo corresponding to each point of the installed thermocouple is detected. It is used to prevent fires caused by spontaneous ignition.

However, since the thermocouples for temperature measurement as described above are installed in a silo and are installed as a single unit depending on the depth or height to measure the temperature, the thermocouple for measuring any one temperature in the entire unit is If a measurement error occurs due to damage or malfunction, there is a cumbersome problem that the whole must be replaced or repaired through inspection after the whole is lifted from the silo for partial repair. The exposed vulnerabilities and repair or replacement process take a considerable amount of time, and there is a difficulty in maintenance due to the necessity and cost of skilled manpower.

Moreover, since the thermocouple for monitoring the fire by measuring the temperature inside the conventional silo simply performs the role of measuring only the temperature, the problem is that there is no other way to suppress the spontaneous ignition after it has already progressed. In case of a fire, it is necessary to extinguish the fire by rapidly discharging the coal inside the silo, resulting in loss of raw materials and damage to the silo equipment. Therefore, there is a problem in that additional equipment costs are generated as a separate fire extinguishing facility or fire extinguishing device must be provided for extinguishing a fire.

In addition, as mentioned briefly above, when a fire occurs, a fire occurs inside the stored coal due to the nature of the silo, and there is a problem that rapid fire suppression is difficult because it is difficult to extinguish the fire. There is a need for a configuration in which fire suppression can be performed simultaneously.

In line with this situation, the applicant's Republic of Korea Patent Registration No. 10-1764151, a thermocouple replacement type, was achieved through a unit for fire monitoring and suppression, and is currently being disclosed. The registered patent of the present applicant configures a slot tube such that a plurality of thermocouples are inserted and coupled along the circumference of a wire rope to measure the temperature inside the silo, and after disposing the extinguishing solution tube between the slot tubes, the slot tube is used as a fixed tube. It is configured to be inserted and coupled to the housing tube after being wrapped and fixed with a fixing tube so that the and extinguishing fluid tube is bundled together. The housing tube, which is located inside the coal stored in the silo, measures the temperature of a number of points on a vertical line inside the coal and, according to the measured result, checks and suppresses the possibility of spontaneous ignition of the internal temperature of the coal in advance. it will be composed

However, the thermocouple replacement type unit for fire monitoring and suppression has the following problems. First, there is a problem that the end of the slot tube deviates from the part to be located inside the housing tube due to the slip property between the slot tubes during insertion or after the insertion process or after insertion into the coal of the silo, and this causes the A problem arises in that the thermocouple cannot detect the temperature value of a specific location inside the coal to be measured. In addition, in addition to the slip property of the slot tube, the position of the thermocouple is changed due to the slip of the extinguishing liquid tube for fire suppression or the slip of the fixed tube in the housing tube. The problem of selecting the correct position of the suppression position arises.

In addition, in the second case, when the coal contained in the silo is to be discharged to the place of use, when the coal starts to be discharged to the lower side of the silo, it is configured as the outermost of the unit for fire monitoring and suppression between the thermocouple replacement type and is in direct contact with the coal. A strong tensile force is generated along with the coal discharge to the housing tube, and accordingly, the housing tube is peeled off from the entire unit and there is a problem in that the position is changed.

That is, when the coal is discharged from the inside of the silo to the lower side, the unit for fire monitoring and suppression between the thermocouple replacement type in the inside of the coal tries to maintain it in place through the ring formed at the top of the wire rope, and the coal around the entire unit Due to the action of moving downward according to the downward discharge through the silver, a tensile force is generated in the outermost housing tube according to the discharge flow rate according to the discharge of coal. The coupling alone has a limit to withstand the downward tensile force caused by coal discharge, and when the limit is exceeded, the housing tube is separated from the entire unit or the position is changed. In addition, when the coupling force between the housing tube and the fixing tube is strong and the coupling with the slot tube is weak, the housing tube and the fixing tube are simultaneously separated or the position is changed due to the generation of downward tensile force due to the coal discharge, so that the remaining components of the slot tube, etc. There was a problem in that an error in the measured value was generated by exposure to the inside of the coal.

In particular, such a downward tensile force occurs frequently because the coal is not stored as it is in the silo, and there is a need to strengthen the fixing force or bonding force of the entire unit. However. Although the above-mentioned registered patent of the present applicant, the thermocouple replacement type silo fire monitoring and suppression unit has an excellent effect on the reliability of the temperature measurement of the coal accommodated in the silo and the monitoring and suppression of the fire, the coal accommodated in the silo The downward tensile force caused by the frequent discharge of gas is not taken into account, so there is a problem of movement or separation of the housing tube, and there is a concern that the reliability of temperature measurement may be lost due to this.

Furthermore, thirdly, the deformation of the housing tube, the fixed tube, the slot tube, and the extinguishing liquid tube is often generated due to the considerable temperature inside the coal, and this causes difficulties in the ease of replacement of the thermocouple. am. That is, the housing tube, fixed tube, and extinguishing fluid tube do not need to change their configuration even if they are thermally deformed, but the slot tube requires replacement of the thermocouple. A problem arises that the couple cannot be separated from the slot tube. Accordingly, in order to replace the thermocouple, the entire unit must be separated from the silo to replace the thermocouple, which may cause a problem due to the void in the silo fire monitoring. Therefore, if the straightness of the slot tube cannot be maintained, it is virtually impossible to replace the thermocouple when fixing or repairing the thermocouple is required, and even has a problem that it must be discarded as it is.

That is, as described above, a change in the position of the slot tube or the fixed tube and thermal deformation due to a problem in which the heat resistance is lowered causes a measurement error and a problem in that the ease of replacement is lowered.

1. Republic of Korea Public Utility Model No. 20-2009-0008771, published on September 1, 2009. 2. Republic of Korea Patent No. 10-1764151, registration date July 27, 2017.

Therefore, the present invention was created to solve the above-described problems, and due to thermal deformation of the slot tube according to the vulnerability of the heat source of the conventional Teflon and synthetic vinyl materials in which the thermocouples of the fire monitoring and suppression unit are fitted between them. The problem that the thermocouple cannot be separated from the slot tube due to the shrinkage and deformation of the slot tube is solved by securing strong heat resistance to the heat of the slot tube. As this does not occur, the entire or partial replacement of the thermocouple due to malfunction, damage, or breakage of the thermocouple installed inside the silo is easily made. It is an object of the present invention to provide a slot tube that is easy to replace the thermocouple of the fire monitoring and suppression unit while minimizing the gap in the fire monitoring.

In addition, the present invention forms a flexible configuration that can be wound so as to minimize the restriction of the place in the process arrangement for storage and manufacturing of the slot tube for forming the slot tube configuration in the manufacturing process of the silo fire monitoring and suppression unit. Thus, it is possible to store and arrange the process in the wound state, and even if the slot tube in the wound state for the manufacture of the fire monitoring and suppression unit is spread out so that the thermocouple is fitted in the fire monitoring and suppression unit, the straightness is improved. Another object of the present invention is to provide a slot tube in which the thermocouple replacement of the fire monitoring and suppression unit is easy between the return to the maintainable state and the fitting installation of the thermocouple.

In order to achieve this object, the slot tube for easy replacement of the thermocouple of the silo fire monitoring and suppression unit according to the present invention is a plurality of thermocouples having different lengths ( 10) is formed long in the longitudinal direction, and at least one injection hole 21 is formed through the outer periphery of the hollow cylindrical shape, and the insulated housing tube 20 and the contents stored therein are discharged to the lower part. The housing tube is pulled downward by the lower tensile force generated during the operation, and a wire rope (30) coupled from the upper center to the lower center inside the housing tube to prevent the position change of the measurement point or the separation, breakage and damage of the housing tube. ) and a slot tube ( 40) and a fire extinguishing liquid supplied from the outside to spray the fire extinguishing liquid through the injection hole of the housing tube to enable initial suppression in case of fire At least one fire extinguishing fluid tube 51 is formed in communication with the injection hole 21 along the length, is connected to the end of the extinguishing fluid tube, is coupled to the inside corresponding to the injection hole of the housing tube, and the extinguishing fluid tube is formed from the outside At least one fire extinguishing unit 50 formed along the outer periphery of the wire rope provided with an injection nozzle 52 so that the extinguishing liquid supplied through the fire extinguishing liquid is injected through the injection hole, and the slot tube and the fire extinguishing unit In the slot tube of the unit for fire monitoring and suppression between the thermocouple replacement type formed by the fixing tube 60, which is provided to be fixed together in the housing tube and is formed to correspond to the length of the inner side of the housing tube, the slot tube 40 can be maintained in its original state without heat shrinkage or thermal deformation at the internal temperature between the heat or coal caused by fire, and It is characterized in that the flexible tension guide part 100 of a flexible configuration is continuously formed so as to maintain a straightness when it is unfolded while being able to wind to minimize the restriction of the place on the regular arrangement.

Here, the flexible tension guide part 100 is characterized in that it is formed of any one of spring steel or shape memory alloy.

On the other hand, the slot tube is a flexible tension guide portion 100 formed in a spiral form capable of free deformation and return from the upper end of the thermocouple to the upper end point where the measurement point is formed; The flexible tension guide part 100 is formed integrally with the lower side, and the protective guide part 200 formed in a cylindrical shape with an easy lower closing so that the end where the measuring point of the thermocouple is formed is easily positioned. It is characterized in that, in the slot tube, the spiral flexible tension guide part 100 and the cylindrical protective guide part 200 are repeatedly formed along the outer periphery of the bottom side where the measuring point is formed from the upper end of the thermocouple. .

The present invention relates to the thermocouple from the slot tube of the thermocouple due to the shrinkage and deformation of the slot tube due to the thermal deformation of the slot tube according to the fragility of the heat source of the conventional Teflon and synthetic vinyl material in which the thermocouple of the fire monitoring and suppression unit is fitted through the silo. By securing the heat resistance of the slot tube, the problem that makes it impossible to separate is not thermally deformed, so it is possible to maintain straightness, so there is no loss of straightness due to thermal deformation, malfunctioning and damage to the thermocouple installed inside the silo Full and partial replacement of the thermocouple according to There is an effect to minimize the monitoring gap, and the winding is possible to minimize the restrictions of the place in the process arrangement for storage and manufacturing of the slot tube to form the slot tube configuration in the manufacturing process of the fire monitoring and suppression unit. By forming a flexible configuration as possible, it is possible to store and arrange the process in the wound state, and the thermocouple is fitted to the fire monitoring and suppression unit through the wound tube for the manufacture of the fire monitoring and suppression unit. Even if it is spread out as much as possible, it is returned to a state in which straightness can be maintained, so that the fitting and installation of the thermocouple can be easily accomplished.

1 is an overall perspective view of the installation of the slot tube, which is easy to replace the thermocouple of the unit for fire monitoring and suppression as a silo according to the present invention.
Figure 2 is an overall flat cross-sectional view of the slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression as a silo according to the present invention.
Figure 3 is a side cross-sectional view of the main part of the slot tube for easy replacement of the thermocouple of the fire monitoring and suppression unit between the silo according to the present invention.
Figure 4 is a perspective view of the main part of the slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression of the silo according to the present invention.
5 is an exploded perspective view of the main part of the slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression between the silo according to the present invention.
6 is a perspective view showing another embodiment of the slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression between the silo according to the present invention.
7 is a perspective view showing another embodiment of the slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression between the silo according to the present invention.

Advantages and features of the present invention, and methods for achieving them, will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a number of different forms.

In the present specification, the present embodiment is provided to complete the disclosure of the present invention, and to completely inform those of ordinary skill in the art to which the present invention pertains to the scope of the present invention. And the invention is only defined by the scope of the claims. Accordingly, in some embodiments, well-known components, well-known operations, and well-known techniques have not been specifically described in order to avoid obscuring the present invention.

Like reference numerals refer to like elements throughout. In addition, the terms used (mentioned) herein are for the purpose of describing the embodiments and are not intended to limit the present invention. As used herein, the singular also includes the plural unless specifically stated otherwise in the phrase. In addition, elements and operations referred to as 'include (or include)' do not exclude the presence or addition of one or more other elements and operations.

Unless otherwise defined, all terms (including technical and scientific terms) used herein may be used with the meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. Also, terms defined in commonly used dictionary are not to be interpreted ideally or excessively unless defined.

Hereinafter, with reference to the accompanying drawings will be described in detail the technical features according to the embodiment of the slot tube for easy replacement of the thermocouple of the fire monitoring and suppression unit according to the present invention.

1 is a perspective view of the entire installation of a slot tube for easy replacement of a thermocouple of a silo fire monitoring and suppression unit according to the present invention, and FIG. 2 is a thermocouple replacement of a silo fire monitoring and suppression unit according to the present invention. 3 is a cross-sectional side view of the main part of the slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression of the silo according to the present invention, and FIG. 4 is a silo for fire monitoring and suppression according to the present invention It is a perspective view of the main part of the slot tube for easy replacement of the thermocouple of the unit, Figure 5 is an exploded perspective view of the main part of the slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression according to the present invention, Figure 6 is in the present invention A perspective view showing another embodiment of a slot tube for easy replacement of the thermocouple of the silo fire monitoring and suppression unit, FIG. 7 is a slot tube for easy replacement of the thermocouple of the silo fire monitoring and suppression unit according to the present invention It is a perspective view showing another embodiment of the.

The slot tube, which is easy to replace the thermocouple of the silo fire monitoring and suppression unit according to the present invention, is responsible only for monitoring the silo fire through the conventional multi-type thermocouple, and when a malfunction or damage occurs, the whole is replaced or the whole is lifted. The fire between the thermocouple replacement type, which is the inventor's invention patent, formed to solve the problem of exposing the vulnerability of fire monitoring and increasing the replacement time and cost of the thermocouple through the difficulty of a series of processes of repairing and reinstalling the part As a solution to the problem of the monitoring and suppression unit, the thermocouple replacement type silo fire monitoring and suppression unit, which is the inventor's invention patent, measures the distance difference according to the depth or height to measure the internal temperature of the coal accommodated in the silo. A plurality of thermocouples are connected to a plurality of slot tubes placed up to the point where the slot tube inside the coal is located, and the temperature is measured.

That is, as the pipe-shaped slot tube formed long in the longitudinal direction is formed long to the measurement position inside the coal for the thermocouple to measure, the temperature of the specific position inside the coal by the thermocouple is easily adjusted by just fitting the thermocouple. It is configured to be measurable and fire extinguishing is possible by spraying the extinguishing fluid through the extinguishing fluid tube when the measured temperature exceeds the standard value or a fire occurs.

Among these thermocouple replacement types, the fire monitoring and suppression unit has a number of slot tubes and extinguishing fluid tubes arranged along the outer periphery of the wire rope, and the fixing tube is wrapped around the slot tube and the extinguishing fluid tube outside, and the fixing tube is outside. The housing tube takes the form wrapped around it. Here, the slot tube is made of cylindrical Teflon or synthetic vinyl so that the thermocouple is fitted, and the digestive fluid tube is also made of the same or similar material as the slot tube. The extinguishing fluid tube is configured to move the extinguishing fluid to the injection position for extinguishing the fire. Accordingly, such a conventional unit for monitoring and suppressing a silo fire is configured to enable rapid fire monitoring and suppression in the event of a fire in the silo.

However, as mentioned above, the slot tube of the conventional silo fire monitoring and suppression unit is formed in a cylindrical shape with Teflon or synthetic vinyl material, thereby securing an internal space where the thermocouple can be fitted and replacing it. In the case of a silo containing coal, as the temperature rises to a fairly high temperature, the slot tube made of Teflon or synthetic vinyl material, which is vulnerable to heat, has a problem of heat shrinkage or heat deformation. Despite the fact that replacement due to damage or malfunction should be easy, the thermocouple cannot be separated from the slot tube. After that, there is a problem of having to reinstall it.

It is impossible to replace the thermocouple at an appropriate time, which is generated due to the heat shrinkage and thermal deformation of the slot tube. After reinstalling the couple again, there is a problem in that the continuity of fire monitoring is deteriorated due to the occurrence of a gap in the fire monitoring due to the inconvenience of having to install it again in the silo.

On the other hand, in addition to the slot tube, it is preferable to configure only the slot tube so that heat deformation or heat shrinkage does not occur because there is no significant problem in injecting the liquid extinguishing liquid even if the fire extinguishing liquid tube is subjected to heat deformation or heat shrinkage. Therefore, the present invention configures the conventional slot tube made of Teflon or synthetic vinyl material through a material that does not undergo heat shrinkage and heat deformation at random, so that separation and fitting according to the replacement of the thermocouple is easy, and the slot tube In the process of storage and manufacturing of the slot tube to form the slot tube configuration in the manufacturing process of the repair or silo fire monitoring and suppression unit, the flexible configuration that can be wound is formed so as to minimize the restriction of the place. It is possible to arrange the process in a stored and wound state, and to maintain straightness even if the slot tube in the wound state for manufacturing the fire monitoring and suppression unit is spread so that the thermocouple is fitted between the fire monitoring and suppression unit. It is configured to return to the existing state so that the fitting and installation of the thermocouple can be easily performed.

In other words, it is basically equipped with heat resistance according to the temperature of the coal inside the silo, but if the temperature is continuously increased or maintained excessively, the slot tube or the rest of the components are thermally deformed, and the slot tube is used for replacement or repair of the thermocouple. Since it is difficult to disassemble the thermocouple from the thermocouple, the economic burden of replacing the whole is aggravated.

Therefore, the slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression according to the present invention is the heat resistance of the slot tube, which is the above-mentioned problem of the unit for fire monitoring and suppression between the thermocouple replacement type, which is the inventor's patent of the present invention. Prevents heat shrinkage and thermal deformation due to shortage to ensure the ease of replacement of the whole or part of the thermocouple due to breakage, damage, or malfunction. and to reduce maintenance costs.

Accordingly, the slot tube for easy replacement of the thermocouple of the silo fire monitoring and suppression unit according to the present invention includes the configuration patented by the present applicant as it is, and as shown in FIGS. 1 and 2, the silo from upper to lower A plurality of thermocouples 10 having different mutual lengths in order to measure the temperature of the section leading to The insulating housing tube 20 and the housing tube are pulled downward by the lower tensile force generated when the contents stored inside the silo are discharged to the lower side to prevent the position change of the measurement point or the separation, breakage and damage of the housing tube. Corresponding to the number of the thermocouples installed according to the number of sections to measure the temperature between the wire rope 30 coupled from the upper center to the lower center inside the housing tube to prevent it, and the number of sections to measure the temperature between the wire rope along the outer periphery of the wire rope The slot tube 40 is formed so that the thermocouple is easily attached and detached, and the extinguishing liquid is supplied through the injection hole of the housing tube so that the fire extinguishing liquid is supplied from the outside to enable initial suppression in the event of a fire. At least one fire extinguishing liquid tube 51 is provided in communication with the injection hole 21 along the length from the upper end to the lower end inside the housing tube 20 by receiving the fire extinguishing liquid from the outside, and is connected to the end of the fire extinguishing liquid tube and is connected to the housing. At least one is formed along the outer periphery of the wire rope coupled to the inner side corresponding to the injection hole of the tube and provided with the injection nozzle 52 so that the extinguishing liquid supplied through the extinguishing liquid tube from the outside is injected through the injection hole. Applicant's invention patent formed of a fire extinguishing unit 50 which becomes In the thermocouple replacement type, the slot tube 40 of the unit for fire monitoring and suppression is heated due to the fire or the internal temperature between the coals. 1 to 5 so that it can be maintained in its original state without heat shrinkage and thermal deformation in the The flexible tension guide part 100 of the black configuration is configured to be continuously formed so that the thermocouple is fitted along the inner periphery of the flexible tension guide part along the axial line in a form wrapped around the outer periphery of the thermocouple.

Here, the slot tube 40 is, as mentioned above, a conventional Teflon and synthetic vinyl material due to the weakness of heat shrinkage and thermal deformation in a random direction due to heat. It is an improved form, and it is strong against a heat source, so there is no heat shrinkage and thermal deformation in the random direction, and the slot tube is adhered to the thermocouple due to the shrinkage of the slot tube and the thermal deformation in the random direction deviating from the axis due to heat shrinkage and thermal deformation in the random direction. By solving the problem that the thermocouple is stuck or adhered and cannot be separated, replacement due to damage, breakage, or malfunction of the thermocouple can be easily made, so that maintenance can be performed easily, and maintenance costs can be reduced accordingly. In other words, it is possible to reduce the economic burden of repairing and replacing the slot tube by separating the entire silo fire monitoring and suppression unit from the silo due to the impossibility of replacing the thermocouple. It is possible to provide a fire monitoring and suppression unit while monitoring is possible.

Here, the slot tube is deformable so that it can be wound so as to minimize the restriction of the place in order to configure the fire monitoring and suppression unit as the role of the slot tube during storage and manufacturing, while maintaining the straightness on the axis when configuring the slot cube. A spiral flexible tension guide part 100 is formed so that it can be returned to be able to return, and is formed in a shape surrounding the outer periphery from the temperature measurement point at the end of the thermocouple to the upper side. The slot tube composed of the flexible tension guide part 100 as described above is provided to facilitate insertion and separation of the thermocouple on the inner periphery, and is configured so that thermal expansion is axially deformed, and thermal contraction itself can also be axially contracted. Therefore, it is easy to replace the thermocouple by preventing the slot tube from sticking to the thermocouple or from close contact due to forced coupling.

That is, in the prior art, when the thermocouple is coupled in the tube of the slot tube of the Teflon and synthetic vinyl pine material of the silo fire monitoring and suppression unit, heat is conducted to the slot tube. As the deformation occurred, the slot tube was stuck on the outer periphery of the thermocouple or there was a difficulty in replacement due to damage or malfunction of the thermocouple due to the deformation of the straightness on the axis. Since there is a problem, it is possible to solve the above problems through the slot tube formed of the spiral flexible tension guide 100 .

The slot tube 40 of the fire monitoring and suppression unit is formed by the spiral flexible tension guide 100 as described above, and the metal with excellent recovery ability, such as spring steel or shape memory alloy, is spirally formed along the outer periphery of the thermocouple. By configuring it, there is no deformation due to heat, and even if it expands and contracts due to heat, it returns to its original state, thereby ensuring the reliability of temperature measurement of the thermocouple. In addition, there is no irregular deformation due to heat shrinkage and thermal deformation, so it is easy to separate and insert from the thermocouple protection tube, so it can be used more economically by replacing only the malfunctioning or damaged thermocouple without replacing the entire thermocouple. In the state where the entire couple is installed, measurement errors can be corrected only by replacing the thermoelectric wire, so the gap in fire monitoring is minimized. It can be coupled to the position of the couple, so that the convenience of installation can be secured.

As described above, the slot tube 40 may consist of the entire spiral flexible tension guide unit 100, but as shown in FIG. 6, the spiral flexible tension guide unit 100 and The thermocouple due to thermal expansion of the rest of the thermocouple while securing the reliability of the measurement data by minimizing the shrinkage and expansion due to thermal deformation of the part with the measuring point located at the end of the thermocouple by configuring the cylindrical protective guide part 200 It is also preferable to form the flexible tension guide part in parallel with the heat shrinkage and heat deformation on the axis while the close coupling with the protective tube and the straightness deformation of the slot tube are prevented. As such, in a form in which the flexible tension guide part and the protective guide part are in parallel, the flexible tension guide part 100 has a spiral shape that can be freely deformed and returned to its original state from the upper end of the thermocouple to the outer periphery of the thermocouple on the upper end of the end where the measurement point is formed. is formed

As mentioned above, the helical flexible tension guide part of the thermocouple is in close contact with the thermocouple by thermal deformation spaced apart from the axial straightness, which is the random direction thermal deformation of the slot tube, and prevents the thermocouple from being fixed. In the case of replacement due to damage or malfunction of the tube, it is to be easily separated from the slot tube and to be easily inserted. In addition, the spiral flexible tension guide part 100 has enough expansion space depending on the pitch of the spiral even if the heat is conducted and expanded, so there is no change in the measurement point of the thermocouple due to thermal deformation, so the reliability of the measurement value can be secured. .

On the other hand, the protective guide part 200 is integrally formed with the lower side of the flexible tension guide part 100 while protecting the measuring point formed at the end of the thermocouple, and the end where the measuring point of the thermocouple is formed is easy to place. It is formed in a cylindrical shape for easy lower closing. In addition, as the protective guide part 200 is formed in a cylindrical shape, the flexible tension guide part 100 is pressed in the manufacturing process of the fire monitoring and suppression unit in between, and the axis is deformed. to allow it to be assembled.

Furthermore, as shown in FIG. 7 , the slot tube 40 includes the spiral flexible tension guide part 100 and the cylindrical protective guide part 200 from the thermocouple upper end outer periphery to the lower end outer periphery. It is also preferable that it is formed repeatedly. In constituting the slot tube 40, when moving or storing, when manufacturing a fire monitoring and suppression unit between, it is stored or moved rolled up on a bobbin in order to minimize the restriction of the place. At this time, the spiral flexible tension The guide part 100 corresponds to a curled curvature part and is configured so that the protective guide part 200 is smoothly wound in the form of being rolled on a bobbin.

As described above, the flexible tension guide part 100 is preferably formed of either spring steel or a shape memory alloy. When formed with spring steel, the central axis line with the thermocouple is changed on the same vertical line so that the thermocouple is correctly inserted and coupled while the flexible tension guide part 100 formed in a spiral is unfolded by the elastic force of the spring steel and maintained on the vertical axis. It can be positioned on the same vertical line as it unfolds smoothly. In addition, in the case of a shape memory alloy, it is easy to spread and combine in the same vertical line as the central axis of the thermocouple by maintaining the straightness when the wound part is unfolded by configuring to memorize the straightness.

For example, if the slot tube composed of the flexible tension guide part or the protective guide part of the present invention that is wound uses a copper tube made of a hard material that does not return to its original state, the copper tube is coupled to a vertical line on the same central axis as the thermocouple. This is because a process is required to form the part that is curled and deformed due to winding into a straight line, which causes a problem in that it takes a considerable amount of time to replace the thermocouple. Therefore, as described above, the flexible tension guide portion of the slot tube is preferably configured by selecting a material capable of restoring the shape of a straight line, such as spring steel or a shape memory alloy.

The slot tube, which is easy to replace the thermocouple of the fire monitoring and suppression unit of the present invention according to the above configuration, is formed to detect and monitor the occurrence of a fire by measuring the internal temperature between the thermocouples and coal, If the thermocouple needs to be replaced due to damage, breakage, or malfunction of the thermocouple, it can be replaced more quickly and quickly, minimizing the gap between fire monitoring and detection, and after replacement to adjust the position of the thermocouple, a follow-up process is required. It is possible to measure reliable temperature measurement values in situ without replacement and coupling.

In this way, in order to facilitate replacement of the thermocouple, the slot tube configured so that the thermocouple of the silo fire monitoring and suppression unit according to the present invention is interchangeably coupled is the outer periphery of the thermocouple from the end measuring point of the thermocouple to the upper side. to be wound and coupled by the spiral flexible tension guide part 100 .

Here, as shown in FIG. 3 , the flexible tension guide part 100 acts on the vertical vertical line of the thermocouple protection tube rather than the random expansion even when it expands according to the temperature generated inside the coal silo. Directional expansion or contraction and the contact area with the thermocouple protection tube is minimized, and the frictional force with the thermocouple is minimized, so that separation and replacement from the slot tube can be made easily. Furthermore, even if the slot tube formed in the remaining part except for the outer periphery of the measuring point formed at the distal end of the thermocouple is thermally expanded, the limited expansion due to the inner periphery diameter of the spiral flexible tension guide part 100 is conventional Teflon or synthetic vinyl. It is possible to solve the problem of difficult separation of the thermocouple due to the tight coupling with the thermocouple due to the deformation of the slot tube deviating from the central axis due to the thermal contraction of the slot tube of the material and the random thermal deformation.

On the other hand, since the flexible tension guide part 100 forming the slot tube is made of spring steel or shape memory alloy, it is possible to return to its original state even if it is thermally deformed. Because the position of the measuring point of the thermocouple does not change due to deformation in a random direction due to shrinkage or distortion due to heat, reliability of the measured temperature value can be secured. That is, as described above, the position of the measuring point of the thermoelectric wire is changed because only the vertical deformation is made by the spiral flexible tension guide part 100 and there is no occurrence of shrinkage deformation or distortion deformation in the random direction. This is because, even when a new thermocouple is replaced, there is no need for a process for setting a separate position, and it is possible to combine the thermocouple in the correct position only by replacing it.

Furthermore, as shown in FIG. 6 mentioned above, a protective guide part ( 200), the measurement point of the thermoelectric wire is biased to one side by the protective guide part 200 to prevent malfunction of the temperature measurement, thereby further improving the reliability of the measurement value.

As shown in FIG. 7 , the protective guide part 200 and the flexible tension guide part 100 are repeatedly formed to deform the flexible tension guide part 100 during movement or storage, so that a bobbin or a separate winding is made. It can be rolled up on a tool, and after being wound, it can be returned to its original shape in a straight line again when used. Without a molding process to form a straightness, it can be used immediately after being spread to maintain a straightness.

Therefore, the slot tube 40 for replacing the thermocouple of the silo fire monitoring and suppression unit according to the present invention is composed of any one of spring steel or shape memory alloy without heat shrinkage and heat deformation, and heat shrinkage and heat deformation. It consists of a flexible tension guide part 100 having a direction of contraction and deformation in the direction on this axis, so that the thermocouple slides along the inner periphery of the flexible tension guide part 100 and separates and combines with a tolerance to fit. By making this easy, it can be achieved.

After that, if there is a need for replacement due to damage, breakage, or malfunction of the thermocouple, it is installed in the position corresponding to the temperature measurement point inside the coal silo by the wire rope of the silo fire monitoring and suppression unit. By separating only the thermocouple from the slot tube to which the thermocouple is fitted, it is possible to replace all or part of it.

Accordingly, for the replacement of the conventional thermocouple, the economic loss due to the vacancy of the fire monitoring due to the additional process for resetting the position of the measuring point of the thermocouple due to the replacement of the entire fire monitoring and suppression unit between the silo and the economic loss due to the interstitial operation is prevented. As it is possible, there is no need to re-correct the position of the measuring point of the thermocouple, just replacing the thermocouple that is replaced in the slot tube. The gap between fire monitoring and detection can be minimized because it can be replaced quickly and easily without the need for the installation process to match the internal temperature measurement position between the coals.

That is, the present invention forms a metal spiral slot tube that minimizes heat shrinkage and thermal deformation of a slot tube that is easy to replace the thermocouple of the silo fire monitoring and suppression unit, thereby minimizing the measurement error of the thermocouple due to strengthening heat resistance and As the heat deformation of the slot tube is prevented, it is possible to quickly extinguish the initial fire by securing the ease of replacement and partial replacement of the thermocouple and the normal and fast supply of the extinguishing fluid in the extinguishing fluid tube, ensuring safety according to the fire and improving the efficiency of operation. that can be increased

In the above, the present invention has been described in detail as one embodiment, but the scope of the present invention is not limited thereto, and it is clear that many variations and modifications are possible by those skilled in the art within the scope of the technical idea, Examples and practical equivalents will be included.

10: thermocouple 20: housing tube
21: injection hole 30: wire rope
40: slot tube 50: fire extinguishing unit
51: digestive fluid tube 60: fixed tube
100: flexible tension guide part 200: protective guide part

Claims (4)

In order to measure the temperature of the section from the upper part to the lower part between the plurality of thermocouples 10 having different lengths, and at least one injection hole 21 on the outer periphery in a cylindrical shape elongated in the longitudinal direction and having a hollow formed therein. The housing tube 20 is formed through and is insulated, and the housing tube is pulled downward by the lower tensile force generated when the contents stored inside the silo are discharged to the lower side, thereby changing the position of the measuring point or separation of the housing tube, The wire rope 30 coupled from the upper center to the lower center inside the housing tube to prevent breakage and damage, and the thermocouple installed according to the number of sections to measure the temperature between the wire rope and the outer periphery The slot tube 40 is formed to correspond to the number of , and the thermocouple is easily attached and detached, and the fire extinguishing liquid is supplied through the injection hole of the housing tube to enable initial suppression in the event of a fire by receiving the extinguishing liquid from the outside. at least one fire extinguishing liquid tube 51 is provided to be supplied with the extinguishing liquid from the outside, and at least one fire extinguishing liquid tube 51 communicates with the injection hole 21 along the length from the upper end to the lower end of the housing tube 20, and is connected to the end of the fire extinguishing liquid tube along the outer periphery of the wire rope, which is coupled to the inner side corresponding to the injection hole of the housing tube and provided with the injection nozzle 52 so that the extinguishing liquid supplied through the extinguishing liquid tube from the outside is injected through the injection hole A thermostat formed of at least one fire extinguishing unit 50 and a fixing tube 60 that is provided to be fixed together with the slot tube and the fire extinguisher to the wire rope, is formed to correspond to the length of the inner side of the housing tube and is coupled In the slot tube of the unit for fire monitoring and suppression between the couple replacement type,
The slot tube 40 can be maintained in its original state without heat shrinkage or thermal deformation at the internal temperature between heat or coal caused by a fire, and can be wound to minimize restrictions on storage and process arrangement while being straight when unfolded. Slot tube for easy replacement of thermocouples for fire monitoring and suppression units in a silo, characterized in that the flexible tension guide part 100 of a flexible configuration is continuously formed to maintain the degree.
The method of claim 1,
The flexible tension guide part 100 is a slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression, characterized in that it is formed of any one of spring steel or shape memory alloy.
The method of claim 1,
The slot tube includes a flexible tension guide part 100 formed in a spiral shape that can be freely deformed and returned to its original state from the upper end of the thermocouple to the upper end point where the measurement point is formed;
The flexible tension guide part 100 is integrally formed with the lower side, and the protective guide part 200 is formed in a cylindrical shape with an easy lower closing so that the end at which the measuring point of the thermocouple is formed is easily positioned. A slot tube for easy replacement of the thermocouple of the unit for fire monitoring and suppression.
4. The method of claim 3,
In the slot tube, the spiral flexible tension guide part 100 and the cylindrical protective guide part 200 are repeatedly formed along the outer periphery of the bottom side where the measurement point is formed from the upper end of the thermocouple. Fire monitoring and Slot tube for easy replacement of the thermocouple of the suppression unit.

Images