JP2004061030A - Loading device for bulk watergel or the like - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a loading device with favorable workability for loading a bulk watergel or its intermediate. <P>SOLUTION: The loading device has at least a supply part, a pump, its driving motor and a loading hose, and it can be fixed to heavy equipment for drilling, a basket for high lift work, or a motor truck. <P>COPYRIGHT: (C)2004,JPO

Description

【図面の簡単な説明】
【図１】油圧モーター又はエアーモーターを正回転及び逆回転させる手段の例を示す説明図である。
【図２】装填用ホースの先端にパイプを取り付ける際、親ダイを載せて発破孔に装填できるように加工したパイプ先端形状、未加工部先端の例を示す説明図である。[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to a device for loading a bulk hydrous explosive or an intermediate thereof used for industrial blasting such as crushed stone, mining, and tunnel excavation using a pump.
[0002]
[Prior art]
Explosive loading methods at blast sites in Japan include manual loading by workers for cartridge type explosives, and manual loading or mechanical loading by ANFO loaders for fluid nitrous acid explosives (hereinafter ANFO). Has been done.
However, the manual operation requires access to the blast hole, which is dangerous and requires a long time for loading. Furthermore, ANFO has poor water resistance and poor reactivity, and has a crushing effect. However, many improvements have been demanded, such as the fact that aftergas is a problem in underground blasting.
[0003]
In response to this, recently, bulk emulsion explosives manufactured as explosives at explosive manufacturing plants have been used at some sites, and because of their fluidity, mechanical loading using a loading device has been carried out. , Labor saving, safety, etc. are being promoted.
Overseas, bulk emulsion explosives are already commonly used, but as an intermediate for bulk emulsion explosives, the emulsion phase (hereinafter referred to as EP), which is not explosive and is simply treated as a dangerous substance in many countries Is manufactured in a factory and mixed with an aqueous foaming agent solution at the blasting site to generate fine bubbles in the EP and sensitize it, and a method for producing a site-mixing bulk emulsion explosive has been developed. Has been done.
[0004]
However, currently used bulk hydro explosives or their intermediate loading devices are large and transported on 2 to 4 ton class trucks. For example, in a tunnel construction site, a drill jumbo is located in front of a face. Also, at the lighting site, the blast hole may be crushed by a lorry, so it is not possible to approach the face, and as a result, the loading hose needs to be 30 m or more, and the drive motor and pump are large. Has become. In addition, since the hose is long, it takes a long time to set up and clean up the winding device when the winding device is installed or not installed.
In addition, although the loading device is provided with an operator for safety in the event of an emergency stop or other abnormalities, the loading device requires a separate operator in addition to the loading operator because it is away from the face. Further, a hopper or a tank for storing a bulk hydrous explosive or an intermediate thereof is installed in the loading device used so far, and during the loading operation, a worker comes to the loading device and the bulk hydroexplosive or the bulk explosive is used. The capacity was designed to be large with at least 300 kg or more so that it was not necessary to replenish the intermediate, and it took a considerable amount of time to discharge the remaining medicines and collect the adhering substances to the hopper or tank wall. . As described above, the conventional loading apparatus is large and expensive, and further has problems such as extra work, work time and an operator.
[0005]
[Problems to be solved by the invention]
SUMMARY OF THE INVENTION An object of the present invention is to provide a loading device that improves workability and reduces extra work, working time, and operators in loading work of bulk hydrous explosives or the like, that is, bulk hydrous explosives or intermediates thereof. It is what it was.
[0006]
[Means for Solving the Problems]
The present inventors have conducted intensive studies to solve the above-mentioned problems, and as a result, it has become possible to attach a device for loading a bulk hydrous explosive or the like to a heavy drilling machine, a basket for working at height, or a specific truck. As a result, they have found that the object of the present invention can be achieved, and have completed the present invention. That is, the present invention relates to the following loading device.
[0007]
1. A loading device for a bulk hydrous explosive or an intermediate thereof having a supply unit, a pump, a drive motor thereof, and a loading hose, comprising a supply unit, a pump, and a drive motor thereof, wherein the supply unit, the pump, and the drive motor include a drilling heavy machine, an aerial work basket, Alternatively, the loading device can be fixed to a truck having a total length of 4 m or less and a total width of 1.6 m or less.
2. The length of the loading hose is 1 to 25 m. The loading device according to claim 1.
3. The supply unit has a mounting unit for mounting a replaceable container capable of storing a bulk hydrous explosive of 10 to 250 kg or an intermediate thereof, and a connecting unit for connecting the container and a pump. 1. ~ 2. The loading device according to any one of the above.
4. The supply section has a connection section for connecting a pump to a hopper or a tank having a capacity capable of accommodating a bulk hydrous explosive of 10 to 250 kg or an intermediate thereof. The loading device according to any one of claims 1 to 3.
[0008]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail focusing on its preferred embodiments.
The bulk water explosive referred to in the present invention is a water explosive such as an emulsion explosive or a slurry explosive, and is a liquid explosive that can be loaded at a consumption site using a pump or the like. In addition, the intermediate is defined as bubbles generated in the intermediate by chemical foaming at the point of consumption, such as EP, for sharpening, or hollow particles such as glass microballoons and resin balloons are added to the intermediate. When it is sensitized, it means that it becomes an explosive, and includes the non-sensitized slurry explosive.
[0009]
The present invention relates to a device for loading a bulk hydrous explosive or the like, comprising at least a supply unit, a pump, a drive motor for the explosive, and a loading hose, and capable of being fixed to a drilling heavy machine, an aerial work basket, or a truck. It is a loading device characterized by doing.
The drilling heavy machine to which the supply unit, the pump, and the drive motor thereof (hereinafter, referred to as a loading pump or the like) of the present invention are fixed are, for example, tunnel drills such as wheel jumbo and rail jumbo, and crawler drills.
[0010]
The high work basket to which the loading pump and the like of the present invention are fixed is a high work basket installed in a jumbo or the like. In addition, for example, at an underground excavation site, when a lorry can approach the face by lowering a heavy machine for piercing such as a jumbo below the face, it is a basket for working at height installed on the lorry.
Further, the truck to which the loading device of the present invention is fixed can be stopped between a jumbo and a tunnel wall or between a jumbo and a tunnel wall at an underground excavation site without lowering a heavy machine for drilling such as a jumbo below a face. It is a truck that can approach the face by passing through and stopping on the face side of the jumbo. As a lorry, a lorry having a total length of 4 m or less and an overall width of 1.6 m or less is preferable, and a light lorry is more preferable, and the loading device is fixed to the carrier. In this case, it is possible to approach the face even at the light spot.
[0011]
In the present invention, any part of the loading device, a heavy machine for punching, a basket for working at height, one integrated with a part of a lorry, using a component having an independent structure as a fixing means, a heavy machine for punching, Fixed to baskets for working at height or trucks. For example, (a) a pedestal to which any or all of the supply unit, the pump, and its drive motor are fixed; and (b) any of the supply unit, the pump, and its drive motor, and the supply unit, the pump, and its drive The pedestal to which one of the motors is fixed is fixed to a heavy machine for drilling, a basket for working at height, or a truck.
[0012]
In the present invention, fixing means that the loading device is not necessarily removed every time the loading is completed, but is not limited to assembly, disassembly, maintenance, or other unavoidable removal, except for heavy drilling machines, baskets for working at heights, or trucks. Say that it is installed.
If a heavy equipment for drilling, a basket for working at height, or a truck with fixed loading equipment is to be kept in a place other than the explosives handling station except during loading work, explosives will be applied to the outside and inside of the loading equipment after the loading work is completed. What is necessary is just to wash so that it may not remain. Washing can be performed using a dedicated cleaning agent to which water, a surfactant, and the like are added.
[0013]
Since the loading device of the present invention is near the face during the loading operation, the length of the hose does not need to be long, and the preparation operation and the cleaning operation are facilitated. Further, since the hose is not long, the drive motor and the pump do not need to be large. Further, the capacity of containers, hoppers and tanks for bulk hydrous explosives and the like does not need to be increased. This is because there is always a worker near the face, and if there is no bulk hydro explosive or the like, the loader or other workers can immediately perform replacement or replenishment.
[0014]
The length of the loading hose of the present invention may be long, but may be from 1 to 25 m, depending on the distance the loading device approaches the face. If it is fixed to a basket for working at height, the distance approaching the face can be made shorter than that of a heavy machine for piercing or a lorry, and it is preferably 1 to 10 m, more preferably 2 to 7 m.
The drive motor of the pump used in the loading device of the present invention is, for example, an electric motor, an air motor, a hydraulic motor, or the like. When an electric detonator is used as the detonator, an air motor or a hydraulic motor is preferable. Electricity and air may be supplied from a power line or a heavy drilling machine at the blasting site.
[0015]
When an air motor is used for the drive motor of the pump, it is preferable to install a silencer at the outlet of the air supplied to the motor. For example, since an air pressure of 0.6 to 0.7 MPa is used, a large noise is generated at the discharge port, which affects the operation. If a silencer dedicated to the air motor is used, the noise will be reduced and will not affect the work.
Further, it is preferable that the supply air passes through a filter and / or a regulator and / or a lubricator. Thereby, the supply of clean air, the supply of stable pressure, and the stable operation become possible.
[0016]
The pump used for the loading device of the present invention is, for example, a hose pump, a tube pump, a mono pump, a rotary pump, a gear pump, and the like. Hose pumps and tube pumps are preferable because they have a simple structure and are easy to maintain, do not come into contact with rotating metal such as bulk hydrous explosives, and are strong and safe even in idle operation. The MONO pump has no pulsation and can perform quantitative loading work.
When a hose pump or a tube pump is used as the pump, a hose or a tube in the pump is preferably made of ammonium nitrate or a material having corrosion resistance to an aqueous solution thereof, and examples thereof include NBR.
[0017]
When a mono pump is used as the pump, a pump having a coupling rod that requires a joint can be used, but a flexible rod that does not require a joint is particularly preferable because it is safe. Even those having a joint, the pin joint, the gear joint, the cross joint, and the like are completely sealed and have a feature that bulk hydrous explosives and the like do not enter, so that they are safe. The open joint has no dead space, is easy to clean, has little residual drug, and is safe. Examples of the shaft sealing portion of the pump include an oil-sealed or waterless mechanical seal, a waterless gland packing, and a magnet coupling type. Further, it is preferable that the temperature of the stator does not increase during idling. The material of the stator is preferably NBR, for example.
[0018]
In addition, when there is a bearing in the pump and there is a possibility that a bulk hydrous explosive or the like may enter, it is preferable to seal the bearing. Ammonium nitrate or a material having corrosion resistance to an aqueous solution thereof is preferable for the seal of the bearing, and examples thereof include silicon and NBR.
[0019]
The pump of the present invention has corrosion resistance to ammonium nitrate or an aqueous solution thereof which is a main component of a bulk hydrous explosive and the like, and furthermore, has corrosion resistance to cement when used for underground excavation. preferable. For this reason, it is preferable that the pump body be made of a material that is corrosion-resistant to ammonium nitrate or its aqueous solution or cement, which is a main component of a bulk hydrous explosive, or is subjected to a corrosion-resistant treatment. For a metal part, for example, stainless steel is preferable, and when an aluminum alloy is used for weight reduction or when general iron is used, it is preferable to perform a corrosion-resistant treatment such as painting. When strength and durability are not so required, it is preferable to use plastic such as PVC, for example.
[0020]
In the present invention, it is preferable that the pump, which is a main part of the loading device, is small and lightweight. This is to easily cope with a case where a space for installing the loading device is narrow or a case where a work area is secured. As such a pump, the discharge amount per rotation of the pump when using normal temperature fresh water is 500 ml or less for a hose pump and a tube pump, 300 ml or less for a mono pump, and 150 ml or less for a rotary pump and a gear pump. Is preferred. It is preferable to select an electric motor that is small and light in consideration of the amount of discharged bulk hydrous explosives.
[0021]
In the present invention, it is preferable to use a hydraulic drive motor or an air drive motor as a drive motor and a hose pump or a tube pump as a pump in combination. When a hydraulic drive motor or an air drive motor is used as the drive motor, the generation of leakage current and static electricity is small, so that it is safe to use an electric detonator for the primer. When a hose pump or a tube pump is used as the pump, the bulk hydrous explosive does not come into contact with the rotating metal, and the pump is strong and safe even in idle operation.
[0022]
Further, the loading device of the present invention includes a supply unit having one or more hoppers or tanks having a capacity capable of storing the bulk hydrous explosive or an intermediate thereof, and a connection unit for connecting the hopper or the tank and the pump. Will be installed. The capacity of the hopper or the tank is determined according to the scale of blasting, the number of loading devices, the working environment, and the like, but the capacity is preferably in the range of 10 to 250 kg in terms of weight of the bulk hydrous explosive and the like. For example, when fixing to a basket for working at height, when the space for fixing the heavy equipment for drilling is small, when fixing to a truck with a total length of 4 m or less and a total width of 1.6 m or less, the capacity may be reduced. Desirably, it is 10 to 150 kg, more preferably 10 to 100 kg. The material of the hopper or the tank is preferably made of stainless steel or plastic.
[0023]
Further, the loading device of the present invention includes a supply unit having one or more mounting units for mounting a replaceable container capable of storing a bulk hydrous explosive and the like, and a connecting unit for connecting the container and a pump. Preferably, it is installed.
The replaceable container is not always mounted on the loading device, but is mounted only at the time of loading. In addition, when the bulk explosive or the like in the container is exhausted during loading, the container can be replaced with a new container in which the bulk explosive or the like is stored.
[0024]
As the container, for example, a plastic bag, a metal container such as a plastic container, a fiber container, an aluminum alloy, a stainless steel container, or the like, having a predetermined shape such as a cylindrical shape, a cubic shape, and a rectangular shape can be used. Those which are further housed in plastic bags, paper bags or resin cloth bags, plastic, wooden, fiber boxes, or cardboard boxes can also be used. The capacity of the container is, for example, 10 to 250 kg by weight of the bulk hydrous explosive or the like, and is determined by the scale of the consumption site, the number of loading devices, the working environment, and the like. For example, when fixing to a basket for working at height, when the space for fixing the heavy equipment for drilling is small, or when fixing to a truck with a total length of 4 m or less and a total width of 1.6 m or less, it is necessary to reduce the capacity. Yes, 10 to 150 kg, more preferably 10 to 100 kg. If the operator replaces the container manually, the capacity is preferably 10 to 60 kg, more preferably 10 to 30 kg, and even more preferably 10 to 20 kg. If the capacity is larger, replace the container using a machine.
[0025]
The outlet of the container may be a part of the container deformed according to the shape of the connecting portion. For example, if the connecting portion of the loading device is a male screw or a female screw, the connecting portion of the container may be a female screw or a male screw, or if the connecting portion of the loading device is a hose or a pipe, the container The connection may be machined so that a hole for a hose or pipe can be formed at the point of consumption. The container may be provided with a joint or the like. If the connecting portion is, for example, a male screw or a female screw, a female screw or a male screw-shaped joint may be mounted on the container. If is a hose or pipe, a hose or pipe that is larger and fits than the hose or pipe may be attached.
[0026]
For example, a hose band, a clip band, a joint, or the like is used for the connecting portion, so that the operator can easily connect and remove the container and the loading device each time the loading operation is performed. The material of the hose band, the clip band, and the joint is preferably one having corrosion resistance, for example, plastic or stainless steel.
The container may be a container dedicated to the loading device used only at the consumption site, or may be a transport stipulated in the Prime Minister's Notification No. 10 “Standards for Packaging for Transporting Explosives” on March 30, 1998. A container may be used. In the case of a container dedicated to the loading device, it is necessary to transfer the container from the transport container to the container dedicated to the loading device at the consumption site. When attaching a joint or the like to the transport container, the joint may be already attached at the time of shipment from an explosives manufacturing plant for bulk hydrous explosives or the like, or may be installed at the explosives handling office after being brought to the consumption site.
[0027]
The mounting portion for mounting the container on the loading device can attach a hanging device, a fastener, a belt, a basket, or the like according to the shape or size of the container to the loading device in order to fix the container.
In the case where a hose or a pipe is provided at the connection portion and the bulk hydrous explosive is supplied to the pump via the hose or the pipe, the diameter of the hose or the pipe for supply is from 1 to 5 times the diameter of the pump supply port. Preferably it is twice. It is more preferably 1 to 3 times, further preferably 1 to 2 times, and still more preferably 1 to 1.5 times. This makes it possible to increase the discharge amount of the bulk hydrous explosive and the like, and further reduce the vibration of the loading device. The material of the hose or pipe is preferably made of rubber, plastic or stainless steel.
[0028]
It is preferable that the loading device of the present invention is provided with means for rotating the pump forward and backward. Even if loading is complete, if the drive motor or pump moves by inertia or if there is residual pressure in the loading hose and bulk hydrous explosives etc. come out from the hose end, reverse the drive motor or pump. It can be rotated to accommodate this. When an electric motor is used, a method of electrically switching positive / negative with a switch can be adopted to reversely rotate the motor. When using an air motor or a hydraulic motor, a method of switching the four-way valve to reverse the flow direction can be adopted. FIG. 1 is an explanatory diagram illustrating an example of a method of rotating an air motor in a reverse direction. As shown in FIG. 1, the air motor performs reverse rotation by switching the four-way valve of air to reverse the flow direction. When a hydraulic motor is used, a pipe returning to the hydraulic pressure generator may be provided instead of the silencer of FIG.
[0029]
The loading device of the present invention is preferably grounded using a conductive material to remove static electricity. Examples of the conductive material include a metal wire, a metal chain, and a conductive rubber plate. The metal chain and the conductive rubber plate have abrasion resistance, and can always be dropped from the loading device and grounded on the ground, so that forgetting to ground can be prevented. When a metal chain is used, stainless steel is preferable.
Also, in order to prevent leakage current from flowing into the loading device from a heavy machine for drilling, a basket for working at height, or a lorry, the loading device and the object to be fixed are electrically insulated and the loading device is fixed. It is preferable to ground directly from the ground.
[0030]
The pump installed in the loading device of the present invention may be configured such that the pump is fixed so that the bulk hydrous explosive or the like does not remain in the pump when the supply of the bulk hydrous explosive or the like to the pump is completed, or a pedestal to which the pump is fixed. Is preferably fixed. For example, when a MONO pump is used, since the bulk hydrous explosive remains in the casing when fixed horizontally, the casing of the MONO pump should be tilted at 5 to 90 ° with respect to the horizontal, preferably 20 to 90 °. The pump is fixed so as to be inclined at an angle of, preferably, 30 to 45 degrees.
[0031]
Starting or stopping the loading of the loading device is performed by starting or stopping a motor or a pump. When the loading operation is performed alone, it is preferable to start or stop the motor or the pump at hand while performing the loading operation. If electricity is available, it can be easily activated or deactivated using a wired or wireless switch at hand. When electricity is not used, it can be started or stopped at hand using air or wires. For example, when an air motor or a hydraulic motor is used, a hand switch using air or wire can be operated to open and close the motor power valve, and start or stop the motor. As an air switch using air, for example, there is an air switch used in FIG. 1 or an ANFO loader. In some wire switches using wires, for example, a brake on a bicycle pulls a hand knob to pull a wire and open a connected valve.
[0032]
The loading hose for the blast hole of the loading device of the present invention preferably has a thickness of 2 to 10 mm. For example, when the blast hole diameter is 45 mm such as a tunnel, it is preferable that the loading hose has a thickness of 2 to 4.5 mm and an inner diameter of 15 to 25 mm. For example, in a light spot having a blast hole diameter of 65 mm or more, such as a quarry or a lime mine, it is preferable that the loading hose has a thickness of 2 to 10 mm and an inner diameter of 15 to 105 mm.
The inner diameter of the loading hose is preferably equal to or larger than the diameter of a tube or the like in a tube pump or the like, and more preferably 15 to 105 mmφ. If the inside diameter is too small, the loading time will be long, and if the inside diameter is large, the hose will be too heavy depending on the way of working, which will hinder the work.
[0033]
The material of the hose for charging the blast holes is preferably a material that is resistant to corrosion with respect to ammonium nitrate or an aqueous solution thereof, and is preferably a material that does not generate or accumulate static electricity.
Further, the loading hose is preferably capable of withstanding a working pressure of 0.4 to 1.0 MPa.
It is preferable to attach a pipe having a thickness of 0.5 to 3 mm, an inner diameter of 15 to 105 mmφ, and a length of 0.1 to 3 m at the tip of the hose for loading the blast hole.
[0034]
The loading hose is made of rubber, plastic, etc. and is not perfectly straight.When inserted into the blast hole, the hose tip rubs against the blast hole wall, causing the hole to be rough or causing the electric detonator leg to be damaged. Attaching the pipe to the end of the loading hose with a straight pipe is effective because the wire may be damaged.
When a pipe is attached to the tip of the hose for charging the blast hole, it is preferable that the ratio of the diameter of the loading hose to the diameter of the pipe is set to the inner diameter of the loading hose / the inner diameter of the pipe = 1 to 3 times. If the diameter of the blast hole is small and the diameter of the loaded hose is reduced accordingly, the pressure loss in the hose will increase and the loading speed will be reduced. If the diameter of only a pipe of a short length is made smaller than the blast hole, an increase in pressure loss can be suppressed. Table 1 shows an example in which a loading hose and a pipe are combined.
[0035]
The pipe attached to the tip of the loading hose is preferably made of a material that has good corrosion resistance to ammonium nitrate or an aqueous solution thereof and does not generate or accumulate static electricity. Alternatively, it is also preferable to prevent generation and accumulation of corrosion resistance and static electricity by painting or the like.
In addition, when a pipe is attached to the tip of the hose for loading the blast hole, it is preferable that the shape of the pipe tip is processed so that the parent die can be loaded and loaded into the blast hole. It is sufficient that the processed portion has a shape and a length that allow the parent die to be stably placed. The length of the processed portion is better if it is -5 to +5 cm with respect to the length of the parent die. More preferably, it is -5 to 0 cm. Several support rods, such as one or two, can be attached to the end of the unprocessed portion so that the parent die does not enter. FIG. 2 shows an example.
[0036]
The loading apparatus of the present invention includes a tank and a pump for a chemical foaming agent added to a bulk hydrous explosive or the like, or a lubricating water tank and pump for reducing resistance between a bulk hydrous explosive or the like and a loading hose. It can also be attached.
It is preferable to install a pressure gauge at the outlet of the pump of the loading device of the present invention. By installing a pressure gauge, at the beginning of the loading operation, the bulk hydrous explosive, etc. is supplied to the pump and discharged, and the pressure gradually rises. , The situation where the transfer destination is clogged, and the pressure rises.
[0037]
In addition, it is preferable to install a safety valve and / or a rupturable plate near the outlet of the pump of the loading device of the present invention. By installing, even if the transfer destination is clogged and the pressure rises, the pressure can be released before a dangerous situation is reached.
Hereinafter, loading experiments using the loading apparatus of the present invention will be described.
[0038]
Embodiment 1
A tube pump ETK-19 made by Elepon Kakoki Co., Ltd., a radial piston type air motor TAM4-030FG010 of Taiyo Tekko Co., Ltd. is used as a motor, and a pressure-resistant hose having an inner diameter of 10 mm and a length of 20 m is used as an air supply hose. Is stored in a glass fiber box, the bottom of the pump and the bottom of the box are fixed with bolts, and the bottom of the box and the bottom of the basket of the wheel jumbo are fixed. ² Loading experiment was conducted at a tunnel construction site. For starting and stopping the operation of the pump, a four-way ball valve having the mechanism shown in FIG. 1 was used, and a silencer was attached to the air outlet. A pressure-resistant hose having a thickness of 4 mm, an inner diameter of 25 mm, and a length of 3 m was used as a loading hose, and a pipe having a thickness of 1 mm, an inner diameter of 25 mm, and a length of 2 m was attached to the tip of the hose. The tip of the pipe was machined as shown in FIG. A slurry explosive was used as the explosive. The explosive container used was a cardboard box for the exterior, a plastic bag for the interior, and a 20 kg carrying container. The transport container was fixed to the upper surface of the box with a belt, a part of the exterior was broken, and the outlet dedicated to inserting the internal pipe and the connecting pipe were connected with a hose band. The air supply source was a wheel jumbo compressor.
[0039]
The loading work could be done smoothly alone by moving the basket before the face. Also, a blast hole with a diameter of 45 mmφ was able to be loaded within about 15 seconds for a drug length of about 1 m.
Preparation and clearing work for the loading operation could be easily performed because the hose was short and the connection and removal of the transport container and the loading device were easy. For the residual medicine in the transport container, the transport container was removed from the loading machine, taped at the outlet, and returned to the explosives handling facility. The loading device was cleaned by circulating water through the hose and the pump for about 5 minutes to completely remove the explosive. No explosives were attached to the outside of the loading device, so it was not cleaned.
[0040]
Embodiment 2
A loading operation was performed in the same manner as in Example 1 except that a tube pump ETK-25-2 manufactured by Elepon Kakoki Co., Ltd. was used as a pump, and a radial piston type air motor TAM2-040FG020 manufactured by Taiyo Tekko Co., Ltd. was used as an air motor. Was.
The loading work could be done smoothly alone by moving the basket before the face. In addition, a blast hole having a diameter of 45 mmφ was able to be loaded within about 10 seconds for a drug length of about 1 m.
The preparation for the loading operation and the cleaning-up operation could be performed easily as in Example 1. The washing of the loading device was also able to completely remove the explosive.
[0041]
Embodiment 3
Implemented except that the pump was an electric motor equipped with an inverter with a power supply of 200V, and the motor was powered by a motor jumbo pump NL30PU and the motor was fixed to the basket of the wheel jumbo so that it was inclined at 20 ° to the horizontal. The loading operation was performed in the same manner as in Example 1. The power for the motor was used from the power distribution board in the tunnel.
The loading work could be done smoothly alone by moving the basket before the face. Also, a blast hole with a diameter of 45 mmφ was able to be loaded within about 15 seconds for a drug length of about 1 m.
The preparation for the loading operation and the cleaning-up operation could be performed easily as in Example 1. The washing of the loading device was also able to completely remove the explosive.
[0042]
【The invention's effect】
From the above, it has been found that the loading device of the present invention is small and lightweight, and can perform the loading operation without extra work, work time, and workers.
The present invention is a small-sized and light-weight, which does not require extra work, working time, and an operator, and enables easy loading work by fixing the loading device to a heavy machine for boring or a basket for working at height. It is.
[0043]
[Table 1]

[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing an example of a means for rotating a hydraulic motor or an air motor forward and backward.
FIG. 2 is an explanatory diagram showing an example of a pipe tip shape and an unprocessed portion tip which are processed so that a parent die can be placed and loaded into a blast hole when a pipe is attached to the tip of a loading hose.

Claims (4)

A loading device for a bulk hydrous explosive or an intermediate thereof having a supply unit, a pump, a driving motor thereof, and a loading hose, wherein the supply unit, the pump, and the driving motor include a heavy machine for drilling, a basket for aerial work, Alternatively, the loading device can be fixed to a truck having a total length of 4 m or less and a total width of 1.6 m or less. The loading device according to claim 1, wherein the length of the loading hose is 1 to 25m. The supply unit has a mounting unit for mounting a replaceable container capable of storing a bulk hydrous explosive of 10 to 250 kg or an intermediate thereof, and a connection unit for connecting the container and a pump. The loading device according to claim 1. The said supply part has a connection part for connecting a pump with a hopper or a tank of a capacity which can accommodate 10-250 kg of bulk hydrous explosives or its intermediate body, The Claims any of Claims 1-2 characterized by the above-mentioned. A loading device as described.

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