KR101931066B1 - Cutting Apparatus for Ton bag - Google Patents

Abstract

The present invention relates to a cutter-type cutting device for cutting a lower portion of a ton bag in an agitator for chloride where an entire ton bag is lumped. More specifically, when dissolving chloride such as calcium chloride in water to manufacture a snow removal solution for use in snow removal and ice melting work in a winter season, powdered chloride is hardened in a storage process to be solidified into a single lump or a few large lumps in a ton bag. Since such lumps are too large to be ground, an agitator capable of inserting whole chloride solidified into a large lump and agitating chloride with water to manufacture a snow removal solution, namely an agitator capable of manufacturing a snow removal solution with chloride where the entire ton bag is lumped is needed. In such agitators, a lower portion of a ton bag must be cut at once to discharge whole chloride solidified into a large lump. The present invention relates to a cutting device capable of cutting the entire lower portion of a ton bag at once to be used in an agitator capable of manufacturing a snow removal solution with chloride where the entire ton bag is lumped. The cutting device preferably comprises a pair of cutter mounts (30a, 30b), a plurality of cutters (40), a pair of moving means (20a, 20b), and a control means (not shown).

Description

{Cutting Apparatus for Ton bag} [0002] The present invention relates to a cutting apparatus for cutting a tone bag bottom in a stirring apparatus for a chloride-

The present invention relates to a cutter-type incision apparatus for incising a lower portion of a tonne bag in a stirrer for chloride agglomerated whole toners. More specifically, in the preparation of a solution for snow removal by dissolving a chloride such as calcium chloride in water for use in snow removal and ice-melting work in winter, the chloride in the powder is hardened during the storage process to form a whole lump Or it may be hardened into several large chunks. In this case, since the agglomerate is too large to be crushed, it is possible to stir the agglomerated agglomerates of agglomerated agglomerates of agglomerated agglomerates of agglomerates In this stirring apparatus, the lower part of the tonne bag should be incised at a time so as to pour whole chloride solidified into a large lump. The present invention can be applied to such an agitation apparatus capable of producing a snow remediation solution as a whole toned lump of chloride Quot; incision device capable of incising the whole tone bag bottom at a time so that it can be used.

In order to solve the freezing phenomenon of the road surface caused by snow or rain in winter, a method of spraying a snow remover directly on the road using a snow removal vehicle or spraying a snow remover that causes snow removal or melting phenomenon has been used . When snow removers are used, chloride remnants such as calcium chloride, sodium chloride or magnesium chloride have been scattered directly on the road. However, when spraying the snow remover directly on the road, the spraying range was limited to the width of the snowmobile passing through the snowmobile, so that it was less effective than the spraying amount and effort, and there were various side effects.

In order to solve the problem of spraying the snow remover directly, there has been a tendency to spray the aqueous solution of the snow remover made by stirring the snow remover with water, that is, the snow remover. In the case of spraying the snow remover on the road surface, Therefore, it is possible to adjust the injection position, to change the injection range according to the pressure of the feed pump, to control the freezing point according to the concentration of the snow solution, and to spray the liquid in a liquid state, . Before spraying the snow remover on the road, it is necessary to stir the snow remover and water to make the snow remover. The construction of a conventional stirring device for carrying out the process of making a snow remover includes an agitating tank capable of containing agitating water, a stirring water supplying device for supplying water to the position of the agitating tank, A snow remover, a snow remover, a snow remover, a snow remover, a snow remover, a snow remover, a snow remover, an intermittent or temporary snow remover, and a stirrer or an impeller.

On the other hand, due to the seasonal reasons that are mainly used only in the winter season where snow removal is required, such a snow remover causes stocks of chlorides not used in the manufacture of snow remover after the winter season, and the stock of chloride remnants produced is contained in a ton bag , And the chloride that is stored for a long period of time is solidly hardened and agglomerated. When the agglomerations of the hardened clusters of the hardened clay are directly introduced into the agitator, hard agglomerates are impinged on the impeller of the agitating device to damage the impeller blades and the connecting parts. In addition, when the agglomerates which are hardened too much are charged at a time, The rotation of the impeller is stopped. As a result, the motor is overloaded and the motor is damaged. Too much force is applied to the rotation shaft of the impeller, causing the rotation shaft to bend or warp.

Therefore, in order to produce a snow-removing solution by using a solidified clustering chloride, it is necessary to carry out a pulverizing process by crushing with a crusher or the like and pulverizing. That is, a method of crushing a clogged chloride into crushers and crushing them into a powder and putting them into a stirring apparatus is used, or a large lump of chloride is firstly pulverized into small lumps, which are then crushed using a stirring device equipped with an auger, The agglomerates are pulverized and pulverized through an auger screw. However, this method requires additional equipment (crusher, auger, etc.) for crushing of clogged chloride snow remover, which adds to the cost of equipment purchase and maintenance, as well as to the performance of the first and second crushing processes There has been a problem that a lot of time and costs are incurred.

In particular, the chloride stored in the ton bag often clogs the entire chloride in the tonne bag into a lump or several large lumps. In this case, it can be used by crushing it in a very large crusher. Therefore, even in the case of an institution or an enterprise that does not have enough equipment, it is difficult to crush even the whole of the chloride. Therefore, when the entire chloride in the ton bag is hardened into a single mass, there are many cases in which the waste is disposed of. Therefore, in order to reduce the budget and make efficient use of resources, it is urgent to develop a technology for using chloride that is hardened in ton back condition.

In order to solve the above-mentioned problems, a cutter-type incision apparatus for incising a lower portion of a tonne bag in an agitator for agglomerated whole clay chloride according to the present invention is a cutter-type incision apparatus in which the whole of a toner bag is sliced into a lump or a plurality of large agglomerates Is directly poured into an agitator without any separate crushing step to circulate and stir the agitating water to produce a solution for the agitation. The agitator is characterized in that the agglomerated chloride in the ton back is introduced into the agitator Which is capable of incising the whole lower portion of the tone bag at a time at the inlet of the stirring apparatus so that the toning bag can be made.

In order to solve the above problems, an embodiment of a cutter type incision apparatus for cutting a lower portion of a ton back in an agitator for chloride agglomerated clusters according to the present invention, which is invented to solve the above problems, A device for temporarily cutting the entire lower portion of the tone bag so that the agglomerated chloride can be injected into the agitating device at the same time as the chloride introduced into the agitator is injected at the inlet of the agitator capable of directly stirring the agglomerated chloride, , Each of which has a length longer than one side of the charging port and which is capable of reciprocating in the width direction from the center of the charging port to the opposite two sides of the charging port in a state where the charging port crosses the charging port in the longitudinal direction, A cutter mounting base of A plurality of cutters parallel to the width direction of the cutter mount and fixed vertically to the upper surface of each of the cutter mounts; A pair of moving means connected to each of the cutter mounting bands and capable of simultaneously reciprocating in opposite directions with respect to the respective cutter mounting bands; And control means for controlling operations of the pair of moving means; And a plurality of pixels.

형상으로서, 상기

형상의 하부가 상기 커터장착대에 고정되되 상기

형상의 상부는 반대편 커터장착대의 위쪽영역에 위치하는 것을 특징으로 하는, 톤백 전체가 덩어리진 염화물용 교반장치에서 톤백 하부를 절개하는 커터식 절개장치로 하는 것도 바람직하며, 이에 더하여, 상기 복수의 커터 각각은, 상기

형상의 상부 일 측에 날이 형성되도록 하되, 상기 투입구 중앙에서 상기 투입구의 마주보는 두 변 각각을 향하여 진행할 때의 진행방향 쪽에 형성되도록 하는 것을 특징으로 하는, 톤백 전체가 덩어리진 염화물용 교반장치에서 톤백 하부를 절개하는 커터식 절개장치로 하는 것도 바람직하다.According to another embodiment of the present invention, in addition to the above-described features, each of the plurality of cutters has a cross section viewed in a direction perpendicular to a direction in which the cutter mount is reciprocated

As the shape,

A lower portion of the shape is fixed to the cutter mount,

It is also preferable that the upper portion of the shape is located in the upper region of the opposite cutter mounting table, and the cutter-type incision apparatus for cutting the lower portion of the tonneau in the agitator for agglomerating the whole toners, Respectively,

So that a blade is formed on one side of the top of the shape, and is formed in the direction of travel when proceeding toward the opposite two sides of the charging port at the center of the charging port. It is preferable to use a cutter-type incision device for incising the lower part of the tone bag.

Another embodiment of a cutter-type incision apparatus for incising a tonneau bottom in an agitator for agglomerated chloride agglomerates according to the present invention further comprises a pair of guide rails in addition to the above-mentioned features, Wherein the guide rails of the cutter mounting brackets are respectively located at two sides of the insertion holes parallel to the width direction of the cutter mounting bracket, and rail insertion grooves are formed at both end surfaces in the longitudinal direction of the cutter mounting bracket in parallel with a direction in which the cutter mounting bracket reciprocates And the cutter mount is reciprocally moved in a state in which the pair of guide rails are respectively inserted into the rail insertion grooves.

In addition to the above-described features, the apparatus further includes a tone-back detection sensor, wherein the tone-back detection sensor detects whether the tone-back is input to the input port and transmits a detection signal to the control means, It is also possible to use a cutter-type incision device for incising the lower portion of the tonneau in an agitator for agglomerated clusters of toners.

The cutter-type incision apparatus for cutting the lower part of the tonne bag in the agitator for agglomerated chloride in the whole toners according to the present invention is characterized in that a plurality of cutters on each of the pair of cutter- Since the structure is such that the lower portion of the tone bag is incised at a time while simultaneously moving toward both sides, the whole of the chloride in the tone bag can be entirely taken out, and the chloride can be introduced into the lower portion. Therefore, there is an advantage in that the whole of the chloride that has been agglomerated in the ton back unit can be injected into the stirring apparatus at a time.

형상으로서, 하부는 한 쪽의 커터장착대에 고정되되, 상부는 반대쪽 커터장착대의 위쪽영역에 위치하도록 되어있기 때문에, 비록 각각의 커터장착대가 투입구의 중앙에서 출발하여 투입구의 가장자리를 향하여 자신의 이동영역을 따라서만 이동하지만, 각각의 커터 상부는 상대방 커터장착대의 이동영역에 해당하는 부분에서부터 톤백에 삽입되어 절개를 시작하므로, 양쪽 커터에 의한 절개 시작점이 톤백 중심을 서로 넘어와서 형성되며 이로 인하여 커터가 톤백 하부를 절개하는 방향과 수직방향인 중심선은 쉽게 찢어질 수 있는 구조로 된다. 따라서 커터에 의하여 톤백 하부에 절개선이 형성되면, 커터가 절개하는 방향과 수직되는 방향으로도 일시에 찢어지게 되며 이에 따라 톤백 하부 전체가 일시에 절개되는 효과를 가져 온다.Each of the plurality of cutters has a cross-section viewed from the side

The lower portion is fixed to one of the cutter mounts and the upper portion thereof is positioned in the upper area of the opposite cutter mount. Therefore, even if each cutter mount starts from the center of the feeder port and moves toward the edge of the feeder port But the upper portion of each cutter is inserted into the ton back from the portion corresponding to the moving region of the other cutter mounting base so that the incision starting points of both cutters are formed beyond the center of the ton back, The center line which is perpendicular to the direction in which the lower portion of the tone bag is cut can be easily torn. Therefore, if the incision is formed in the lower portion of the tonne bag by the cutter, the incision is also made in the direction perpendicular to the incision direction of the cutter, thereby causing the entire lower portion of the tonne bag to be incised at a time.

In addition, each of the plurality of cutters has a blade formed on one side of the upper side, and is formed on the side of the cutter in the advancing direction, so that the lower part of the tone bag can be easily cut along with the progress of the cutter.

In addition, since it is possible to include a pair of guide rails and to have a structure in which guide rails can be inserted by forming rail insertion grooves at both ends of the reciprocating cutter mounting base, a movement process for tone- So that it can be stably moved.

In addition, since the control means can control the moving means by detecting whether or not the tone bag is inserted into the input port, the moving means automatically moves when the tone bag is inserted and reaches the proper position, There is an effect that incision can be made.

In addition, since the free fall preventing means is attached to the inside of the chloride charging chamber, the lower portion of the tone bag is cut by the cutter, so that even if the chloride is clogged from the tone bag at a time, it falls down gradually in contact with the free fall preventing means. The surface of the chloride, which is the most hardened part, can be crushed in the process of stepwise contact with the plural free-fall blocking means, so that the inside of the relatively low- The inner chloride is easily dissolved in the process of circulating the agitation water, thereby reducing the time required for manufacturing the remediation solution.

In addition, since the chloride input is narrowed downward, the lower portion of the tone bag is cut by the cutter, so that a lump of chloride from the tone bag drops at a time. Even if it is input, So that it is possible to minimize the impact when the chloride is added.

In addition, since the agglomerated chlorides can be put into the agitator at the same time to make the solution for snow removal, it is possible to use the agglomerated chlorides without throwing away the resources. Therefore, it is possible to reduce the cost by efficiently utilizing the resources and to break the agglomerated clusters Even if it is not made into powder, it can be directly injected to produce a solution for snow removal, thereby saving time and cost for manufacturing a solution for snow removal. That is, there is no need for a separate equipment for crushing the agglomerated chloride, and it is not necessary to carry out the process of crushing the crushing equipment to start the crushing process. On the other hand, when the agglomerated agglomerate starts to be agglomerated, The choline chloride is melted by the free fall prevention means and melted from the portion where the surface is broken, and the whole is instantly melted, so that the time for making the snow solution is greatly shortened. Therefore, the time and cost required for manufacturing the remediation solution can be greatly reduced.

FIG. 1 is a perspective view showing the appearance of an 'agitating device for agglomerated whole clay chloride' to which the present invention can be applied.
FIG. 2 is a perspective view of the inside of a 'tonbach aggregate agglomerating apparatus for chloride', to which an embodiment of the present invention is applied.
FIG. 3 is a cross-sectional view (A-A 'portion of FIG. 2) of an embodiment of the present invention, showing a state in which a cutter mount is located at the center of a feed port.
4 is a cross-sectional view (A-A 'portion of FIG. 2) according to an embodiment of the present invention, showing a state where the cutter mounting base is located on opposite sides after moving from the center of the inlet.
5 is a plan view of an embodiment of the present invention in which a cutter mount is positioned at the center of a slot.
6 is a plan view of an embodiment of the present invention, showing a state where the cutter mounting base is positioned on opposite sides after moving from the center of the inlet.
Fig. 7 shows in detail a cross section in which each cutter is fixed to a pair of cutter mounts in an embodiment of the present invention.
FIG. 8 shows a state in which a tone bag containing a chloride is placed in an inlet of an embodiment of the present invention.
9 shows a state in which a lower portion of a tone bag containing chloride is cut by a cutter by movement of a cutter mount in an embodiment of the present invention.
FIG. 10 shows a state in which a clumped chloride is deposited and put in a chloride input in an embodiment of the present invention.
Fig. 11 is a cutaway view of the lower part of the tone bag. Fig. 11 (a) shows the incision according to the invention, and Fig. 11 (b) shows the cutaway of the tone bag.
12 is a plan view showing an embodiment in which a guide rail is mounted in the present invention.
Fig. 13 is a detailed cross-sectional view of the embodiment in which the guide rail is mounted in the present invention, viewed from the direction C in Fig.
14 is a cross-sectional view (A-A 'portion of FIG. 2) showing an embodiment in which the tone-back detection sensor is mounted in the present invention.
FIG. 15 is a detailed view of a chloride input according to the present invention.
16 is a conceptual diagram for explaining the principle in which the clogged chloride is dissolved in the present invention.

Hereinafter, the present invention will be described in detail in order to clarify the objects and features described above, and those skilled in the art will readily understand the technical idea of the present invention. In describing the present invention, it is to be understood that any known technology related to the present invention has already been known in the art, and if a detailed description of the known technology is considered to unnecessarily obscure the gist of the present invention, It will be omitted.

In addition, although the term used in the present invention is selected as a general term that is widely used at present, there are some terms selected arbitrarily by the applicant in a specific case. In this case, since the meaning is described in detail in the description of the relevant invention, It is to be understood that the present invention should be grasped as a meaning of a term that is not a name of the present invention. The terminology used in the description of the embodiments is used only to describe a specific embodiment, and is not intended to limit the embodiments. The singular expressions include plural expressions unless the context clearly dictates otherwise.

The embodiments are capable of various modifications and may have various additional embodiments, in which specific embodiments are shown in the drawings and are described in further detail in connection with the drawings. It should be understood, however, that the embodiments are not intended to be limited to the particular forms, but are to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the embodiments.

The expressions "first", "second", "first" or "second" among the descriptions of various embodiments can modify various elements of the embodiments, but do not limit the elements. For example, the representations do not limit the order and / or importance of the components. The representations may be used to distinguish one component from another.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. FIG. 1 is a perspective view showing the appearance of an 'agitating device for agglomerated whole clay chloride' to which the present invention can be applied. 1 shows a hopper 11 having a size capable of inputting a churned chloride 900 contained in a tonneau 920 is attached to an upper plate 220 of an agitation tank 200 and rotates the impeller 500 And the drainage pipe 210 capable of discharging the produced remedial solution or the like is provided on one side surface of the lower end of the stirring tank 200. The drainage pipe 210 is connected to the upper surface of the stirring tank 200, Is attached.

And FIG. 2 is a perspective view of the inside of the 'tonbach aggregate agglomerating apparatus for clay', which includes a cutter-type incision apparatus for cutting the tonneau bottom in an embodiment of the present invention. As described above, the present invention is a cutter-type incision apparatus for cutting a lower part of a tonne bag, which is applied to a stirrer for chloride agglomerates. 2, the stirrer according to the present invention includes an inlet 920 having a size capable of directly injecting the hardened and agglomerated chloride 900 into the tonne bag 920, A stirrer tank 200 in which the chloride input box 100 is located, a drive means 300 fixed to the stirring tank 200, a driving means 300, And a plurality of impellers 500 which are fixed to the rotating shaft 400. It is preferable that the impeller 500 is disposed at the inlet 10 so that the chloride (Not shown) for supplying agitation water to the inside of the stirring tank 200 and a stirring solution supply unit (not shown) for discharging the agitation solution to be stirred can be discharged from the hopper 11 connected to the inlet 10 (1) of the stirring tank (200) It is preferable to further include a drain pipe 210 formed on the side surface.

3 to 7 show a detailed view of a cutter-type incision apparatus for cutting a lower part of a tonne bag in a stirrer for chloride agglomerations in which a tonne bag is entirely clumped according to the present invention. 3 is a sectional view (A-A 'portion of FIG. 2) of the present invention. FIG. 3 shows a state in which the cutter mounting base is located at the center of the inlet. FIG. 4 is a cross- And is located on opposite sides opposite to each other. 5 is a plan view of the present invention. FIG. 5 shows a state in which the cutter mount is located at the center of the slot, FIG. 6 shows a state in which the cutter mount is moved to the center of the slot, FIG. Fig. 7 shows in detail a cross section in which the respective cutters are fixed to a pair of cutter mounts in the present invention.

Hereinafter, the present invention will be described with reference to a perspective view of FIG. 2 and a detailed view of FIG. 3 to FIG. As shown in FIGS. 2 to 7, it is most preferable that the cutter-type incision device for cutting the lower part of the tonneau according to the present invention is located on the inlet 10. In this case, the clogged chloride 900, which is contained in the tonne bag 920 and is completely hardened, is hung from the ring 930 by using a crane or the like while being contained in the ton back bag 920, And the lower part of the tonne bag 920 is temporarily cut so as to drop the chunky chloride 900 into the chloride supply box 100 as a whole. In addition, the 'cutter type incision apparatus for cutting the tonneau bottom' according to the present invention includes a pair of cutter mounts 30a and 30b, a plurality of cutters 40, a pair of moving means 20a and 20b, It is most preferable to include means (not shown).

2, each of the pair of cutter mounting bases 30a and 30b has an elongated bar shape and is disposed across the opposing two sides of the inlet 10 in the longitudinal direction, It is preferable to make it somewhat longer than one side of the injection port 10. This is because when the cutter mounting base 30 is equal to or shorter than one side of the charging port 10 and when the tonne bag 920 containing the agglomerated chloride 900 is incised, The force applied downwardly according to the weight not only makes the cutter mount 30 unstable, but also the lower portion of the ton back 920 is not completely cut. This is because the stirring device that can be practiced by applying the present invention is such that the agglomerated chloride 900 is inserted into the inlet 10 at a time because it is a 'agitator for agglomerated whole toners' (10) must be of such a size as to allow the agglomerated chloride (900) to be injected at a time. Therefore, the insertion port 10 must be larger than the lower size of the tonneau bag 920, and the length of the cutter mount 30 must be sufficiently large enough to cut the lower portion of the tonneau bag 920. The cutter mount 30 If the length of the tonne bag 920 is short, a portion that is not incised in the lower portion of the tonne bag 920 may occur according to the state where the tonneau 920 is positioned on the input port 10. Therefore, it is preferable that the cutter mounting base 30 has a size enough to cover the inlet 10. Therefore, the cutter mount 30 is made to cross the inlet 10 in the longitudinal direction, and the length of the cutter mount 30 is longer than one side of the inlet 10.

The pair of cutter mounting brackets 30 are arranged in a state that the cutter mounting portions 30 are cut from the center C of the input port 10 to the two opposing sides of the input port 10, It is preferable to be able to reciprocate in the width direction S of the carriage 30. [ That is, as shown in FIG. 2, the pair of cutter mounts 30a and 30b having a long rod shape are placed on the inlet 10 so as to face each other at the center C of the inlet 10, When the tone bag 920 descends to reach a predetermined position, the pair of cutter mounts 30a and 30b move in opposite directions to each other in the width direction S as shown in FIGS. 3 to 6, (10), that is, to the edge of the charging port (10). When the pair of cutter mounts 30a and 30b are moved in opposite directions at the center C of the input port 10, the cutter mounts 30a and 30b are mounted on the upper surfaces of the pair of cutter mounts 30a and 30b, The plurality of cutters 40 can cut the lower portion of the tone bag 920 into several lines at a time while moving.

형상으로서, 상기

형상의 하부는 한쪽편의 커터장착대(30)에 고정되되 상기

형상의 상부가 반대편 커터장착대(30)의 위쪽영역에 위치하는 것을 특징으로 하는 것이 바람직하다. 즉 도3 및 도 4와 도 7의 상세도에서 보는 바와 같이 왼쪽 커터장착대(30a)에 고정된

형상 커터(40a)의 하부(40a1)는 왼쪽 커터장착대(30a)에 고정되어 있지만 상부(40a2)는 오른쪽 커터장착대(30b)의 위쪽영역에 위치하도록 하는 것이 바람직하다. 이러한 구조로 하는 이유는 상기 복수의 커터(40) 각각이 커팅을 시작하는 지점을 상대방 커터장착대(30a) 영역에서부터 시작하게 함으로써 상기 톤백(920)의 하부 중심이 상기 복수의 커터(40)가 절개하는 방향과 수직인 방향으로도 쉽게 찢어질 수 있도록 하기 위함인데, 이에 대한 상세한 설명은 다른 도면을 참조하여 후술하기로 한다. It is preferable that each of the plurality of cutters 40 is parallel to the width direction S of the cutter mount 30 and fixed perpendicularly to the upper surface of each of the cutter mounts 30, Preferably, each of the plurality of cutters 40 has a cross section as viewed from the side in the direction S in which the cutter mounting base 30 reciprocates

As the shape,

The lower part of the shape is fixed to one side of the cutter mounting base 30,

It is preferable that the upper portion of the shape is located in the upper region of the opposite cutter mounting base 30. That is, as shown in the detailed views of Figs. 3 and 4 and Fig. 7, the left cutter mounting base 30a

It is preferable that the lower portion 40a1 of the shape cutter 40a is fixed to the left cutter mount 30a but the upper portion 40a2 is located in the upper region of the right cutter mount 30b. The reason for this structure is that by starting the cutting start point of each of the plurality of cutters 40 from the area of the counterpart cutter mounting base 30a, So that it can be easily torn even in a direction perpendicular to the incision, and a detailed description thereof will be described later with reference to other drawings.

Each of the plurality of cutters 40a and 40b is formed so that blades 40a3 and 40b3 are formed on one side of the upper end thereof and the direction of progression J ) Side. In this case, the lower portion of the tone bag 920 can be easily cut by a sharp blade as each of the plurality of cutters 40 proceeds. And each of the cutter mounts 30 is provided with an appropriate number of the cutters 40 at regular intervals so that the lower portion of the tone bag 920 is disposed at an interval desirable. As shown in FIGS. 5 and 6, each of the plurality of cutters 40 disposed in each of the pair of cutter mounting brackets 30 is arranged so as to be crossed with the cutter position of the counterpart cutter mounting bracket 30 desirable. This is for the purpose of tearing the center of the tonne bag 920 at a certain time if a cut-off is formed in the lower part of the tonne bag 920 by the plurality of cutters 40. Hereinafter, .

Meanwhile, the pair of moving means 20a and 20b are connected to the pair of cutter mounting bases 30a and 30b, respectively, so that the pair of moving means 20a and 20b are moved in opposite directions to the pair of cutter mounting bases 30a and 30b It is preferable to control the movement in accordance with the control of the control means (not shown). The pair of moving means 20a and 20b can move the pair of cutter mounting bases 30a and 30b to the center of the loading port 10 under the control of the control means, To the edge of the inlet 10, or to the center of the inlet 10. It is preferable to use the cylinders 21 and 22 as shown in FIG. 2 to FIG. 7. However, even if the cylinders 21 and 22 are not used, gears, chains, wires or the like Or it may be possible to use various other applicable mobile devices.

2 to 7, when the cylinder is used as the moving means 20, the cylinder is made up of the cylinder head 21, the cylinder rod 22 and the fixing member 23, 21 is fixed to the upper plate 220 of the stirring tank 200 through the fixing member 23 so that the end of the cylinder rod 22 is fixed to one side of the cutter mounting base 30 . When the cylinder rod 22 reciprocates in the cylinder head 21, the cutter mount 30 fixed to the cylinder rod 22 reciprocates. The cylinder as the moving means 20 may be connected to only one of the pair of cutter mounts 30a and 30b, but it may be two or more. When the number of the cylinders is two or more, the left and right balances can be easily adjusted when the cutter mounting base 30 moves, so that the cutter mounting base 30 can be stably reciprocated.

The control means (not shown) may be an electronic circuit using a semiconductor or the like together with a button or the like for controlling the operation of the pair of the moving means 20, and may electrically control the mechanical contact such as a relay Or the like. It is also possible that the control means can be placed at a suitable position convenient for the operator to operate the stirring device, and can be separately disposed adjacent to the stirring device.

8 to 10 show the principle of operation of a cutter-type incision apparatus for cutting a lower part of a tonne bag according to the present invention. FIG. 8 shows a state in which a tone bag containing a chloride FIG. 9 shows a state in which a lower portion of a tone bag containing a chloride is cut by a cutter by movement of a cutter mount in an embodiment of the present invention, and FIG. 10 shows, in an embodiment of the present invention, And the chlorinated chloride is put in the chloride charging chamber and is seated.

Hereinafter, with reference to FIGS. 8 to 10, the operation principle in which the entire lower portion of the tone bag is cut at a time will be described. 8, when the pair of cutter mounting bases 30a and 30b are positioned opposite to each other at the center of the input port 10, the ton back unit 920 is rotated by the ton back input means (not shown) The cutter-type incision apparatus for cutting the lower part of the tonne bag on the inlet 10 by coming into the hopper 11, the plurality of cutters 30a and 30b fixed to the pair of cutter mounts 30a and 30b, (40a, 40b) are inserted into the lower portion of the tone back (920). At this time, a plurality of cutters 40a located on the left cutter mounting base 30a among the plurality of cutters 40a and 40b are inserted into the side of the right back cutter mounting base 30b on the lower side of the tone bag 920 Each of the plurality of cutters 40b located on the right cutter mounting base 30b is inserted into the lower cutter mounting base 920 on the side where the left cutter mounting base 30a is located. In this state, when the control means controls the pair of moving means 20 to move each of the pair of cutter mounts 30a and 30b to the edge of the inlet 10, the plurality of cutters 40a Each cuts the lower part of the ton back 920 and moves. Thus, when the pair of cutter mounting bases 30a and 30b complete the movement to the edge of the input port 10, the state shown in FIG. 9 is obtained, and the lower part of the tone back 920 is cut at a time, The churned chloride 900 in the chute 920 can be lowered into the chloride input chamber 100 through the inlet 10. As shown in FIG. 10, the agglomerated chloride 900 which has fallen into the chloride input chamber 100 is caught by the free fall preventing means 120 in the chloride input chamber 100, So that it can be seated in the middle portion of the chloride input box 100.

11 shows an incision for the lower part of the tonneau 920, wherein (a) is an incision according to the arrangement of the cutter according to the present invention, and (b) is an incision Shape. As described above, in the present invention, a point where each of the plurality of cutters 40 starts to cut the lower portion of the tone bag 920 is from the area of the counterpart cutter mounting base 30. 7 and 8, a plurality of cutters 40a located on the left cutter mount 30a of the plurality of cutters 40a and 40b are positioned at the lower portion of the ton back 920, A plurality of cutters 40b located on the right cutter mounting base 30b are inserted into the side of the lower cutter mounting base 30b where the right cutter mounting base 30b is located, . As shown in FIGS. 5 and 6, the plurality of cutters 40 mounted on the respective cutter mounting bases 30a and 30b are arranged so as to be offset from each other with the counterpart cutter mounting bases 30b and 30a, It is deployed as enemy. 11 (a) and 11 (b), after the pair of moving means 40a and 40b move the pair of cutter mounts 30a and 30b to the edge of the loading port 10, a). When the incision is made in this way, each incision 921 of each of the incisions 920 generates an incision beyond the center line TC perpendicular to the incision 921 at the lower portion of the incision 920, In the uncut portion of the lower portion, a pulling force F is generated by the weight of the clumped chloride 900 on both sides. As a result, forces (f) are applied to the end portions of the cut-off portions (920) below the center line (TC) at the ends of the cut-out portions by the cutters (40) The portion of the center line TC below the tone bag 920 is easily torn. Therefore, in the state where the incision 921 is incised, the vicinity of the center line TC perpendicular to the incision 921 is torn, so that the entire lower part of the ton back 920 is opened, and the agglomerated chloride 900, Can easily escape from the toneback 920.

However, unlike the present invention, each of the plurality of cutters 40 is disposed only on the cutter mount 30 of the user, so as to be cut from the top of the cutter mount 30 of the user, In the case of disposing each of the cutters at positions coinciding with the cutters of the counterpart cutter mounting base 30, the incision as shown in FIG. 11 (b) is produced. Not only the force F1 on both sides is balanced but also the center line TC under the tone bag 920 is supported by the balanced force F2 on both sides, The weight of the agglomerated chloride 900 inside the tonne bag 920 can be maintained. As a result, the entire lower portion of the tone bag 920 is not easily opened, so that it is difficult for the clogged chloride 900 to escape to the lower portion of the ton back bag 920 at a time.

12 and 13 show another embodiment of a cutter-type incision apparatus for incising the lower portion of a tonne bag in an agitator for chlorides agglomerated in a tonne bag as a whole according to the present invention. FIG. 12 is a plan view showing an embodiment in which a guide rail is mounted in the present invention, and FIG. 13 is a detailed sectional view taken in a direction C in FIG. 12 with respect to an embodiment in which a guide rail is mounted in the present invention . 12 and 13, according to another embodiment of the present invention, a guide rail 50 is disposed at both ends of the pair of cutter mounts 30a and 30b, and the pair of cutter mounts 30a and 30b It is possible to stably move each of them. Each of the pair of guide rails 50 is positioned on two sides of the loading port 10 parallel to the width direction S of the cutter mounting base 30, The cutter mounting base 30 is formed with a pair of guide rails 50 extending in parallel to a direction in which the cutter mount 30 reciprocates, And the guide rail 50 is guided by the guide rail fixing portion 50a to the top plate 220 of the stirring tank 200. [ It is more preferable to fix it on the top. In such a configuration, the cutter mounting base 30 can be stably moved in the process of moving to cut the lower part of the tone bag 920. 12 and 13, the guide rail 50 may be formed in a spiral shape, and the guide rails 50 may be formed in the shape of a spiral, It is also possible to form the rail insertion groove 32 into which the vertical portion of the guide rail 50 can be inserted and the guide rail 50 is formed in the shape of the letter C, It is also possible to adopt a configuration in which the both ends of the guide plate are inserted.

On the other hand, in Fig. 14, as another embodiment of the present invention, an embodiment including a tone-back detection sensor is shown. 14, if the tone back sensor 60 is further included in the hopper 11, the tone back sensor 60 detects whether the tone back 920 is input to the input port 10 It is possible to transmit a sensing signal to the control means, and the control means can control the moving means 20 in accordance with the sensing signal. In this case, the tone bag 920 is automatically inserted into the input port 10 and the control means can control the moving means 20 so that the tone bag 920 is inserted The moving means 20 can automatically cut the lower portion of the tone bag 920 while moving the cutter mounting means 30 when it reaches the proper position.

In the meantime, since the present invention is applied to 'agitator for agglomerated whole tonal bag' as described above, the chloride input box 100 used in the present invention is provided with the inlet 10 and the hopper It is preferable that the chloride contained in the tone bag 920 and hardened into a lump or a plurality of large lumps has a size and structure such that it can be directly introduced from the tone bag 920, As shown in the figure, the agglomerated chloride 900, which is contained in the tonne bag 920 and is entirely hardened, is suspended on the ring 930 by using a crane or the like while being contained in the ton back 920, The lower part of the tonne bag 920 is cut by the cutter type incision device 20, 30, 40, which is located in the hopper 11 and cuts the lower part of the tonne bag at the entrance 10, Lump It is preferable that such binary chloride 900 is added entirely to the interior of the chloride input tray 100.

Therefore, in order to mitigate the impact applied during the introduction of the clogged chloride (900), the chloride charging chamber (100) is moved downward so that the clogged chloride (900) It is preferable to make the shape gradually becoming narrower. In other words, as the chloride input chamber 100 goes downward, the cross-section seen from above gradually becomes narrower, so that the cross-section viewed from the side is preferably an inverted trapezoid. It is preferable that the cross section is a square like the shape of the lower part of the tone bag 920 containing the clumped chloride 900.

The side surfaces and the bottom surface 140 of the chloride input chamber 100 are in the form of a lattice so that the agitation water can freely pass through the side surface and the bottom surface 140 of the chloride input chamber 100, Is partially blocked by the blocking plate 110. In this case, This is because the flow of the stirring water formed by pushing the impeller 500 downward of the stirring tank 200 is pushed into the space below the lower surface 140 of the chloride input box 100, So that the flow is prevented from coming directly to the impeller 500. The chlorine input vessel 100 is configured such that the stirring water flows freely through the lattice form of the chloride input vessel 100 while the flow generated by the impeller 500 is generated by the blocking plate 110 The chloride is introduced into the chloride input port 100 without being pushed directly to the side surface of the chloride input port 100 and the flow of the stirring water introduced into the chloride input port 100 is also blocked It is clogged by the plate 110 so that it can not come out directly to the impeller 500, but is circulated and circulated through another path. As a result, the circulation of the stirring water spreads evenly. Accordingly, it is possible to efficiently dissolve the clogged chloride (900). Therefore, as shown in FIG. 2, it is preferable that the blocking plate 110 is closed to a predetermined height from a side where the impeller 500 is located, at a position where the blocking plate 110 meets the lower surface 140.

It is also preferable that the lower surface 140 of the chloride charging chamber 100 is formed in a mesh network having a smaller size than that of the side surface of the chloride charging chamber 100. This is advantageous in that when the chlorinated material 900 is charged into the chloride charging chamber 100, If the debris is submerged in the bottom of the stirring tank 200, it is not only difficult to dissolve, but also it is inconvenient that the debris must be cumulatively accumulated and hardened. In this case, when the lower surface 140 of the chloride inlet box 100 is formed into a mesh network, it is possible to prevent the chloride debris from sinking on the bottom of the stirring tank 200 without interfering with circulation of the stirring water. In addition, it is also preferable that a side surface of the chloride charging chamber 100 is formed into a fine mesh network up to a height of the blocking plate 100.

Meanwhile, it is preferable that a certain space can be formed below the lower surface 140 of the chloride input chamber 100. This is because the flow of the stirring water generated downward from the impeller 500, as described above, So as to be pushed into the lower surface 140 of the charging chamber 100 so as to be naturally lifted into the chloride charging chamber 100. A plurality of supports 130 having a predetermined length downwardly are attached to the lower surface 140 of the chloride input chamber 100 so that a predetermined space can be formed between the lower surface 140 and the bottom of the stirring tank 200 . The support base 130 may be fixed to the bottom of the stirring tank 200 in order to secure the stability of the chloride charging chamber 100. However, the support base 130 may be fixed to the bottom of the stirring tank 200 It is also preferable to provide a detachable structure.

Meanwhile, FIG. 15 is a detailed view of the chloride input chamber 100 included in the 'tonbar backalluminous chloride agitation device' to which the present invention can be applied. As shown in FIG. 15, it is preferable that a plurality of free-fall preventing means 120 are attached to the inside of the side of the chloride charging chamber 100 so as to mitigate impact when the agglomerated chloride 900 is charged . More preferably, the plurality of free-fall stoppers 120 are formed in several layers in a stepwise manner so as to surround the four sides of the chloride inlet box 100, 900 are gradually moved downward while being brought into contact with each of the plurality of free fall preventing means 120 in a downward direction so that the charging speed is lowered so as to gradually mitigate the impact and in the course of which the agglomerated chloride 900, That is, the surface surrounding the fastening portion having a high degree of hardening and having a low degree of hardening is partially crushed by the plurality of free-fall stopping means 120 to be peeled off, and in such a case, the clumpy chloride 900 ), A portion having a low degree of hardening is exposed to the outside, so that it can come into direct contact with the stirring water. Therefore, There is an effect that the penetration and agitation of the stirring water can be smoothly performed with respect to the water 900.

15, it is preferable that each of the plurality of free-fall stopping means 120 is formed in a triangular pyramid shape. It is also preferable that the triangular pyramid shape is hollow and has two open sides And a triangular-pyramidal shape in which all the slopes are clogged (the lower right drawing in Fig. 15). With each of the plurality of free fall preventing means 120 having such a structure, when the free fall preventing means 120 contacts when the agglomerated chloride 900 is put in, the sharp corners and the corners of the triangular pyramid come into contact with the agglomerated The surface of the chloride 900 may be progressively crushed and the charging rate of the clumped chloride 900 may be lowered and the surface of the clumped chloride 900 may be pulverized and the interior may be exposed. Since the agglomerated chloride 900 is sequentially brought into contact with each of the free-fall inhibiting means 120 formed stepwise from the top, the loading rate of the agglomerated chloride 900 gradually increases And the surface of the agglomerated chloride 900 is also crushed to a larger size.

The clearance S between the free fall stopping means 120 at the uppermost one of the plurality of free fall stopping means 120 is set such that the size of the lower one side of the agglomerated chloride 900 (In the case of a cylindrical tone bag), it is preferable that the structure is such that the clogged chloride 900 can be brought in contact with the free fall preventing means 120 at the uppermost position while being downwardly moved, It is for this reason.

The free fall preventing means 120a located at the bottom of the plurality of free fall preventing means 120, that is, the free fall preventing means 120a located in contact with the lower surface 140 of the chloride charging chamber 100 It is preferable that the size of the agglomerated chloride 900 is larger than that of the other free fall preventing means 120. This is because when the surface of the agglomerated gallium 900 is excessively crushed in the upper free fall preventing means 120, Can fall directly on the lower surface 140 of the chloride inlet box 100 and can directly impact the upper surface of the chloride input chamber 100. Therefore, by increasing the size of the free fall prevention means 120a at the lower end, Even if the size is reduced in the course of the insertion, it acts as a final blocking means.

FIG. 16 is a conceptual view illustrating the principle of dissolving chloride according to the present invention. The clogged chloride 900 is introduced into the chloride input chamber 100 by the plurality of free-fall prevention means 120 And the driving means 300 turns the rotary shaft 400 and the impeller 500 when the stirring water is filled up to an appropriate level WL in the stirring tank 200 will be. The impeller 500 may rotate integrally with the rotating shaft 400 and may include one or more impellers 500. The two impellers 500a and 500b shown in FIG. The stirring water pushing down the stirring water downward (see the blue arrow), and the stirring water pushed downward enters the lower side 140 of the chloride inlet box 100, and again enters the lower surface 140 of the chloride inlet box 100 And then circulates through the upper portion of the chloride input box 100. The chloride input box 100 is formed of a metal plate having a rectangular shape. In this process, since the blocking plate 110 is attached to the side of the chloride inlet chamber 100 on the side where the impeller 500 is located, the stirring water pushed by the impeller 500 is supplied to the chloride inlet It is possible to prevent direct entry of the agitation water circulated in the chloride input chamber 100 to the impeller 500 and to circulate the water to a remote place. Accordingly, the agglomerated chloride (900) can be gradually dissolved according to the continuous circulation of the agitating water to be made into a snow solution.

Although the present invention has been described with reference to the above examples, the present invention is not necessarily limited to these examples, and various modifications may be made without departing from the scope of the present invention. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10 inlet
11 hopper
20 Moving means
21 Cylinder head 22 Cylinder rod
23 fixing member
30 Cutter Mounting Base
40 cutter
50 Guide rail
60 tone detection sensor
100 chloride input
110 blocking plate 120 free fall prevention means
130 support 140
200 stirring tank
210 Drain pipe 220 Top plate
300 driving means
400 rotary shaft
500 impeller

Claims (5)

The method of the present invention is characterized in that at the inlet of the agitating device which is filled in the ton bag and the whole is hardened and the agglomerated chloride is directly put into the agitation device and then the agglomerated chloride is injected all at once into the agglomerating device A device for temporarily cutting the entire lower portion of a tone bag,
A pair of cutters each capable of reciprocating in a width direction from a center of the inlet to each of two opposing sides of the inlet in a state in which each length is longer than one side of the inlet, Mounting base;
A plurality of cutters parallel to the width direction of the cutter mount and fixed vertically to the upper surface of each of the cutter mounts;
A pair of moving means connected to each of the cutter mounting bands and capable of simultaneously reciprocating in opposite directions with respect to the respective cutter mounting bands; And
Control means for controlling operation of the pair of moving means; And a cutter-type incision device for incising the lower portion of the tonne bag in the agitating device for agglomerated chloride, The method according to claim 1,
Wherein each of the plurality of cutters has a cross section as viewed in a direction perpendicular to a direction in which the cutter mount is reciprocated

As the shape,

A lower portion of the shape is fixed to the cutter mount,

Characterized in that the upper part of the shape is located in the upper region of the opposite cutter mount, 3. The method of claim 2,
Wherein each of the plurality of cutters

So that a blade is formed on one side of the upper part of the shape, and is formed on the side of the center of the charging port in the direction of progressing toward each of the opposite two sides of the charging port. A cutter-type incision device The method according to claim 1,
Further comprising a pair of guide rails,
Wherein the pair of guide rails are respectively located at two sides of the loading port parallel to the width direction of the cutter mounting base,
And rail insertion grooves are formed on both end surfaces in the longitudinal direction of the cutter mounting base so as to be parallel to a direction in which the cutter mounting base reciprocates,
Wherein the cutter mount is reciprocally moved in a state in which the pair of guide rails are respectively inserted into the rail insertion grooves. 5. The method according to any one of claims 1 to 4,
Further comprising a tone-back detection sensor,
Wherein the tone back sensor detects whether the tone back is input to the input port and transmits a detection signal to the control means,
Characterized in that the control means controls the moving means in accordance with the detection signal, characterized in that the cutter type incision device

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