JP2008087781A - Container for transporting component - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a container for transporting a component, which can prevent inclustion of foreign matter such as dust, and which can reduce an occupied space in stacking. <P>SOLUTION: This container 1 for transporting the component includes a container body 2 which includes a main body-side storage portion 22 and a main body-side recessed space 23, and a container lid 3 which including a lid-side storage portion 32 and a lid-side recessed space 33. When the plurality of containers 1 are vertically stacked in a state in which phases of them are displaced relative to each other by an angle of 180°, the storage portion 32 of the lower container 1B is arranged in the recessed space 23 of the upside container 1A, and the storage portion 22 of the upside container 1A is arranged in the storage space 33 of the lower container 1B, so that an upper shape line LA of the container lid 3 for the upper container 1A and an outermost shape line LB of the container lid 3 for the lower container 1B can vertically correspond to each other. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a component transport container for storing and transporting a plurality of shaft-shaped components by a container body and a container lid.

  For example, in a hydraulic circuit such as an automatic transmission, shaft-like parts such as a linear solenoid valve that slides with oil pressure are frequently used. Since this shaft-like component slides in the valve portion of the linear solenoid (hydraulic control valve), it is necessary that foreign matters such as dust and dirt are not attached due to static electricity or the like when assembled to the linear solenoid. And the manufacturing process which manufactures a shaft-shaped component, and the assembly | attachment process of assembling a shaft-shaped component to a linear solenoid are separated. Therefore, a large number of shaft-shaped parts manufactured in the manufacturing process are accommodated in a part-transporting container having a predetermined shape and transported to the assembling process.

However, the conventional parts transport container has not been specially devised in its shape. Therefore, before the assembly process is performed, a large number of shaft-shaped parts are taken out of the container for carrying parts, and the many shaft-shaped parts are cleaned to remove dust, dust, etc. adhering to the many shaft-shaped parts. Foreign matter was removed.
Therefore, a large number of shaft-like parts transported by the conventional parts transporting container must be subjected to a cleaning process before the assembly process.

Moreover, in the conventional parts transport container, when the parts transport containers are stacked one above the other, there has been no contrivance for reducing the volume occupied by the upper and lower parts transport containers. For this reason, for example, when a plurality of parts carrying containers are stacked and placed in a carrying box, and when carrying a plurality of parts carrying containers together by this carrying box, the compact inside the carrying box It was not sufficient to accommodate a plurality of parts carrying containers.
Also, when storing a plurality of component carrying containers in a stacked state, it is not sufficient to reduce the space occupied by the plurality of component carrying containers.

  By the way, for example, Cited Document 1 discloses a business-use plastic egg container for accommodating and transporting a plurality of eggs. In this plastic egg container, a device has been devised that can stably hold a large number of eggs even in a stacked state of the container body by using three container bodies and a lid. In other words, this plastic egg container is made by rotating the three container main bodies alternately horizontally by 90 degrees, stacking them in different directions, and effectively using the space between the container main bodies to produce a large number of eggs. It is comprised so that it may hold | maintain stably so that it may not fall during conveyance.

  However, the plastic egg container of Patent Document 1 is not devised to prevent the entry of foreign matters such as dust and dust, and reduces the occupied space when stacking a plurality of parts carrying containers. No ingenuity has been made.

Registered Utility Model No. 3064181

  The present invention has been made in view of such a conventional problem, and can provide a component carrying container that can prevent foreign matters such as dust and dirt from being mixed and can reduce the occupied space when stacked. It is something to be offered.

The present invention comprises a container main body arranged on the lower side and a container lid that covers the opening of the container main body from above, and when the container main body and the container lid are combined, a plurality of shafts are formed by the container main body. A component carrying container configured to receive one side in the axial direction of the cylindrical part and to receive the other side in the axial direction of the plurality of axial parts by the container lid,
The container main body is formed by projecting downward from the main body side reference plate portion, and a plurality of main body side accommodating portions for arranging one axial direction side of the plurality of shaft-shaped parts inside, and the main body side reference plate portion A plurality of body-side concave spaces formed by being surrounded by the plurality of body-side housing portions on the lower surface;
The container lid is formed so as to protrude upward from the lid side reference plate portion, and has a plurality of lid side accommodating portions for arranging the other axial side of the plurality of shaft-shaped parts therein, and the lid side reference plate portion. It has a plurality of lid-side recessed spaces formed on the upper side surface surrounded by the plurality of lid-side housing portions,
On the entire circumference of the edge of the lid side reference plate portion of the container lid, a flange for covering the entire circumference of the edge of the body side reference plate portion of the container body is formed upright,
When the two parts transporting containers are stacked one above the other with their phases shifted from each other by 90 ° or 180 °, the main body side concave space in the upper parts transporting container is placed in the lower part transporting container. In the upper part carrying container, the lid side accommodating part is arranged, and the main body side containing part in the upper part carrying container is arranged in the lid side concave space in the lower part carrying container. The outermost line of the container lid and the outermost line of the container lid in the lower component-transporting container are configured to coincide in the vertical direction. 1).

  The component transport container of the present invention accommodates and transports a plurality of shaft-shaped components by a container body and a container lid. In this component transporting container, when accommodating a plurality of shaft-shaped parts by combining the opposing inner surface of the main body side reference plate portion of the container body and the opposing inner surface of the lid side reference plate portion of the container lid, Each shaft-like component is held by each main body side accommodating portion of the container main body and each lid side accommodating portion of the container lid. At this time, the entire periphery of the edge portion of the main body side reference plate portion of the container body can be covered with a flange formed on the entire periphery of the edge portion of the lid side reference plate portion of the container lid.

  As a result, when a plurality of shaft-like parts are accommodated by the component transport container, foreign matter such as dust and dust is introduced from the gap between the container main body and the container lid into each main body side accommodating portion and each lid side accommodating portion. It can prevent mixing. Therefore, for example, after manufacturing a plurality of shaft-shaped components, the plurality of shaft-shaped components housed in the component transport container need not be cleaned before being assembled to members such as various bodies. be able to.

Further, in the parts transporting container according to the present invention, a device for reducing the occupied space when a plurality of parts transporting containers are stacked up and down is provided.
In other words, the parts carrying container according to the present invention can be used for carrying the upper parts when the two parts carrying containers are stacked up and down in a state where their phases are shifted by 90 ° or 180 ° from each other (changed direction). The lid-side receiving portion in the lower part carrying container is arranged in the main body side concave space in the container, and the main body side housing in the upper part carrying container is placed in the lid side concave space in the lower part carrying container. Are arranged so that the outermost line of the container lid in the upper part carrying container and the outermost line of the container lid in the lower part carrying container coincide with each other in the vertical direction.

Thereby, the occupied space which several container for stacking up and down occupies in an up-down direction and a horizontal direction (direction orthogonal to an up-down direction) can be reduced.
Therefore, the parts transport container of the present invention is, for example, stacked in a transport box in a state where a plurality of parts transport containers are stacked and the plurality of stacked parts transport containers are horizontally aligned. When placed in the container, it can be stored compactly in this transport box. In addition, the parts transport container of the present invention, for example, when stacking a plurality of parts transport containers and storing a plurality of stacked parts transport containers in a horizontally aligned state, The occupied space occupied by the parts carrying container can be reduced.

  Therefore, according to the component carrying container of the present invention, it is possible to prevent foreign matters such as dust and dirt from being mixed, and the occupied space when stacked can be reduced.

A preferred embodiment of the present invention described above will be described.
In the present invention, the shaft-like parts housed by the body-side housing part and the lid-side housing part do not necessarily have the same shape, and can have various shapes.

  In addition, the edge of the main body side reference plate portion of the container main body has a pair of main body side first side portions formed in parallel with each other and a pair of main body side first side portions formed in parallel with each other orthogonal to the main body side first side portion. A pair of lids having a substantially quadrangular shape with the body side second side, and the edges of the lid side reference plate portion of the container lid formed parallel to each other along the body side first side It has a substantially quadrangular shape with a side first side and a pair of lid side second sides formed in parallel to each other so as to be perpendicular to the lid side first side and along the main body side second side. The plurality of main body side accommodating portions are arranged at a predetermined first pitch interval parallel to the main body side first side portion and at a predetermined second pitch interval parallel to the main body side second side portion. The plurality of lid-side accommodation portions are arranged between the first pitches in parallel to the lid-side first side portion. Are arranged in parallel with the lid-side second side at the second pitch interval and arranged in a lattice pattern, and the lid is located at a position closest to the one lid-side first side. One side first dimension from the center of the plurality of lid side accommodating portions arranged in parallel to the side first side portion to the one lid side first side portion is closest to the other lid side first side portion. The half of the second pitch is added to the first dimension of the other side from the center of the plurality of lid-side receiving portions arranged in parallel to the lid-side first side portion at the position to the other lid-side first side portion. The first lid side second from the center of the plurality of lid side accommodating portions arranged in parallel with the lid side second side portion at a position closest to the one lid side second side portion. One side second dimension to the side is arranged in parallel to the lid side second side at a position closest to the other lid side second side. It is the dimension which added the half of the said 1st pitch to the other side 2nd dimension from the center of a plurality of lid side accommodation parts to the other above lid side 2nd side part, and the above-mentioned container for parts transportation is When the two parts carrying containers are stacked one above the other with the phase shifted by 180 °, the outermost line of the container lid in the upper parts carrying container and the lower parts carrying container It is preferable that the outermost contour line of the container lid in FIG.

In this case, a large number of shaft-shaped parts can be accommodated in a grid-like part transporting container in a substantially rectangular plane, and the number of shaft-shaped parts per unit area of the part transporting container can be stored. It can be increased effectively.
Further, in this case, the first dimension on one side is formed to a dimension obtained by adding half of the second pitch to the first dimension on the other side, and the second dimension on the one side is set to the first pitch on the other side second dimension. When the two parts transport containers are stacked up and down with the phase shifted by 180 ° (changed direction), the container lid in the upper part transport container is formed by forming the size to the half. It is possible to easily form a configuration in which the outermost line and the outermost line of the container lid of the lower part carrying container coincide with each other in the vertical direction.

Further, the main body side reference plate portion of the container body and the lid side reference plate portion of the container lid can be formed in a substantially rectangular shape or a substantially square shape.
In addition, the plurality of lid-side accommodating portions formed side by side at the first pitch interval and the second pitch interval are not necessarily arranged in a lattice shape parallel to the main body side first side portion and the main body side second side portion. Alternatively, they can be arranged in a lattice shape (staggered shape) that is inclined with respect to the main body side first side portion and the main body side second side portion. In this case, for example, the lid side accommodating portions adjacent to each other can be arranged with an angle of 45 °.

  In the container lid in this case, the one side first dimension, the other side first dimension, the one side second dimension, and the other side second dimension can all be the same. Further, the first dimension on the one side and the first dimension on the other side can be made the same, and the second dimension on the one side and the second dimension on the other side can be made the same. And when the main body side reference plate part of the container body and the lid side reference plate part of the container lid are formed in a substantially square shape, when the upper and lower parts transport containers are stacked by shifting the phase by 90 ° or 180 °, The outermost line of the container lid in the upper part carrying container and the outermost line of the container lid in the lower part carrying container can be matched in the vertical direction. Further, when the container body and the container lid are formed in a substantially rectangular shape, when the upper and lower parts transport containers are stacked by shifting the phase by 180 °, the outermost line of the container lid in the upper parts transport container, The outermost contour line of the container lid in the lower part carrying container can be matched in the vertical direction.

Further, the container main body has a main body side stepped portion formed by drawing the entire formation region of the plurality of main body side accommodating portions in a step shape downward from the main body side reference plate portion, It is preferable that the plurality of main body side accommodating portions are further formed by drawing from the main body side throttle stepped portion.
In this case, a plurality of main body side accommodation portions can be drawn with respect to the main body side drawing stepped portion formed by drawing with respect to the main body side reference plate portion. Therefore, the plurality of main body side accommodating portions can be easily deeply drawn.

In addition, the container lid has a lid-side throttle step portion formed by drawing the entire formation region of the plurality of lid-side storage portions in a step shape upward from the lid-side reference plate portion, It is preferable that the plurality of lid-side receiving portions are further formed by drawing from the lid-side drawing stepped portion (claim 4).
In this case, a plurality of lid-side receiving portions can be drawn with respect to the lid-side drawn stepped portion that is drawn with respect to the lid-side reference plate portion. Therefore, the plurality of lid-side accommodation portions can be easily drawn deeply.

Further, the plurality of main body side accommodation portions arranged in parallel to the main body side first side portion and the plurality of main body side accommodation portions arranged in parallel to the main body side second side portion are the main body side reference plate portions. It is preferable that they are connected by a main-unit-side throttle wall portion that is shaped downward from the top (Claim 5).
In this case, the strength of the plurality of main body side accommodating portions in the container main body can be easily improved.

Further, the main body side diaphragm wall portion that connects the plurality of main body side accommodation portions arranged in parallel to the main body side first side portion at a position closest to the pair of main body side first side portions, and the pair of main bodies. The main body side diaphragm wall portion that connects the plurality of main body side accommodation portions arranged in parallel to the main body side second side portion at a position closest to the second side side portion is a depth of the remaining main body side throttle wall portion. It is preferable to mold deeper than the above (claim 6).
In this case, the strength of the main body side housing portion at the outermost peripheral position where the load is most easily applied among the plurality of main body side housing portions in the container main body can be improved more than the strength of the remaining main body side housing portions. .

Further, the plurality of lid-side accommodation portions arranged in parallel to the lid-side first side portion, and the plurality of lid-side accommodation portions arranged in parallel to the lid-side second side portion are the lid-side reference plate portions. It is preferable that they are connected by a lid-side throttle wall portion formed upward from the top (Claim 7).
In this case, the strength of the plurality of lid-side accommodation portions in the container lid can be easily improved.

Further, the lid-side diaphragm wall portion that connects the plurality of lid-side accommodation portions arranged in parallel to the lid-side first side portion at a position closest to the pair of lid-side first side portions, and the pair of lids The lid side diaphragm wall portion that connects the plurality of lid side accommodation portions arranged in parallel to the lid side second side portion at a position closest to the side second side portion is a depth of the remaining lid side throttle wall portion. It is preferable to mold deeper than this (claim 8).
In this case, among the plurality of lid-side accommodation portions in the container lid, the strength of the lid-side accommodation portion at the outermost peripheral position where the load is most easily applied can be improved more than the strength of the remaining lid-side accommodation portions. .

Further, the main body side reference plate portion of the container main body has a main body side container handling recess formed by cutting out an intermediate position of the main body side second side portion, and the lid side reference of the container lid The plate portion has a lid-side container handling recess formed by cutting out a position corresponding to the body-side container handling recess at an intermediate position of the lid-side second side portion, and the flange includes: It is preferable to form along the shape of the said lid | cover side reference | standard board part (Claim 9).
In this case, an operator having a component carrying container can hold the component carrying container by placing a finger on the lid side container handling recess covering the main body side container handling recess. Therefore, for example, the worker can easily lift even a component carrying container in a state of being arranged side by side in a horizontal direction (a direction perpendicular to the vertical direction).

Moreover, it is preferable that the said container main body and the said container cover shape | mold the resin sheet material which has electroconductivity by the vacuum forming method (Claim 10).
In this case, a thin and lightweight container body and container lid can be easily formed. Further, it is possible to effectively prevent foreign matters such as dust and dirt from adhering to the container main body and the container lid due to static electricity or the like.

The shaft-shaped component is preferably a linear solenoid valve.
In this case, the plurality of linear solenoid valves can be stably accommodated in the component carrying container in a state in which foreign matters such as dust and dirt are prevented from being mixed.

In the following, an embodiment of the component carrying container of the present invention will be described with reference to the drawings.
As shown in FIGS. 1 to 4, the component carrying container 1 of this example includes a container main body 2 disposed on the lower side and a container lid 3 that covers the opening of the container main body 2 from the upper side. When the container lid 3 is combined, the container main body 2 accommodates one axial side of the many axial parts 7 and the container lid 3 accommodates the other axial side of the numerous axial parts 7. It is.

As shown in FIGS. 2 to 4, the container body 2 is formed so as to protrude downward from the body-side reference plate portion 21 and accommodates a large number of body-side housings for arranging one axial side of a large number of shaft-like parts 7 therein. Part 22 and a large number of body-side concave spaces 23 formed on the lower surface 202 of the body-side reference plate part 21 so as to be surrounded by a large number of body-side accommodating parts 22.
As shown in FIGS. 1, 3, and 4, the container lid 3 is formed so as to protrude upward from the lid-side reference plate portion 31. The lid side accommodating portion 32 and a large number of lid side concave spaces 33 formed on the upper side surface 302 of the lid side reference plate portion 31 surrounded by the numerous lid side accommodating portions 32 are provided.

As shown in FIGS. 3 and 4, the entire circumference of the edge of the lid-side reference plate portion 31 of the container lid 3 covers the entire circumference of the edge of the body-side reference plate portion 21 of the container body 2. A flange 313 is formed upright.
As shown in FIGS. 5 to 7, the component carrying container 1 of this example is stepped up and down with the two component carrying containers 1 being 180 ° out of phase with each other (with the orientation changed). When stacked, the lid-side accommodation portion 32 in the lower component-transporting container 1B is disposed in the body-side concave space 23 in the upper component-transporting container 1A, and the lid side in the lower component-transporting container 1B In the concave space 33, the main body side accommodating portion 22 in the upper part carrying container 1A is arranged, and the outermost line LA of the container lid 3 in the upper part carrying container 1A and the lower part carrying container 1B The outermost line LB of the container lid 3 is configured to coincide with the upper and lower direction.

  The outermost line LA (LB) of the container lid 3 refers to a line connecting the outermost parts of the lid-side reference plate portion 31 of the container lid 3, and a lid-side container described later in FIGS. 1 and 7. When there is a handling recess 35, it means a line in which the formation portion of the lid-side container handling recess 35 is supplemented by a two-dot chain line.

Below, it demonstrates in full detail with FIGS. 1-9 about the container 1 for parts conveyance of this example.
As shown in FIG. 5, the shaft-like component 7 that is housed and transported in the component transport container 1 of this example is a linear solenoid valve 7 that is disposed in the valve portion of the linear solenoid that constitutes the hydraulic circuit of the automatic transmission. The linear solenoid valve 7 has a small-diameter portion 71 and a large-diameter portion 72 having a diameter larger than that of the small-diameter portion 71. The linear solenoid valve 7 is controlled by the oil pressure applied to the end surface in the axial direction of the large-diameter portion 72. It slides in the valve part.

Further, in the component carrying container 1 of this example, the linear solenoid valve 7 having various shapes can be accommodated by the large number of main body side accommodating portions 22 and lid side accommodating portions 32.
As shown in FIGS. 8 and 9, the parts transport container 1 of the present example is stacked in the vertical direction and arranged in the horizontal direction (the direction perpendicular to the vertical direction) in the box-shaped transport container 8. A plurality of them can be arranged and transported together through the transporting container 8.
Further, the transport container 8 includes a substantially rectangular bottom 81 and side walls 82 erected from the edges of the four sides of the bottom 81. And the container 8 for a conveyance of this example is comprised so that the container 1 for 2 parts stacked states can be accommodated in the state of 2 rows in a horizontal direction, and 3 rows in a vertical direction.

  The container body 2 and the container lid 3 in this example are formed by molding a resin sheet material having conductivity by a vacuum forming method. Thereby, the container 1 for parts conveyance of this example can be shape | molded thinly and lightweight, restraining manufacturing cost low. The container body 2 and the container lid 3 of this example are formed by vacuum forming a polyethylene terephthalate sheet on which a conductive material is printed. In this example, since a material other than carbon is used for the container body 2 and the container lid 3, the light-transmitting property is higher than when carbon is used, and the shaft-like component 7 accommodated in the component transporting container 1 is visually recognized. Excellent in properties.

The component carrying container 1 of the present example has a substantially rectangular plane shape, and is configured to accommodate a large number of shaft-like components 7 arranged in a grid in an upright state.
Further, as shown in FIG. 2, the edge of the main body side reference plate portion 21 of the container main body 2 is orthogonal to the pair of main body side first side portions 211 formed in parallel with each other and the main body side first side portion 211. And a pair of main body side second side portions 212 formed in parallel with each other. As shown in FIG. 1, the edge of the lid-side reference plate portion 31 of the container lid 3 includes a pair of lid-side first side portions 311 formed in parallel to each other along the main body-side first side portion 211, and It has a substantially rectangular shape with a pair of lid-side second side portions 312 that are orthogonal to the lid-side first side portion 311 and formed in parallel with each other along the main body-side second side portion 212.

  Here, in the container main body 2 of this example, a direction parallel to the pair of main body side first side portions 211 is referred to as a lateral direction S, and a direction parallel to the pair of main body side second side portions 212 is referred to as a vertical direction U. . In the container lid 3 of this example, a direction parallel to the pair of lid-side first sides 311 is referred to as a lateral direction S, and a direction parallel to the pair of lid-side second sides 312 is referred to as a longitudinal direction U.

As shown in FIG. 2, a large number of the main body side accommodating portions 22 of this example are arranged in parallel with the main body side first side portion 211 at a predetermined first pitch P <b> 1 and parallel to the main body side second side portion 212. Are arranged at intervals of a predetermined second pitch P2 and arranged in a lattice pattern. And the main body side accommodating part 22 is formed in the main body side reference | standard board part 21 of the container main body 2 along with both the horizontal direction S and the vertical direction U in parallel.
In addition, as shown in FIG. 1, a large number of the lid-side accommodation portions 32 of this example are arranged in parallel with the lid-side first side portion 311 at the interval of the first pitch P1 and at the lid-side second side portion 312. A large number are arranged in parallel at intervals of the second pitch P2 and arranged in a lattice pattern. The lid-side accommodating portion 32 is formed in parallel in both the horizontal direction S and the vertical direction U in the lid-side reference plate portion 31 of the container lid 3.

  As shown in FIG. 1, in the container lid 3 of this example, the centers of a large number of lid-side accommodating portions 32 arranged in parallel to the lid-side first side portion 311 at a position closest to the one lid-side first side portion 311A. The first side dimension S1 from the first lid side first side portion 311A to the first lid side first side portion 311B is parallel to the first lid side first side portion 311 at a position closest to the other lid side first side portion 311B. The dimension is obtained by adding half of the second pitch P2 to the other first dimension S2 from the center of the lid side accommodating part 32 to the other lid side first side part 311B. That is, the one side first dimension S1 of this example is from the center of a large number of lid side concave spaces 33 arranged in parallel to the lid side first side portion 311 at a position closest to the other lid side first side portion 311B. This is the same as the other-side recess first dimension T1 up to the other lid-side first side 311B.

  Further, as shown in the figure, in the container lid 3 of this example, a number of lid side accommodation portions 32 arranged in parallel to the lid side second side portion 312 at the position closest to the one lid side second side portion 312A. The one-side second dimension U1 from the center to the one lid-side second side 312A is arranged in parallel to the lid-side second side 312 at a position closest to the other lid-side second side 312B. The dimension is obtained by adding half of the first pitch P1 to the other second dimension U2 from the center of the large number of lid-side accommodation parts 32 to the other lid-side second side 312B. That is, the one-side second dimension U1 of this example is from the center of a large number of lid-side concave spaces 33 arranged in parallel to the lid-side second side portion 312 at a position closest to the other lid-side second side portion 312B. This is the same as the other-side concave second dimension V1 up to the other lid-side second side 312B.

  As shown in FIG. 5 and FIG. 7, when the plurality of component carrying containers 1 are stacked one above the other with the phases shifted by 180 °, as shown in FIGS. The outermost contour line LA of the container lid 3 and the outermost contour line LB of the container lid 3 in the lower component carrying container 1B can be matched in the vertical direction.

As shown in FIGS. 1 and 3, the container lid 3 of the present example is formed by drawing the entire formation region of the large number of lid-side accommodation portions 32 in a step shape upward from the lid-side reference plate portion 31. A lid-side diaphragm step 310 is formed. In addition, the large number of lid-side accommodation portions 32 are formed by drawing from the lid-side drawing step portion 310.
When the container lid 3 of this example is formed from a conductive resin sheet material by vacuum forming, a large number of the container-side lid stepped portion 310 formed by drawing the lid-side reference plate portion 31 is formed. The lid side accommodating portion 32 can be further formed by drawing. Therefore, a large number of lid-side accommodation portions 32 can be easily drawn deeply.

As shown in FIGS. 2 to 4, in the container main body 2 of the present example, a large number of main body side accommodating portions 22 arranged in parallel with the main body side first side portion 211 and the main body side second side portion 212 are parallel. A large number of main body side accommodating portions 22 arranged in line with each other are connected by a main body side throttle wall portion 24 formed by drawing downward from the main body side reference plate portion 21.
As shown in FIGS. 1, 3, and 4, in the container lid 3 of this example, a large number of lid-side accommodating portions 32 arranged in parallel with the lid-side first side 311 and the lid-side second side A large number of lid-side accommodation portions 32 arranged in parallel with 312 are connected by a lid-side diaphragm wall portion 34 formed by drawing upward from the lid-side reference plate portion 31.

  And when the container main body 2 is positioned on the lower side and the plurality of parts transporting containers 1 are stacked one above the other, the main body side throttle wall portion in the container main body 2 is disposed around the lid side accommodating portion 32 in the container lid 3. 24 can be enclosed. Further, at this time, the periphery of the main body side accommodating portion 22 in the container main body 2 can be surrounded by the lid side throttle wall portion 34 in the container lid 3. Thereby, it is possible to make it difficult for the component carrying containers 1 in the stacked state to be displaced from each other in the horizontal direction.

  Further, as shown in FIG. 4, in the container main body 2 of the present example, a large number of main body side accommodating portions 22 arranged in parallel with the main body side first side portion 211 at positions closest to the pair of main body side first side portions 211. The main body side connecting wall 22A and the main body side housing portions 22 arranged in parallel to the main body side second side portion 212 at positions closest to the pair of main body side second side portions 212. The side throttle wall portion 24 </ b> A is drawn deeper than the remaining depth of the main body side throttle wall portion 24. Thereby, the strength of the main body side accommodation portion 22 at the outermost peripheral position where the load is most easily applied among the many main body side accommodation portions 22 in the container main body 2 is improved more than the strength of the remaining main body side accommodation portions 22. Can do.

  Further, as shown in the figure, in the container lid 3 of the present example, a large number of lid-side accommodation portions 32 arranged in parallel to the lid-side first side portion 311 at positions closest to the pair of lid-side first side portions 311. A lid for connecting a large number of lid-side accommodation portions 32 arranged in parallel to the lid-side second side portion 312 at a position closest to the lid-side second side portion 312 and the lid-side diaphragm wall portion 34 </ b> A that couples them together The side throttle wall 34A is drawn deeper than the remaining depth of the lid side throttle wall 34. Thereby, the strength of the lid side accommodation part 32 in the outermost peripheral position where the load is most easily applied among the many lid side accommodation parts 32 in the container lid 3 is improved more than the strength of the remaining lid side accommodation parts 32. Can do.

  As shown in FIGS. 1 and 2, the main body side reference plate portion 21 of the container main body 2 has a main body side container handling recess 25 formed by cutting out an intermediate position of the main body side second side portion 212. Yes. On the other hand, the lid-side reference plate portion 31 of the container lid 3 is a lid-side container handling recess formed by cutting out a position corresponding to the body-side container handling recess 25 at an intermediate position of the lid-side second side 312. 35. The flange 313 formed on the entire periphery of the edge of the lid-side reference plate portion 31 of the container lid 3 is formed along the shape of the lid-side second side 312 including the shape of the lid-side container handling recess 35. It is.

  By forming the main body side container handling concave portion 25 and the lid side container handling concave portion 35, an operator holding the component carrying container 1 puts his finger on the lid side container handling concave portion 35 covering the main body side container handling concave portion 25. Thus, the component carrying container 1 can be provided. Therefore, the operator can easily lift even the component transport container 1 in a state of being arranged side by side in the horizontal direction (direction perpendicular to the vertical direction) in the transport container 8.

  The component carrying container 1 of the present example has a large number of shaft-like parts 7 arranged in the main body side accommodating portion 22 with the container main body 2 facing down, and the container main body 2 is covered with the container lid 3 so that a large number of The shaft-like component 7 is accommodated and transported. In this component carrying container 1, the opposing inner side surface 201 of the main body side reference plate portion 21 of the container body 2 and the opposing inner side surface 301 of the lid side reference plate portion 31 of the container lid 3 are combined to form a large number of shafts. When the components 7 are accommodated, the shaft-like components 7 are held by the body-side accommodation portions 22 of the container body 2 and the lid-side accommodation portions 32 of the container lid 3, respectively. At this time, the entire circumference of the edge portion of the main body side reference plate portion 21 of the container body 2 can be covered by the flange 313 formed on the entire circumference of the edge portion of the lid side reference plate portion 31 of the container lid 3.

  As a result, when a large number of shaft-like parts 7 are accommodated by the component transporting container 1, the gaps between the container main body 2 and the container lid 3 enter the main body side accommodating portions 22 and the lid side accommodating portions 32. It is possible to prevent foreign matters such as dust and dust from entering. Therefore, after manufacturing a large number of shaft-shaped parts 7, a large number of shaft-shaped parts 7 (in this example, linear solenoid valves 7) housed in the component-transporting container 1 have various bodies (in this example, linear solenoid valves 7). It is possible to eliminate the need for cleaning before assembling to a member such as a solenoid.

Moreover, in the component transport container 1 of the present example, a device is devised for reducing the occupied space when the plurality of component transport containers 1 are stacked up and down.
That is, as shown in FIG. 5 and FIG. 7, the component carrying container 1 of the present example is configured such that when a plurality of component carrying containers 1 are stacked one above the other in a state where the directions are mutually changed by 180 °, The lid side accommodating portion 32 in the lower part carrying container 1B is arranged in the main body side recessed space 23 in the container 1A for use, and the upper part is placed in the lid side recessed space 33 in the lower part carrying container 1B. The main body side accommodating portion 22 in the transporting container 1A is arranged, and the outermost line LA of the container lid 3 in the upper part transporting container 1A and the outermost line LB of the container lid 3 in the lower part transporting container 1B. Are matched in the vertical direction.

  As a result, when a plurality of component transport containers 1 that house a large number of shaft-like parts 7 with the container body 2 positioned on the lower side are stacked up and down, the plurality of stacked component transport containers 1 are The occupied space in the vertical direction and the horizontal direction (direction orthogonal to the vertical direction) can be reduced.

  Therefore, as shown in FIGS. 8 and 9, the component carrying container 1 of the present example stacks a plurality of component carrying containers 1 and horizontally arranges the plurality of component carrying containers 1 in the stacked state. When arranged in the transporting container 8 in an aligned state, it can be stored in the transporting container 8 in a compact manner. In addition, the component carrying container 1 of the present example is used when stacking a plurality of component carrying containers 1 and storing a plurality of stacked component carrying containers 1 in a state of being arranged in a horizontal direction. The occupied space occupied by the parts transporting container 1 can be reduced.

  Therefore, according to the component carrying container 1 of the present example, it is possible to prevent foreign matters such as dust and dirt from being mixed, and the occupied space when stacked can be reduced.

  The plurality of main body side accommodation portions 22 and the plurality of lid side accommodation portions 32 formed side by side at the intervals of the first pitch P1 or the second pitch P2 are not necessarily parallel to the horizontal direction S and the vertical direction U. For example, as shown in FIGS. 10 and 11, they may be arranged in a lattice shape (staggered shape) inclined with respect to the horizontal direction S and the vertical direction U as shown in FIGS. 10 and 11. In this case, in the container main body 2, the main body side accommodating portions 22 adjacent to each other can be arranged with an angle of 45 °, and in the container lid 3, the adjacent lid side accommodating portions 32 are also adjacent to each other. Can be arranged with an angle of 45 °.

In this case, the main body side reference plate portion 21 of the container body 2 and the lid side reference plate portion 31 of the container lid 3 are not only formed in a substantially rectangular shape as shown in FIG. 10 but also substantially as shown in FIG. It can also be formed in a square shape.
In the container lid 3 in this case, the one-side first dimension S1, the other-side first dimension S2, the one-side second dimension U1, and the other-side second dimension U2 can all be the same. The one-side first dimension S1 and the other-side first dimension S2 may be the same, and the one-side second dimension U1 and the other-side second dimension U2 may be the same.

  In the component carrying container 1 of FIG. 10, when the upper and lower component carrying containers 1 are stacked with a 180 ° phase shift, the outermost line LA of the container lid 3 in the upper component carrying container 1 and The uppermost contour line LB of the container lid 3 in the lower component transporting container 1 can be matched in the vertical direction. Further, in the component carrying container 1 of FIG. 11, when the upper and lower component carrying containers 1 are stacked 90 ° or 180 ° out of phase, the outermost shape of the container lid 3 in the upper component carrying container 1 is set. The line LA and the outermost line LB of the container lid 3 in the lower component carrying container 1 can be matched in the vertical direction.

The top view which shows the container lid in the container for components conveyance in an Example. The top view which shows the container main body in the container for components conveyance in an Example. It is a figure which shows the container main body and container lid in the container for components conveyance in an Example, and is sectional explanatory drawing equivalent to the AA line in FIG. It is a figure which shows the container main body and container lid in the container for components conveyance in an Example, and is sectional explanatory drawing equivalent to the BB line in FIG. Cross-sectional explanatory drawing which shows the state which piled up the container for parts conveyance in the upper and lower sides in an Example. In the embodiment, when stacking the container for carrying parts up and down, the lower side of the main body side reference plate portion of the container body and the upper side surface of the lid side reference plate portion of the container lid are turned 180 ° to each other. Cross-sectional explanatory drawing which shows the state made to oppose in the state. The top view which shows typically a mode that the container for components conveyance in an Example is stacked up and down. The top view which shows the state which accommodated the several container for components conveyance in the container for conveyance in an Example. Sectional drawing in the Example which shows the state which accommodated the several container for container conveyance in the container for conveyance. The top view which shows the container lid in the container for another components conveyance in an Example. The top view which shows the container lid in the container for another components conveyance in an Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Component conveyance container 2 Container main body 201 Opposite inner side surface 202 Lower side surface 21 Main body side reference | standard board part 211 Main body side 1st side part 212 Main body side 2nd side part 22 Main body side accommodating part 23 Main body side recessed space 24 Main body side throttle wall Portion 25 Main body side container handling recess 3 Container lid 301 Opposite inner side 302 Upper side 31 Lid side reference plate 310 Lid side throttle step 311 Lid side first side 312 Lid side second side 313 Flange 32 Lid side accommodation Part 33 Lid-side concave space 34 Lid-side throttle wall part 35 Lid-side container handling concave part 7 Axial component 8 Transport container LA, LB Outermost line S1 One side first dimension S2 Other side first dimension U1 One side second Dimension U2 Second side second dimension P1 First pitch P2 Second pitch

Claims (11)

A container body disposed on the lower side, and a container lid that covers the opening of the container body from the upper side, and when the container body and the container lid are combined, A component carrying container configured to accommodate one side in the direction and to accommodate the other side in the axial direction of the plurality of axial components by the container lid,
The container main body is formed by projecting downward from the main body side reference plate portion, and a plurality of main body side accommodating portions for arranging one axial direction side of the plurality of shaft-shaped parts inside, and the main body side reference plate portion A plurality of body-side concave spaces formed by being surrounded by the plurality of body-side housing portions on the lower surface;
The container lid is formed so as to protrude upward from the lid side reference plate portion, and has a plurality of lid side accommodating portions for arranging the other axial side of the plurality of shaft-shaped parts therein, and the lid side reference plate portion. It has a plurality of lid-side recessed spaces formed on the upper side surface surrounded by the plurality of lid-side housing portions,
On the entire circumference of the edge of the lid side reference plate portion of the container lid, a flange for covering the entire circumference of the edge of the body side reference plate portion of the container body is formed upright,
When the two parts transporting containers are stacked one above the other with their phases shifted from each other by 90 ° or 180 °, the main body side concave space in the upper parts transporting container is placed in the lower part transporting container. In the upper part carrying container, the lid side accommodating part is arranged, and the main body side containing part in the upper part carrying container is arranged in the lid side concave space in the lower part carrying container. A container for transporting parts, characterized in that an outermost line of the container lid and an outermost line of the container lid in the lower part transporting container are matched in the vertical direction. The edge part of the said main body side reference | standard board part of the said container main body is a pair of main body side 1st side part formed in parallel with each other, and it forms in parallel with each other orthogonally to this main body side 1st side part. A substantially quadrangular shape with a pair of main body side second sides,
An edge of the lid-side reference plate portion of the container lid is orthogonal to the pair of lid-side first sides formed parallel to each other along the main-body-side first side, and the lid-side first side. And having a substantially square shape with a pair of lid side second sides formed in parallel to each other along the main body side second side,
The plurality of main body side accommodating portions are arranged in parallel at the predetermined first pitch interval parallel to the main body side first side portion, and are arranged in plural at predetermined second pitch intervals in parallel to the main body side second side portion. Are arranged in a shape,
A plurality of the lid-side receiving portions are arranged in parallel at the first side of the lid side at the first pitch interval, and are arranged in parallel at the second pitch of the lid side at the second pitch interval to form a lattice shape. Arranged to form,
One side first from the center of the plurality of lid-side housings arranged in parallel to the lid-side first side at a position closest to the one lid-side first side to the one lid-side first side One dimension is from the center of the plurality of lid-side housings arranged in parallel to the lid-side first side at the position closest to the other lid-side first side to the other lid-side first side. Is the dimension obtained by adding half of the second pitch to the first dimension on the other side of
One side first from the center of the plurality of lid-side housings arranged in parallel to the lid-side second side at the position closest to the one lid-side second side to the one lid-side second side The two dimensions are from the center of the plurality of lid-side housings arranged in parallel to the lid-side second side at the position closest to the other lid-side second side to the other lid-side second side. Is the dimension obtained by adding half of the first pitch to the second dimension on the other side of
When the two parts transport containers are stacked one above the other with the phase shifted by 180 °, the outermost line of the container lid in the upper parts transport container and the lower parts transport container A component transporting container, wherein the container cover is configured so that the outermost line of the container lid coincides in the vertical direction. 3. The main body side throttle stepped portion according to claim 1 or 2, wherein the container main body has a main body side throttle step portion formed by stepping the entire formation region of the plurality of main body side accommodating portions downward from the main body side reference plate portion. Have
The component carrying container, wherein the plurality of main body side accommodating portions are further formed by drawing from the main body side drawn stepped portion. The lid according to any one of claims 1 to 3, wherein the container lid is formed by stepping the entire formation region of the plurality of lid-side accommodation portions upward from the lid-side reference plate portion. It has a side throttle step,
The container for carrying parts according to claim 1, wherein the plurality of lid-side accommodation portions are further formed by drawing from the lid-side drawing stepped portion.   5. The plurality of main body side accommodations according to claim 2, wherein the plurality of main body side accommodation portions arranged in parallel to the main body side first side portion and the plurality of main body side accommodation units arranged in parallel to the main body side second side portion. The parts are connected to each other by a main body side throttle wall portion formed downward from the main body side reference plate portion.   6. The main body side diaphragm wall portion that connects the plurality of main body side accommodating portions arranged in parallel to the main body side first side portion at a position closest to the pair of main body side first side portions, and The main body side diaphragm wall portion that connects the plurality of main body side accommodating portions arranged in parallel to the main body side second side portion at a position closest to the pair of main body side second side portions is the remaining main body side throttle wall. A container for carrying parts, which is molded deeper than the depth of the part.   7. The plurality of lid-side accommodations according to claim 2, wherein the plurality of lid-side accommodation portions arranged in parallel to the lid-side first side portion and the plurality of lid-side accommodations arranged in parallel to the lid-side second side portion. The parts are connected to each other by a lid-side throttle wall portion formed upward from the lid-side reference plate portion.   8. The lid side diaphragm wall portion that connects the plurality of lid side accommodation portions arranged in parallel to the lid side first side portion at a position closest to the pair of lid side first side portions according to claim 7, and The lid-side diaphragm wall that connects the plurality of lid-side housing parts arranged in parallel to the lid-side second side at a position closest to the pair of lid-side second sides is the remaining lid-side diaphragm wall. A container for carrying parts, which is molded deeper than the depth of the part. In any 1 paragraph of Claims 1-8, the above-mentioned main part side standard board part of the above-mentioned container main part has a crevice for main part side container handling formed by notching the middle position of the above-mentioned main part side 2nd side part. And
The lid-side reference plate portion of the container lid has a lid-side container handling recess formed by cutting out a position corresponding to the body-side container handling recess, which is an intermediate position of the lid-side second side portion. And the flange is formed along the shape of the lid-side reference plate.   10. The component carrying container according to claim 1, wherein the container main body and the container lid are formed by molding a conductive resin sheet material by a vacuum forming method.   11. The component transport container according to claim 1, wherein the shaft-shaped component is a linear solenoid valve.

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