JP5945663B1 - Animal trap box - Google Patents

Abstract

A method for connecting each face of a box trap, which can be assembled and disassembled with little effort, has a low possibility of losing parts, and has sufficient strength, and a box trap for animal capture using the connection method. provide. Of the plurality of surface portions forming a closed space for capturing animals, at least one of the plurality of surface portions is bent at 22, 26, 31, 32, 41, 42. , 51, 52 are formed, and the surface portion where the bent portion is formed and the other one surface portion are connected to each other using the bent portion. [Selection] Figure 1

Description

  The present invention relates to an animal trap box trap.

  Conventionally, it has been proposed that a box trap can be assembled and disassembled in order to facilitate transportation and storage of the box trap (for example, see Utility Model Documents 1 and 2). FIG. 27 is a view showing an assembling and disassembling box trap 1 constituted by a metal rod. In FIG. 27, the thickness of the metal bar is ignored, and a part of the right side surface portion 3 is cut out. The box trap 1 includes six surface portions, ie, an upper surface portion 2, a right surface portion 3, a left surface portion 4, a bottom surface portion 5, a rear surface portion 6, and a door surface portion 7 (hereinafter, these six surface portions are referred to as "each surface portion"). Become. Each surface part is comprised so that attachment or detachment is possible. The box trap 1 can be made into a compact form by separating each face part during transportation and storage, and can be made into a form for capturing animals by connecting each face part to each other during use.

  As a configuration for connecting each surface portion of the box trap 1 to each other, Utility Model Literature 1 discloses a configuration using a linear coil, and Utility Model Literature 2 discloses a configuration using 20 wire clips. ing.

Utility model literature

Utility model document 1

  Utility Model Registration No. 3147701

Utility model document 2

  Utility model registration No. 3170855

  However, according to the configuration using the linear coil, it is necessary to rotate the linear coil many times in order to connect or separate the surface portions. Moreover, according to the structure using a wire clip, in order to connect or isolate | separate each surface part, it is necessary to attach or remove many wire clips (for example, 20 pieces). In either case, the labor required to connect or separate the face portions is large. In addition, the assembly and disassembly of the box trap is performed in a mountainous area where there is a lot of vegetation, so there is a high possibility of losing special dedicated parts for connection such as linear coils and wire clips. Furthermore, the rushing force of animals such as captured traps is so great that it sometimes deforms a box trap. For this reason, sufficient strength is required for the structure for connecting the respective surface portions to each other, leading to an increase in the length of dedicated components for connection and an increase in the number of components. SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to connect each face of a box trap with sufficient strength, which can be assembled and disassembled with little effort, has a low possibility of losing parts, and captures animals using the connection method. Is to provide a box trap.

A first problem-solving means of the present invention is an animal trap box trap, having a plurality of surface portions forming a closed space for capturing animals, and a bent portion at an end of at least one of the plurality of surface portions. Are formed, and the surface portion on which the bent portion is formed and the other one surface portion are connected to each other using the bent portion, and the two surface portions connected using the bent portion are the box In the assembly state of the trap, the two surface portions including the bent portion are connected by geometrically constraining members constituting the respective surface portions, and the two surface portions geometrically constrained to each other are The members constituting the surface portion are in contact with each other at at least three contact points, and the relative reaction in at least one direction of the two surface portions around the axis parallel to the sides of the surface portion by the contact reaction force at the contact points, and the The vertical direction, these two relative movement of freedom of the two surface portions is limited, an animal capturing box trap.

The second problem solving means of the present invention is an animal trap box trap, having a plurality of surface portions forming a closed space for capturing animals, and an end of at least one of the two surface portions connected to each other. A bent portion is formed in the portion, and the two surface portions are connected by geometrically constraining members constituting each surface portion including the bent portion in the assembled state of the box trap , The two surface portions that are geometrically constrained to each other are configured such that members constituting each surface portion are in contact with each other at least three contact points, and the contact reaction force at the contact points around an axis parallel to the sides of the surface portions. An animal trap box trap in which relative rotation in at least one direction of the two surface portions and relative movement of the two surface portions in two directions in a direction perpendicular to the side are restricted .

According to a third problem-solving means of the present invention, all or a part of the surface portion on which the bent portion in the first or second problem-solving means is formed is a grid-like metal rod, and the bent portion is the metal rod. consisting of, an animal capture for the box trap.

According to a fourth problem solving means of the present invention, the two face portions geometrically constrained in any one of the first to third problem solving means are combined with geometric restraint and fastening with a bolt and nut. An animal trap box trap that has been connected.

  According to the present invention, it is possible to assemble and disassemble with little effort, and there is a low possibility of losing parts, and there is a sufficient strength. You can get a box trap.

It is a figure which shows the decomposition | disassembly state of a box trap. It is a figure which shows a back surface part. It is a figure which shows a back surface part. It is a figure which shows a door surface part. It is a figure which shows a door surface part. It is a figure explaining the connection method of an upper surface right side part and a right side part. It is a figure explaining the connection method of an upper surface right side part and a right side part. It is a figure explaining the connection method of an upper surface right side part and an upper surface left side part. It is a figure explaining the connection method of an upper surface right side part and an upper surface left side part. It is a figure explaining the assembly procedure of a right side surface part, a left side surface part, a bottom surface part, an upper surface right side part, and an upper surface left side part. It is a figure explaining the assembly procedure of a right side surface part, a left side surface part, a bottom surface part, an upper surface right side part, and an upper surface left side part. It is a figure which shows the connection method of a back surface part and a door surface part, and the structure of a door surface part. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows other embodiment of the connection part of two surface parts. It is a figure which shows the conventional box trap.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following, the same or corresponding elements are denoted by the same reference symbols throughout all the drawings, and redundant description is omitted. In the following explanation, terms such as “upper”, “lower”, “left”, “right”, “back”, “counterclockwise” and the like simply represent the positional relationship in each drawing unless otherwise explained. It does not necessarily match the positional relationship when the real object is placed in a three-dimensional space.

(Configuration of box trap)
The structure of the box trap 1 in this embodiment is demonstrated. The box trap 1 is configured to include a top surface portion 2, a right side surface portion 3, a left side surface portion 4, a bottom surface portion 5, a back surface portion 6, and a door surface portion 7, and the respective surface portions can be connected to and separated from each other. This point is common to the embodiment of the present invention and the prior art shown in FIG. The door surface portion 7 has an entrance for an animal to enter the box trap 1 and a door (not shown) for confining the entered animal in the closed space of the box trap 1. The top surface portion 2, the right side surface portion 3, the left side surface portion 4, the bottom surface portion 5, the back surface portion 6, and the door surface portion 7 are surface portions that form a closed space for capturing animals. As long as a closed space can be formed, the number of face portions is not limited to six. The box trap 1 in the present embodiment has a depth (a depth surface portion 6 and a door surface portion) as compared with a height (a distance between the top surface portion 2 and the bottom surface portion 5) and a width (a distance between the right side surface portion 3 and the left side surface portion 4). 7 is a rectangular parallelepiped shape.

  FIG. 1 is a perspective view showing an upper surface portion 2, a right side surface portion 3, a left side surface portion 4 and a bottom surface portion 5 in an exploded state of the box trap 1. As shown in FIG. 1, the upper surface portion 2, the right side surface portion 3, the left side surface portion 4 and the bottom surface portion 5 are made of a wire mesh made of a grid-like metal rod and a plate material attached to the wire mesh. In FIG. 1, the thickness of the metal bar and the thickness of the plate are ignored. The upper surface portion 2 includes an upper surface right side portion 20 and an upper surface left side portion 21.

  In the present application, a direction toward the outside of each surface portion is referred to as an “outside direction”. For example, at the right end portion of the upper right side portion 20, the right direction in FIG. 1 is the outer direction. Further, in the assembled state of the box trap, the direction from the upper surface right side portion 20, the upper surface left side portion 21, the right side surface portion 3, the left side surface portion 4 or the bottom surface portion 5 toward the connection partner is referred to as “connection partner direction”. For example, in the right end portion of the upper right side portion 20, the downward direction in FIG. 1 is the connection partner direction. A metal rod (extending portion of the upper surface right side portion 20) extending in the outer direction (right direction in FIG. 1) is bent at a right end portion of the upper surface right side portion 20 at right angles to the connection partner direction (down direction in FIG. 1). An upper right side bent portion 22 is formed. An upper surface right side plate member 23 is fixed to the left end portion of the upper surface right side portion 20. An upper surface right back plate member 24 and an upper surface right door side plate member 25 are fixed to the rear surface portion 6 side and the door surface portion 7 side of the upper surface right side portion 20, respectively.

  A metal rod (extending portion of the upper left side portion 21) extending in the outer direction (left direction in FIG. 1) of the upper left side portion 21 is connected to the left end portion of the upper left side portion 21 in the connection partner direction (downward direction in FIG. 1). The upper left side bent portion 26 bent at a right angle is formed. An upper left side plate member 27 is fixed to the right end portion of the upper left side portion 21. On the back surface portion 6 side and the door surface portion 7 side of the top surface left side portion 21, a top surface left back side plate material 28 and a top surface left door side plate material 29 are fixed, respectively. Each of the upper surface right side plate member 23 and the upper surface left side plate member 27 is provided with holes that overlap each other in the assembled state of the box trap.

  A metal rod (extending portion of the right side surface portion 3) extending in the outer direction of the right side surface portion 3 (upward direction in FIG. 1) is perpendicular to the connection partner direction (left direction in FIG. 1) at the upper end portion of the right side surface portion 3. A right side upper side bent portion 31 that is bent into the right side is formed. A metal rod (extending portion of the right side surface portion 3) extending in the outer direction of the right side surface portion 3 (downward direction in FIG. 1) is perpendicular to the connection partner direction (left direction in FIG. 1) at the lower end portion of the right side surface portion 3. A right side lower bent portion 32 bent to the right side is formed. A right side rear plate member 33 and a right side door side plate member 34 are fixed to the rear surface portion 6 side and the door surface portion 7 side of the right side surface portion 3, respectively.

  A metal rod (extending portion of the left side surface portion 4) extending in the outer direction of the left side surface portion 4 (upward direction in FIG. 1) is perpendicular to the connection partner direction (right direction in FIG. 1) at the upper end portion of the left side surface portion 4. A left side upper side bent portion 41 bent to the left side is formed. At the lower end of the left side surface portion 4, a metal rod (the extended portion of the left side surface portion 4 extending in the outer direction of the left side surface portion 4 in the downward direction in FIG. 1) is perpendicular to the connection partner direction (right direction in FIG. 1). A bent left side lower bent portion 42 is formed, and a left side back plate member 43 and a left side door plate member 44 are fixed to the back surface portion 6 side and the door surface portion 7 side of the left side portion 4, respectively. .

  At the left end portion of the bottom surface portion 5, a metal rod (extending portion of the bottom surface portion 5) extending in the outer direction of the bottom surface portion 5 (left direction in FIG. 1) is perpendicular to the connection partner direction (upward direction in FIG. 1). A bent left side bent portion 51 is formed. At the right end portion of the bottom surface portion 5, a metal rod (extending portion of the bottom surface portion 5) extending in the outer direction of the bottom surface portion 5 (right direction in FIG. 1) is perpendicular to the connection partner direction (upward direction in FIG. 1). A bottom right-hand bent portion 52 that is bent in a straight line is formed. A bottom surface side plate material 53 and a bottom surface door side plate material 54 are fixed to the back surface portion 6 side and the door surface portion 7 side of the bottom surface portion 5, respectively.

  FIG. 2 is a perspective view of the back surface portion 6 as viewed from the door surface portion 7 side. FIG. 3 is an enlarged view of the AA cross section of FIG. In FIG. 2, the thickness of the metal bar and the thickness of the angle member are ignored. The back surface portion 6 is composed of a back surface angle member 61 connected in a “B” shape. The angle member is a member having a L-shaped cross section. A metal bar (metal bar 65 or the like) is fixed to the back surface angle member 61.

  FIG. 4 is a view of the door surface portion 7 as viewed from the back surface portion 6 side. 5A is an enlarged view of the arrow A in FIG. 4, FIG. 5B is an enlarged view of the BB section of FIG. 4, and FIG. 5C is an enlarged view of the CC section of FIG. is there. In FIG. 4, the thickness of the angle material is ignored. The door surface portion 7 includes a door surface angle member 71 connected in a “B” shape and a rail portion 73. The rail portion 73 includes two angle members 72 extending in the vertical direction and a reinforcing member 74 that connects the upper portions of the angle members 72. The door surface angle member 71 and the rail portion 73 are connected to each other by means such as welding or bolts and nuts.

  As shown in FIG. 1 to FIG. 5, the back surface angle member 61, the door surface angle member 71, the upper surface right back plate member 24, the upper surface left back plate member 28, the right surface back plate member 33, the left side back plate member 43, The bottom back plate 53, the top right door plate 25, the top left door plate 29, the right door plate 34, the left door plate 44 and the bottom door plate 54 are provided with holes. In the assembled state of the box trap 1, the holes provided in the back surface angle member 61 are the top right back plate 24, the top left back plate 28, the right back plate 33, the left back plate 43, and the bottom back plate 43. It is comprised so that it may mutually overlap with the hole provided in 53. FIG. The holes provided in the door surface angle member 71 are the upper right door side plate member 25, the upper left door side plate member 29, the right side door side plate member 34, the left side door side plate member 44 and the bottom door side plate member in the assembled state of the box trap 1. It is comprised so that it may mutually overlap with the hole provided in 54. FIG.

(Connection using bent part)
Hereinafter, the connection method using a bending part is demonstrated. FIG. 6 is a diagram illustrating a method of connecting the right side surface portion 3 and the upper surface right side portion 20. FIG. 6 is a view of the connecting portion between the right side surface portion 3 and the upper surface right side portion 20 as viewed from the door surface portion 7 side, and the configuration other than the metal rod is omitted. First, the right side surface portion 3 is combined with the upper surface right side portion 20 as indicated by an arrow shown in FIG. Next, as shown in FIG. 6B, the right side surface portion in a state where the right side upper side bent portion 31 is hung on the metal rod 81 which is a member constituting the upper surface right side portion 20 and adjacent to the upper surface right side bent portion 22. 3 is rotated counterclockwise about the metal rod 81. Then, as shown in FIG. 6 (c), the metal rod 82 which is a member constituting the right side surface portion 3 and adjacent to the right side upper side bent portion 31 comes into contact with the upper surface right side bent portion 22, and the right side surface portion 3 is further moved. It becomes a state where it cannot be rotated counterclockwise.

  Hereinafter, the connection method using a bending part is further demonstrated. In the present application, a side formed by two surface portions connected to each other is referred to as a “side of two surface portions”. 6 (a) and 6 (b), the relative rotation of these two surface portions around an axis parallel to the sides of the right surface portion 3 and the upper surface right portion 20 which are two surface portions connected to each other, or The relative movement of at least one degree of freedom of the two surface portions in the direction perpendicular to the side is not restricted. From that state, the two surface portions are relatively rotated around an axis parallel to the sides of the two surface portions. Then, relative rotation in one direction (the arrow direction in FIG. 6 (b)) of these two surface portions around an axis parallel to the sides of the right side surface portion 3 and the upper surface right side portion 20, and a direction perpendicular to the side Thus, the relative movement of the two degrees of freedom of the two surface portions is limited.

  Thus, relative rotation in at least one direction of the two surface portions around an axis parallel to the sides of the two surface portions to be connected, and two degrees of freedom of the two surface portions in the direction perpendicular to the side The state in which the relative movement is restricted is referred to as a “locked state” in the present application. Further, in the present application, the “restriction” includes both a case where there is a deviation or a gap that does not make it impossible to assemble the box trap 1 and a case where it does not exist.

  In the locked state, the operator supports the relative rotation in the other direction (the direction opposite to the arrow direction in FIG. 6B) with the hand, so that an axis parallel to the sides of the two surface portions is supported. The relative rotation of the two surface portions and the relative movement of the two surface portions in the direction perpendicular to the sides can be restricted. In this way, when the two surface portions connected to each other can be locked, it is easy for the operator to assemble the box trap 1. Further, in the assembled state of the box trap, the respective surface portions constituting the box trap support each other, thereby supporting the relative rotation of the two connected surface portions in the other direction. In the locked state, the relative movement of the two surface portions in the direction perpendicular to the paper surface in FIG. 6 is not necessarily limited, but this relative movement is limited by connection using a plate material to be described later.

  In order to realize the locked state, the two face portions connected to each other may be geometrically constrained to each other while allowing a deviation and a gap to such an extent that the box trap cannot be assembled. In the present application, the geometrical constraint means that the relative rotation and the relative movement of the two surface portions connected to each other are limited only by the contact reaction force between the members, not by the fastening force by welding or bolts and nuts. Here, it is sufficient that at least one part of the two surface parts connected to each other is geometrically constrained to each other, and geometric constraining and fastening with bolts and nuts may be used in combination. For example, two surface portions connected to each other may be connected by using bolts and nuts while being mainly constrained geometrically.

  FIG. 7A is an enlarged view of a portion A in FIG. A to D in FIG. 7A represent the dimensions of each part. A is a margin for hanging the right side upper bent portion 31 on the metal rod 81. B is the diameter of the metal rod 81. C is the diameter of the metal bar constituting the right side upper side bending portion 31. D is the diameter of the metal rod 82. When the metal rods constituting the box trap 1 have the same diameter, B to D are equal. In FIG. 7A, the metal bar 81 is fixed to the upper right side part 20 so that the distance between the upper right side bent part 22 and the metal bar 81 is C + D. In other words, the upper right side bent portion 22 is formed so that the distance from the metal rod 81 is C + D. If it does in this way, the angle which the right side surface part 3 and the upper surface right side part 20 cross will be 90 degree | times in a locked state.

  FIGS. 7B and 7C are diagrams for explaining the locked state. The x axis and y axis in FIG. 7B are two-dimensional coordinate axes. Arrows 701 to 704 are the x-axis component and the y-axis component of the contact reaction force that the upper surface right side portion 20 receives from the right side surface portion 3 for all the contacts 85 to 88 of the right side surface portion 3 and the upper surface right side portion 20.

  An arrow 702 and an arrow 704 that are x-axis components in FIG. 7B are opposite to each other. This indicates that the relative movement in the x-axis direction between the right side surface portion 3 and the upper surface right side portion 20 is restricted in this locked state.

  An arrow 701 and an arrow 703 that are y-axis components in FIG. 7B are opposite to each other. This indicates that the relative movement in the y-axis direction between the right side surface portion 3 and the upper surface right side portion 20 is restricted in this locked state.

  Thus, if both positive and negative exist in each arbitrarily set two-dimensional coordinate axis component of the contact reaction force received by the other surface portion from one of the two connected surface portions, The relative movement of the two surface portions is limited.

  As shown in FIG. 7C, an auxiliary line that is a straight line from the contact 87 of the right side surface portion 3 and the upper surface right side portion 20 to the other contact points 85, 86, 88 is considered. Then, the arrow 701 and the arrow 702 exist on the lower left side of the auxiliary line, that is, counterclockwise when viewed from the contact 87. On the other hand, the arrow 703 exists on the upper right side of the auxiliary line, that is, clockwise when viewed from the contact 87.

  As described above, when the contact reaction force received by the other surface portion from one of the two surface portions to be connected is viewed from an arbitrary contact point, both the clockwise direction and the counterclockwise direction are If present, the relative rotation of these two surface portions is limited.

  In this way, the relative rotation of these two surface portions around the axis parallel to the sides of the right side surface portion 3 and the upper surface right side portion 20, and the relative movement of these two surface portions in the direction perpendicular to the side with two degrees of freedom. It becomes a restricted lock state. In order to realize the locked state, at least three contacts are required (see FIG. 20 for an embodiment with three contacts).

  The upper left surface portion 21 and the left side surface portion 4, the right side surface portion 3 and the bottom surface portion 5, and the left side surface portion 4 and the bottom surface portion 5 are also connected in the same manner as the method of connecting the right side surface portion 3 and the upper surface right side portion 20 described above.

(Connection using plate material)
Hereinafter, a connection method using a plate material will be described. A method of connecting the upper surface right side portion 20 and the upper surface left side portion 21 using the upper surface right side plate member 23 and the upper surface left side plate member 27 will be described with reference to FIGS. 8 is a view of the upper right side 20 and the upper left side 21 as viewed from the door surface 7 side, and FIG. 9 is a view of the upper right side 20 and the upper left side 21 as viewed from above the box trap 1. FIGS. 8A and 9A are views showing a state in which the upper right side portion 20 and the upper left side portion 21 are not connected.

  In order to connect two surface portions to each other using a plate material, first, as shown in FIGS. 8B and 9B, the upper surface right plate member 23 and the upper surface left plate material 27 are overlapped. Next, as shown in FIGS. 8 (c) and 9 (c), nuts 84 are passed through bolts 83 through holes that are provided in the upper right side plate member 23 and the upper left side plate member 27 and overlap each other in the assembled state of the box trap 1. Secure with. In this way, the upper surface right side plate member 23 and the upper surface left side plate member 27 are connected to each other.

  FIG. 8D shows another embodiment in which the upper surface right side portion 20 and the upper surface left side portion 21 are connected using the upper surface right angle member 123 and the upper surface left angle member 127 instead of the upper surface right plate member 23 and the upper surface left plate member 27. FIG. According to this configuration, it is possible to prevent the upper surface right side portion 20 and the upper surface left side portion 21 from collapsing by simply passing the bolt 83 through the upper surface right angle member 123 and the upper surface left angle member 127, that is, before attaching the nut 84. Can be maintained. Connection with the bolt 83 and the nut 84 is facilitated. The bolt 83 or the nut 84 may be fixed to the upper surface right side plate member 23 or the upper surface left side plate member 27 or the upper surface right angle member 123 or the upper surface left angle member 127 by welding. Further, the upper right plate member 23 or the upper left plate member 27, or the upper right angle member 123 or the upper left angle member 127 may be threaded. By doing in this way, the connection by the volt | bolt 83 and the nut 84 becomes easy. Also, the possibility of losing parts is reduced.

  Similarly, the back surface angle member 61, the top right side back plate member 24, the top left back plate member 28, the right side back plate member 33, the left side back plate member 43 and the bottom back plate member 53 are also overlapped with each other. They are connected to each other by fixing them with nuts through bolts.

  Similarly, the door surface angle member 71, the upper surface right door side plate member 25, the upper surface left door side plate member 29, the right side door side plate member 34, the left side door side plate member 44, and the bottom door side plate member 54 are also formed in the overlapping holes. They are connected to each other by fixing them with nuts through bolts.

(Assembly procedure for box trap)
A procedure for assembling the box trap in this embodiment will be described. FIG. 10 and FIG. 11 are diagrams showing an assembling procedure of the right side surface portion 3, the left side surface portion 4, the bottom surface portion 5, the upper surface right side portion 20, and the upper surface left side portion 21, and are views of the box trap viewed from the door surface portion 7 side. . In order to assemble the box trap 1, first, as shown in FIG. 10 (a), the bottom surface portion 5, the right side surface portion 3 and the left side surface portion 4 are combined, and the right side surface portion 3 and the left side surface portion 4 are rotated in the direction of the arrows in the figure. Let

  Then, as shown in FIG.10 (b), the bottom face part 5, the right side surface part 3, and the left side surface part 4 will be in a locked state. In this state, the upper surface right side portion 20 and the upper surface left side portion 21 are combined with the right side surface portion 3 and the left side surface portion 4, respectively, and the upper surface right side portion 20 and the upper surface left side portion 21 are rotated in the direction of the arrows in the figure. Then, as shown in FIG. 11 (a), the right side surface portion 3 and the upper surface right side portion 20, the left side surface portion 4 and the upper left side portion 21 are respectively locked, and the holes provided in the upper surface right plate member 23 and the upper surface left plate member 27, respectively. Overlap each other. Therefore, as shown in FIG. 11B, the upper surface right side plate member 23 and the upper surface left side plate member 27 are connected to each other by a bolt 83 and a nut 84.

  As shown in FIG. 12 (a), the rear surface portion 6 and the door surface portion 7 are connected to the right side surface portion 3, the left side surface portion 4, the bottom surface portion 5, the upper surface right side portion 20 and the upper surface left side portion 21 which are connected to each other using a bending portion. The outer shape of the box trap is completed by connecting with the plate material. FIG. 12B is an enlarged view of the arrow A in FIG. 12A, and shows a state in which the drop door 76 is attached to the angle member 72 of the rail portion 73 of the door surface portion 7. The drop door 76 is attached along the angle member 72 so as to be dropped. The drop door 76 is held on the upper portion of the angle member 72 by a known trigger mechanism (not shown) during standby. This trigger mechanism is configured to release the holding state of the drop door and drop the drop door when detecting that the animal has entered the box trap.

  As described above, according to the present embodiment, the box trap can be assembled and disassembled with relatively little effort. Further, since the connection part using the bent part does not use a dedicated part for connection, the possibility of losing the part is low. Furthermore, even if the strength is insufficient with a single metal rod, sufficient strength can be obtained by forming the bent portion with a plurality of metal rods.

(Other embodiments)
Hereinafter, other embodiments of the present invention will be described. In the embodiments described below, the same or corresponding parts as those in the above embodiments are denoted by the same reference numerals, and new illustrations and descriptions are omitted, and only differences from the above embodiments are described. To. As shown in FIG. 13A, the upper right side bent portion 22 and the right side upper side bent portion 31 may be in contact with the metal rod 81 and the metal rod 82 with a curve. In this case, the contact line can be considered as a set of many contact points. The upper right side bent portion 22 and the right side upper side bent portion 31 may be in contact with the metal rod 81 or the metal rod 82 on the surface. In this case, the contact surface can be considered as a set of many contact points. Furthermore, as shown in FIG. 13B, the cross section of the metal rod 81 or the metal rod 82 may not be circular.

  As shown in FIGS. 14A and 14B, the upper right side bent portion 22 and the right side upper side bent portion 31 may be bent at an angle other than 90 degrees. Of course, it may be bent at 90 degrees. In short, it is only necessary to obtain sufficient contact points, contact lines, or contact surfaces for the two connected surface portions to be geometrically constrained to each other.

  FIG. 15A is a diagram corresponding to FIG. 7, FIG. 15B is an arrow A in FIG. 15A in one embodiment, and FIG. 15C is in another embodiment. This is an arrow A in FIG. As shown in FIG. 15B, the upper surface right side bent portion 22 and the right side upper side bent portion 31 may be bent in a direction perpendicular to the sides of the right side surface portion 3 and the upper surface right side portion 20, or FIG. ), It may be bent in a direction that is not perpendicular to the sides of the right side surface portion 3 and the upper surface right side portion 20. In short, in the cross section viewed from the door surface portion 7 side, sufficient contact points, contact lines, or contact surfaces may be obtained because the two surface portions to be connected are geometrically constrained to each other.

  FIG. 16A corresponds to FIG. 7 and is different from FIG. 7 in that there is a gap E between B and C. FIG. If it does in this way, as shown in FIG.16 (b), it will be in a locked state in the state where the angle which the right side surface part 3 and the upper surface right side part 20 cross is larger than 90 degree | times. In FIGS. 10 and 11, considering that the angle at which the right side surface portion 3 and the upper surface right side portion 20 intersect is 90 degrees, the angle at which the right side surface portion 3 and the upper surface right side portion 20 intersect is 0 degree to 90 degrees. The method of assembling by rotating each face part from the inside of the box trap in the assembled state to the outside so that the assembly can be performed in the range. On the other hand, if the angle at which the right side surface portion 3 and the upper surface right side portion 20 intersect can be made larger than 90 degrees, each surface portion can be assembled by rotating from the outside of the box trap in the assembled state (not shown). . Moreover, as shown in FIG.16 (c), the right side part 3 and the upper surface right side part 20 can be bent, and the box trap 1 can also be comprised.

  17 to 23 are diagrams showing various embodiments for locking the right side surface portion 3 and the upper surface right side portion 20. In the embodiment shown in FIG. 17, the two faces to be connected are geometrically constrained by the contacts 85 to 88.

  In the embodiment shown in FIG. 18, the two connected face portions are geometrically constrained by the contact lines of the metal rod 81 and the metal rod 82 in addition to the contacts 85 to 87. Thus, the two surface portions to be connected may be geometrically constrained to each other as a whole. According to this embodiment, the protrusion of the connection portion can be reduced.

  In the embodiment shown in FIG. 19, the upper right side portion 20 does not have a bent portion. Even in such a case, by devising the shape of the right side upper side bending portion 31, the two surface portions to be connected are geometrically constrained by the contacts 85 to 88. According to this embodiment, the labor for bending a member can be reduced.

  In the embodiment shown in FIG. 20, the two surface portions to be connected are geometrically constrained by the three contact points 86 to 88 due to the shape of the right side upper side bending portion 31.

  In the embodiment shown in FIG. 21, a metal rod 81 and a metal rod 89 are fixed to the end of the upper surface right side portion 20, these metal rods and the three contact points of the right side upper side bent portion 31, the metal rod 82 and the upper right side of the upper surface. The two surface portions to be connected are geometrically constrained by the contact with the portion 20.

  22 is a view of the right side surface portion 3 and the upper surface right side portion 20 as viewed from the door surface portion 7 side, and FIG. 23 is a view of the right side surface portion 3 and the upper surface right side portion 20 as viewed from above the box trap 1. In the embodiment shown in FIGS. 22 and 23, the two faces to be connected are geometrically constrained by the contacts 85-88.

  In the above description, the embodiment in which the two surface portions connected to each other are locked at one place is taken up, but the present invention is not limited to this. For example, as a whole of four portions A to D shown in FIG. 24, the two connected surface portions may be geometrically constrained to each other. In FIG. 24, the thickness of the metal bar is ignored. FIGS. 25A to 25D are cross-sectional views of portions A to D of FIG. 24 as viewed from the door surface portion 7 side. Each of the contacts 85 to 88 in FIGS. 25A to 25D is not sufficient because the two face portions to be connected are geometrically constrained to each other, but considering these contacts as a whole, It is sufficient for the two face parts to be connected to be geometrically constrained to each other. In short, sufficient contacts, contact lines, or contact surfaces for the two connected surface portions to be geometrically constrained to each other need only be obtained for the two connected surface portions as a whole.

  FIG. 26 is a view showing an embodiment in which the upper surface portion 2 and the left side surface portion 4, and the right side surface portion 3 and the bottom surface portion 5 are rotatably connected by hinges 90, respectively. By using the end portion on the side not connected by the hinge 90 as a bent portion, each surface portion can be connected by the hinge or the bent portion as shown in FIGS. Thus, each surface part can be mutually connected by various methods other than the method using a bending part and the method using a board | plate material. Moreover, you may connect by various methods for every connection part of each surface part. For example, one end of each surface portion may be connected by a method using a bent portion, and the other end of each surface portion may be connected by a method other than the method using a bent portion.

  In the above description, each surface portion is made of a metal wire mesh, but other materials such as fiber reinforced plastic can be adopted as long as the required strength can be ensured. Any material can be used for the plate material. Moreover, a part or all of each surface part may be comprised with members other than metal meshes, such as a board.

  Of the metal rods present at the end of the surface portion, only a part of the metal rod may be a bent portion, or the whole may be a bent portion.

  The bent portion is not necessarily formed by a metal rod, and may be formed by an arbitrary member such as a plate material.

  The bent portion is not necessarily formed by bending a metal rod or the like, and may be formed by joining two members at an angle to each other by welding or the like. Although the back surface portion 6 is composed of the back surface angle member 61, the back surface portion 6 may be formed of a wire mesh, and the back surface portion 6 and other surface portions may be connected using a bending portion.

  The structure and material of each surface portion may be different from each other depending on the required strength. For example, on the side surfaces of the box trap (right side surface portion 3 and left side surface portion 4) where particularly high strength is required, a wire mesh in which metal bars having a diameter of 6 mm are fixed at a pitch of 100 mm is used. For the upper and lower surfaces (upper surface portion 2 and bottom surface portion 5) that are not required, a metal mesh in which metal bars having a diameter of 5.5 mm are fixed at a pitch of 150 mm may be used. That is, the strength of the side surface of the box trap 1 (the right side surface portion 3, the left side surface portion 4, and the back surface portion 6) may be higher than the strength of the top and bottom surfaces (the top surface portion 2 and the bottom surface portion 5).

  The plate material does not necessarily need to exist over the entire length of the sides of the two surface portions to be connected, and a plurality of small plate materials may be provided for each portion where the hole is provided.

  The box trap 1 may have not only one door surface portion 7 but also a plurality. For example, a door surface portion 7 may be provided instead of the back surface portion 6 so that an animal can enter the box trap 1 from both directions.

  In the above description, one or more of the connection portions that are supposed to be connected by a method other than the method using the bent portion may be connected by a method using the bent portion. Conversely, in the above description, one or more of the connection portions that are supposed to be connected by the method using the bent portion may be connected by a method other than the method using the bent portion.

  In the present application, the “end portion” is a portion other than the center of the face portion, and the two face portions are connected using a bent portion formed at the end portion to form a closed space for capturing animals. Means all the parts that can be done. The farther the end where the bent part is formed is, the farther it is from the center of the surface part, the larger the closed space for capturing animals can be.

DESCRIPTION OF SYMBOLS 1 Box trap 2 Top surface part 3 Right side surface part 4 Left side surface part 5 Bottom surface part 6 Back surface part 7 Door surface part 20 Upper surface right side part 21 Upper surface left side part 22 Upper surface right side bending part 26 Upper surface left side bending part 31 Right side upper side bending part 32 Right side lower side part Bending part 41 Left side upper side bending part 42 Left side lower side bending part 51 Bottom left side bending part 52 Bottom right side bending part

Claims (4)

An animal trap box
Having a plurality of face portions that form a closed space for capturing animals;
A bent portion is formed at an end of at least one of the plurality of surface portions,
The surface portion on which the bent portion is formed and the other one surface portion are connected to each other using the bent portion,
The two surface portions connected using the bent portion are connected by geometrically constraining members constituting the respective surface portions, including the bent portion, in the assembled state of the box trap. ,
The two surface portions that are geometrically constrained to each other are configured such that members constituting each surface portion are in contact with each other at least three contact points, and the contact reaction force at the contact points around an axis parallel to the sides of the surface portions. An animal trap box that restricts relative rotation in at least one direction of the two surface portions and relative movement of the two surface portions in two directions in a direction perpendicular to the sides . An animal trap box
Having a plurality of face portions that form a closed space for capturing animals;
A bent portion is formed at the end of at least one of the two surface portions connected to each other,
The two surface portions are connected by geometrically constraining members constituting each surface portion, including the bent portion, in the assembled state of the box trap ,
The two surface portions that are geometrically constrained to each other are configured such that members constituting each surface portion are in contact with each other at least three contact points, and the contact reaction force at the contact points around an axis parallel to the sides of the surface portions. An animal trap box that restricts relative rotation in at least one direction of the two surface portions and relative movement of the two surface portions in two directions in a direction perpendicular to the sides .   All or part of the surface portion where the bent portion is formed is a lattice-shaped metal rod,
  The bent portion is made of the metal rod;
  The animal trap box trap according to claim 1 or 2. The two face portions that are geometrically constrained to each other are connected by a combination of geometric constraints and fastening by bolts and nuts.
  The animal trap box trap according to any one of claims 1 to 3.

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