JP4149579B2 - Hook structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hook structure, and more particularly to a hook structure in which a substantially annular hook member is rotatably supported on a base member fixed to a mounting member and can be switched between a use state and a non-use state.
[0002]
[Prior art]
Conventionally, for example, a so-called wagon type or RV type automobile in which a load fixing hook is attached to the floor surface or side wall of the luggage compartment is generally well known (for example, Japanese Utility Model Laid-Open No. 6-3742). No. publication). In this type of automobile, a rope or net is hung on the luggage so that the luggage placed on the floor of the luggage compartment does not move carelessly or shakes greatly during vibration. Further, the load is fixed by locking the end portion to the hook.
[0003]
The hook structure used for such applications is not limited to automobiles, but is switched between a use state and a non-use state by supporting a substantially annular hook member rotatably on a fixing base member. What is possible is known.
According to such a structure, since the hook member can be switched between the use state and the non-use state, the hook member is raised from the base member at the time of use, and the end of the rope or the net is locked. The hook member can be brought into a state of being tilted to the base member side. In other words, unnecessary projections (hook members) do not protrude from the floor surface or side wall surface when not in use, which improves convenience when using the cargo space, and causes inadvertent damage to the hook members. Problems can also be avoided.
[0004]
[Problems to be solved by the invention]
In the hook structure of the above type, the base member is generally fixed to an attachment member such as a floor panel or a side wall panel using a fastening member such as a screw or a bolt / nut. Therefore, in the fixed part of the base member with respect to the mounting member, usually, a part of the fastening member (that is, the head of the screw or bolt or the nut) is exposed to the indoor side, and the appearance is not good. was there.
In addition, the base member and / or the hook member are preferably formed of a synthetic resin in order to improve productivity or reduce the weight. In this case, it is important how to ensure the required strength and rigidity. It is.
[0005]
Furthermore, in the type of hook structure described above, the hook member can be tilted to the base member side when not in use, but the user forgets to tilt the hook member after use, and the hook member is attached to the base member. On the other hand, it may be maintained in an upright state.
By the way, it is well known that a wagon type or RV type vehicle can be used as a part of a passenger compartment by tilting a rear seat. That is, the rear seat is made to be retractable, and when there is no luggage, the rear seat is folded flat on the cargo compartment floor surface and used as the vehicle compartment floor surface. In such a case, if the hook member is in an upright state with respect to the base member, there arises a problem that when the rear seat is tilted, the seat and the hook member interfere with each other and the hook member is damaged.
[0006]
Furthermore, when fixing the base member to a mounting member (such as a floor panel or wall panel of a cargo compartment) using bolts / nuts, etc., the base member is positioned and held with one hand while the other hand is used. There is a problem that workability is not particularly good when it is necessary to operate a tightening tool and it is fixed to a vertical wall-shaped cargo room wall panel.
In addition, when the base member is attached to the floor panel, a seal member is interposed between the base member and the floor panel in order to prevent intrusion of muddy water and foreign matter during traveling. In general, a sealing member must be attached to the back surface of the base member with a double-sided adhesive tape, and then the base member must be fixed, and a double-sided adhesive tape is required as a secondary material. There is a problem that it takes time to attach the seal member to the base member using the adhesive tape.
[0007]
The present invention has been made in view of the above problems, and mainly has a hook structure in which a substantially annular hook member is rotatably supported on a fixing base member and can be switched between a use state and a non-use state. In order to improve the appearance and secure strength and rigidity, to prevent the hook member from being held in an upright state when not in use, and to further improve the workability when fixing the base member. The purpose is to eliminate the need for secondary materials and simplify the fixing work.
[0008]
[Means for Solving the Problems]
  For this reason, the invention according to claim 1 of the present application (hereinafter referred to as the first invention) includes a base member fixed to the mounting member using a predetermined fastening member, and the base member., Centering on the hook support provided on the base memberA hook structure comprising a substantially annular hook member that is rotatably supported and can be switched between a use state and a non-use state,The hook member is extended in a direction away from the rotation fulcrum supported by the hook support,A cover portion that spans and connects the opposing portions of the hook member is provided integrally with the hook member,An opening whose outer periphery is surrounded by the outer edge of the hook member is formed on the opposite side of the cover portion from the rotation fulcrum portion.The fastening member is covered with the cover portion at a rotation position where the inclination angle of the hook member with respect to the base member is a predetermined value or less.,It is what I did.
[0009]
In the invention according to claim 2 of the present application (hereinafter referred to as second invention), in the first invention, the base member has a storage recess for storing the hook member when the hook member is not used. Provided integrally, at least one of the base member and the hook member is integrally formed with holding means for holding the hook member in the storage recess in the storage state. It is.
[0010]
Further, in the invention according to claim 3 of the present application (hereinafter referred to as third invention), in the second invention, a flange having a concave section is integrally formed with the housing recess on the outer peripheral side of the housing recess. It is characterized by being provided.
[0011]
  Furthermore, the invention according to claim 4 of the present application (hereinafter referred to as the fourth invention) is the invention according to any one of the first to third inventions,A claw portion for temporarily holding the base member with respect to the mounting member when the base member is fixed to the mounting member is integrally formed on a portion of the base member facing the mounting member.It is characterized by that.
[0012]
  Furthermore, the invention according to claim 5 of the present application (hereinafter referred to as the fifth invention) is the above-described fourth invention,The claw portion has a temporary holding function of temporarily holding the seal member disposed between the base member and the mounting member with respect to the base member.It is characterized by that.
[0013]
  Furthermore, the invention according to claim 6 of the present application (hereinafter referred to as the sixth invention)5thIn any one of the inventions,Both the base member and the hook member are made of synthetic resin.It is characterized by that.
[0014]
  Furthermore, the invention according to claim 7 of the present application (hereinafter referred to as the seventh invention)A base member fixed to the mounting member using a predetermined fastening member, and a substantially annular hook member that is rotatably supported with respect to the base member and can be switched between a use state and a non-use state. A cover structure that hooks and connects the opposing portions of the hook member is provided integrally with the hook member, and the hook member support portion of the base member and / or the pivot fulcrum portion of the hook member. Is provided with an upright prevention mechanism that prevents the hook member from being held upright with respect to the base member when not in use, and the angle of inclination of the hook member with respect to the base member is turned below a predetermined value. In the position, the fastening member is covered with the cover part.It is characterized by that.
[0015]
  Furthermore, the invention according to claim 8 of the present application (hereinafter referred to as the eighth invention)7th inventionInThe stand-up prevention mechanism has a cam portion formed on a hook member support portion of the base member and / or a rotation fulcrum portion of the hook member.It is characterized by that.
[0016]
  Furthermore, the invention according to claim 9 of the present application (hereinafter referred to as the ninth invention)A base member fixed to the mounting member using a predetermined fastening member, and a substantially annular hook member that is rotatably supported with respect to the base member and can be switched between a use state and a non-use state. A cover portion is provided integrally with the hook member so as to hang over and connect the opposing portions of the hook member, and the hook member support portion of the base member has a pivot fulcrum of the hook member. A movable holding portion that holds the base member in a longitudinal direction so as to be movable by a predetermined amount is integrally provided. When the inclination angle of the hook member with respect to the base member is a rotation position that is a predetermined value or less, the fastening member is the cover. Covered with partsIt is characterized by that.
[0017]
  Furthermore, the invention according to claim 10 of the present application (hereinafter referred to as the tenth invention)Ninth inventionInThe hook member support portion of the base member is integrally formed with a long groove-like holding portion extending a predetermined amount in the longitudinal direction of the base member, and the holding portion constitutes the movable holding portion.It is characterized by that.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
First, a hook structure according to a first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is an explanatory plan view of the hook device 1 according to the first embodiment, and FIGS. 2 and 3 are longitudinal sectional explanatory views taken along lines Y2-Y2 and Y3-Y3 in FIG. 1, respectively.
As shown in these drawings, the hook device W1 according to the present embodiment includes a base member 1 (base) to be fixed to the mounting member P1, and a substantially rectangular annular shape supported rotatably on the base 1. The base member 1 is configured to be fixed to the mounting member P1 using a screw member B (bolt) and a nut N.
[0019]
The hook device W1 is, for example, for an automobile and is used by being attached to a floor panel or a side wall of a rear cargo compartment of a wagon type or RV type vehicle. For example, the hook device W1 is mounted on the floor panel of the cargo compartment. When the placed luggage is fixed, a rope or a net is hung on the luggage and the base end and the terminal end thereof are locked to the locking hook 10 for fixing.
The base 1 and the locking hook 10 are both molded from a predetermined synthetic resin as a material, for example, by a molding method such as injection molding.
[0020]
The base 1 includes a substantially rectangular base 2 having a predetermined height that corresponds to the inner periphery of the locking hook 10 and is slightly smaller in plan view than that, and a hook support 3 formed at one end thereof. The hook support portion 3 is formed with an insertion hole 3h through which the locking hook 10 is inserted and rotatably supported. Further, a substantially concave portion 4 (bolt mounting concave portion) having a predetermined depth in a plan view is formed in a substantially central portion of the base portion 2, and a bolt hole through which the fixing bolt B is inserted in the central portion. 4h is provided. A pin 9 for positioning when the base is fixed projects from the back side of the base 1.
As can be clearly seen from FIG. 4, the locking hook 10 is formed in a substantially rectangular annular shape, and its rotation fulcrum part 11 (one of the short sides) is inserted into the insertion hole 3 h of the hook support part 3. By being inserted, the base 1 is rotatably supported and can be switched between a use state standing with respect to the base 1 and a non-use state where the base 1 is tilted down.
[0021]
A storage portion for storing the locking hook 10 when the locking hook 10 is not used is formed around the base portion 2 of the base 1. Specifically, the vertical wall 5 is integrally provided on both sides of the base part 2, and the concave space formed by the vertical wall 5, the side part of the base part 2, and the base surface 1 f is locked. A hook receiving recess 6 (hook storing recess) is formed.
When the locking hook 10 is not used, the side portions 12 (long side portions) facing each other are stored in the hook storage recess 6. Further, the one side 13 (short side) of the locking hook 10 on the counter-rotating fulcrum side is placed on the base surface 1 f falling from the base part 2. A hook wall recess may be formed by providing a vertical wall on the side of the base 1 opposite to the hook support portion.
[0022]
A protruding portion 7 (see FIGS. 1 and 2) that protrudes by a predetermined amount in the hook housing recess 6 is provided integrally with the base portion 2 on the side portion of the base portion 2, and the locking hook When the hook 10 is housed in the hook housing recess 6 when not in use, the locking hook 10 is pushed into the hook housing pusher 6 with a predetermined pushing force while pressing the projection 7 on its side surface. In other words, when the locking hook 10 is not in use, when the side portion 12 is pushed into the hook housing recess 6 to enter the stowed state, a force corresponding to the pushing force is applied and the locking hook 10 is not rotated in the standing direction. As long as the storage state is maintained.
That is, the protrusion 7 corresponds to “holding means (holding the hook member in the storage recess) in the storage state” described in the claims of the present application. Such holding means may be formed on the locking hook 10 side, or may be formed on both the base 1 side and the locking hook 10 side.
[0023]
As described above, since the storage recess 6 for storing the locking hook is integrally provided in the base 1, the locking hook 10 is stored in the storage recess 6 when not in use. The appearance at the time of use can be improved. By forming the hook housing recess 6, the rigidity of the base 1 can be improved. The locking hook 10 housed in the housing recess 6 is formed by holding means (in the present embodiment, formed on the base 1 side) integrally formed with at least one of the base 1 and the locking hook 10. Since the projection 7) is securely held in the hook housing recess 6 in a housed state, it is possible to prevent the locking hook 10 from inadvertently jumping out of the housing recess 6 due to vibration or the like.
That is, the base 1 is provided with the hook storage recess 6 to improve the rigidity of the base 1, the appearance of the locking hook 10 in the storage state, and the reliable holding of the storage state, and the holding means (projection portion). This can be achieved with a simple configuration that only forms 7).
[0024]
Further, on the outer peripheral side of the vertical wall 5 forming the storage recess 6, a flange portion 5 a having a concave cross section is formed integrally with the vertical wall 5.
In this way, by providing the hook recessed portion 6 integrally with the recessed portion 6a on the outer peripheral side of the vertical wall 5 forming the hook receiving recess 6, the base 1 is improved in rigidity by providing the hook receiving recess 6. This effect can be further enhanced.
[0025]
In the present embodiment, a cover portion 15 is integrally formed on the locking hook 10 so as to span and connect the opposing portions of the hook 10 (long side portions in the present embodiment). The cover portion 15 is formed in a substantially rectangular flat plate shape having a predetermined thickness, and covers the upper portion of the bolt mounting recess 3 of the base portion 2 in a state where the locking hook 10 is tilted to the base 1 side. Its size and position are set. Therefore, when the inclination angle of the locking hook 10 with respect to the base 1 is not more than a predetermined value, the head of the bolt B is covered with the cover portion 15 and is not visible from the outside.
[0026]
Thus, since the cover portion 15 that spans and connects the opposing portions of the locking hook 10 is provided integrally with the locking hook 10, the locking hook 10 is reinforced by the cover portion 15, The rigidity can be increased. That is, the strength and rigidity of the locking hook 10 can be ensured without particularly increasing the member size. Further, at the rotation position where the inclination angle of the locking hook 10 with respect to the base 1 is a predetermined value or less, the head of the bolt B for fixing the base 1 is covered with the cover portion 15, so that the base 1 is attached to the mounting member P1. The appearance when fixed can be improved.
That is, the improvement in the appearance of the base 1 and the securing of the strength and rigidity of the locking hook 10 can be achieved with a simple configuration in which the cover portion 15 is provided on the locking hook 10.
[0027]
In the present embodiment, since both the base 1 and the locking hook 10 are made of synthetic resin, even a member having a complicated shape can be easily integrally formed, and high productivity can be secured during mass production. In addition, the weight of each member (base 1 and locking hook 10) can be significantly reduced as compared with the case where it is made of metal.
[0028]
Next, a second embodiment of the present invention will be described. In the following description, components having the same configuration as those in the first embodiment and having the same functions are denoted by the same reference numerals, and further description thereof is omitted.
In the present embodiment, the hook support part of the base of the hook device and / or the rotation fulcrum part of the lock hook is provided with an upright that prevents the lock hook from being held in an upright state when not in use. A blocking mechanism is provided.
[0029]
  That is, as shown in FIG. 6, the hook support portion 23 formed on the base portion 22 of the base includes a fitting support portion 23a and a cam support portion 23b provided at both ends thereof, Rotating fulcrum part 2 of the locking hook 267 isA fitting fulcrum portion 27a fitted to the fitting support portion 23a with a predetermined gap and a cam fulcrum portion 27b having a cam portion combined with the cam support portion 23b are provided. The base and the locking hook 26 are both made of synthetic resin.
  The rotation fulcrum portion 27 of the locking hook 26 isOfAs shown in FIG. 7, the fitting fulcrum part 27a on the side of the locking hook 26 has a predetermined gap with respect to the fitting support part 23a at both ends of the hook support part 23 by fitting with the hook support part 23. The mating is supported. On the other hand, the cam fulcrum portion 27b on the locking hook 26 side is housed in the cam support portion 23b on the base side, as shown in FIG.
[0030]
The cam fulcrum portion 27b has a cam portion 27c having a predetermined height, while the cam support portion 23b on the base side has a distance from the rotation center Cr defined by the support center of the fitting support portion 23a to the upper wall portion. Is set to be larger than the distance to the side wall portion, and as shown in FIG. 9, when the inclination angle of the locking hook 26 with respect to the base portion 22 exceeds a predetermined value β (for example, β = 20 degrees). The cam portion 27c on the locking hook side does not engage with the cam surface 23c of the cam support portion 23b on the base side, and the locking hook 26 can freely rotate.
On the other hand, when the inclination angle of the locking hook 26 with respect to the base portion 22 is equal to or less than the predetermined value β, the locking hook side cam portion 27c engages with the cam surface 23c of the base side cam support portion 23b. The free rotation of the locking hook is restricted by the frictional force between them.
[0031]
That is, when the inclination angle of the locking hook 26 with respect to the base portion 22 exceeds the predetermined value β, the locking hook-side cam portion 27c does not engage the cam surface 23c of the base-side cam support portion 23b. Since the stop hook 26 can rotate freely, the inclination angle becomes β, and the locking hook 26 falls to the base side (inclines) until both engage. That is, the locking hook 26 is prevented from being held upright with respect to the base when not in use.
Therefore, in this state, for example, even when the retractable rear seat is brought down flat on the cargo floor, the inclination angle of the locking hook 26 with respect to the base is sufficiently shallow (below β). The stop hook 26 is just tilted to the base side as it is, and does not interfere with the sheet and break.
[0032]
On the other hand, when the inclination angle of the locking hook 26 with respect to the base portion 22 is equal to or less than the predetermined value β, the locking hook-side cam portion 27c engages with the cam surface 23c of the base-side cam support portion 23b. Since the free rotation of the locking hook 26 is regulated by the frictional force between them, the sliding movement of the locking hook 26 pulled out from the stored state at the time of use can be given sliding resistance, and the usability is improved. Can be planned.
[0033]
In the above description, the cam portion 27c is formed on the rotation fulcrum portion 27 side of the locking hook 26. Instead, the same operation is performed on the hook support portion 23 side of the base base portion 22. It is also possible to provide a cam portion to be attached.
In addition, the hook device according to the second embodiment is provided with the above-described “standing prevention mechanism for preventing the locking hook from being held in an upright state when not in use”. Since it is the same as the hook instrument W1 according to the first embodiment except for the points described above, all the operational effects obtained in the first embodiment can be obtained in the same manner.
[0034]
As described above, according to the present embodiment, the stand-up prevention mechanism that prevents the locking hook 26 from being held in a standing state with respect to the base when not in use is provided. It is possible to reliably prevent problems such as the locking hook 26 being held in an upright state and being damaged by interference with other members (for example, a retractable sheet).
Further, since the standing-up prevention mechanism has the cam portion 27c formed on the hook support portion 23 on the base side and / or the rotation fulcrum portion 27 of the locking hook 26, this cam action is utilized. Thus, it is possible to provide an upright prevention mechanism that prevents the locking hook 26 from being held upright with respect to the base when not in use.
[0035]
Next, a third embodiment of the present invention will be described. In this embodiment, functions other than the original positioning are added to the positioning pins when the base is fixed.
As shown in FIGS. 10 and 11, in the present embodiment, a claw portion 33 extending in the longitudinal direction is integrally formed on a pin 32 protruding integrally on the back side of a synthetic resin base 31. . The claw portion 33 is formed by cutting and raising a part of the outer peripheral portion of the pin 32 in the longitudinal direction. The claw portion 33 has a configuration similar to that well known in the art and extends from the tip side of the pin 32 to the back side of the base 31. When a force in the direction is applied, the pin 32 is elastically pushed to the outer peripheral side of the pin 32 and can be temporarily brought into a pressure-bonded state with respect to the outer periphery, but when the force is released, the nail rises as it is. On the other hand, when a force in the opposite direction is applied, the nail is further cut and raised so as to have a greater resistance.
[0036]
  Therefore, when the fixing work for fixing the base 31 to the mounting member P2 (for example, the vertical wall-shaped trim of the luggage compartment) is performed, the pin 32 is fitted into the positioning hole H2 provided in the mounting member P2 with a predetermined assembly force. By engaging, the claw portion 33 is once pushed to the outer peripheral side of the pin 32 and the pin 32 is inserted through the positioning hole H2. And again after insertionStanding nailsAt 33, the pin 32 (and thus the base 31) is locked to the mounting member P2 side. That is, the base 31 can be temporarily deposited (temporarily held) on the mounting member P1 side, and workability when the base 31 is fixed to the mounting member P1 can be improved.
  The positioning hole H2 is usually formed in a long hole shape to give a fine adjustment function of the position. Therefore, the claw portion 33 is assembled so as to correspond to the short diameter of the positioning hole H2.
[0037]
As described above, according to the present embodiment, when the base 31 is fixed to the mounting member P2, the base 31 is attached to the portion of the base 31 facing the mounting member P2 (that is, the pin 32). Since the claw 33 for temporarily holding (temporarily depositing) the P2 is integrally formed, the claw 33 is used when the base 31 is fixed to the mounting member P2. By temporarily holding the base 31 with respect to the mounting member P2 and performing the operation, the base 31 is positioned and held with one hand while the tightening tool is operated with the other hand. The sex can be greatly improved. When the mounting member P2 is disposed in the vertical direction (that is, in the case of a vertical wall shape), the workability can be improved remarkably.
[0038]
Further, when the base 31 is attached to the floor panel of the cargo compartment, a sealing member is interposed between the back surface of the base 31 and the floor panel in order to prevent intrusion of muddy water and foreign matter during traveling. However, conventionally, a sealing member is generally attached to the back surface of the base 31 with a double-sided adhesive tape, and then the base 31 is fixed.
In the present embodiment, since the claw portion 33 is formed on the pin 32, the sealing member can be temporarily held on the back surface side of the base 31 using the claw portion 33.
[0039]
That is, since the claw portion 33 has a temporary holding function for temporarily holding a seal member (not shown) disposed between the base 31 and the mounting member P2 with respect to the base 31, the seal member serves as the base 31. And the attachment member P2, the work of attaching the seal member to the base 31 in advance (before the fixing work) is eliminated, and the necessity of a lucky material for this purpose is also eliminated. Can be eliminated.
[0040]
Next, a fourth embodiment of the present invention will be described. In this embodiment, the rotation fulcrum of the locking hook is configured to move to some extent in the longitudinal direction of the base.
As shown in FIGS. 12 to 14, in the hook device W <b> 4 according to the present embodiment, the hook support portion 43 provided on the base portion 42 of the base 41 has a long groove shape extending a predetermined amount in the longitudinal direction of the base 41. The holding portion 43h is integrally formed. The base 41 and the locking hook 50 are both made of synthetic resin.
[0041]
In a state where the locking hook 50 is tilted to the base 41 side and stored in the hook storage recess 46, as can be seen from FIG. 14, the rotation fulcrum portion 51 of the locking hook 50 is provided with the holding portion 43h. Is located at the outer end (lower side in FIG. 14).
In use, when the locking hook 50 is pulled out from the housing recess 46 and rotated with respect to the base 41 to be in an upright state, depending on the usage situation (refer to the one-dot chain line and two-dot chain line display in FIG. 14). ), The rotation fulcrum 51 can be used by moving it in the longitudinal direction of the base in the long groove-shaped holding part 43h.
That is, the long groove-shaped holding portion 43h corresponds to the “movable holding portion” described in the claims of the present application.
[0042]
As described above, the hook support portion 43 of the base 41 is integrally provided with the movable holding portion 43h that holds the rotation fulcrum portion 51 of the locking hook 50 so as to be movable by a predetermined amount in the longitudinal direction of the base. The position of the rotation fulcrum of the locking hook 50 can be moved within a predetermined range (the range of the groove length), and the effective application range when using the locking hook 50 can be expanded.
As a result, for example, even when the vehicle type is different and the height of the floor surface on which the luggage is placed is different, it is possible to easily cope with the movement by moving the position of the rotation fulcrum of the locking hook 50 during use. As a result, convenience is greatly improved.
[0043]
In particular, since the long groove-shaped holding portion 43 h provided on the hook support portion 43 of the base 41 constitutes the “movable holding portion”, the long groove-shaped holding portion 43 h is formed on the hook support portion 43 of the base 41. The rotation fulcrum of the locking hook 50 (the rotation fulcrum portion 51) can be held so as to be movable by a predetermined amount in the longitudinal direction of the base 41 with a simple configuration simply by providing the above.
[0044]
In the present embodiment, not only the both side portions of the base portion 42 of the base 41 but also the anti-hook support portion side is a hook storage recess for storing the locking hook 50 when the locking hook 50 is not used. 46 is formed. That is, the vertical wall 45 is integrally provided on both sides of the base portion 42 and on the side opposite to the hook support portion, and a concave space formed by the vertical wall 45, the side portion of the base portion 42, and the base surface 41f. Constitutes a recess 46 (hook storage recess) for storing the hook.
Accordingly, when the locking hook 50 is not used, not only the side portions 52 (long side portions) facing each other but also the one side portion 53 (short side portion) on the counter-rotating support portion side is not limited to the hook receiving recess 46. Stored inside. Reference numeral 49 denotes a positioning pin.
As described above, since the storage recess 46 for storing the locking hook is integrally provided in the base 41, the locking hook 50 is stored in the storage recess 46 when not in use. The appearance of the time can be improved. Further, since the hook housing recess 46 is formed, the rigidity of the base 41 can be improved.
[0045]
As shown in detail in FIG. 15, the vertical wall 45 of the vertical wall 45 on the side opposite to the hook support portion is integrally provided with a protrusion 47 that protrudes into the hook housing recess 46 by a predetermined amount. When the locking hook 50 is stored in the hook storage recess 46 when not in use, the locking hook 50 presses the protrusion 47 on the side surface of the one side 53 of the counter-rotating fulcrum side. The hook is pushed into the hook storing push portion 46 with a predetermined pushing force F. In other words, when the locking hook 50 is not in use, when the one side portion 53 is pushed into the hook housing recess 46 and enters the stowed state, a force corresponding to the pushing force F is applied to rotate in the standing direction. Unless it is set, the storage state is maintained. Therefore, the locking hook 50 housed in the housing recess 46 is securely held in the hook housing recess 6 so that it does not accidentally jump out of the hook housing recess 46 due to vibration or the like.
[0046]
That is, the protrusion 47 corresponds to “holding means (holding the hook member in the storage recess) in the storage state” described in the claims of the present application. Such holding means may be formed on the locking hook 50 side, or may be formed on both the base 41 side and the locking hook 50 side.
Further, a flange 45a having a concave cross section is formed integrally with the vertical wall 45 on the outer peripheral side of the vertical wall 45 forming the hook storage recess 46, and the base 41 is provided by providing the hook storage recess 46. The effect of improving rigidity is further enhanced.
[0047]
Further, as in the first embodiment, the locking hook 50 is integrally formed with a cover portion 55 having a predetermined thickness that spans and connects opposite side portions 52 of the hook 50. In the state where the locking hook 50 is tilted to the base 41 side, the bolt mounting recess 44 of the base portion 42 of the base 41 is covered. Therefore, when the inclination angle of the locking hook 50 with respect to the base 41 is not more than a predetermined value, the head of the bolt B inserted through the bolt hole 44h is covered with the cover portion 55 and cannot be seen from the outside.
Since the cover portion 55 is provided integrally with the locking hook 50, the locking hook 50 is reinforced to increase its rigidity, and the appearance when the base 41 is fixed to the mounting member P4 is improved. be able to.
[0048]
The above embodiment has been described mainly using a hook device for automobiles as an example. However, the present invention is not limited to such a use, and for example, a hook device for other uses such as a house. It can also be applied effectively.
Thus, it goes without saying that the present invention is not limited to the above embodiments, and various improvements or design changes can be made without departing from the scope of the invention.
[0049]
【The invention's effect】
According to the first invention of the present application, since the cover portion that spans and connects the opposing portions of the hook member is provided integrally with the hook member, the hook member is reinforced by the cover portion, and its rigidity Can be increased. That is, it is possible to ensure the strength and rigidity without particularly increasing the member size of the hook member. In addition, in the rotation position where the inclination angle of the hook member with respect to the base member is a predetermined value or less, the fastening member for fixing the base member is covered with the cover portion, so that the appearance when the base member is fixed to the mounting member is obtained. Can be improved.
That is, improvement in the appearance of the base member and securing of the strength and rigidity of the hook member can be achieved with a simple configuration in which only the cover portion is provided.
[0050]
Further, according to the second invention of the present application, basically, the same effect as the first invention can be obtained. Moreover, since the base member is integrally provided with a storage recess for storing the hook member, the hook member is stored in the storage recess when not in use. The shine can be improved. By forming the storage recess, the rigidity of the base member can be improved. The hook member stored in the storage recess is securely held in the storage recess by the holding means formed integrally with at least one of the base member and the hook member. For example, the hook member can be prevented from inadvertently popping out of the storage recess or rattling.
That is, the base member is provided with the storage recess and the holding means is simply formed to improve the rigidity of the base member, improve the appearance of the hook member in the storage state, and reliably hold the storage state. Can be achieved with a configuration.
[0051]
Furthermore, according to the third invention of the present application, basically, the same effect as that of the second invention can be obtained. In addition, since the flange portion having a concave section is provided integrally with the storage recess on the outer peripheral side of the storage recess, the effect of improving the rigidity of the base member by providing the storage recess is further enhanced. Can do.
[0052]
  Furthermore, according to the fourth invention of the present application, basically, the same effect as any one of the first to third inventions can be obtained. Moreover,Since a portion of the base member facing the mounting member is integrally formed with a claw portion for temporarily holding the base member with respect to the mounting member when the base member is fixed to the mounting member, When fixing the base member to the mounting member, the base member is positioned with one hand by temporarily holding the base member against the mounting member using the claw portion. Compared with the conventional method in which the tightening tool is operated with the other hand while being held, workability can be greatly improved. When the mounting member is arranged in the vertical direction, workability can be improved remarkably.
[0053]
  Furthermore, according to the fifth invention of the present application, basically, the same effect as the fourth invention can be obtained. Moreover,Since the claw portion has a temporary holding function for temporarily holding the sealing member disposed between the base member and the mounting member with respect to the base member, the sealing member is interposed between the base member and the mounting member. In the case of being interposed, the work of attaching the seal member to the base member in advance (before the fixing work) can be eliminated, and the need for a lucky material for this purpose can be eliminated.
[0054]
  Furthermore, according to the sixth invention of the present application, basically,5thThe same effect as any one of the inventions of (1) can be achieved. Moreover,Since both the base member and the hook member are made of a synthetic resin, even a member having a complicated shape can be easily integrally formed, and high productivity can be secured at the time of mass production. Thus, significant weight reduction of each member can be achieved.
[0055]
  Furthermore, according to the seventh invention of the present application,Since the cover portion that spans and connects the opposing portions of the hook member is integrally provided with the hook member, the hook member is reinforced by the cover portion, and its rigidity can be increased. That is, it is possible to ensure the strength and rigidity without particularly increasing the member size of the hook member. In addition, in the rotation position where the inclination angle of the hook member with respect to the base member is a predetermined value or less, the fastening member for fixing the base member is covered with the cover portion, so that the appearance when the base member is fixed to the mounting member is obtained. Can be improved. That is, improvement in the appearance of the base member and securing of the strength and rigidity of the hook member can be achieved with a simple configuration in which only the cover portion is provided.
In addition, since an upright prevention mechanism is provided to prevent the hook member from being held upright with respect to the base member when not in use, the hook member is held upright when not in use and interferes with other members. Thus, it is possible to reliably prevent problems such as damage.
[0056]
  Furthermore, according to the eighth invention of the present application, basically, the above-mentioned7th inventionThe same effect can be achieved. Moreover,Since the standing-up prevention mechanism has a cam portion formed at the hook member support portion of the base member and / or the rotation fulcrum portion of the hook member, the cam action can be used to simplify the configuration. An upright prevention mechanism that prevents the hook member from being held upright with respect to the base member when not in use can be provided.
[0057]
  Furthermore, according to the ninth invention of the present application,Since the cover portion that spans and connects the opposing portions of the hook member is integrally provided with the hook member, the hook member is reinforced by the cover portion, and its rigidity can be increased. That is, it is possible to ensure the strength and rigidity without particularly increasing the member size of the hook member. In addition, in the rotation position where the inclination angle of the hook member with respect to the base member is a predetermined value or less, the fastening member for fixing the base member is covered with the cover portion, so that the appearance when the base member is fixed to the mounting member is obtained. Can be improved. That is, improvement in the appearance of the base member and securing of the strength and rigidity of the hook member can be achieved with a simple configuration in which only the cover portion is provided.
In addition, since the hook member supporting portion of the base member is integrally provided with a movable holding portion for holding the pivot fulcrum of the hook member so as to be movable by a predetermined amount in the longitudinal direction of the base member, The position of the moving fulcrum can be moved within a predetermined range, and the application range when using the hook member can be expanded. As a result, the position of the pivot fulcrum of the hook member is moved at the time of use even when, for example, the floor surface on which the luggage is placed is different (such as when the vehicle type is different for automobiles). This makes it possible to easily cope with the situation, and the convenience is greatly improved.
[0058]
  Furthermore, according to the tenth invention of the present application, basically, the above-mentionedNinth inventionThe same effect can be achieved. Moreover,A long groove-shaped holding portion extending in a predetermined amount in the longitudinal direction of the base member is integrally formed on the hook member supporting portion of the base member, and the holding portion constitutes the movable holding portion. That is, with a simple configuration in which the long groove-shaped holding portion is provided on the hook member supporting portion of the base member, the pivot fulcrum of the hook member can be held movably by a predetermined amount in the longitudinal direction of the base member.
[Brief description of the drawings]
FIG. 1 is an explanatory plan view of a hook device according to a first embodiment of the present invention.
FIG. 2 is a longitudinal sectional explanatory view taken along line Y2-Y2 in FIG.
3 is a longitudinal cross-sectional explanatory view taken along line Y3-Y3 in FIG.
FIG. 4 is an explanatory plan view of a hook member incorporated in the hook device according to the first embodiment.
5 is an explanatory side view from the Y5-Y5 direction in FIG. 4; FIG.
FIG. 6 is an enlarged perspective view showing a hook support part of a base and a rotation fulcrum part of a locking hook according to an embodiment of the present invention.
FIG. 7 is a front explanatory view showing a fitting state when the hook support part and the rotation fulcrum part are assembled.
FIG. 8 is an explanatory view showing a cam engagement state when the hook support portion and the rotation fulcrum portion are assembled.
FIG. 9 is a perspective view showing a rotation state of a locking hook corresponding to the cam engagement state.
FIG. 10 is an enlarged cross-sectional explanatory view showing a pin and a claw portion according to a third embodiment of the present invention.
11 is an explanatory side view from the Y11-Y11 direction in FIG. 10;
FIG. 12 is an explanatory plan view of a hook device according to a fourth embodiment of the present invention.
13 is a longitudinal cross-sectional explanatory view taken along line Y13-Y13 in FIG.
14 is a longitudinal sectional explanatory view taken along line Y14-Y14 in FIG.
FIG. 15 is a longitudinal cross-sectional explanatory view showing, in an enlarged manner, a protrusion provided in a hook housing recess in the fourth embodiment.
[Explanation of symbols]
1, 31, 41 ... Base
5a, 45a ... buttocks of the vertical wall
6, 46 ... Hook storage recess
7, 47 ... Projection
10, 26, 50 ... locking hook
15, 55 ... Cover part
23, 43 ... Hook support
23b ... Cam support
23c ... Cam surface
27 ... Rotation fulcrum
27b ... Cam fulcrum
27c ... Cam part
32 ... pin
33 ... Claw
43b ... Holding part
B ... Bolt
N ... Nut
W1, W4 ... Hook device

Claims (10)

A base member fixed to a mounting member using a predetermined fastening member , and a use state and a non-use state supported by the base member so as to be rotatable around a hook support portion provided on the base member A hook structure comprising a substantially annular hook member switchable between and
The hook member has a cover portion that extends in a direction away from the rotation fulcrum supported by the hook support portion and spans and connects opposite portions of the hook member integrally with the hook member. And an opening whose outer periphery is surrounded by the outer edge of the hook member is formed on the opposite side of the cover portion from the rotation fulcrum portion,
In the rotation position where the inclination angle of the hook member with respect to the base member is a predetermined value or less, the fastening member is covered with the cover portion .
A hook structure characterized by that.   The base member is integrally provided with a storage recess for storing the hook member when the hook member is not used, and at least one of the base member and the hook member is provided with the hook member in the storage recess. 2. The hook structure according to claim 1, wherein the holding means for holding in a housed state is integrally formed.   3. The hook structure according to claim 2, wherein a flange having a concave cross section is provided integrally with the storage recess on the outer peripheral side of the storage recess. A portion of the base member facing the mounting member is integrally formed with a claw for temporarily holding the base member against the mounting member when the base member is fixed to the mounting member. The hook structure as described in any one of Claims 1-3 characterized by the above-mentioned. The hook structure according to claim 4 , wherein the claw portion has a temporary holding function of temporarily holding the seal member disposed between the base member and the mounting member with respect to the base member. The hook structure according to any one of claims 1 to 5 , wherein the base member and the hook member are both made of synthetic resin. A base member fixed to the mounting member using a predetermined fastening member, and a substantially annular hook member that is rotatably supported with respect to the base member and can be switched between a use state and a non-use state. A hook structure,
A cover portion is provided integrally with the hook member so as to span and connect the opposing portions of the hook member.
The hook member support portion of the base member and / or the pivot fulcrum portion of the hook member is provided with an upright prevention mechanism that prevents the hook member from being held upright with respect to the base member when not in use. And
The rotational position of the tilt angle is less than a predetermined value relative to the base member of the hook member, full click structural said fastening member you characterized in that is covered with the cover portion. 8. The hook structure according to claim 7, wherein the upright prevention mechanism has a cam portion formed at a hook member support portion of the base member and / or a rotation fulcrum portion of the hook member. A base member fixed to the mounting member using a predetermined fastening member, and a substantially annular hook member that is rotatably supported with respect to the base member and can be switched between a use state and a non-use state. A hook structure,
A cover portion is provided integrally with the hook member so as to span and connect the opposing portions of the hook member.
The hook member supporting portion of the base member is integrally provided with a movable holding portion that holds the pivot fulcrum of the hook member so as to be movable by a predetermined amount in the longitudinal direction of the base member.
The rotational position of the tilt angle is less than a predetermined value relative to the base member of the hook member, full click structural said fastening member you characterized in that is covered with the cover portion. The hook member supporting portion of the base member is integrally formed with a long groove-like holding portion extending a predetermined amount in the longitudinal direction of the base member, and the holding portion constitutes the movable holding portion. The hook structure according to claim 9 .

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