JP5918549B2 - Pallet, multilevel parking device, and method for manufacturing pallet - Google Patents

Description

  The present invention relates to a pallet, a multilevel parking apparatus, and a method for manufacturing a pallet.

  As a conventional multi-story parking apparatus, there exists a multi-story parking apparatus of patent document 1, for example. This conventional multi-story parking apparatus includes a pallet lifting body composed of a plurality of pallets arranged vertically in a pit formed at a predetermined depth from the ground surface of the vehicle. In the pit, a plurality of pillars to which a drive shaft and the like are attached are installed around the pallet lifting body, and a pair of front and rear suspension chains wound around the driving shaft are bridged around the lower part of the pallet lifting body. ing. Then, the pallet lifting / lowering body is moved up and down by feeding and winding the suspension chain by the drive shaft, and the designated pallet is moved to the position on the ground surface.

  Moreover, as a pallet used for a multilevel parking device, as shown in Patent Document 2, for example, a flat type in which a mounting surface on which a vehicle is mounted is flat as much as possible has been developed. In such a flat-type pallet, the subframe is welded along the longitudinal direction (the advancing / retreating direction of the vehicle) to the back surface of the main rail constituting the placement surface in order to ensure the required strength. For the subframe, a steel material having a closed cross section such as a square pipe is used, and the pallet to which the subframe is welded is subjected to a rust prevention treatment such as hot dip galvanization.

JP 2007-303072 A JP 2010-007282 A

  When the above-described plating treatment is applied to the pallet, there is a risk that the pallet may be distorted after the plating treatment due to the influence of residual stress due to heat input during welding or the like. From the viewpoint of reducing the number of subframes and the number of welding points, it is first effective to use a steel material having relatively high rigidity as a single member, such as a steel material having a closed cross section, as a subframe. However, when such a steel material is used, there is a problem that a wide range of contact portions (mating surfaces) are formed between the main rail and the sub frame, and it is difficult to obtain sufficient plating adhesion.

  The present invention has been made to solve the above-mentioned problems, and even with a flat type, sufficient strength can be obtained, and plating adhesion during plating can be ensured, and distortion after plating can be suppressed. Another object of the present invention is to provide a pallet with high appearance quality, a multilevel parking apparatus using such a pallet, and a method for manufacturing the pallet.

  In order to solve the above problems, a pallet according to the present invention is a pallet having a vehicle-mounted surface on which a vehicle is placed and having an outer surface plated, and the vehicle-mounted surface is provided on the surface side. A sub-frame comprising: a flat main rail; a sub-frame arranged in the advancing / retreating direction of the vehicle on the back side of the main rail; and a cross member arranged in a direction orthogonal to the sub-frame on the back side of the main rail. Is made of a steel material having a closed cross section, one side in the width direction of the subframe is welded to the main rail along the longitudinal direction, and the other side in the width direction of the subframe is welded only to the cross member. It is characterized by being connected to the main rail via a member.

  In this pallet, the amount of heat input during welding can be suppressed by welding only one side in the width direction of the subframe to the main rail. Therefore, the residual stress can be reduced, the distortion after the plating process can be suppressed, and the appearance quality can be improved. In addition, since one side of the mating surface of the main rail and the subframe is opened without being welded, it is easy for the plating solution to enter the mating surface during the plating process, and the plating adhesion can be improved. The strength of the pallet can be sufficiently ensured by configuring the subframe with a steel material having a closed cross section and connecting the other side in the width direction of the subframe to the main rail via the cross member.

  The cross member is made of a steel material having a closed cross section, and one side in the width direction of the cross member is welded to the main rail along the longitudinal direction, and the other side in the width direction of the cross member is connected to the main rail. It is preferably not welded. In this case, the plating solution can easily enter the mating surface between the main rail and the cross member, and the plating adhesion can be further improved. Further, the strength can be further ensured by forming the cross member with a steel material having a closed cross section.

  Further, it is preferable that an extending member of the cross member is disposed substantially coaxially with the cross member on the outer side in the width direction of the subframe. Thereby, intensity | strength can further be improved.

  A multi-story parking apparatus according to the present invention includes the pallet.

  In this three-dimensional parking apparatus, the amount of heat input at the time of welding can be suppressed by welding only one side in the width direction of the subframe of the pallet to the main rail. Therefore, the residual stress can be reduced and the distortion after the plating process can be suppressed, and the appearance quality of the pallet can be improved. In addition, since one side of the mating surface of the main rail and the subframe is opened without being welded, it is easy for the plating solution to enter the mating surface during the plating process, and the plating adhesion can be improved. The strength of the pallet can be sufficiently ensured by configuring the subframe with a steel material having a closed cross section and connecting the other side in the width direction of the subframe to the main rail via the cross member.

  Moreover, the manufacturing method of the pallet according to the present invention is a manufacturing method of a pallet having a vehicle-mounted surface on which the vehicle is placed, and the vehicle-mounted surface is provided on the back side of the substantially flat main rail provided on the surface side. A subframe made of a steel material having a closed cross section is arranged in the vehicle advancing / retreating direction, a cross member is arranged in a direction orthogonal to the subframe, and one side of the subframe in the width direction is arranged along the longitudinal direction of the main rail. The other side of the width direction of the subframe is welded only to the cross member, connected to the main rail via the cross member, and the main frame that combines the subframe and the cross member is immersed in the plating bath for plating. It is characterized by performing processing.

  In this pallet manufacturing method, the amount of heat input during welding can be suppressed by welding only one side of the subframe in the width direction to the main rail. Therefore, the residual stress can be reduced and the distortion after the plating process can be suppressed, and the appearance quality of the pallet can be improved. In addition, since one side of the mating surface of the main rail and the subframe is opened without being welded, it is easy for the plating solution to enter the mating surface during the plating process, and the plating adhesion can be improved. The strength of the pallet can be sufficiently ensured by configuring the subframe with a steel material having a closed cross section and connecting the other side in the width direction of the subframe to the main rail via the cross member.

  Also, a steel member having a closed cross section is used as a cross member, one side in the width direction of the cross member is welded to the main rail along the longitudinal direction, and the other side in the width direction of the cross member is welded to the main rail. Preferably not.

  In this case, the plating solution can easily enter the mating surface between the main rail and the cross member, and the plating adhesion can be further improved. Further, the strength can be further ensured by forming the cross member with a steel material having a closed cross section.

  Moreover, it is preferable to arrange | position the extending member of the said cross member on the outer side of the width direction of a sub-frame substantially coaxially with the cross member. Thereby, intensity | strength can further be improved.

  According to the present invention, sufficient strength can be obtained even with a flat pallet, and plating adhesion during plating can be ensured. In addition, distortion after the plating treatment is suppressed, and appearance quality can be improved.

It is a front view which shows one Embodiment of the multi-story parking apparatus which concerns on this invention. It is a perspective view of the pallet raising / lowering body which comprises the three-dimensional parking apparatus shown in FIG. It is a figure which shows the structure of the back surface side of a pallet. It is the IV-IV sectional view taken on the line in FIG.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of a pallet, a multilevel parking device, and a method for manufacturing a pallet according to the invention will be described in detail with reference to the drawings.

  FIG. 1 is a front view showing an embodiment of a multi-story parking apparatus according to the present invention. As shown in the figure, the multi-story parking device 1 is a one-story and two-story multi-story parking device (hereinafter referred to as a unit) provided in a pit formed at a predetermined depth from the ground surface G where a vehicle enters and exits. This is a pit type three-dimensional parking device in which four parking devices 2) are provided. The unit parking apparatus 2 includes a frame body 3 disposed in the pit P and a pallet lifting body 6 disposed in a space surrounded by the frame body 3.

  The frame 3 is configured by front and rear support columns 4 and 5 erected in a pair of left and right at the front and rear portions of the pit P, and a road plate 21 provided between the tops of the front and rear support columns 4 and 5. . The road plate 21 extends substantially flush with the ground surface G on the front side of the installation position of the car stop 33 (see FIG. 2) on the pallet 7, and has moved to the ground surface G by raising and lowering the pallet lifting body 6. A passage 22 is formed with the pallet 7.

  FIG. 2 is a perspective view of the pallet lifting body. As shown in the figure, the pallet elevating body 6 includes a plurality of (here, three) pallets 7 on which a vehicle is placed, and front and rear pallet columns 8 and 9. That is, the pallet elevating body 6 has an upper pallet 7a, an intermediate pallet 7b, and a lower pallet 7c, and each of these pallets 7a, 7b, 7c is divided into three stages by a pair of left and right pallet columns 8,9. It is connected.

  Next, the configuration of the pallet 7 will be described. FIG. 3 is a diagram showing the configuration of the back side of the pallet, and FIG. 4 is a cross-sectional view taken along line IV-IV in FIG. As shown in FIGS. 3 and 4, the pallet 7 includes a substantially flat main rail 31 with the in-vehicle surface C provided on the surface side, and is a flat pallet in which the unevenness of the in-vehicle surface C is suppressed as much as possible. Yes. The outer surface of the pallet 7 is subjected to a rust prevention treatment by, for example, a hot dip galvanizing treatment.

  The main rail 31 is formed by, for example, bending a single steel material by a press or the like. A pair of grooves 32 and 32 through which the vehicle wheel passes are formed on the in-vehicle surface C of the main rail 31, and car stops 33 and 33 are provided in the grooves 32 and 32, respectively (see FIG. 2). . Both ends 34, 34 in the width direction of the main rail 31 are bent at a substantially right angle on the back surface side, and are further bent back at a substantially right angle from the lower end thereof to form a hook shape.

  On the back surface side of the main rail 31, a subframe 41 arranged in the longitudinal direction of the pallet 7 (advancing / retreating direction of the vehicle) and a cross member 42 arranged in the width direction of the pallet 7 (a direction orthogonal to the subframe 41). And an extension member 43 disposed on both ends 34 and 34 side of the main rail 31 with respect to the subframe 41. The subframe 41, the cross member 42, and the extension member 43 are all formed of a hollow steel material having a rectangular cross section such as a square pipe.

  One sub-frame 41 is disposed substantially in parallel with each other near the both end portions 34 in the width direction of the main rail 31. One cross member 42 is disposed substantially parallel to each other so as to connect the left and right subframes 41, one at a position where the front and rear pallet columns 8, 9 are provided. The extension member 43 is disposed substantially coaxially with the cross member 42 so as to connect both end portions 34, 34 in the width direction of the main rail 31 and the subframe 41.

  In joining the subframe 41 and the main rail 31, the outer side (one side) of the subframe 41 in the width direction is welded to the main rail 31 by a welded portion W1 formed along the longitudinal direction. The inner side (the other side) in the width direction of the subframe 41 is not welded to the main rail 31, but is a welded portion W <b> 2 formed at the contact portion between the side surfaces in the width direction and the three sides of the top and the cross member 42. Thus, welding is performed only on the side surface of the end portion of the cross member 42.

  Further, when the cross member 42 and the main rail 31 are coupled, the outer side (one side) of the cross member 42 in the width direction is welded to the main rail 31 by a welded portion W3 formed along the longitudinal direction. The inner side (the other side) of the cross member 42 in the width direction is not welded to the main rail 31. Therefore, the inner side in the width direction of the subframe 41 is coupled to the main rail 31 via the cross member 42.

  As shown in FIG. 3, cross members 44 are also arranged at the front end and the rear end of the main rail 31, respectively. Similarly to the sub frame 41 and the cross member 42, the cross member 44 is also formed of a hollow steel material having a rectangular cross section such as a square pipe, and is substantially mutually connected so as to connect both end portions 34, 34 in the width direction of the main rail 31. They are arranged in parallel. The end portions in the longitudinal direction of the subframe 41 are in contact with the cross member 44.

  Regarding the connection between the cross member 44 and the main rail 31, the outer side in the width direction of the cross member 44 (the front end side or the rear end side of the main rail 31) is formed by a welded portion W4 formed along the longitudinal direction of the main rail. While being welded to 31, the inner side in the width direction of the cross member 44 (the center side of the main rail 31) is not welded to the main rail 31. Moreover, the contact part of the cross member 44 and the edge part of the longitudinal direction of the sub-frame 41 is the state mutually joined by welding.

  The extension member 43 is disposed coaxially with the cross member 42 so as to contact the subframe 41 and both end portions 34 of the main rail 31. Both sides of the extending member 43 in the width direction are welded to the main rail 31 by welds W5 formed along the longitudinal direction. Further, as shown in FIG. 4, end portions of the extending member 43 in contact with the subframe 41 in the longitudinal direction are welded portions W <b> 6 formed at contact portions between the side surfaces of the width direction and the three sides of the top portion and the subframe 41. Is welded to the outer top of the subframe 41 in the width direction.

  When manufacturing such a pallet 7, first, the main rail 31 in which the grooves 32, 32 and the bowl-shaped end portions 34, 34 are formed in advance on the vehicle-mounted surface C by pressing or the like is prepared. Next, on the back side of the main rail 31, a subframe 41 made of a steel material having a closed cross section is arranged in the vehicle advancing / retreating direction, and the cross member 42 is arranged in a direction orthogonal to the subframe 41. Then, the outer side in the width direction of the subframe 41 is welded to the main rail 31 along the longitudinal direction, and the outer side in the width direction of the cross member 42 is welded to the main rail 31 along the longitudinal direction. The inner side of 41 in the width direction is welded to the top of the end of the cross member 42.

  After the subframe 41 and the cross member 42 are welded to the main rail 31, the extension member 43 and the cross member 44 are further arranged on the back side of the main rail 31. Then, the outer side in the width direction of the cross member 44 is welded to the main rail 31 along the longitudinal direction, and both sides in the width direction of the extension member 43 are welded to the main rail 31 along the longitudinal direction. Further, the end of the extending member 43 in the longitudinal direction is welded to the top of the subframe 41 on the outer side in the width direction.

  After this, through a predetermined degreasing process, a cleaning process, a flux treatment process, etc., the pallet 7 is immersed in a hot dip galvanizing tank (not shown) at about 400 ° C., thereby forming a plating film on the entire outer surface of the pallet 7 To do. At this time, in the pallet 7, since the subframe 41 is welded on one side, the main rail 31 and the subframe 41 are brought to the surface side due to the difference in heat capacity and rigidity between the mainrail 31 and the subframe 41. It is slightly curved so as to be convex, and a slight gap is generated on the mating surface between the main rail 31 and the sub frame 41. Therefore, it is possible to infiltrate the plating solution from the gap of the mating surface and perform the plating process without providing a sealing structure on the mating surface or providing a pallet 7 with a hole for circulating the plating solution. It becomes. Then, the pallet 7 is cooled and the manufacture of the pallet 7 is completed.

  As described above, in this pallet 7, the amount of heat input during welding can be suppressed by welding only the outer side in the width direction of the sub-frame 41 to the main rail 31. Therefore, the residual stress can be reduced, the distortion after the plating process can be suppressed, and the appearance quality can be improved. In addition, since one side of the contact portion (mating surface) between the main rail 31 and the subframe 41 is opened without being welded, it is easy for the plating solution to enter the mating surface during the plating process, and the plating adhesion is improved. It can be improved. The strength of the pallet 7 is sufficient by configuring the subframe 41 with a steel material having a closed cross section such as a square pipe and connecting the inner side in the width direction of the subframe 41 to the main rail 31 via the cross member 42. It can be secured.

  Moreover, in the pallet 7, the cross member 42 is also made of a steel material having a closed cross section such as a square pipe, and the outer side in the width direction of the cross member 42 is welded to the main rail 31 along the longitudinal direction. The rail 31 is not welded. Therefore, the plating solution can easily enter the mating surfaces of the main rail 31 and the cross member 42, and the plating adhesion can be further improved. Further, the strength can be further ensured by configuring the cross member 42 with a steel material having a closed cross section.

  In the pallet 7, an extension member 43 is disposed on the outer side in the width direction of the subframe 41 so as to be substantially coaxial with the cross member 42. A cross member 44 is disposed at the front end and the rear end of the pallet 7. The extension member 43 and the cross member 44 can further improve the strength.

  The present invention is not limited to the above embodiment. For example, in the above-described embodiment, the pit type multi-story parking apparatus 1 has been exemplified. However, the pallet according to the present invention is not limited to the pit type multi-story parking apparatus, and other types of multi-story parking apparatuses such as an ascending / descending and traversing system on the ground. It is also applicable to. Moreover, in the said embodiment, although the pallet 7 provided with the grooves 32 and 32 in the vehicle-mounted surface C is illustrated, the pallet without the grooves 32 and 32 may be sufficient. Furthermore, in the said embodiment, although the cross member 42 is welded to the main rail 31 by one-side welding, the cross member 42 may be double-sided welding. The same applies to the cross member 44.

  DESCRIPTION OF SYMBOLS 1 ... Three-dimensional parking apparatus, 7 ... Pallet, 31 ... Main rail, 41 ... Sub-frame, 42 ... Cross member, 43 ... Extension member, C ... In-vehicle surface.

Claims (7)

A pallet having an in-vehicle surface on which a vehicle is placed and plated on the outer surface,
A substantially flat main rail provided on the surface side of the vehicle-mounted surface;
A sub-frame arranged in a vehicle forward / backward direction on the back side of the main rail;
A cross member disposed in a direction orthogonal to the sub-frame on the back side of the main rail,
The subframe is made of a steel material having a closed cross section,
One side of the subframe in the width direction is welded to the main rail along the longitudinal direction thereof,
The other side of the sub frame in the width direction is welded only to the cross member, and is connected to the main rail via the cross member. The cross member is made of a steel material having a closed cross section,
One side of the cross member in the width direction is welded to the main rail along its longitudinal direction,
The pallet according to claim 1, wherein the other side of the cross member in the width direction is not welded to the main rail.   The pallet according to claim 1 or 2, wherein an extension member of the cross member is disposed substantially coaxially with the cross member outside the width direction of the subframe.   A three-dimensional parking apparatus comprising the pallet according to any one of claims 1 to 3. A method of manufacturing a pallet having an in-vehicle surface on which a vehicle is placed,
A sub-frame made of a steel material having a closed cross section is arranged in the advancing / retreating direction of the vehicle on the back side of the substantially flat main rail provided with the vehicle-mounted surface on the front side, and the cross member is perpendicular to the sub-frame. Placed in
Welding one side in the width direction of the sub-frame to the main rail along its longitudinal direction;
Welding the other side in the width direction of the sub-frame only to the cross member, and connecting to the main rail via the cross member;
A method of manufacturing a pallet, wherein the main rail combined with the sub-frame and the cross member is immersed in a plating tank to perform plating. Using a steel material having a closed cross section as the cross member,
Welding one side of the cross member in the width direction along the longitudinal direction to the main rail;
The pallet manufacturing method according to claim 5, wherein the other side of the cross member in the width direction is not welded to the main rail.   The method for manufacturing a pallet according to claim 5 or 6, wherein an extending member of the cross member is arranged substantially coaxially with the cross member outside the width direction of the subframe.

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