CN207890403U - Container - Google Patents

Abstract

The utility model discloses a kind of containers.Container has open type side, container includes underbeam, multiple tie-beams and upper beam, underbeam is arranged in the bottom of container, multiple tie-beams are spaced and are vertically arranged along its length, each of multiple tie-beams are connect with underbeam, upper beam is arranged on the top of at least one tie-beam, and upper beam is moved or rotated between blocking position and release position.Container according to the present utility model while ensureing the intensity of chassis and can mitigate the weight of chassis, to alleviate the overall weight of container, while also increasing internal container height space and loading car loading.

Description

Container

Technical field

The utility model is related to container technology fields.

Background technology

Existing open side container in the side of container is provided with door, and either cord door or cord can seal collection The part of the opening of the side of vanning.Operating personnel can pass through the open position handling goods of the both sides of open side container. Open side container has handling goods easy to operate efficient with handling goods compared with the container that common end is opened the door The advantages that.Such as application No. is 201420754836.6 Chinese patents, disclose a kind of Undercarriage structure and the side curtain with it Case.Application No. is 201610260409.6 Chinese patents, disclose a kind of 40 feet of side door containers.It opens above two side Formula container when in use, in handling goods, open wide, and causes respective chassis stress larger, therefore, in order to ensure that chassis by its side Intensity and control chassis deflection are met the requirements of the standard, the chassis main body force structure of open side container be typically all have compared with The H profile steel of big height.In existing 20 ' casees, chassis height is 300 millimeters or so, and chassis has two foundation curb girders.It is existing 40 ' casees in, chassis height be 400 millimeters or so, chassis have two foundation curb girders.If necessary to reduce chassis height, So in order to ensure the intensity of chassis, need to increase bottom side beams quantity.Such as in 20 ' casees, as shown in Figure 1, its 1 height of chassis H2 is 200 millimeters or so, and chassis 1 needs have five foundation side girders.In 40 ' casees, chassis height is 350 millimeters of left sides The right side, chassis need have four foundation side girders.But after increasing bottom girder quantity in chassis, box weight mistake can be led to The loading height of the inside of weight and babinet reduces, and can load car loading and also accordingly reduce.

Therefore, it is necessary to a kind of containers, to solve problems of the prior art at least partly.

Utility model content

A series of concept of reduced forms is introduced in utility model content part, this will be in specific embodiment part Middle further description.The utility model content part of the utility model is not meant to attempt to limit claimed Technical solution key feature and essential features, do not mean that more attempt determine technical solution claimed guarantor Protect range.

It is according to the present utility model in a first aspect, provide a kind of container in order to solve the above problems at least partly, The container has open type side, and the container includes underbeam, multiple tie-beams and upper beam, and the underbeam is along the collection The length direction of vanning is arranged in the bottom of container, and the multiple tie-beam is along the length direction interval and is vertically arranged, Each of multiple tie-beams are connect with the underbeam, and the upper beam is arranged on the top of at least one tie-beam, and The upper beam is moved or is rotated between blocking position and release position.

Container according to the present utility model, the length direction along container are arranged at intervals with tie-beam, can ensure While the intensity of chassis and mitigates the weight of chassis and significantly increase packaging to alleviate the overall weight of container The weight of box installed loading object.The height of the chassis of container disclosed by the utility model is equal to lower depth of beam, with existing collection Vanning is compared, and lower depth of beam is far below the chassis height of the existing container with open type side, causes this practicality new The case inner height of container disclosed in type is more than the case inner height of existing container, can increase useful load and box house height Space.

Optionally, the top of the tie-beam is provided with along the perforative channel of the length direction, the adjacent connection Vertical space open on the outside of oriented container is formed between beam, the upper beam is located at least two institutes at the blocking position It states in the vertical space between tie-beam, to block the vertical space, the upper beam to be exited at the release position The vertical space between at least two tie-beam, so that the vertical space is up and down.In this way, when upper When beam is moved to release position from blocking position, it can make vertical space up and down, so that cargo can pass through this Vertical space up and down transports or is transported into the inside of container.

Optionally, when any one described upper beam is moved to release position from blocking position, the upper beam with it is adjacent described Upper beam is least partially overlapped along the projection of the short transverse of the container and at least partly exits when positioned at blocking position The vertical space blocked, so that this part vertical space is up and down.Thus set-up mode, when upper beam is from blocking position When being moved to release position, can make part vertical space up and down so that cargo can be by this part above and below The vertical space of perforation transports or is transported into the inside of container.

Optionally, the upper beam is multiple, and when whole vertical spaces is blocked, multiple upper beams are along the collection The projection of the short transverse of vanning is least partially overlapped and/or at least partly end connects, and thus multiple upper beams are described in The length direction of container is across all tie-beams.In this way, when whole vertical spaces is blocked, multiple upper beams are horizontal Across whole tie-beams, chassis has enough support strengths so that the cargo of the inside of container is stopped by upper beam, is not passed through Vertical space between tie-beam is moved to the outside of container, ensure that the safety of cargo.

Optionally, the upper beam is multiple, and when the vertical space of part is blocked, multiple upper beams are along the packaging The projection of the short transverse of case is least partially overlapped, and thus multiple upper beams are across part tie-beam.Thus set-up mode makes Part upper beam is obtained across part tie-beam so that the partial cargo of the inside of container is stopped by upper beam, it is also possible that separately Outer partial cargo can be transported or be transported into the inside of container by the vertical space up and down of part.

Optionally, the tie-beam includes multiple first tie-beams and multiple second tie-beams, second tie-beam Height is more than described first and connects depth of beam.In this way, different upper beams can be made to be arranged in different tie-beams, to So that different upper beams does not interfere when moving.

Optionally, second tie-beam is being internally provided at least two channels, and at least two channel is along described The short transverse of container is staggered.In this way, different upper beams can be made to be arranged in multiple channels of different height, from And different upper beams is not interfered when moving.

Optionally, the upper beam and/or the underbeam be configured to pipe, H profile steel, I-steel, ZC shaped steel, C-type steel, L-type steel, It is one or more in T-steel and "-" type steel.Selection is convenient in this way.

Optionally, the container includes chassis, and the underbeam is located at the side of the chassis, the height etc. of the chassis In the lower depth of beam.Thus set-up mode greatly reduces the height of chassis, alleviates the weight of chassis, thus into One step reduces the weight of container, while also increasing internal container height space and loading car loading.

Optionally, further include the first articulated mounting, the upper beam passes through first articulated mounting and cut with scissors with the tie-beam It connects.According to this scheme, upper beam can be rotated around the first articulated mounting so that the vertical space between adjacent tie-beam passes through up and down It is logical.

Optionally, the upper beam is multiple, and the upper beam is located at least two tie-beams at the blocking position Between vertical space in, to block the vertical space, the upper beam to be rotated to the opening around first articulated mounting Position, so that the vertical space is up and down.In this way, multiple upper beams can be rotated rotating around respective articulated position, just In operation.

Optionally, the upper beam is connect by connector with the tie-beam.In this way, upper beam can be made not move When, upper beam is connected with tie-beam, to form whole frame structure.

Optionally, the spacing of the part tie-beam is set as that the pallet fork of fork truck can be accommodated, so that fork truck is from container Outside is stretched into and lifts the tray unit positioned at internal container.In this way, it is dry so that pallet fork occurs not between tie-beam It relates to, is smoothly entered in container by the spacing between two tie-beams.

Optionally, further include the second articulated mounting, the tie-beam passes through second articulated mounting and cut with scissors with the underbeam It connects, the tie-beam is fallen around second articulated mounting rotation so that the upper beam and the tie-beam are co-located on opening Position, the tie-beam is rotated around second articulated mounting to rise so that the upper beam and the tie-beam are co-located on perpendicular Vertical position.In this way, can make tie-beam and upper beam rotate together with to fall so that the vertical space between adjacent tie-beam is complete Entirely up and down, in cargo transport, tie-beam is not interfered with cargo.

Optionally, further include bar, the bottom of the bar is hinged with the underbeam, the top of the bar and the company It is hinged to connect beam.In this way, when tie-beam is in erection position, bar supports tie-beam, to improve the stability of tie-beam.

Optionally, further include torsion spring device, the torsion spring device is mounted between the lower part and underbeam of the tie-beam.This Sample, torsion spring device apply with turning power the overturning of tie-beam, reduce tie-beam and upper beam is moved to open stance by erection position Speed when setting and impact force.

Optionally, further include bearing connecting device, the bearing connecting device is arranged in the lower part of the tie-beam under Between beam, the bearing connecting device be used in the tie-beam with the upper beam in the erection position when connect it is described under Beam.According to this scheme, bearing connecting device can in tie-beam with upper beam in erection position when connect underbeam, improve tie-beam with Bonding strength between underbeam.

Optionally, further include column, the top of the column is connect with the top beam of the container, the bottom of the column It is detachably connected with the upper beam.In this way so that the open type side of container is more secured and indeformable.

Optionally, further include column, the top of the column is connect with the top of the container, the bottom of the column Detachably connected with the underbeam, the upper beam and/or the tie-beam are provided with and pass through for the column along short transverse Groove.In this way, column is not interfered with upper beam, the movement of upper beam is not hindered.

Optionally, further include corrugated plating, the corrugated plating is arranged between the upper beam and the lower part of the tie-beam.This Sample can prevent the cargo of the inside of container from being leaked out from the vertical space between tie-beam.

Optionally, further include intermediate connector, the intermediate connector is for connecting two adjacent tie-beams.This Sample can improve the stability between tie-beam.

Optionally, the container further includes closure, the closure can open with the top of stating open type side Connection.Thus set-up mode so that close the open type side of container.

Optionally, the container is side curtain container.In this way, being readily transported cargo.

Optionally, the container is side door container.In this way, being closed convenient for open type side.

Optionally, the container is the container of side curtain and side enabling combining form.In this way, the open type side of container The closing mode in portion is various.

Optionally, the container is platform based container or platform flat.In this way, container can be in a variety of rings It is used in border.

Optionally, the container be fold platform based container, the folding platform based container further include with it is described The folding end frame or folding corner post of underbeam connection.In this way, the whole height of container can be made to reduce, using just It is prompt.

Description of the drawings

The following drawings of the utility model is used to understand the utility model in this as the part of the utility model.Attached drawing In show the embodiments of the present invention and its description, for explaining the device and principle of the utility model.In the accompanying drawings,

Fig. 1 is the transverse sectional view of existing container；

Fig. 2 is the front view according to the door end of the container of the utility model；

Fig. 3 is the front view according to the front end of the container of the utility model；

Fig. 4 is the section view of the underbeam or upper beam according to the first preferred embodiment of the container of the utility model Figure；

Fig. 5 is the section view of the underbeam or upper beam according to second of preferred embodiment of the container of the utility model Figure；

Fig. 6 is the section view of the underbeam or upper beam according to the third preferred embodiment of the container of the utility model Figure；

Fig. 7 is the 4th kind of underbeam of preferred embodiment or the section view of upper beam according to the container of the utility model Figure；

Fig. 8 is the 5th kind of underbeam of preferred embodiment or the section view of upper beam according to the container of the utility model Figure；

Fig. 9 is the 6th kind of underbeam of preferred embodiment or the section view of upper beam according to the container of the utility model Figure；

Figure 10 is the 7th kind of underbeam of preferred embodiment or the section view of upper beam according to the container of the utility model Figure；

Figure 11 is the 8th kind of underbeam of preferred embodiment or the section view of upper beam according to the container of the utility model Figure；

Figure 12 is the 9th kind of underbeam of preferred embodiment or the section view of upper beam according to the container of the utility model Figure；

Figure 13 is the tenth kind of underbeam of preferred embodiment or the section view of upper beam according to the container of the utility model Figure；

Figure 14 is underbeam, upper beam and the tie-beam according to the first preferred embodiment of the container of the utility model Sectional view；

Figure 15 is underbeam, upper beam and the tie-beam according to second of preferred embodiment of the container of the utility model Sectional view；

Figure 16 is underbeam, upper beam and the tie-beam according to the third preferred embodiment of the container of the utility model Sectional view；

Figure 17 is underbeam, upper beam and the tie-beam according to the 4th kind of preferred embodiment of the container of the utility model Sectional view；

Figure 18 is underbeam, upper beam and the tie-beam according to the 5th kind of preferred embodiment of the container of the utility model Sectional view；

Figure 19 is the company according to the upper beam and tie-beam of the first preferred embodiment of the container of the utility model The sectional view of binding structure；

Figure 20 is the company according to the upper beam and tie-beam of second of preferred embodiment of the container of the utility model The sectional view of binding structure；

Figure 21 is the company according to the upper beam and tie-beam of the third preferred embodiment of the container of the utility model The sectional view of binding structure；

Figure 22 is the 4th kind of upper beam of preferred embodiment and the company of tie-beam of the container according to the utility model The sectional view of binding structure；

Figure 23 is according to the structural schematic diagram of the internal container of the utility model, and wherein tray unit is arranged in container Inside；

Figure 24 is the vertical view half sectional view according to the container of the utility model；

Figure 25 is the side view according to the container of the first preferred embodiment of the utility model, wherein upper beam In blocking position；

Figure 26 is the side view according to the container of the first preferred embodiment of the utility model, wherein part Upper beam is in release position；

Figure 27 is according to the transverse sectional view of the container of the first preferred embodiment of the utility model, wherein collecting The both sides of vanning are provided with side curtain；

Figure 28 is according to the transverse sectional view of the container of second of preferred embodiment of the utility model, wherein collecting The both sides of vanning are provided with side door；

Figure 29 is according to the transverse sectional view of the container of the third preferred embodiment of the utility model, wherein collecting The side of vanning is provided with side door, and the other side is provided with side curtain；

Figure 30 is according to the transverse sectional view of the container of the 4th kind of preferred embodiment of the utility model, wherein collecting Vanning is platform based container；

Figure 31 is according to the transverse sectional view of the container of the 5th kind of preferred embodiment of the utility model, wherein collecting Vanning is folding platform based container；

Figure 32 is according to the transverse sectional view of the container of the 6th kind of preferred embodiment of the utility model, wherein collecting Vanning is platform flat；

Figure 33 is the side view according to the container of the 7th kind of preferred embodiment of the utility model, wherein upper beam In blocking position；

Figure 34 is the side view according to the container of the 7th kind of preferred embodiment of the utility model, wherein upper beam In release position；

Figure 35 is the transverse sectional view according to the container of the 7th kind of preferred embodiment of the utility model；

Figure 36 is the portions the A partial enlarged view shown in Figure 33；

Figure 37 is the portions the B partial enlarged view shown in Figure 34；

Figure 38 is the side view according to the container of the 8th kind of preferred embodiment of the utility model, wherein upper beam In blocking position；

Figure 39 is the side view according to the container of the 8th kind of preferred embodiment of the utility model, wherein upper beam In release position；

Figure 40 is the portions the C partial enlarged view shown in Figure 38；

Figure 41 is the portions the D partial enlarged view shown in Figure 39；

Figure 42 is the transverse sectional view according to the container of the 8th kind of preferred embodiment of the utility model；

Figure 43 is the side view according to the container of the 9th kind of preferred embodiment of the utility model, wherein upper beam In blocking position；

Figure 44 is the transverse sectional view of container as shown in figure 43, wherein the tie-beam of the both sides of container is all connected with Third articulated mounting；

Figure 45 is the transverse sectional view of container shown in Figure 43, wherein the tie-beam of the side of container connects with carrying Connection device connects, and the tie-beam of the other side of container is connect with third articulated mounting；

Figure 46 is the portions the E partial enlarged view shown in Figure 45, wherein upper beam is in blocking position；

Figure 47 is the structural schematic diagram of upper beam, tie-beam and underbeam shown in Figure 45, wherein tie-beam is filled around bearer connection Set rotation；And

Figure 48 is the structural schematic diagram of upper beam, tie-beam and underbeam shown in Figure 45, wherein upper beam is in release position；

Figure 49 is the side view according to the container of the tenth kind of preferred embodiment of the utility model, wherein upper beam In blocking position；

Figure 50 is the tenth a kind of side view of the container of preferred embodiment according to the utility model, wherein on Beam is in blocking position；

Figure 51 is the side view according to the container of the 12nd kind of preferred embodiment of the utility model, wherein on Beam is in blocking position；With

Figure 52 is the portions the F partial enlarged view shown in Figure 51.

Attached drawing identifies：

1：Chassis；

100、600、700、800、900、1000、1100：Container；

110：Men Duan； 111：Column；

112：Open type side； 120：Front end；

130、830、1030、1130：Underbeam；

140、840、940、1140：Tie-beam；

141：First end tie-beam； 142：Second end tie-beam；

143：Intermediate tie-beam； 150：Channel；

151：First passage； 152：Second channel；

153：Third channel； 154：Fourth lane；

160、169、860、960、1060、1160：Upper beam；

161：First upper beam；

162：Second upper beam； 163：Third upper beam；

164：4th upper beam； 165：5th upper beam；

166：One end of 4th upper beam； 167：The other end of 5th upper beam；

168：The other end of 4th upper beam； 170：Casing；

171：First through hole； 172：Second through-hole

180：Vertical space； 190：Connector；

191：Bolt； 192：Nut；

193：Bolt； 194：Socket；

200：Tray unit； 210：Closure；

211：Side door； 212：Side curtain；

213：Pallet fork； 220：Chassis；

230：The top of container； 240：The end frame of container；

241：Top； 242：Lower part；

243：Hinge means； 300：Platform based container；

400：Fold platform based container； 500：Platform flat；

710：First articulated mounting 720：Second articulated mounting；

730：Bar 811：Column；

812：Open type side； 813：Groove；

814：Side curtain； 820、920、1120：Third articulated mounting；

821、1121：Torsion spring device； 822、1122：Bearing connecting device；

823：End coupling； 824：Pedestal；

825：Hook； 841、1041、1141：The lower part of tie-beam

926、1126：Intermediate connector； 1001、1101：Corrugated plating.

Specific implementation mode

In the following description, a large amount of concrete details are given more thoroughly to manage in order to provide to the utility model Solution.It is, however, obvious to a person skilled in the art that the utility model may not need it is one or more of these thin It saves and is carried out.In other examples, in order to avoid obscuring with the utility model, for more well known in the art Technical characteristic is not described.

In order to thoroughly understand the utility model, detailed structure will be proposed in following description, to illustrate this practicality It is novel.Obviously, the execution of the utility model is not limited to the specific details that the those skilled in the art are familiar with.This reality It is described in detail as follows with novel preferred embodiment, however other than these detailed descriptions, the utility model can also have it His embodiment, should not be construed as being limited to embodiments presented herein.

It should be understood that the purpose of term as used herein is only that description specific embodiment and not as this practicality Novel limitation, " one " of singulative "one" and " described/should " is also intended to include plural form, unless context understands finger Go out other mode.When the term " comprising " and/or " including " is used in this specification, indicate that there are the features, whole Body, step, operation, element and/or component, but do not preclude the presence or addition of other one or more features, entirety, step, behaviour Work, element, component and/or combination thereof.Term "upper", "lower", "front", "rear", " left side " used in the utility model, " right side " and similar statement for illustrative purposes only, not limit.

The cited such as ordinal number of " first " and " second " is only to identify in the utility model, without any Other meanings, such as specific sequence etc..Moreover, for example, term " first component " itself does not imply that depositing for " second component " Term " second component " does not imply that the presence of " first component " in itself.

Hereinafter, specific embodiment of the utility model is described in more detail with reference to the accompanying drawings, these attached drawings are shown The representative embodiment of the utility model is not to limit the utility model.

First embodiment

The utility model provides a kind of container 100.Container 100 has open type side 112.Such as Fig. 2 and Fig. 3 institutes Show, container 100 includes door end 110 and front end 120.The front end 120 of container 100 can be closed, and door end 110 has and can open Clamshell doors.The both ends of container 100 can be closed front end, i.e. Men Duanke is with for closed front-end architecture.In order to collect The cargo handling of the inside of the babinet of vanning 100 is convenient, and the side of container 100 is opened wide, and in order to ensure with open type side The intensity of the chassis 220 of the container 100 in portion 112, as shown in figure 25, the bottom of open type side 112 is also provided with down Beam 130, tie-beam 140 and upper beam 160.

Underbeam 130 is located at the side of the chassis 220 of container 100, and the length direction along container 100 extends.Underbeam 130 can be two, be located at the both sides of the chassis 220 of container 100, and the length direction along container 100 prolongs It stretches.As shown in figure 27, in the short transverse of container 100, the height H5 of underbeam 130 is preferred but does not limit equal to chassis 220 Height H6.The height H5 of underbeam 130 can with but be not limited to 100mm~200mm, it is preferred but do not limit, the height of underbeam 130 Degree H5 is 150mm.In this way, greatly reducing the height of the underbeam 130 along the short transverse of container 100.As shown in figure 24, The top of chassis 220 can be provided with floor, along the width direction of container 100, the upper surface of underbeam 130 and the upper table on floor Face is in same plane.

The material of underbeam 130 can be steel or iron, in this way, underbeam 130 can have enough support strengths.Such as Fig. 4 institutes Show, need to select according to product and design, the construction of underbeam 130 can be H profile steel, and the structural-load-carrying capacity of H profile steel is strong.Such as figure Shown in 5, the construction of underbeam 130 can also be the I-steel close with H profile steel performance, and I-steel selection is convenient, and bearing capacity is strong. As shown in fig. 6, the construction of underbeam 130 can also be ZC shaped steel, there is ZC shaped steel stage portion, stage portion can support container Floor in 100 so that underbeam 130 was connect with the intermediate structure on floor and chassis 220 more stablizes.As shown in fig. 7, underbeam 130 construction can be C-type steel, and the structure of C-type steel is simple, and the material used is less, alleviates the weight of underbeam 130.Such as Fig. 8 Shown, the construction of underbeam 130 can be inverted L shape steel, and the structure of L-type steel is simple, less using material, alleviates underbeam 130 Weight.As shown in Fig. 9 to Figure 13, the construction of underbeam 130 can be other common formed steel constructions, for example the construction of underbeam 130 Can be T-steel, a word steel, pipe, square tube steel and pipe.

The top of underbeam 130 is connect with one end of tie-beam 140.The bottom end of tie-beam 140 and the top of underbeam 130 are fixed Connection, tie-beam 140 can be connect with underbeam 130 by welding.The other end of tie-beam 140 is provided with channel 150, Channel 150 extends through tie-beam 140 along the length direction of container 100.In the present embodiment, tie-beam 140 is another End (i.e. the top of tie-beam 140) is provided with casing 170, and the inside of casing 170 is hollow channel 150.Channel 150 is along packaging The length direction of case 100 extends and runs through casing 170.On the length direction along container 100, it is provided with multiple tie-beams 140, multiple tie-beams 140 are spaced and are vertically arranged along its length, the bottom end of multiple tie-beams 140 and same underbeam 130 Top connects.Multiple tie-beams 140 are set along the length direction of container 100 at the open type side 112 of container 100 interval It sets.The open vertical space 180 in 100 outside of oriented container is formed between two adjacent tie-beams 140.Such as Figure 23 and Figure 26 Shown, along the length direction of container 100, the length of the vertical space 180 between adjacent two tie-beams 140 can be for fork One pallet fork 213 of vehicle passes through.Two adjacent vertical spaces 180 can be each passed through for two pallet forks 213 of fork truck.When So, the top of tie-beam 140 can be provided directly with closed channel 150, and channel 150 is prolonged along the length direction of container 100 It stretches and runs through tie-beam 140.The top of tie-beam 140 can be provided directly with the channel 150 of not closed opening, channel 150 Extend along the length direction of container 100 and runs through tie-beam 140.

Be provided with upper beam 160 in the channel 150 of casing 170, upper beam 160 along container 100 length direction movably It is arranged in channel 150.The material of upper beam 160 can be steel or iron, in this way, upper beam 160 can have enough support strengths. As shown in figure 4, the construction of upper beam 160 can be H profile steel, H profile steel bearing capacity is strong, and market selection is also more convenient.Such as Fig. 5 institutes Show, the construction of upper beam 160 can also be the I-steel close with H profile steel performance, and I-steel selection is convenient, and bearing capacity is strong.Such as Shown in Fig. 7, the construction of upper beam 160 can be C-type steel, and the structure of C-type steel is simple, and the material used is less, alleviates upper beam 160 Weight.As shown in figure 8, the construction of upper beam 160 can be inverted L shape steel, the structure of L-type steel is simple, less using material, mitigates The weight of upper beam 160.As shown in Fig. 6, Fig. 9-Figure 13, the construction of upper beam 160 can be other common formed steel constructions, for example The construction of upper beam 160 can be ZC shaped steel, T-steel, a word steel, pipe, square tube steel and pipe.

Further, present disclose provides the signal of the connection structure of five kinds of underbeams 130, tie-beam 140 and upper beam 160, Those skilled in the art are it is to be understood that the connection structure of underbeam 130, tie-beam 140 and upper beam 160 is not limited to these four knots Structure can also be able to be other structures according to actual conditions.As shown in figure 14, the first connection structure is：Underbeam 130 It is configured to down H profile steel, the construction of upper beam 160 is square tube.One end of tie-beam 140 is connect with the top of H profile steel, tie-beam 140 other end is connect with casing 170, square tube is provided in casing 170, square tube is in casing 170 along the length of container 100 Direction is removable.As shown in figure 15, second of connection structure is：The construction of underbeam 130 is H profile steel, and the construction of upper beam 160 is H Shaped steel.One end of tie-beam 140 is connect with the top of H profile steel, and the other end of tie-beam 140 is connect with casing 170, casing H profile steel is provided in 170, H profile steel is removable along the length direction of container 100 in casing 170.As shown in figure 16, third Planting connection structure is：The construction of underbeam 130 is square tube, and the construction of upper beam 160 is square tube.One end of tie-beam 140 and underbeam 130 Top connection, the other end of tie-beam 140 connect with casing 170, square tube is provided in casing 170, square tube is in casing 170 Length direction along container 100 is removable.As shown in figure 17, the 4th kind of connection structure is：The construction of underbeam 130 is C-type steel, The construction of upper beam 160 is square tube.One end of tie-beam 140 and the top of C-type steel connect, the other end and casing of tie-beam 140 170 connect, and square tube is provided in casing 170, and square tube is removable along the length direction of container 100 in casing 170.Such as Figure 18 Shown, the 5th kind of connection structure is：The construction of underbeam 130 is ZC shaped steel, and the construction of upper beam 160 is square tube.The one of tie-beam 140 End is connect with the top of ZC shaped steel, and the other end of tie-beam 140 is connect with casing 170, and square tube, square tube are provided in casing 170 It is removable along the length direction of container 100 in casing 170.

Further, upper beam 160 and casing 170 are linked together by connector 190.In this way, can make upper beam 160 when not moving, and upper beam 160 is connected to form integral frame structure with tie-beam 140.As shown in figure 19, in 160 He of upper beam In the first connection type of casing 170, the construction of upper beam 160 is square tube, and the side wall of casing 170 is provided with first through hole 171, The side wall of upper beam 160 is provided with the second through-hole 172.First through hole 171 and the second through-hole 172 are having the same relative to datum mark Vertical coordinate and left and right horizontal arrangement.Datum mark is a fixed point, the coordinate relative to first through hole 171 and the second through-hole 172 It does not move.Connector 190 includes bolt 191 and nut 192, and nut 192 is arranged in the hollow cavity of upper beam 160, nut 192 are fixedly connected by welding with upper beam 160.When upper beam 160 does not move in channel 150, first through hole 171 with Second through-hole 172 is opposite, and bolt 191 sequentially passes through first through hole 171 and the second through-hole 172, so that bolt 191 connects with fixed The nut 192 for being connected to upper beam 160 is threadedly coupled.

As shown in figure 20, the disclosure also provides second of connection type of upper beam 160 and casing 170.The construction of upper beam 160 Roof for square tube, casing 170 is provided with first through hole 171, and the roof of upper beam 160 is provided with the second through-hole 172.First through hole 171 and second relative to the datum mark horizontal coordinate having the same and upper and lower vertical arrangement of through-hole 172.Datum mark is a fixed point, It is not moved relative to the coordinate of first through hole 171 and the second through-hole 172.Connector 190 includes bolt 191 and nut 192, spiral shell Mother 192 is arranged in the hollow cavity of upper beam 160, and nut 192 is fixedly connected by welding with upper beam 160.When upper When beam 160 does not move in channel 150, first through hole 171 and the second through-hole 172 are opposite, and bolt 191 sequentially passes through first through hole 171 and second through-hole 172, so that bolt 191 is threadedly coupled with the nut 192 for being fixedly attached to upper beam 160.

As shown in figure 21, the disclosure also provides the third connection type of upper beam 160 and casing 170.The construction of upper beam 160 Side wall for square tube, casing 170 is provided with first through hole 171, and the side wall of upper beam 160 is provided with the second through-hole 172.First through hole 171 and second through-hole 172 arranged relative to datum mark vertical coordinate having the same and left and right horizontal.Datum mark is a fixed point, It is not moved relative to the coordinate of first through hole 171 and the second through-hole 172.Connector 190 includes bolt 193 and socket 194, is inserted Seat 194 is arranged in the hollow cavity of upper beam 160, and socket 194 is fixedly connected by welding with upper beam 160.When upper When beam 160 does not move in channel 150, first through hole 171 and the second through-hole 172 are opposite, and bolt 193 sequentially passes through first through hole 171 and second through-hole 172, so that bolt 193 is connect with the socket 194 for being fixedly attached to upper beam 160.

As shown in figure 22, the disclosure also provides the 4th kind of connection type of upper beam 160 and casing 170.The construction of upper beam 160 Roof for square tube, casing 170 is provided with first through hole 171, and the roof of upper beam 160 is provided with the second through-hole 172.First through hole 171 and second relative to the datum mark horizontal coordinate having the same and upper and lower vertical arrangement of through-hole 172.Datum mark is a fixed point, It is not moved relative to the coordinate of first through hole 171 and the second through-hole 172.Connector 190 includes bolt 193 and socket 194, is inserted In the spaces that seat 194 is arranged between upper beam 160 and casing 170, fixation connects socket 194 by welding with upper beam 160 It connects.When upper beam 160 does not move in channel 150, first through hole 171 and the second through-hole 172 are opposite, and bolt 193 sequentially passes through First through hole 171 and the second through-hole 172, so that bolt 193 is connect with the socket 194 for being fixedly attached to upper beam 160.

As shown in Figure 23 and Figure 25, the inside of container 100 can be provided with tray unit 200.Tray unit 200 is more It is a, it can be sequentially arranged along the length direction of container 100.Two pallet forks 213 of one fork truck can lift a support Disk unit 200.One pallet fork 213 of fork truck can pass through a vertical space 180, another pallet fork 213 of fork truck that can wear Cross another vertical space 180 adjacent with the vertical space 180.Specifically, the quantity of tie-beam 140 is multiple, multiple Multiple vertical spaces are formed between tie-beam 140.One pallet fork 213 of fork truck can pass through a vertical space, fork truck Another pallet fork 213 can pass through another vertical space, pass through two pallet forks 213 of two vertical spaces by tray unit 200 have lifted, and the short transverse along container 100 moves up, and the height that tray unit 200 moves up is higher than casing 170 Top also drive tray unit 200 so that pallet fork 213 is moved to the outside of container 100 from the inside of container 100 The outside of container 100 is moved to from the inside of container 100.

Further, container 100 further includes having column 111, column 111 can be it is multiple, one end of column 111 with it is spacious The top of open type side 112 connects, and the other end and upper beam 160 of column 111 are detachably connected.One end of column 111 has Articulated mounting is connect by articulated mounting with the top of open type side 112.Column 111 can be rotated around articulated mounting.It is vertical There is the other end of column 111 buckle, buckle removably to be connect with upper beam 160.When buckle snaps into upper beam 160, column 111 It links together with upper beam 160.When buckle does not engage with upper beam 160, column 111 can be separated with upper beam 160, so that vertical Column 111 can be rotated around articulated mounting, and then be moved horizontally by the guide rail at top.

As illustrated in figs. 25 and 26, upper beam 160 can be removable along channel 150, and specifically, tie-beam 140 is more It is a, in the present embodiment, along the length direction of container 100, multiple tie-beams 140 at the both ends of close container 100 Height is less than the height of centrally located multiple tie-beams 140.Tie-beam 140 includes first end tie-beam 141, second end Tie-beam 142 and intermediate tie-beam 143, first end tie-beam 141, intermediate tie-beam 143 and second end tie-beam 142 are along packaging The length direction interval of case 100 is arranged.Those skilled in the art is it is to be understood that in embodiment (not shown), tie-beam It is not limited to first end tie-beam, second end tie-beam and intermediate tie-beam, can be arranged more kinds of according to actual conditions The tie-beam of class.In the present embodiment, tie-beam 140 is arranged in the both sides of open type side 112,140 first end of tie-beam Tie-beam 141 is close to one end of open type side 112, and 140 second end tie-beam 142 of tie-beam is close to open type side 112 The other end.Certainly, in embodiment (not shown), first end tie-beam can not be close to one end of open type side, and first Holding between tie-beam and the end frame of container can also be with the vertical of vertical space or first end tie-beam and open type side There can also be vertical space between column.Second end tie-beam can not also be close to the other end of open type side, and second end connects Connect column that can be with vertical space or second end tie-beam and open type side between beam and the end wall column of container Between can also have vertical space.

As shown in figure 25, the top of first end tie-beam 141 is provided with first passage 151, and first passage 151 is along container 100 length direction runs through first end tie-beam 141.Close to one end of container 100, the quantity of first passage 151 and first Hold the quantity of tie-beam 141 identical.Upper beam 160 includes the first upper beam 161, the second upper beam 162 and third upper beam 163.This field Technical staff it is to be understood that the quantity of upper beam is not limited to three, can be four or more, the number of tie-beam Amount can also be changed according to the quantity of upper beam, as long as multiple upper beams is allow to stop position between multiple tie-beams It sets and is moved with release position.The quantity of first upper beam 161 is one, length direction of first upper beam 161 along container 100 Through first end tie-beam 141, the first upper beam 161 is movably in first passage 151.

The top of second end tie-beam 142 is provided with second channel 152, and second channel 152 is along the length side of container 100 To through second end tie-beam 142.In the short transverse of container 100, the height of second channel 152 can be with first passage 151 height is identical.Second end tie-beam 142 is close to the other end of container 100, the quantity and second end of second channel 152 The quantity of tie-beam 142 is identical.The quantity of second upper beam 162 is one, length direction of second upper beam 162 along container 100 Through three second end tie-beams 142, the second upper beam 162 is movably disposed in second channel 152.

The top of intermediate tie-beam 143 is provided with third channel 153 and fourth lane 154 (referring to Figure 26), and third is logical Road 153 and fourth lane 154 are vertically arranged along the short transverse of intermediate tie-beam 143.Third channel 153 is located at fourth lane 154 lower section.Those skilled in the art on intermediate tie-beam it is to be understood that can be arranged more channels 150 so that upper beam Can be moved in channel 150, can be arranged in intermediate tie-beam there are three or three or more channels 150, correspondingly, two Or more than two upper beams can be arranged in the channel 150 of multiple intermediate tie-beams.Along the short transverse of container 100, The height of triple channel 153 is identical as the height in the first and second channels 151 and 152, so that the first upper beam 161 can be from first It is moved in channel 151 in third channel 153, the second upper beam 162 can be moved to third channel 153 from second channel 152 In.Third upper beam 163 is movably disposed in fourth lane 154.Intermediate tie-beam 143 is located at container centre position.The Three upper beams 163 are movably disposed in fourth lane 154.

In the present embodiment, in blocking position, first upper beam 161 runs through first passage 151 and third channel 153, i.e. first upper beam 161 is across first end tie-beam 141 and intermediate tie-beam 143.Blocking position is not a fixed bit It sets, such that the position that the vertical space 180 between two tie-beams 140 is blocked all can be blocking position.All upper beams 160 can connect in blocking position along the projection of the short transverse of container 100 and can be all across all tie-beams 140。

One the second upper beam 162 runs through second channel 152 and third channel 153, i.e., second upper beam 162 is across second Hold tie-beam 142 and intermediate tie-beam 143.One third upper beam 163 runs through fourth lane 154, i.e. a third upper beam 163 is horizontal Tie-beam 143 between span centre.First upper beam 161, the second upper beam 162 and third upper beam 163 are across whole tie-beams 140 so that Vertical space 180 between tie-beam 140 is all blocked, further such that length of the open type side 112 along container 100 Direction is all blocked.Along the length direction of container 100, the first upper beam 161 includes the first end and for being located at both ends Two ends, the second upper beam 162 include the first end and second end for being located at both ends, and third upper beam 163 includes being located at both ends First end and second end.The first end of first upper beam 161 is close to an end of container 100, and the second of the second upper beam 162 End is close to another end of container 100.Along the short transverse of container 100, the projection of the second end of the first upper beam 161 and The projection of the first end of third upper beam 163 overlaps, certainly, the projection of the second end of the first upper beam 161 and third upper beam 163 The projection of first end can also connect, and in the disclosure, when the first upper beam 161 connects with third upper beam 163, the projection of the two can To be close to, can have a small amount of gap, but the first upper beam 161 and third upper beam at the projection of the tie-beam of connecting position 163 projection with the tie-beam at connecting position overlaps.Along the short transverse of container 100, the first of the second upper beam 162 The projection at end and the projection of the second end of third upper beam 163 overlap, certainly, the projection of the first end of the second upper beam 162 and The projection of the second end of three upper beams 163 can also connect, in the disclosure, when the second upper beam 162 connects with third upper beam 163, The projection of the two can be close to, and can have a small amount of gap, but the second upper beam 162 and third upper beam 163 are and connecting position The projection of the tie-beam at place overlaps.

First upper beam 161 can be moved along multiple first passages 151 and multiple third channels 153, and the second upper beam 162 can be with It is moved along multiple second channels 152 and multiple third channels 153, third upper beam 163 can be moved along multiple fourth lanes 154. First upper beam 161, the second upper beam 162 and third upper beam 163 can be moved to respective release position from respective blocking position. Release position is not a fixed position, when vertical space 180 between upper beam 160 exits two tie-beams 140, two connections The position of vertical space 180 up and down between beam 140 all can be release position.When the first upper beam 161 stops position from it Set when being moved to its release position, the first upper beam 161 and third upper beam 163 along the short transverse of container 100 projection at least Partial overlapping and make vertical space 180 between two adjacent first end tie-beams 141 up and down.

Specifically, when being moved to release position from blocking position, the first upper beam 161 connects from 140 first end of tie-beam The first passage 151 for connecing beam 141 exits and from 140 intermediate tie-beam 143 of 140 first end tie-beam 141 of tie-beam and tie-beam Between vertical space 180 exit, and enter in third channel 153.In this way, 140 first end tie-beam 141 of tie-beam it Between vertical space 180 up and down, 140 first end tie-beam 141 of tie-beam is in release position.First upper beam, 161 edge The projection of the short transverse of container 100 is overlapping with adjacent 163 part of third upper beam.Certainly, the first upper beam 161 can be after It is continuous to be moved along third channel 153 and gradually close to third upper beam 163, until the first upper beam 161 is along the short transverse of container 100 Projection and third upper beam 163 it is all Chong Die so that 140 first end tie-beam 141 of tie-beam and partial intermediate tie-beam 143 Between vertical space 180 up and down.Certainly, the first upper beam 161 can also be only from 140 first end tie-beam 141 of tie-beam First passage 151 exit, can also be moved back from any one first passage 151 of 140 first end tie-beam 141 of tie-beam Go out, those skilled in the art it is to be understood that the first upper beam 161 movement position be not limited to diagram stop position, It can be 161 transportable any position of the first upper beam.

Likewise, when being moved to release position from blocking position, the second upper beam 162 can also be from tie-beam 140 second The second channel 152 of end tie-beam 142 exits and from the vertical blank between 140 second end tie-beam 142 of tie-beam and intermediate beam Between 180 exit, into a third channel 153.In this way, in release position, between 140 second end tie-beam 142 of tie-beam Vertical space 180 up and down, 140 second end tie-beam 142 of tie-beam is in release position.Second upper beam 162 is along collection The projection of the short transverse of vanning 100 is overlapping with adjacent 163 part of third upper beam.Second upper beam 162 can continue to edge Third channel 153 moves and gradually close to third upper beam 163, until the second upper beam 162 is along the throwing of the short transverse of container 100 Shadow is all Chong Die with third upper beam 163 so that the vertical blank between second end tie-beam 142 and partial intermediate tie-beam 143 Between 180 up and down.Second upper beam 162 can also be only from the second channel 152 of three 140 second end tie-beams 142 of tie-beam It exits, can also be exited from any one second channel 152 of three 140 second end tie-beams 142 of tie-beam, this field Technical staff it is to be understood that the second upper beam 162 movement position be not limited to diagram stop position, can be second on 162 transportable any position of beam.

Correspondingly, when being moved to release position from blocking position, third upper beam 163 can be arbitrarily in fourth lane It is moved in 154.In release position, third upper beam 163 can be moved along multiple fourth lanes 154, with far from the second upper beam 162, So that third upper beam 163 is overlapping with adjacent 161 part of the first upper beam along the projection of the short transverse of container 100.Third Upper beam 163 can continue to that the second upper beam 162 is moved and moved away from along fourth lane 154, until the first upper beam 161 is along packaging The projection of the short transverse of case 100 is all Chong Die with third upper beam 163.Third upper beam 163 can also be along multiple fourth lanes 154 It is mobile, with far from the first upper beam 161 so that projection and adjacent second of the third upper beam 163 along the short transverse of container 100 The overlapping of 162 part of upper beam.Third upper beam 163 can continue to that the first upper beam is moved and moved away from along fourth lane 154 161, until the second upper beam 162 is all Chong Die with third upper beam 163 along the projection of the short transverse of container 100.

Certainly, when being moved to release position from blocking position, the first upper beam 161 and the second upper beam 162 can also be simultaneously Mobile, the first upper beam 161 can be exited from the vertical space 180 between first end tie-beam 141, entered to and connected with first end It connects in the adjacent intermediate tie-beam 143 of beam 141.Second upper beam 162 can be from the vertical space between second end tie-beam 142 It exits, is entered in the intermediate tie-beam 143 adjacent with second end tie-beam 142 in 180.In this way, the first upper beam 161 and second Upper beam 162 is arranged in multiple third channels 153, and the vertical space 180 between multiple first end tie-beams 141 passes through up and down Logical, the vertical space 180 between multiple second end tie-beams 142 is up and down.First upper beam 161 and the second upper beam 162 are In release position.

When being moved to the blocking position of part from the release position of the first upper beam 161, the first upper beam 161 is from multiple centres Multiple third channels 153 in tie-beam 143 exit and enter in the first passage 151 of first end tie-beam 141, until first In the first passage 151 of the entering part of 161 part of upper beam, the first upper beam 161 is in the blocking position of part at this time, on first The vertical space 180 of 161 part of beam blocked between corresponding adjacent tie-beam 140.From the release position of the first upper beam 161 When being moved to whole blocking positions, the first upper beam 161 can be from multiple third channels 153 in multiple intermediate tie-beams 143 It exits and enters in the first passage 151 of first end tie-beam 141, until the first upper beam 161 is completely into extremely all first In channel 151, the first upper beam 161 is completely in blocking position at this time, and the first upper beam 161 blocks five first end tie-beams Vertical space 180 between 141.

When being moved to the blocking position of part from the release position of the second upper beam 162, the second upper beam 162 is from multiple centres Multiple third channels 153 in tie-beam 143 exit and enter in the second channel 152 of second end tie-beam 142, until second In the second channel 152 of the entering part of 162 part of upper beam, the second upper beam 162 is in the blocking position of part at this time, on second Beam 162 blocks the vertical space 180 between corresponding adjacent tie-beam 140.Whole obstruction positions is being moved to from release position When setting, the second upper beam 162 can exit from multiple third channels 153 in multiple intermediate tie-beams 143 and connect into second end It connects in the second channel 152 of beam 142, until the second upper beam 162 is completely into in all second channels 152, at this time second Upper beam 162 is completely in blocking position, and the second upper beam 162 blocks the vertical space between three second end tie-beams 142 180。

When being moved to the blocking position of part from the release position of third upper beam 163, third upper beam 163 is from multiple centres Multiple fourth lanes 154 in tie-beam 143 exit and enter in other multiple fourth lanes 154, until the third of part The projection along short transverse of upper beam 163 gradually connects with the projection of the first upper beam 161 and the second upper beam 162, at this time third The blocking position in part of upper beam 163, third upper beam 163 block the vertical space between corresponding adjacent tie-beam 140 180.When being moved to whole blocking positions from release position, third upper beam 163 can be from multiple intermediate tie-beams 143 Multiple fourth lanes 154 exit and enter in other multiple fourth lanes 154, until third upper beam 163 is along short transverse Projection connect with the projection of the first upper beam 161 and the second upper beam 162, third upper beam 163 is in complete blocking position at this time, Third upper beam 163 blocks the vertical space 180 between intermediate tie-beam 143.

When the first upper beam 161, the second upper beam 162 and third upper beam 163 are in complete blocking position, open type side All vertical spaces 180 in portion 112 are blocked, the first upper beam 161, the second upper beam 162 and third upper beam 163 end each other Projection along the short transverse of container 100 connects or overlaps, the first upper beam 161, the second upper beam 162 and third upper beam 163 Across whole first end tie-beams 141, second end tie-beam 142 and intermediate tie-beam 143.

Further, as shown in figure 27, container 100 further includes closure 210, and closure 210 is arranged in which can open The top of open type side 112.Closure 210 can be side curtain 212, and openable setting is in open type side 112, collection The both sides of vanning 100 can be both provided with side curtain 212.The top of side curtain 212 is connected by the top 230 of guide rail and container It connects, side curtain 212 can move opening in loading and unloading, be closed when transporting cargo, easy to operate, good airproof performance.When So, the side of container is also provided with side curtain 212, corresponding with the side of container in the width direction of container The other side can be closed container lateral door-plate.

The top plate of container 100 to the distance between chassis 220 is loading height H3 in case, the side curtain 212 of both sides The distance between link position and chassis 220 are that height H4 is opened wide in side.Because of 220 height of chassis disclosed by the utility model etc. It is more than the case of existing container in loading height H3 in the height of underbeam 130, the case of container 100 disclosed by the utility model The side that height H4 is more than existing container is opened wide in the side of interior loading height H1, container 100 disclosed by the utility model Open wide height H4.

Container according to the present utility model, the length direction along container are arranged at intervals with tie-beam, can ensure While the intensity of chassis and mitigates the weight of chassis and significantly increase packaging to alleviate the overall weight of container The weight of box installed loading object.The height of the chassis of container disclosed by the utility model is equal to lower depth of beam, with existing collection Vanning is compared, and lower depth of beam is far below the chassis height of the existing container with open type side, causes this practicality new The case inner height of container disclosed in type is more than the case inner height of existing container, can increase useful load and box house height Space.The chassis high-priority of container according to the present utility model but not limit be 100mm~200mm, existing collection For the height of the chassis of vanning all in 200mm or more, the container of the utility model can meet the market of large inner spatial altitude It is required that.

Second embodiment

Present embodiment is that as shown in figure 28, closure 210 can be side door with first embodiment difference place 211, openable setting can be very good sealing open type side in open type side 112.The quantity of side door 211 is not It is confined to a fan, can be set as according to actual service condition and fan.As shown in figure 28, the both sides of container 100 can be with It is both provided with side door 211.The top plate of container to the distance between chassis 220 is loading height H3 in case, the side door 211 of both sides Link position and the distance between chassis 220 open wide height H4 for side.Because of 220 height of chassis disclosed by the utility model Equal to the height of underbeam 130, loading height H3 is more than existing container in the case of container 100 disclosed by the utility model Height H4 is opened wide more than existing in the side of loading height H1 (referring to Fig. 1) in case, container 100 disclosed by the utility model Height H4 is opened wide in the side of container.

Third embodiment

Present embodiment is that as shown in figure 29, the side of container 100 can be set with second embodiment difference place It is equipped with side door 211, the other side can be provided with side curtain 212.The top plate of container 100 to the distance between chassis 220 is case The distance between link position and chassis 220 of interior loading height H3, side door 211 and side curtain 212 are that height H4 is opened wide in side. Because 220 height of chassis disclosed by the utility model is equal to the height of underbeam 130, container 100 disclosed by the utility model Loading height H3 is more than loading height H1 in the case of existing container, the side of container 100 disclosed by the utility model in case The unlimited height H4 in side that height H4 is more than existing container is opened wide in face.

4th embodiment

Present embodiment is that as shown in figure 30, container is platform based container with first embodiment difference place 300.Platform based container 300 is along the both sides of its width direction and is not provided with closure 210, is also not provided with top.Rack Formula container 300 frame 240 and is arranged at intervals at the end that is provided at both ends with along its length between the end frame 240 at both ends Tie-beam 140.There is such platform based container 300 enough support strengths to transport cargo, and forklift transport is facilitated to fill It is loaded in the cargo of the inside of platform based container 300.

5th embodiment

Present embodiment is that as shown in figure 31, container is to fold bench type collection with the 4th embodiment difference place Vanning 400.It folds platform based container 400 and along the both sides of its width direction and is not provided with closure 210, be also not provided with top Portion.Fold platform based container 400 along its length be provided at both ends with folding end frame or folding corner post, can The end frame or folding corner post of folding include top 241, lower part 242 and hinge means 243, and top 241 is filled by hinge It sets 243 to connect with lower part 242 with may be reversed, lower part 242 is fixedly connected with underbeam 130.Platform based container 400 is folded in this way to exist It is when use that top 241 is upright, when top 241 need not be used, then top 241 is overturn by hinge means 243 and is folded To the inside for folding platform based container 400.

Sixth embodiment

Present embodiment is that as shown in figure 32, container is platform flat with the 4th embodiment difference place 500.Platform flat 500 is along the both sides of its width direction and is not provided with closure 210, is also not provided with top.Platform Formula container 500 is at both ends along its length and is not provided with end frame, but connection is arranged at intervals on along its length Beam 140.7th embodiment

Present embodiment and first embodiment the difference is that, as shown in figure 33, container 600 further includes the first hinge Connection device 710, upper beam 160 are connect by the first articulated mounting 710 with tie-beam 140.Container 600 includes multiple tie-beams 140, along the length direction of container 600, the setting of the interval of multiple tie-beams 140.Upper beam includes the 4th upper beam 164 and the 5th upper beam 165, the 4th upper beam 164 and the 5th upper beam 165 are adjacent, the other end 167 of one end 166 and the 5th upper beam 165 of the 4th upper beam 164 It connect relatively and with same tie-beam 140.Along the length direction of container 600, at blocking position, the one of the 4th upper beam 164 End 166 and a tie-beam 140 are hinged, and the other end 167 of the 5th upper beam 165 is connect with another tie-beam 140.4th upper beam 164 can connect two tie-beams 140 or multiple tie-beams 140.Likewise, the 5th upper beam 165 can connect two connections Beam 140 or multiple tie-beams 140.As shown in figure 35, the top of tie-beam 140 is provided with open casing 170, casing 170 Construction be it is U-shaped.Casing 170 is internally provided with channel 150, at blocking position, upper beam 160 across two or even or more Tie-beam 140 channel 150.

As shown in figure 36, one end 166 of the 4th upper beam 164 and the other end 167 of the 5th upper beam 165 can be arranged at one The top of tie-beam 140, i.e. one end 166 of the 4th upper beam 164 and the other end 167 of the 5th upper beam 165 are respectively positioned on tie-beam 140 Channel 150 in.The top of tie-beam 140 is provided with the first articulated mounting 710 and connector 190.4th upper beam 164 and first Articulated mounting 710 is hinged, and the 5th upper beam 165 is connect with connector 190.One end 166 of 4th upper beam 164 and the first articulated mounting 710 is hinged, and the other end 167 of the 5th upper beam 165 is connect with connector 190.Connector 190 can be bolt (not shown), Can be bolt, the structure type of the similar Figure 19-22 of bolt, bolt arrangement.Connector 190 is adjacent with the first articulated mounting 710, The top of tie-beam 140 is provided with third through-hole 173.Bolt or bolt can be connect across third through-hole 173 with upper beam, with So that upper beam 160 is fixedly connected with tie-beam 140 at blocking position.Further, upper beam 160 is internally provided with nut 192, bolt can be threadedly coupled by third through-hole 173 with nut 192.Upper beam 160 block two adjacent tie-beams 140 it Between vertical space.

As shown in Figure 34 and Figure 37, one end 166 of the 4th upper beam 164 is rotated around the first articulated mounting 710, connector 190 It is not connected to the other end 168 of the 4th upper beam 164.4th upper beam 164 is rotated by blocking position to opening around the first articulated mounting 710 Position is put, so that the vertical space between multiple adjacent tie-beams 140 is up and down.In this way, fork truck can be by upper and lower The vertical space of perforation is inserted by the outside of container in container 600, so that the cargo in the case of container 600 be lifted or Person falls.

Further, as shown in figure 35, the 4th upper beam 164 is also provided with pin hole 195.4th upper beam 164 can be with Continue to rotate around the first articulated mounting 710, be rotated to the blocking position of the other side by release position, bolt can sequentially pass through Three through-holes 173 and pin hole 195, so that bolt is connect with the 4th upper beam 164, to limit the movement of the 4th upper beam 164.

As shown in figure 35, a kind of container 600 is also disclosed in present embodiment, and the both sides of container 600 can be provided with Side curtain 212.Upper beam 160 positioned at the side of container 600 is in blocking position, and side curtain 212 may be at unfolded state To close open type side 112 (referring to Figure 33).Upper beam 169 positioned at the other side of container 600 is in release position, side Cord 212 may be at tightening state to open open type side 112 so that fork truck can be transported by open type side 112 Cargo.The top plate of container 600 to the distance between chassis is loading height H3, the link position of side curtain 212 and bottom in case The distance between frame is that height H4 is opened wide in side.Chassis height disclosed in present embodiment is equal to the height of underbeam 130, container Loading height H3 is more than loading height H1 in the case of existing container, container 600 disclosed by the utility model in 600 case Side open wide height H4 and be more than the side of existing container and open wide height H4.

8th embodiment

Present embodiment and the 7th embodiment the difference is that, as shown in figure 38, container 700 further includes the second hinge Connection device 720, tie-beam 140 are connect by the second articulated mounting 720 with underbeam 130.Tie-beam 140 can be multiple, underbeam 130 can be one, and upper beam 160 can be one.Certainly, upper beam 160 may be multiple.As shown in figure 40, each connection Beam 140 is connect by second articulated mounting 720 with underbeam 130.Upper beam 160 is provided with multiple first articulated mountings 710, Each tie-beam 140 is connect by first articulated mounting 710 with upper beam 160.In this way, upper beam 160 is in blocking position Block the vertical space between two adjacent tie-beams 140.As shown in figure 39, multiple tie-beams 140 can pass through multiple The rotation of two articulated mountings 720 is fallen, and upper beam 160 can be rotated by multiple first articulated mountings 710 to be fallen.As shown in figure 41, Multiple tie-beams 140 are rotated to the close position with 130 flush of underbeam.Upper beam 160 is rotated to close concordant with underbeam 130 Position.In this way, as shown in figure 39, upper beam 160 is in release position, all vertical spaces in open type side 112 completely on Lower perforation so that fork truck can transport cargo by open type side 112.

Further, as shown in figure 38, container 700 further includes bar 730.Along the length direction of container 700, bar 730 are positioned close at the position of tie-beam 140 of the end of container 700.The bottom of bar 730 can be cut with scissors with underbeam 130 It connects, the top of bar 730 can be hinged with tie-beam 140, in this way, when upper beam 160 is at blocking position, bar 730 can To support upper beam 160 and tie-beam 140, increase the stability of upper beam 160 and tie-beam 140.As shown in figure 39, when upper beam 160 When at release position, bar 730, which also rotates, to be fallen.

As shown in figure 42, a kind of container 700 is also disclosed in present embodiment, and the both sides of container 700 can be provided with Side curtain 212.Upper beam 160 positioned at the side of container 700 is in blocking position, and side curtain 212 may be at unfolded state To close open type side.Upper beam 160 positioned at the other side of container 700 is in release position, and side curtain 212 may be at Tightening state is to open open type side so that fork truck can transport cargo by open type side.At release position The height of the short transverse along container of tie-beam 140 and upper beam 160 is no more than the height of the chassis of container, that is, is no more than The height of underbeam 130.The top plate of container 700 to the distance between chassis is loading height H3 in case, the connection of side curtain 212 The distance between position and chassis are that height H4 is opened wide in side.Chassis height disclosed in present embodiment is equal to the height of underbeam 130 It spends, loading height H3 is more than loading height H1 in the case of existing container, collection disclosed by the utility model in the case of container The unlimited height H4 in side that height H4 is more than existing container is opened wide in the side of vanning 700.

9th embodiment

Present embodiment and first embodiment the difference is that, as shown in figure 43, container 800 include column 811, Underbeam 830, tie-beam 840 and upper beam 860.The top of column 811 and the top of container 800 are rotatably coupled.Column 811 It can be overturn at the articulated position at the top with container 800.The bottom of column 811 and underbeam 830 are detachably connected.Such as In open type side shown in Figure 43, including a upper beam 860.Upper beam 860 be provided with along short transverse for column 811 by Groove 813.Column 811 can be in the vertical space between two adjacent tie-beams 840.Tie-beam 840 can also be set Be equipped with along short transverse for column 811 by groove 813.In this way, column 811 when being connect with underbeam 830 not with upper beam 860 It is interfered with tie-beam 840.Tie-beam 840 is hinged by third articulated mounting and underbeam 830.Tie-beam 840 passes through end Connector 823 is connect with the end along its length of container 800.Column 811 is separated with underbeam 830.Column 811 can be with Around the top with container 800 articulated position towards container 800 outer side to overturn.

As shown in figure 44, the lower part 841 of tie-beam 840 is hinged by third articulated mounting 820 and underbeam 830.Column 811 After being detached with groove 813, tie-beam 840 can be overturn around third articulated mounting 820.Tie-beam 840 drives upper beam 860 around third The rotation of articulated mounting 820 is fallen, and tie-beam 840 and upper beam 860 can be made to be co-located on release position.Adjacent tie-beam Vertical space between 840 is up and down.Cargo can not be stopped by upper beam 860.Cargo can be by fork truck from container 800 outside moves on to the inside of container 800, or the outside of container 800 is moved on to from the inside of container 800.

Tie-beam 840 can drive upper beam 860 to be risen around third articulated mounting 820 so that upper beam 860 and tie-beam 840 It is co-located on erection position.Vertical space between adjacent tie-beam 840 is stopped by upper beam 860.Cargo is also by 860 institute of upper beam It stops.

Further, as shown in Figure 43 and Figure 46 to Figure 48, container 800 further includes torsion spring device 821.Torsion spring device 821 are mounted between the lower part and underbeam 830 of tie-beam 840.In this way, torsion spring device 821 to the overturning of tie-beam 840 apply with Turning power reduces speed and impact force when tie-beam 840 and upper beam 860 are moved to release position by erection position.Torsional spring fills Setting 821 can also assist tie-beam 840 and upper beam 860 to be moved to erection position by release position.Torsion spring device 821 is along underbeam 830 length direction can be provided with multiple, can apply stable turning power to tie-beam 840 in this way.

As shown in figure 45, container 800 further includes bearing connecting device 822, and bearing connecting device 822 is arranged in tie-beam Between 840 lower part and underbeam 830, for connecting underbeam 830 when tie-beam 840 is in erection position with upper beam 860.Carrying Attachment device 822 includes pedestal 824 and hook 825.Underbeam 830 is provided with pedestal 824.Pedestal 824, which is provided with, to be hooked for hook 825 824 channel of pedestal.Tie-beam lower part 841 is provided with hook 825.When upper beam 860 is located at erection position, hook 825 hooks pedestal 824 Channel.When tie-beam 840 is rotated around third articulated mounting 820, hook 825 is rotated around pedestal 824.It is in and opens in upper beam 860 When position, hook 825 is separated with pedestal 824.

Tenth embodiment

Present embodiment and the 9th embodiment the difference is that, as shown in figure 49, container 900 further includes that centre connects Fitting 926, intermediate connector 926 is for connecting two adjacent tie-beams 940.In the present embodiment, container 900 includes Multiple upper beams 960.Each of multiple upper beams 960 are connect with multiple tie-beams 940.One upper beam 960 and with the upper beam 960 connect The multiple tie-beams 940 connect form a unit.Tie-beam 940 between two adjacent units can pass through intermediate connector 926 connections.Intermediate connector 926 can be multiple, and multiple intermediate connectors 926 are arranged along short transverse interval.

When all upper beams 960 are respectively positioned on erection position, intermediate connector 926 is for connecting adjacent tie-beam 940.This Sample, can make all upper beams 960 and all tie-beams 940 be in connection status, and closing open type side stops cargo jointly Pass in and out container 900.

When the upper beam 960 of part needs are rotated around third articulated mounting 920, the tie-beam 940 that is connect with the upper beam 960 It is not connect with intermediate connector 926.The tie-beam 940 detached with intermediate connector 926 is rotated around third articulated mounting 920, on Beam 960 is turned to release position by erection position.Cargo can pass in and out container 900.

11st embodiment

Present embodiment and the 9th embodiment the difference is that, as shown in figure 50, container 1000 further includes ripple Plate 1001, corrugated plating 1001 are arranged between upper beam 1060 and the lower part 1041 of tie-beam.In this way, upper beam 1060 is in erection position When place, corrugated plating 1001 can stop that cargo from the inside of container 1000 moves on to the outside of container 1000 or from container 1000 outside moves on to the inside of container 1000.

12nd embodiment

Present embodiment and the 11st embodiment the difference is that, as shown in Figure 51 and Figure 52, container 1100 is also Including intermediate connector 1126, intermediate connector 1126 is for connecting two adjacent tie-beams 1140.In the present embodiment, Container 1100 includes multiple upper beams 1160.Each of multiple upper beams 1160 are connect with multiple tie-beams 1140.One upper beam 1160 and multiple tie-beams 1140 for being connect with the upper beam 1160 form a unit.Tie-beam between two adjacent units 1140 can be connected by intermediate connector 1126.Intermediate connector 1126 can be multiple, 1126 edge of multiple intermediate connectors Short transverse interval is arranged.

Unless otherwise defined, the technology of technical and scientific term used herein and the technical field of the utility model The normally understood meaning of personnel is identical.Term used herein is intended merely to describe specifically to implement purpose, it is not intended that limit The utility model processed.The terms such as herein presented " portion ", " part " can both indicate single part, can also indicate more The combination of a part.The terms such as herein presented " installation ", " setting " can both indicate that a component was attached directly to Another component can also indicate that a component is attached to another component by middleware.Herein in an embodiment Described in feature can be applied to another embodiment in combination individually or with other features, unless this feature is another at this It is not suitable for or is otherwise noted in one embodiment.

The utility model is illustrated by above-described embodiment, but it is to be understood that, above-described embodiment is Purpose for illustrating and illustrating, and be not intended to limit the invention within the scope of described embodiment.In addition ability Field technique personnel are it is understood that the utility model is not limited to above-described embodiment, and introduction according to the present utility model is also More kinds of variants and modifications can be made, these variants and modifications all fall within the utility model range claimed with It is interior.The scope of protection of the utility model is defined by the appended claims and its equivalent scope.

Claims (27)

1. a kind of container, the container has open type side, which is characterized in that the container includes：

Underbeam, the underbeam are arranged along the length direction of the container in the bottom of container；

Multiple tie-beams, the multiple tie-beam is along the length direction interval and is vertically arranged, each of multiple tie-beams It is connect with the underbeam,

Upper beam, the upper beam is arranged on the top of at least one tie-beam, and the upper beam is in blocking position and open stance It moves or rotates between setting.

2. container according to claim 1, which is characterized in that the top of the tie-beam is provided with along the length side To perforative channel, vertical space open on the outside of oriented container is formed between the adjacent tie-beam,

In the vertical space of the upper beam at the blocking position between at least two tie-beams, to block The vertical space,

The upper beam exits the vertical space between described at least two tie-beams at the release position, so that Obtain the vertical space up and down.

3. container according to claim 2, which is characterized in that when any one described upper beam is moved to out from blocking position When putting position, the projection of the upper beam and short transverse of the adjacent upper beam along the container is least partially overlapped and extremely Small part exits the vertical space blocked when positioned at blocking position, so that this part vertical space is up and down.

4. container according to claim 2, which is characterized in that the upper beam be it is multiple, it is equal in whole vertical spaces When being blocked, the projection of short transverse of multiple upper beams along the container is least partially overlapped and/or at least partly holds Portion connects, thus multiple upper beams along the length direction of the container across all tie-beams.

5. container according to claim 2, which is characterized in that the upper beam is multiple, the vertical space quilt in part When blocking, the projection of short transverse of multiple upper beams along the container is least partially overlapped, thus multiple upper beams Across part tie-beam.

6. container according to claim 2, which is characterized in that the tie-beam includes multiple first tie-beams and multiple Second tie-beam, the second connection depth of beam are more than described first and connect depth of beam.

7. container according to claim 6, which is characterized in that second tie-beam is being internally provided at least two Channel, at least two channel are staggered along the short transverse of the container.

8. container according to claim 1, which is characterized in that the upper beam and/or the underbeam are configured to pipe, H-type It is one or more in steel, I-steel, ZC shaped steel, C-type steel, L-type steel, T-steel and "-" type steel.

9. container according to claim 1, which is characterized in that the container includes chassis, and the underbeam is located at institute The side of chassis is stated, the height of the chassis is equal to the lower depth of beam.

10. container according to claim 2, which is characterized in that further include the first articulated mounting, the upper beam passes through institute It is hinged with the tie-beam to state the first articulated mounting.

11. container according to claim 10, which is characterized in that the upper beam is multiple, and the upper beam is in the resistance It blocks in the vertical space at position between at least two tie-beams, to block vertical space,

The upper beam is rotated around first articulated mounting to the release position, so that the vertical space is up and down.

12. the container according to claim 2 or 10, which is characterized in that the upper beam passes through connector and the connection Beam connects.

13. the container according to claim 2 or 10, which is characterized in that the spacing of the part tie-beam is set as can The pallet fork for accommodating fork truck, so that fork truck stretches on the outside of container and lifts the tray unit positioned at internal container.

14. container according to claim 1, which is characterized in that further include the second articulated mounting, the tie-beam passes through Second articulated mounting is hinged with the underbeam,

The tie-beam is fallen around second articulated mounting rotation so that the upper beam and the tie-beam are co-located on opening Position,

The tie-beam is rotated around second articulated mounting to rise so that the upper beam and the tie-beam are co-located on setting Position.

15. according to the container described in claim 14, which is characterized in that further include bar, the bottom of the bar with it is described under Beam is hinged, and the top of the bar is hinged with the tie-beam.

16. container according to claim 14, which is characterized in that further include torsion spring device, the torsion spring device installation Between the lower part and underbeam of the tie-beam.

17. container according to claim 14, which is characterized in that further include bearing connecting device, the bearer connection Device is arranged between the lower part and underbeam of the tie-beam, and the bearing connecting device is used in the tie-beam and described Beam connects the underbeam at the erection position.

18. container according to claim 1, which is characterized in that further include column, the top of the column and the collection The top beam of vanning connects, and the bottom of the column and the upper beam are detachably connected.

19. container according to claim 1, which is characterized in that further include column, the top of the column and the collection The top of vanning connects, and the bottom of the column and the underbeam are detachably connected, and the upper beam and/or the tie-beam are set Be equipped with along short transverse for the column by groove.

20. container according to claim 1, which is characterized in that further include corrugated plating, the corrugated plating is arranged described Between upper beam and the lower part of the tie-beam.

21. container according to claim 1, which is characterized in that further include intermediate connector, the intermediate connector is used In two adjacent tie-beams of connection.

22. container according to claim 1, which is characterized in that the container further includes closure, the closure It is connect with the top for stating open type side with can opening.

23. container according to claim 1, which is characterized in that the container is side curtain container.

24. container according to claim 1, which is characterized in that the container is side door container.

25. container according to claim 1, which is characterized in that the container is side curtain and side enabling combining form Container.

26. container according to claim 1, which is characterized in that the container is platform based container or platform-type Container.

27. container according to claim 1, which is characterized in that the container is to fold platform based container, described It further includes the folding end frame being connect with the underbeam or folding corner post to fold platform based container.