CN212386523U - Cage vehicle - Google Patents

Abstract

The utility model provides a cage car, it includes chassis, frame and a plurality of first heavy hinge. The underframe comprises a frame body and a supporting part which is arranged at the front end of the frame body and can extend out to two sides; the frame comprises a bottom net, a back net and two side nets; the front end of the bottom net and the bottom end of each side net are supported on the supporting part; a plurality of first heavy hinges are arranged between each side net and the back net at intervals along the vertical direction, each first heavy hinge comprises a rotating shaft, a fixing piece arranged on the back net and a rotating piece arranged on the side net, the fixing piece is provided with two supporting plates which extend out in a protruding mode and are spaced from top to bottom, the rotating piece is provided with two rotating plates which are opposite from top to bottom, the two rotating plates are respectively in lap joint with the two supporting plates, and the rotating shaft penetrates through the supporting plates and the rotating plates so that the rotating plates can rotate relative to the supporting plates around the rotating shaft. In the use, the side net can rotate around the pivot through the commentaries on classics board, and the support board can bear the perpendicular load that the pivot transmitted to ensure that the side net can the bearing and not warp.

Description

Cage vehicle

Technical Field

The utility model relates to a transportation equipment technical field, in particular to cage car.

Background

With the rapid development of e-commerce and the continuous promotion of the internet of things, the transfer volumes of various postal parcels, express items and e-commerce articles are increased in a blowout manner every day, but social resources are limited, so that the logistics transportation efficiency is continuously improved, the article transfer time is reduced, various articles are rapidly processed, and the time and the space are saved.

At present, in the logistics industry, a cage car is one of common transportation devices for electronic commerce products. In order to improve the transportation efficiency, the cage vehicle adopts a foldable structure design. When the device is used, various articles (such as postal parcels, express mails and E-commerce articles) are loaded into the cage trolley, so that the rapid and stable turnover is realized; when the folding cage trolley is not needed to be used, the folded cage trolley can save the occupied area.

However, the cage vehicle structure is not enough, if the cage vehicle structure is loaded with articles with larger weight, the pallet frame at the bottom of the cage vehicle is easy to deform due to stress after being loaded with heavy objects for many times, and the normal use is influenced. In addition, the competition of the express delivery industry is increased, and the internal space of the cage car is not sufficiently utilized, so that the enterprise competitiveness is reduced. In order to transport more goods, it is further considered to place a part of the goods on the top cover of the cage car. However, the top cover is easy to deform under the large pressure applied by the heavy object, and further the side frames on the four sides of the cage car are also influenced to deform, so that the efficiency of the cage car during transportation is low, and the circulation speed of the articles is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cage car to solve the problem that cage car structure warp easily when transporting the heavy object among the prior art.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a cage cart comprising: the underframe comprises a frame body and a supporting part which is arranged at the front end of the frame body and can extend out to two sides; a frame comprising a bottom mesh, a back mesh and two side meshes; the back net is vertically arranged at the rear end of the frame body; the rear ends of the bottom nets are rotatably connected with the bottom end of the bottom frame, and the rear ends of the two side nets are respectively rotatably connected with the two sides of the back net; the bottom net, the back net and the side nets are relatively unfolded to form a space for accommodating goods, and the front ends of the bottom net and the bottom ends of the side nets are supported on the supporting parts; the first heavy hinges are arranged between the side nets and the back net at intervals along the vertical direction, each first heavy hinge comprises a rotating shaft, a fixing part arranged on the back net and a rotating part arranged on the side nets, the fixing part is provided with two supporting plates which protrude out and are spaced up and down, the rotating part is provided with two rotating plates which are opposite up and down, the two rotating plates are respectively lapped with the two supporting plates, and the rotating shaft penetrates through the supporting plates and the rotating plates so that the rotating plates can rotate around the rotating shaft relative to the supporting plates.

According to the utility model discloses an embodiment, the mounting with it all includes the connecting plate to rotate the piece, the connecting plate is connected and is located two between the extension board or two between the commentaries on classics board, the connecting plate with the side net or back of the body net is connected fixedly.

According to an embodiment of the invention, the first heavy hinge further comprises two stiffeners; one reinforcing piece is connected between the two rotating plates, and the other reinforcing piece is connected between the supporting plate and the back net.

According to the utility model discloses an embodiment, be located side net with one side the pivot of first heavy hinge structure as an organic whole.

According to an embodiment of the present invention, two insertion plates are oppositely disposed on two sides of the back net, each insertion plate is provided with a groove extending vertically and a slot communicated with the upper end of the groove; the cage car still includes the carrier, the carrier include rack body and a plurality of distribute in the peripheral bolt of rack body is located the bolt of rack body front end can be fixed in two respectively the side is online, is located the bolt of rack body rear end can insert respectively and be fixed in the draw-in groove so that the carrier is the level form, just the bolt can be followed the slot slides so that the carrier erects in the place ahead of carrying the net.

According to an embodiment of the present invention, the supporting portion comprises two supporting plates oppositely disposed at the front end of the frame body, the two supporting plates are respectively disposed at the left and right sides of the frame body in a turnable manner, and can be rotated to the outside of the frame body to be unfolded; one end of the support plate is provided with a bent and raised flange, and the flange is positioned outside the frame body when the support plate is unfolded so as to abut against the bottom net and the side net.

According to an embodiment of the present invention, the supporting portion further comprises two parallel cross bars, each cross bar is disposed on the left and right sides of the frame body, and the two cross bars are oppositely provided with two sets of spaced shaft holes; one end of each bearing plate is provided with a hinged shaft, the hinged shafts are rotatably and correspondingly arranged in the same group of shaft holes in a penetrating mode, and the bearing plates can be supported by the frame body when being unfolded outwards around the hinged shafts.

According to an embodiment of the invention, the support part further comprises two stop rods; the two limiting rods are arranged in a gap between the two hinged shafts at intervals, the limiting rods are connected with the two cross rods, and the bearing plate is lapped on the limiting rods when rotating inwards.

According to an embodiment of the present invention, two front nets rotatably connected to front ends of the two side nets, respectively, may be horizontally spliced to be commonly located at a front end of the bottom frame; the second heavy hinges are arranged between the front nets and the side nets at intervals along the vertical direction and comprise rotating shafts, mounting pieces arranged on the side nets and hinge pieces arranged on the front nets, the mounting pieces are provided with two opposite support plates which protrude out, and each hinge piece comprises a vertical plate and hinge plates which protrude out from the upper side and the lower side of the vertical plate; the two hinged plates extend between the two support plates and are respectively attached to the support plates, the support plates and the support plates are correspondingly provided with through holes, and the rotating shaft penetrates through the through holes.

According to an embodiment of the present invention, the mounting member further includes a mounting sleeve rotatably fitted around the outer circumference of the rod members of the side net; the two support plates are respectively arranged on the peripheral wall of the mounting sleeve.

According to the utility model discloses an embodiment still includes an at least synchronizing bar, the synchronizing bar is adjacent about two are connected respectively along vertical extension the installation sleeve.

According to an embodiment of the present invention, a top net is rotatably connected to a top end of the back net; the two top supporting structures are respectively and correspondingly arranged at the tops of the two side nets; each of the top support structures has a protruding support member capable of supporting the top net upward.

According to an embodiment of the present invention, the top support structure comprises a rotating member and two stoppers;

the supporting piece is arranged on the rotating piece, and the rotating piece is rotatably arranged at the top of the side net so as to drive the supporting piece to rotate towards the inner side or the outer side of the frame; two the stopper interval is fixed to be located on the top of side net to be located respectively the both sides of rotating member, two the stopper can support piece when inwards rotating respectively with support piece's both ends butt.

According to an embodiment of the present invention, a top net is rotatably connected to a top end of the back net; two rotating handles for preventing the box from expanding; the two rotating handles are rotatably arranged below the top net and are oppositely positioned at two sides of the top net; two ends of the rotating handle are respectively provided with a bulge which protrudes upwards, one bulge is used for being clamped below the top net, and the other bulge is used for abutting against the outer side of the side net.

According to an embodiment of the present invention, two sides of the back net are respectively provided with a side wing bent forward and extended, and the two side wings and the back net enclose a storage space behind the bottom frame; the fixing piece is arranged at the front end of the side wing, and the side net can rotate inwards relative to the side wing so as to enter the accommodating space; the bottom net is turned backwards relative to the back net so as to be vertically placed in the accommodating space.

According to an embodiment of the present invention, the bottom frame includes two corner posts disposed at two ends of the frame body, each of the corner posts includes a vertical plate vertically protruding from the frame body and wing plates bent and extended from two sides of the vertical plate; the two wing plates are oppositely provided with fixing holes, and the side wings are accommodated between the two wing plates and fixed with the wing plates through the fixing holes; and the vertical plate is provided with a through hole for the rod piece at the rear end of the bottom net to be rotatably connected.

According to the above technical scheme, the utility model provides a pair of cage car has following advantage and positive effect at least:

1. the underframe is provided with a bearing plate which can support the bottom net and the side net so as to improve the bearing performance of the bottom net and ensure that the bottom net does not deform. Meanwhile, the supporting plate can transmit the vertical load borne by the side net to the bottom frame, and the stress state of the side net is improved.

2. A plurality of first heavy hinges are respectively connected and arranged between the two ends of the two side nets and the two ends of the back net. Each first heavy hinge comprises a rotating shaft, a fixed part and a rotating part. The fixing part is provided with two support plates which extend out in a protruding mode and are spaced up and down, the rotating part is provided with two rotating plates which are attached to the support plates respectively, and the rotating shaft penetrates through the support plates and the attaching plates. In the use, the side net can rotate around the pivot through the commentaries on classics board, and the support board can bear the perpendicular load that the pivot transmitted to ensure that the side net can the bearing and not warp.

Drawings

Fig. 1 is a schematic structural view of a cage cart in an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a frame in an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a first heavy duty hinge according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a second heavy duty hinge according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of the bottom frame in the embodiment of the present invention.

Fig. 6 is a schematic structural view of the folded frame in the embodiment of the present invention.

Fig. 7 is a schematic view of a horizontal article carrier according to an embodiment of the present invention.

Fig. 8 is a schematic structural view illustrating the carrier rack of the embodiment of the present invention being folded.

Fig. 9 is a schematic structural diagram of a side net in an embodiment of the present invention.

Fig. 10 is a schematic structural view of the top support structure in a support state according to the embodiment of the present invention.

Fig. 11 is a schematic structural view illustrating the top support structure of the embodiment of the present invention.

Fig. 12 is a schematic structural view of a top net in an embodiment of the present invention.

Fig. 13 is a schematic structural view of the rotating handle in the locked state according to the embodiment of the present invention.

Fig. 14 is a schematic structural view illustrating unlocking of the rotating handle according to the embodiment of the present invention.

The reference numerals are explained below: 100-cage vehicle, 1-underframe, 10-frame body, 101-front end beam, 102-side beam, 103-accommodating cavity, 13-supporting part, 131-supporting plate, 132-flange, 133-cross bar, 134-limiting rod, 15-corner upright post, 151-vertical plate, 152-wing plate, 16-rotating wheel, 2-frame, 21-bottom net, 22-top net, 221-supporting plate, 23-back net, 231-side wing, 24-side net, 25-front net, 26-plug board, 201-clamping groove, 202-groove, 3-first heavy hinge, 31-first rotating shaft, 33-fixing part, 331-supporting plate, 333-connecting plate, 35-rotating part, 351-rotating plate, 353-connecting plate, 37-reinforcing piece, 4-second heavy hinge, 41-second rotating shaft, 43-mounting piece, 431-mounting sleeve, 433-support plate, 45-hinge piece, 451-vertical plate, 453-hinge plate, 46-synchronizing rod, 5-object carrier, 51-net rack body, 52-bolt, 53-handle, 6-top supporting structure, 61-supporting piece, 611-connecting end, 62-rotating piece, 63-limiting block, 64-fixing sleeve, 7-rotating handle, 71-handle body, 711-bulge, 72-elastic piece, 73-fixing nut and 701-groove.

Detailed Description

Exemplary embodiments that embody features and advantages of the present invention will be described in detail in the following description. It is to be understood that the invention is capable of other and different embodiments and its several details are capable of modification without departing from the scope of the invention, and that the description and drawings are to be regarded as illustrative in nature and not as restrictive.

Referring to fig. 1 and fig. 2 together, a specific structure of a cage car 100 according to the present embodiment is shown, which mainly includes an underframe 1, a frame 2 and a plurality of first heavy hinges 3. The base frame 1 includes a frame body 10 and a supporting portion 13 provided on the frame body 10. The frame 2 comprises a bottom net 21, a back net 23 and two side nets 24, wherein the space formed by enclosing the side nets 24 and the back net 23 is used for accommodating goods, and the front end of the bottom net 21 and the bottom end of each side net 24 are fixed on the supporting part 13. A plurality of first heavy hinges 3 are provided at vertical intervals between each of the side nets 24 and the back net 23. The first heavy hinge 3 can bear vertical load, thereby ensuring that the side net 24 can bear load without deformation, and meeting normal use.

The frame 2 comprises a bottom net 21, a top net 22, a back net 23, two side nets 24 and two front nets 25. The bottom net 21, the back net 23, the side nets 24, the front net 25 and the top net 22 are all net-shaped structures formed by combining a plurality of cross-connected rods.

Wherein, the back net 23 is vertically and fixedly arranged at the rear end of the frame body 10. The rear end of the bottom net 21 is rotatably connected with the corner posts 15. The top net 22 is rotatably connected to the top end of the back net 23, and two support plates 221 are provided at intervals at the front end of the top net 22, and the support plates 221 are in contact with the lower side of the front net 25. The rear ends of the two side nets 24 are rotatably connected to opposite sides of the back net 23, respectively. The two front nets 25 are respectively and rotatably connected with the front ends of the two side nets 24, the two front nets 25 can be horizontally spliced to be positioned at the front end of the underframe 1 together, and the bottom net 21, the back net 23, the side nets 24 and other parts are enclosed to form a rectangular hollow containing space for containing goods. Meanwhile, the front end of the bottom net 21 and the bottom end of each side net 24 are fixed on the supporting part 13 of the underframe 1, so that the stress states of the bottom net 21 and the side nets 24 are improved; the front end of the front net 25 is suspended to ensure flexibility in opening and closing the front net 25 when in use.

The first heavy hinges 3 are vertically arranged between the side nets 24 and the back net 23 at intervals in a connected mode, and the side nets 24 and the back net 23 are connected in a rotating mode.

Specifically, a plurality of first heavy hinges 3 are symmetrically arranged at the rear ends of the two side nets 24.

Referring to fig. 3, each first heavy duty hinge 3 includes a first rotating shaft 31, a fixing member 33 disposed on the back net 23, a rotating member 35 disposed on the side net 24, and two reinforcing members 37.

The fixing member 33 has two vertically spaced support plates 331 projecting therefrom and a connecting plate 333 connecting the two support plates 331. Wherein the support 331 is horizontal. The connecting plate 333 extends vertically and is welded to the outer wall of the bar of the back net 23. The rotor 35 has two vertically opposed rotor plates 351 and a connecting plate 353 connecting the two rotor plates 351. The connecting plate 333 is welded to the bars of the side net 24. The two rotating plates 351 extend between the two support plates 331 and are respectively attached to the support plates 331. The supporting plate 331 and the rotating plate 351 are provided with shaft holes in opposite directions, and the first rotating shaft 31 penetrates through the supporting plate 331 and the rotating plate through the shaft holes, so that the rotating plate 351 can rotate relative to the supporting plate 331 around the first rotating shaft 31.

Preferably, the first rotating shafts 31 of the first heavy hinges 3 on the same side of the side net 24 are of an integral structure, that is, the first heavy hinges 3 on the same side share one vertical first rotating shaft 31 for good coaxiality.

One reinforcing member 37 is connected between the two rotating plates 351, and the other reinforcing member 37 is connected between the lower side of the support plate 331 and the rod of the back net 23, thereby improving the structural strength and connection stability of the first heavy hinge 3.

In the present embodiment, the fixed member 33 and the rotating member 35 are each formed by integrally bending a metal plate member, and the support plate 331 and the rotating plate 351 have sufficient strength. In use, the side net is rotatable about the first rotation axis 31 by the rotation plate 351, and the support plate 331 can bear the vertical load transmitted from the first rotation axis 31, thereby ensuring that the side net 24 can bear the weight without deformation. In addition, a plurality of first heavy hinges 3 are connected between the rear end of the top net 22 and the top end of the back net 23 to form a stable rotating connection.

Referring to fig. 4, a plurality of second heavy hinges 4 are vertically spaced between the front nets 25 and the side nets 24 to rotatably connect the side nets 24 and the front nets 25.

Specifically, a plurality of second heavy hinges 4 are symmetrically arranged at the front ends of the two side nets 24.

Each of the second heavy hinges 4 is a double-hinge structure including a second rotating shaft 41, a mounting member 43 provided on the side net 24, and a hinge member 45 provided on the front net 25.

The mounting member 43 includes a mounting sleeve 431 rotatably fitted over the rod member of the side net 24 and two vertically opposed brackets 433 projecting from the outer peripheral wall of the mounting sleeve 431. Correspondingly, two retaining rings for limiting the up-and-down sliding of the mounting sleeve 431 are fixedly arranged on the rod piece along the axial direction. The hinge 45 is an integral bending plate, and includes a vertical plate 451 and hinge plates 453 protruding from upper and lower sides of the vertical plate 451, respectively. The two hinge plates 453 extend between the two support plates 433 and are respectively attached to the support plates 433, through holes are correspondingly formed in the support plates 433 and the hinge plates 453, and the second rotating shaft 41 penetrates through the through holes. In this way, the mounting member 43 can be rotated about the bar of the side net 24, while the hinge member 45 can be rotated about the second rotating shaft 41, so that the front net 25 can perform a 360-degree rotation function through the second heavy hinge 4. Also, the stay 433 can receive the vertical load transmitted from the second rotating shaft 41, thereby ensuring that the front net 25 can bear load without being deformed.

Further, a synchronizing bar 46 is provided. The synchronization rod 46 extends vertically to connect the mounting sleeves 431 of two upper and lower adjacent second heavy hinges 4, respectively, so as to ensure that a synchronization effect is achieved when the two second heavy hinges 4 are turned over.

Referring to fig. 5, the underframe 1 is used for carrying the total weight of the whole frame 2 and cargo. A plurality of rotating wheels 16 for walking are arranged below the underframe 1.

The base frame 1 includes a frame body 10, a supporting portion 13 provided on the frame body 10, and two corner posts 15 respectively provided at opposite ends of the frame body 10.

Referring to fig. 6, the frame 10 includes a front end beam 101 and side beams 102 bent and extended from both ends of the front end beam 101. The side members 102 are relatively distant from each other in the front-to-rear direction, so that the front end member 101 and the side members 102 enclose a housing chamber 103 having a rear opening. The diameter of the accommodating cavity 103 gradually increases from front to back. The accommodating cavity 103 is used for the chassis 1 of another cage car 100 to enter from the rear opening. When a plurality of cage cars 100 need to be stacked and transported, the bottom net 21 is turned right angle to the front of the back net 23, then the two side nets 24 and the two front nets 25 are turned inwards and placed in front of the bottom net 21, then the narrow opening end of the underframe 1 of one cage car 100 corresponds to the wide opening end of the underframe 1 of the other cage car 100, and the cage cars 100 can be sequentially stacked and arranged together by repeating the steps, so that the storage space is saved, and the transportation is convenient.

The support portion 13 includes two support plates 131 oppositely disposed at the front end of the frame body 10, two parallel cross bars 133, and two limit bars 134. The two support plates 131 are respectively arranged on the left and right sides of the frame body 10 in a turnable manner, and can be rotated to the outer side of the frame body 10 to be unfolded; the overturning design of the supporting plate 131 can facilitate the supporting plate 131 to rotate inwards to be folded inside the frame body 10 when the cage car 100 is transported, and the supporting plate 131 cannot interfere with the frame bodies 10 of other cage cars 100. One end of the support plate 131 is provided with a bent and raised flange 132, and the flange 132 is used for abutting and limiting the bottom net 21 and the side net 24 and preventing the bottom net 21 and the side net 24 from sliding out of the support plate 131. Each cross bar 133 is arranged at the left side and the right side of the frame body 10, and two sets of spaced shaft holes are oppositely arranged on the two cross bars 133; one end of each support plate 131 is provided with a hinge shaft, the hinge shaft is rotatably inserted into the same set of shaft holes, and the support plate 131 can be supported by the frame body 10 when being unfolded outwards around the hinge shaft. Two position-limiting rods 134 are arranged in the gap between the two hinge shafts at intervals, the position-limiting rods 134 are connected with the two cross rods 133, and the support plate 131 is lapped on the position-limiting rods 134 when rotating inwards. In this way, the support plate 131 can transmit the gravity applied by the bottom net 21 and the side net 24 to the frame body 10 below, and prevent the deformation of the bottom net 21 due to an excessive force.

The corner upright posts 15 are arranged at the rear end of the frame body 10 and are used for being connected and fixed with the bottom of the back net 23. The corner upright post 15 comprises a vertical plate 151 vertically protruded on the frame body 10 and wing plates 152 bent and extending from two sides of the vertical plate 151; the two wings 152 are oppositely provided with fixing holes. The vertical plate 151 is provided with a through hole for rotatably connecting a rod piece at the rear end of the bottom net 21.

Referring back to fig. 2, the back net 23 has two side flaps 231 respectively extending forward and bending.

The wing 231 can be accommodated between the wing plates 152 and fixed to the wing plates 152 by bolts. The fixing member 33 is provided at the front end of the side flap 231, that is, the side flap 231 is hinged to the side net 24 by the first heavy hinge 3. The two side wings 231 and the back net 23 enclose a storage space behind the bottom frame 1. The bottom net 21 can be turned backward with respect to the corner posts 15 to stand upright in the storage space. Meanwhile, the side net 24 can be turned inward to enter the storage space when folded, so that it cannot be folded without interference with the bottom net 21.

In the related art, the goods that the cage car transported are more miscellaneous, can set up the intermediate layer board according to the demand. Staff often find that the middle layer plate is needed after half of the goods are loaded, and then the middle layer plate can be installed only by detaching the goods loaded before, so that the loading efficiency is influenced.

Referring to fig. 7 and 8 together, in order to solve the above problem, the cage 100 of the present embodiment is further provided with a novel object carrier 5 that can be drawn out at any time in the cargo state.

The carrier 5 is provided at an intermediate position inside the frame 2, and vertically divides a space inside the frame 2.

Two insertion plates 26 for connecting the article carrier 5 are oppositely arranged at the middle parts of the two side wings 231 of the back net 23. Each plugboard 26 is provided with a groove 202 extending vertically and a slot 201 communicated with the upper end of the groove 202. The slot 201 and the groove 202 are communicated to form a through groove with an L-shaped structure.

The rack 5 comprises a rack body 51, a plurality of bolts 52 distributed on the periphery of the rack body 51, and a handle 53 arranged at the front end of the rack body 51. In use, the latches 52 at the front end of the carrier rack 5 are respectively telescopically extended and engaged with the ribs of the two side nets 24. The bolts 52 at the rear end are inserted into the slots 201 to make the carrier 5 horizontal, so that the carrier 5 can carry upper cargo. When the luggage carrier 5 is transported or does not need to be used, a worker can hold the handle 53 to lift upwards, and the bolt 52 slides downwards along the groove 202, so that the whole luggage carrier 5 can be turned downwards relative to the back net 23 and erected in the storage space, and the transportation requirements of different goods are met.

Referring to fig. 9 to 11, the cage 100 further includes two top supporting structures 6 respectively disposed on the top of the two side nets 24.

Each top support structure 6 has a support 61 protruding out, and the support 61 can support the top net 22 upwards, so as to improve the bearing strength of the top net 22, and a part of goods can be placed on the top net 22, thereby improving the transportation efficiency of the goods.

The top support structure 6 comprises a support 61, a rotation member 62 connected to the support 61, two stop blocks and two fixing sleeves 64.

Specifically, the rotating member 62 is a sleeve structure, and the mounting sleeve 431 is rotatably sleeved on the rod member at the top of the side net 24 to drive the supporting member 61 to rotate towards the inside or the outside of the frame 2. The supporting member 61 is a rectangular hollow structure formed by bending a rod member, and has two connecting ends 611 with the outer peripheral wall of the rotating member 62. The supporting member 61 can rotate toward the inside of the frame 2 through the rotating member 62 to support the top net 22 upward and fold on the outside of the side net 24 after being turned to the outside by 270 degrees, thereby reducing the occupied space. The two limit blocks are fixed on the same rod of the side net 24 at intervals through a fixed sleeve 64 and are respectively positioned at two sides of the rotating member 62. The limiting block is in a protruding shape. The two limit blocks can be respectively abutted against the two connecting ends 611 of the support 61 when the support 61 rotates inwards to support the top net 22, so that the support 61 is prevented from rotating downwards under the gravity of the top net 22, and the support 61 is kept in a nearly horizontal supporting state.

Referring to fig. 12 to 14, the cage 100 further includes two rotation handles 7 for preventing the cage from expanding.

The two rotary handles 7 are provided on the left and right sides of the top net 22. The rotary handle 7 is rotatably arranged below the top net 22, and after the rotary handle is transversely arranged, the top net 22 can be prevented from being jacked up by express loaded inside the frame 2.

Each of the rotary handles 7 includes a handle body 71, an elastic member 72 provided at an upper end of the handle body 71, and a fixing nut 73. The fixing nut 73 is provided on the top net 22, and has a groove 701 opening downward. The handle body 71 is telescopically provided below the top net 22 by an elastic member 72. In this embodiment, the elastic member 72 is a compression spring. The handle body 71 has protrusions 711 protruding upward at both ends thereof. When the handle body 71 is placed transversely (i.e. perpendicular to the side net 24), one of the protrusions 711 is used for extending into the groove 701, and the other protrusion 711 is used for abutting against the outer side of the rod of the side net 24 for tightly locking the top net 22 on the top of the side net 24. When the handle body 71 is pulled down and the handle body 71 is rotated by 90 degrees, the locked state of the handle 53 is released, and the handle body 71 is spaced parallel to the side net 24. Thus, the rotating handle 7 can avoid the situation that the top net 22 is not flat due to excessive loading or the cage 100 can not enter the carriage of the transport vehicle as a whole due to the protrusion of the box-expanding top net 22.

To sum up, the utility model provides a pair of cage car 100 has following advantage and positive effect at least:

first, the base frame 1 is provided with a support plate 131, and the support plate 131 can support the bottom net 21 and the side net 24 to improve the bearing performance of the bottom net 21 and ensure that the bottom net 21 is not deformed. Meanwhile, the support plate 131 can transmit the vertical load applied to the side net 24 to the base frame 1, thereby improving the stress state of the side net 24.

Secondly, a plurality of first heavy hinges 3 are respectively connected and arranged between the two ends of the two side nets 24 and the back net 23. Each of the first heavy hinges 3 includes a first rotating shaft 31, a fixed member 33, and a rotating member 35. The fixed member 33 and the rotating member 35 are integrally formed bent metal plates, and the support plate 331 and the rotating plate 351 have sufficient strength. In use, the side net 24 is rotatable about the first rotation axis 31 via the rotation plate 351, and the support plate 331 can bear the vertical load transmitted from the first rotation axis 31, thereby ensuring that the side net 24 can bear the weight without deformation.

Then, a carrier rack 5 which can be drawn out at any time in the loading state is added. The rack 5 comprises a rack body 51, a plurality of bolts 52 distributed on the periphery of the rack body 51, and a handle 53 arranged at the front end of the rack body 51. In use, the latches 52 at the front end of the carrier rack 5 are respectively telescopically extended and engaged with the ribs of the two side nets 24. The bolts 52 at the rear end are inserted into the slots 201 to make the carrier 5 horizontal, so that the carrier 5 can carry upper cargo. When the luggage carrier 5 is transported or does not need to be used, a worker can hold the handle 53 to lift upwards, and the bolt 52 slides downwards along the groove 202, so that the whole luggage carrier 5 can be turned downwards relative to the back net 23 and erected in the storage space, and the transportation requirements of different goods are met.

Finally, a top support structure 6 is provided on each side of the top net 22. The top supporting structure 6 is provided with a support member 61 protruding out, and the support member 61 can upwards support the top net 22, so that the bearing strength of the top net 22 is improved, a part of goods can be placed on the top net 22, and the transportation efficiency of the goods is improved. In addition, the support member 61 can be turned over to occupy no space after being folded and folded, so that the folding of the whole cage 100 is not interfered with each other.

While the present invention has been described with reference to several exemplary embodiments, it is understood that the terminology used is intended to be in the nature of words of description and illustration, rather than of limitation. As the present invention may be embodied in several forms without departing from the spirit or essential characteristics thereof, it should also be understood that the above-described embodiments are not limited by any of the details of the foregoing description, but rather should be construed broadly within its spirit and scope as defined in the appended claims, and therefore all changes and modifications that fall within the meets and bounds of the claims, or equivalences of such meets and bounds are therefore intended to be embraced by the appended claims.

Claims (16)

1. A cage trolley, comprising:

the underframe comprises a frame body and a supporting part which is arranged at the front end of the frame body and can extend out to two sides;

a frame comprising a bottom mesh, a back mesh and two side meshes; the back net is vertically arranged at the rear end of the frame body; the rear ends of the bottom nets are rotatably connected with the bottom end of the bottom frame, and the rear ends of the two side nets are respectively rotatably connected with the two sides of the back net; the bottom net, the back net and the side nets are relatively unfolded to form a space for accommodating goods, and the front ends of the bottom net and the bottom ends of the side nets are supported on the supporting parts;

the first heavy hinges are arranged between the side nets and the back net at intervals along the vertical direction, each first heavy hinge comprises a rotating shaft, a fixing part arranged on the back net and a rotating part arranged on the side nets, the fixing part is provided with two supporting plates which protrude out and are spaced up and down, the rotating part is provided with two rotating plates which are opposite up and down, the two rotating plates are respectively lapped with the two supporting plates, and the rotating shaft penetrates through the supporting plates and the rotating plates so that the rotating plates can rotate around the rotating shaft relative to the supporting plates.

2. Cage trolley according to claim 1, characterized in that:

the fixing piece and the rotating piece both comprise connecting plates, the connecting plates are connected between the two supporting plates or between the two rotating plates, and the connecting plates are fixedly connected with the side net or the back net.

3. Cage trolley according to claim 2, characterized in that:

the first heavy duty hinge further comprises two stiffeners;

one reinforcing piece is connected between the two rotating plates, and the other reinforcing piece is connected between the supporting plate and the back net.

4. Cage trolley according to claim 2, characterized in that:

the rotating shaft of the first heavy hinge positioned on the same side of the side net is of an integral structure.

5. Cage trolley according to claim 1, characterized in that:

two opposite plug boards are arranged on two sides of the back net, and each plug board is provided with a groove extending vertically and a clamping groove communicated with the upper end of the groove;

the cage car still includes the carrier, the carrier include rack body and a plurality of distribute in the peripheral bolt of rack body is located the bolt of rack body front end can be fixed in two respectively the side is online, is located the bolt of rack body rear end can insert respectively and be fixed in the draw-in groove so that the carrier is the level form, just the bolt can be followed the slot slides so that the carrier erects in the place ahead of carrying the net.

6. Cage trolley according to claim 1, characterized in that:

the support part comprises two support plates which are oppositely arranged at the front end of the frame body, and the two support plates are respectively arranged on the left side and the right side of the frame body in a turnover manner and can rotate towards the outer side of the frame body to be unfolded;

one end of the support plate is provided with a bent and raised flange, and the flange is positioned outside the frame body when the support plate is unfolded so as to abut against the bottom net and the side net.

7. Cage trolley according to claim 6, characterized in that:

the support part also comprises two parallel cross rods, each cross rod is arranged on the left side and the right side of the frame body, and the two cross rods are oppositely provided with two groups of spaced shaft holes;

one end of each bearing plate is provided with a hinged shaft, the hinged shafts are rotatably and correspondingly arranged in the same group of shaft holes in a penetrating mode, and the bearing plates can be supported by the frame body when being unfolded outwards around the hinged shafts.

8. Cage trolley according to claim 7, characterized in that:

the supporting part also comprises two limiting rods;

the two limiting rods are arranged in a gap between the two hinged shafts at intervals, the limiting rods are connected with the two cross rods, and the bearing plate is lapped on the limiting rods when rotating inwards.

9. The cage cart of claim 1, further comprising:

the two front nets are respectively and rotatably connected with the front ends of the two side nets, and the two front nets can be horizontally spliced to be positioned at the front end of the bottom frame together;

the second heavy hinges are arranged between the front nets and the side nets at intervals along the vertical direction and comprise rotating shafts, mounting pieces arranged on the side nets and hinge pieces arranged on the front nets, the mounting pieces are provided with two opposite support plates which protrude out, and each hinge piece comprises a vertical plate and hinge plates which protrude out from the upper side and the lower side of the vertical plate; the two hinged plates extend between the two support plates and are respectively attached to the support plates, the support plates and the support plates are correspondingly provided with through holes, and the rotating shaft penetrates through the through holes.

10. Cage trolley according to claim 9, characterized in that:

the mounting piece further comprises a mounting sleeve which is rotatably sleeved on the periphery of the rod piece of the side net; the two support plates are respectively arranged on the peripheral wall of the mounting sleeve.

11. Cage trolley according to claim 10, characterized in that:

the mounting sleeve is characterized by further comprising at least one synchronizing rod, and the synchronizing rod extends vertically to be connected with two vertically adjacent mounting sleeves respectively.

12. The cage cart of claim 1, further comprising:

the top net is rotatably connected with the top end of the back net;

the two top supporting structures are respectively and correspondingly arranged at the tops of the two side nets; each of the top support structures has a protruding support member capable of supporting the top net upward.

13. Cage trolley according to claim 12, characterized in that:

the top supporting structure comprises a rotating piece and two limiting blocks;

the supporting piece is arranged on the rotating piece, and the rotating piece is rotatably arranged at the top of the side net so as to drive the supporting piece to rotate towards the inner side or the outer side of the frame; two the stopper interval is fixed to be located on the top of side net to be located respectively the both sides of rotating member, two the stopper can support piece when inwards rotating respectively with support piece's both ends butt.

14. Cage trolley according to claim 1, characterized in that:

the top net is rotatably connected with the top end of the back net;

two rotating handles for preventing the box from expanding; the two rotating handles are rotatably arranged below the top net and are oppositely positioned at two sides of the top net; two ends of the rotating handle are respectively provided with a bulge which protrudes upwards, one bulge is used for being clamped below the top net, and the other bulge is used for abutting against the outer side of the side net.

15. Cage trolley according to claim 1, characterized in that:

two sides of the back net are respectively provided with a side wing which is bent forwards and extends, and the two side wings and the back net are enclosed to form a containing space which is positioned behind the underframe;

the fixing piece is arranged at the front end of the side wing, and the side net can rotate inwards relative to the side wing so as to enter the accommodating space; the bottom net is turned backwards relative to the back net so as to be vertically placed in the accommodating space.

16. Cage trolley according to claim 15, characterized in that:

the underframe comprises two corner upright columns arranged at two ends of a frame body, and each corner upright column comprises a vertical plate vertically protruding on the frame body and wing plates bent and extending out of two sides of the vertical plate;

the two wing plates are oppositely provided with fixing holes, and the side wings are accommodated between the two wing plates and fixed with the wing plates through the fixing holes; and the vertical plate is provided with a through hole for the rod piece at the rear end of the bottom net to be rotatably connected.

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