阅读说明：本技术 一种折叠仓储笼 (Folding storage cage ) 是由 王勇 李岩 蔡奎 屠晓栋 李倩 柴连兴 单宝旭 王刘俊 钱斌 张成威 卢迪 张 于 2021-09-14 设计创作，主要内容包括：本申请涉及一种折叠仓储笼,包括供物品放置的底板、设于底板的支撑立柱、设于支撑立柱远离底板一端处的上部体,所述支撑立柱可改变自身的状态以使得上部体靠近于底板,上部体所在平面平行于底板,上部体和底板之间设有可阻止底板上的物品随意移动的挡网部,挡网部通过状态的改变使得支撑立柱能够调整上部体和底板之间的距离,具备使得在底板上未放置物品时,上部体朝向底板移动,使得底板和上部体之间的间距变小,使得在进行仓储笼的堆叠时,占用空间可以减少的效果。(The utility model relates to a folding storage cage, including the bottom plate that supplies article to place, locate the support post of bottom plate, locate the support post and keep away from the upper portion body of bottom plate one end department, the support post can change the state of self so that the upper portion body is close to in the bottom plate, upper portion body place plane is on a parallel with the bottom plate, be equipped with the fender net portion that can prevent article on the bottom plate to remove at will between the upper portion body and the bottom plate, keep off the change of net portion through the state and make the support post can adjust the distance between the upper portion body and the bottom plate, when possessing and making not placing article on the bottom plate, the upper portion body removes towards the bottom plate, make the interval between bottom plate and the upper portion body diminish, make when piling up of storage cage, the effect that occupation space can reduce.)

1. The utility model provides a folding storage cage, includes bottom plate (1) that supplies article to place, locates support post (2) of bottom plate (1), locates upper portion body (3) that support post (2) kept away from bottom plate (1) one end department, its characterized in that: the supporting upright post (2) can change the state of the supporting upright post (2) so that the upper body (3) is close to the bottom plate (1), the plane of the upper body (3) is parallel to the bottom plate (1), a net blocking part capable of preventing articles on the bottom plate (1) from moving randomly is arranged between the upper body (3) and the bottom plate (1), and the distance between the upper body (3) and the bottom plate (1) can be adjusted by the supporting upright post (2) through the change of the state of the net blocking part.

2. A folding storage cage according to claim 1, wherein: the middle part of the column body of the supporting column (2) is provided with a hinge point, so that the parts of the supporting column (2) positioned at the two sides of the hinge point at the middle part can rotate.

3. A folding storage cage according to claim 1 or 2, wherein: the net blocking part comprises an in-frame blocking net (41) which can block articles on the bottom plate (1) from moving at will, the in-frame blocking net (41) is placed between the upper part body (3) and the bottom plate (1), and the in-frame blocking net (41) is detachably connected with at least one of the bottom plate (1), the upper part body (3) and the supporting upright post (2) respectively.

4. A folding storage cage according to claim 3, wherein: keep off the net portion and still include at least one whole cage door (43) that can block the article on bottom plate (1) and remove at will, put into between upper portion body (3) and bottom plate (1) whole cage door (43) and the frame in keep off net (41) at least one in both, whole cage door (43) can rotate around self side, whole cage door (43) rotate one side department respectively with bottom plate (1), upper portion body (3) and support column (2) in at least one mutually can dismantle the connection.

5. A folding storage cage according to claim 4, wherein: the disassembled integral cage door (43) and the internal blocking net (41) can be stacked on the bottom plate (1), and the highest height of the stacked integral cage door (43) and the internal blocking net (41) on the bottom plate (1) is lower than the height of the upper surface of the upper part body (3).

6. A folding storage cage according to claim 2, wherein: all divide equally into at least one row in support post (2), and divide equally into two sets ofly in support post (2) of every row, and the rotation plane at two sets of support post (2) places is the same with arranging, and is two with arranging be equipped with between support post (2) and make support post (2) keep vertical stand to erect the mechanism.

7. A folding storage cage according to claim 6, wherein: the upright post erecting mechanism comprises two threaded cylinders (47) which are correspondingly abutted to the two groups of supporting upright posts (2) in the same row one by one respectively, and a bidirectional screw (48) which is in threaded connection with one end close to the two threaded cylinders (47), wherein the thread directions of two ends of the bidirectional screw (48) are opposite.

8. A folding storage cage according to claim 6, wherein: the upright post erecting mechanism comprises upright post support rods (49) detachably connected to two groups of support upright posts (2) in the same row.

9. A folding storage cage according to claim 2, wherein: all the supporting columns (2) are equally divided into at least one row, the supporting columns (2) in each row are equally divided into two groups, the rotating planes of the two groups of supporting columns (2) in the same row are the same, the net blocking part comprises a turnover net blocking (44) and an inward-folding net blocking (45), the turnover net blocking (44) is arranged between the two groups of supporting columns (2) in the same row, one side, away from the middle hinge point of the adjacent supporting columns (2), of the turnover net blocking (44) is rotatably connected to the bottom plate (1) or the upper body (3), the turnover net blocking (44) is respectively detachably connected to at least one of the supporting columns (2), the upper body (3) and the bottom plate (1), the inward-folding net blocking (45) is arranged between the two groups of supporting columns (2) which are close to each other in the two adjacent rows, one side, close to the upper body (3), of the inward-folding net blocking (45) is rotatably connected to the supporting columns (2) or the upper body (3), one side of the inward-folding baffle net (45) close to the bottom plate (1) is rotatably connected to the supporting upright posts (2) or the bottom plate (1), and the middle part of the inward-folding baffle net (45) is provided with a hinge point so that the parts on two sides of the hinge point in the middle part of the inward-folding baffle net (45) can rotate.

10. A folding storage cage according to claim 9, wherein: keep off the net portion and still include at least one infolding cage door (46), set up infolding cage door (46) or infolding between two sets of support post (2) that are close to in two adjacent rows and keep off in net (45) arbitrary one, infolding cage door (46) middle part position department sets up the pin joint and makes the part of infolding cage door (46) middle part pin joint both sides can rotate, infolding cage door (46) and bottom plate (1), upper portion body (3) and support post (2) three in at least one looks rotation connection.

Technical Field

The application relates to the field of storage cages, in particular to a folding storage cage.

Background

At modern today, make the storage become intelligent through programming, fork truck can carry out stable removal according to the program instruction on established track to drive the storage cage in the warehouse and stabilize the removal, make placing of storage cage in the warehouse orderly, the difficult accident that appears also can greatly reduced cost of labor.

I have now designed one kind and be arranged in intelligent warehouse and be used for placing the storage cage of relevant electric power construction article such as cable conductor, the storage cage can carry out the pile up of a take the altitude in vertical direction.

In view of the above-mentioned related art, the inventor believes that when no article is placed in the storage cage, stacking between empty storage cages occupies a relatively large space, and there is a defect that the storage cage is difficult to adjust according to actual conditions to reduce space occupation.

Disclosure of Invention

In order to make the storage cage adjust in order to reduce the space and occupy according to actual conditions, this application provides a folding storage cage.

The application provides a folding storage cage adopts following technical scheme:

the utility model provides a folding storage cage, includes the bottom plate that supplies article to place, locate the support post of bottom plate, locate the support post and keep away from the upper portion body of bottom plate one end department, the support post can change the state of self so that the upper portion body is close to in the bottom plate, and upper portion body place plane is on a parallel with the bottom plate, is equipped with the fender net portion that can prevent article on the bottom plate to remove at will between the upper portion body and the bottom plate, keeps off the change of net portion through the state and makes the support post can adjust the distance between the upper portion body and the bottom plate.

Through adopting above-mentioned technical scheme for when not placing article on the bottom plate, can remove upper portion body towards the bottom plate, make the interval between bottom plate and the upper portion body reduce, then carry out high piling up with the storage cage of several this application, make the space in height obtain reducing, can come to adjust the interval between bottom plate and the upper portion body according to having or not placing article on the bottom plate, with the occupation in as far as possible reduction space.

Optionally, a hinge point is arranged at the middle of the shaft of the support column, so that the parts of the support column located at two sides of the hinge point at the middle can rotate.

Through adopting above-mentioned technical scheme for when not placing article on the bottom plate, the support post rotates around self middle part pin joint and folds, makes the interval between bottom plate and the upper portion body reduce as far as possible, with the space that can occupy when reducing as far as possible when not placing article different storage cages pile up.

Optionally, the net blocking part comprises an inner blocking net which can block articles on the bottom plate from moving at will, the inner blocking net is placed between the upper part body and the bottom plate, and the inner blocking net is detachably connected with at least one of the bottom plate, the upper part body and the support upright post respectively.

Through adopting above-mentioned technical scheme, the setting that keeps off the net in the frame makes when placing article on the bottom plate for even when the bottom plate removes very fast article and probably certain slippage appears relative to the bottom plate, article also can be kept off the net by the frame and blockked betterly, and when article not on the bottom plate, keep off the net dismantlement with the frame and take off and place on the bottom plate, then can remove so that to pile up the space and reduce with upper portion body towards the bottom plate.

Optionally, the net blocking part further comprises at least one whole cage door capable of blocking articles on the bottom plate to move randomly, at least one of the whole cage door and the frame inner blocking net is placed between the upper part body and the bottom plate, the whole cage door can rotate around one side edge of the whole cage door, and the rotating side of the whole cage door is detachably connected with at least one of the bottom plate, the upper part body and the supporting stand column respectively.

Through adopting above-mentioned technical scheme, open whole cage door, need not remove article to certain height and just can put into to the bottom plate on, it is comparatively convenient.

Optionally, the disassembled whole cage door and the internal blocking net of the frame can be stacked on the bottom plate, and the highest height of the stacked whole cage door and the internal blocking net of the frame on the bottom plate is lower than the height of the upper surface of the upper body.

Through adopting above-mentioned technical scheme for keep off in whole cage door after the dismantlement and the frame and net need not prepare extra space again and place, can play the effect of saving space betterly.

Optionally, all the support columns are equally divided into at least one row, the support columns in each row are equally divided into two groups, the rotating planes of the two groups of support columns in the same row are the same, and a vertical column erecting mechanism for enabling the support columns to keep vertical is arranged between the two groups of support columns in the same row.

Through adopting above-mentioned technical scheme for the support post that the middle part set up the pin joint when not needing the upper portion body to be close to the bottom plate, except keeping off when net portion provides the support between the upper portion body and the bottom plate, the stand erects the mechanism and also can provide the support for between bottom plate and the upper portion body, makes fender net portion be difficult for bearing great pressure.

Optionally, the upright post erecting mechanism comprises two threaded cylinders which are correspondingly abutted to the two groups of support upright posts in the same row one by one, and a bidirectional screw rod which is in threaded connection with one end close to the two threaded cylinders, and the directions of threads at two ends of the bidirectional screw rod are opposite.

Through adopting above-mentioned technical scheme, rotate two-way screw rod for two screw thread section of thick bamboo are kept away from mutually, make two support post's in same row two pin joints keep away from mutually, make bottom plate and upper portion keep away from mutually, so that after support post wholly changes to same straight line on, the difficult circumstances that appears around self pin joint pivoted of support post makes support post keep comparatively stable state.

Optionally, the upright erecting mechanism comprises upright support rods detachably connected to two groups of support uprights in the same row.

Through adopting above-mentioned technical scheme, pull up the upper portion body for the support post is whole to be a straight line, then with stand vaulting pole correspondence connect in the support post, makes the support post keep better stable condition, the whole all comparatively convenient dismantlement of stand vaulting pole simultaneously, also can make the interval between the upper portion body and the bottom plate shorten as far as.

Optionally, all the supporting columns are equally divided into at least one row, the supporting columns in each row are equally divided into two groups, the rotating planes of the two groups of supporting columns in the same row are the same, the blocking net part comprises a folding blocking net and an inner folding blocking net, the folding blocking net is arranged between the two groups of supporting columns in the same row, one side of the folding blocking net far away from the hinge point in the middle part of the adjacent supporting columns is rotatably connected to the bottom plate or the upper part body, the folding blocking net is respectively detachably connected to the supporting columns, at least one in the upper portion body and the bottom plate three sets up between two sets of support posts that are close to in adjacent two rows and rolls over the fender net in, and the one side that interior fender net is close to the upper portion body rotates and connects in support post or the upper portion body, and one side that interior fender net is close to the bottom plate rotates and connects in support post or bottom plate, and interior fender net middle part department sets up the pin joint and makes the part of interior fender net middle part pin joint both sides can rotate.

Through adopting above-mentioned technical scheme for when carrying out the position adjustment between upper portion body and the bottom plate, turn over a fender net and interior fender net and need not dismantle, make the adjustment process more convenient, and turn over a fender net and interior fender net and need not dismantle, the difficult condition of losing that appears.

Optionally, the net blocking portion further comprises at least one inward-folding cage door, the inward-folding cage door or any one of the inward-folding net blocking portions is arranged between two adjacent rows of middle-adjacent supporting stand columns, a hinge point is arranged at the middle position of the inward-folding cage door, so that parts on two sides of the hinge point of the inward-folding cage door can rotate around the hinge point, and the inward-folding cage door is rotatably connected with at least one of the bottom plate, the upper portion body and the supporting stand columns.

Through adopting above-mentioned technical scheme for the interior cage door that rolls over can rotate in the lump along with the rotation of support post and buckle, makes interior cage door that rolls over need not dismantle, and is comparatively convenient.

In summary, the present application includes at least one of the following benefits:

1. when articles are not placed on the bottom plate, the upper body can be moved towards the bottom plate, so that the distance between the bottom plate and the upper body is reduced, then a plurality of storage cages of the storage cage are stacked in height, so that the space in height is reduced, and the distance between the bottom plate and the upper body can be adjusted according to the existence of the articles placed on the bottom plate, so that the space occupation is reduced as much as possible;

2. when no article is placed on the bottom plate, the hinge points at the central points of the two supporting columns in the same row are close to each other, so that the distance between the bottom plate and the upper body is reduced as far as possible, and the space occupied by different storage cages when the storage cages are stacked when no article is placed is reduced as far as possible.

Drawings

FIG. 1 is a schematic structural view of a first embodiment of the present invention in which a Y-axis rod is provided, a support column is provided with a hinge point, and a mesh reinforcing rod is horizontal;

FIG. 2 is a schematic structural view of the storage cage of the first embodiment after being folded;

FIG. 3 is a schematic structural view of the second embodiment in which a Y-shaped shaft is provided, the support pillars are provided with hinge points, the net reinforcing rods are horizontal, and only one integral cage door is provided;

FIG. 4 is a schematic structural view of the third embodiment;

FIG. 5 is a schematic structural view of the fourth embodiment;

FIG. 6 is a schematic structural diagram of the fifth embodiment, which shows only the difference from the fourth embodiment;

FIG. 7 is a schematic structural view of the fifth embodiment after being folded;

FIG. 8 is a schematic structural diagram showing only the difference between the sixth embodiment and the fifth embodiment;

fig. 9 is a schematic structural diagram showing only the difference between the seventh embodiment and the sixth embodiment.

Description of reference numerals: 1. a base plate; 2. supporting the upright post; 21. lower angle steel; 22. a screen blocking groove; 23. a sheet inserting groove; 24. a bottom plate block; 3. an upper body; 31. a stay screw; 32. positioning the inserting sheet; 33. a mesh reinforcement bar; 34. folding a baffle net pin shaft; 35. a forklift block; 36. a fork pocket; 37. a Y-axis rod; 38. an X shaft lever; 39. upper angle steel; 41. a screen inside the frame; 42. a screen pin shaft in the frame; 43. an integral cage door; 44. folding the baffle net; 45. inward folding blocking nets; 46. an inner folding cage door; 47. a threaded barrel; 48. a bidirectional screw; 49. and (4) a stand column support rod.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The first embodiment is as follows:

the embodiment of the application discloses folding storage cage refers to fig. 1, and including being horizontally bottom plate 1, bottom plate 1 is the rectangular plate, installs support post 2 directly over bottom plate 1, and support post 2 upper end department installs and is horizontally upper portion body 3, and upper portion body 3 is located directly over bottom plate 1.

Referring to fig. 1, the equal integrated into one piece in four angle departments of 1 lower surface of bottom plate has fork truck piece 35, and fork truck piece 35 upper surface is seted up and is supplied the fork truck fork to stretch into the fork groove 36 to, and four fork truck pieces 35 are equallyd divide into two sets ofly. The X-axis direction and the Y-axis direction are marked in the drawing, and the Y-axis direction and the X-axis direction are respectively parallel to the length directions of two adjacent horizontal side edges of the bottom plate 1 in a one-to-one correspondence manner. Two fork truck blocks 35 on same Y axle direction are a set of, and fork groove 36 runs through in two vertical sides that fork truck block 35 is on a parallel with the X axle direction, and the fork truck fork is followed Y axle direction level and is stretched into to two sets of fork truck blocks 35 in.

Referring to fig. 1 and 2, four corners of the upper surface of the bottom plate 1 are provided with a supporting upright post 2, the upper body 3 comprises a horizontal Y shaft rod 37 with the length direction parallel to the Y axis direction, and two ends of the Y shaft rod 37 are fixedly connected with an X shaft rod 38. The X-axis rod 38 is horizontal and the length direction is parallel to the X-axis direction, and the Y-axis rod 37 and the X-axis rod 38 are both located right above the base plate 1.

In another embodiment of the present embodiment, in order to improve the overall strength of the upper body 3, two Y shafts 37 may be provided, so that the two Y shafts 37 and the two X shafts 38 form a frame-shaped structure.

Referring to fig. 1 and 2, the equal integrated into one piece of two X axostylus axostyles 38 upper surface has to be the horizontally upper angle steel 39, and upper angle steel 39 length direction is on a parallel with the X axle direction, and homogeneous shaping has lower angle steel 21 between two fork truck pieces 35 on same X axle direction, and lower angle steel 21 length direction is on a parallel with the X axle direction for when two storage cages of this application pile up, the lower angle steel 21 of the low storage cage in position can be followed vertical direction and is corresponded the upper angle steel 39 of pegging graft in the high storage cage in position.

In another embodiment of this embodiment, the fork of the forklift truck can horizontally extend to the position between the lower angle steel 21 and the bottom plate 1, that is, between the two groups of forklift blocks 35, in the Y-axis direction, so as to drive the bottom plate 1 to move.

Referring to fig. 1 and 2, a hinge point is disposed at a central point of the support column 2, so that portions of the support column 2 located at two sides of the hinge point can rotate around the hinge point, upper ends and lower ends of the support column 2 are respectively hinged to a lower surface of the X-axis rod 38 and an upper surface of the base plate 1 in a one-to-one correspondence manner, and two support columns 2 in the same X-axis direction are arranged in a row. The pin joint on two respective upper portions of support post 2 with the row is close to mutually, the pin joint of two respective lower portions of support post 2 with the row is close to mutually, the pin joint of two 2 central points of support post 2 with the row is kept away from mutually, make when support post 2 is folding, the pin joint of two support post 2 with the row can be close to mutually and the difficult condition of keeping away from mutually that appears, make support post 2 be difficult for removing to the space directly over the bottom plate 1 in, make the part that support post 2 is located the pin joint both sides can the one-to-one laminating respectively in bottom plate 1 upper surface and X axostylus axostyle 38 lower surface, make the interval between support post 2 upper end and the lower extreme can carry out as far as regulation as possible in the certain extent, with reduce the shared space when carrying out storage cage and piling up when not placing object on bottom plate 1.

In another embodiment of this embodiment, the supporting column 2 may be telescopically adjusted in a manner of inserting the sliding sleeve and the inserting rod, and the overall length of the supporting column 2 is not easily changed by inserting a bolt or other fastening member through the sleeve and the inserting rod.

Referring to fig. 1 and 2, install between bottom plate 1 and the upper portion body 3 and keep off the net portion, keep off the net portion and include in the frame keep off net 41, be the laminating between two vertical support posts 2 and be vertical in the same row and keep off net 41, in two rows also be the laminating between the vertical support posts 2 with two of one side department and be vertical in the frame keep off net 41, keep off the horizontal length direction of two in the net 41 and be on a parallel with the X axle direction and other two be on a parallel with the Y axle direction in four frames. The inner baffle net 41 is formed by welding criss-cross thin steel pipes on the inner ring of a steel frame. After the in-frame screens 41 are detached, each in-frame screen 41 can be passed between two X-axis rods 38 in the vertical direction and placed on the upper surface of the base plate 1. Keep off the steel frame fixedly connected with of net 41 in the frame between two support posts 2 of the same row and be horizontal net stiffener 33, net stiffener 33 length direction is on a parallel with the X axle direction, and net stiffener 33 tip is close to the hinge point department of support posts 2 to keep off the bulk strength of net 41 in the promotion frame.

In another embodiment of this embodiment, a mesh reinforcing rod 33 may also be disposed for each of the in-frame screens 41, the mesh reinforcing rods 33 are vertical, and two ends of the mesh reinforcing rods 33 are connected to the middle points of the upper and lower portions of the steel frame of the in-frame screens 41 in a one-to-one correspondence manner.

Referring to fig. 1 and 2, the lower surfaces of the in-frame blocking nets 41 are attached to the periphery of the upper surface of the base plate 1, and the upper surfaces of the three in-frame blocking nets 41 are respectively attached to the lower surfaces of the two corresponding X-axis rods 38 and Y-axis rods 37. The equal fixedly connected with in the periphery department that keeps off net 41 in corresponding to each frame of bottom plate 1 upper surface is vertical location inserted sheet 32, and location inserted sheet 32 length direction is on a parallel with the peripheral length direction of bottom plate 1 that is close to mutually, and the similar vertical side department of two support post 2 lower extremes in same row has all seted up inserted sheet groove 23, rotates at support post 2 and folds the time, and location inserted sheet 32 can peg graft in inserted sheet groove 23 for support post 2 can laminate in bottom plate 1 upper surface. The side of the in-frame barrier net 41 facing away from the vertical centre line of the base plate 1 can abut against the corresponding positioning tab 32, so that the position of the in-frame barrier net 41 is initially defined. The supporting upright post 2 is inserted with an inner frame baffle net pin shaft 42 corresponding to the inner frame baffle net 41, and the inner frame baffle net pin shaft 42 is inserted in the inner frame baffle net 41 along the horizontal direction and is attached to the vertical side surface of the supporting upright post 2, so that the inner frame baffle net 41 is not easy to move randomly.

The implementation principle of the folding storage cage in the first embodiment of the application is as follows: when not placing article on bottom plate 1, keep off net round pin axle 42 dismantles in the frame, then keep off net 41 and take off in four frames for support post 2 can rotate around the pin joint in the middle of self, makes upper portion body 3 be close to in bottom plate 1, then places in the frame and keeps off net 41 on bottom plate 1, keeps off the height that the net 41 highest point department highly is less than upper portion body 3 upper surface in four frames that pile up, then carries out the ascending pile up of vertical side with two storage cages again.

Example two:

the second embodiment of the application discloses a folding storage cage, refer to fig. 3, the difference with the first embodiment lies in that Y axostylus axostyle 37 only sets up one, and the horizontal length direction keeps off net 41 and only sets up one in the frame that is on a parallel with Y axle direction, install two between two support post 2 that do not set up in the frame and keep off net 41 and be vertical whole cage door 43, the structure of whole cage door 43 is unanimous with the structure that keeps off net 41 in the frame, two whole cage doors 43 articulate respectively in a support post 2 that is close, make whole cage door 43 rotate to the outside directly over bottom plate 1 in the horizontal plane, so that the article immigration is to bottom plate 1. The pin shaft at the hinge point of the integral cage door 43 and the support upright 2 can be pulled out in the vertical direction so as to detach the integral cage door 43. After the articles are placed on the bottom plate 1, the two integral cage doors 43 can be connected and locked through the chain lock or the bolt, so that the integral cage doors 43 cannot be opened easily.

In another embodiment of this embodiment, the integral cage door 43 can be a single door, and the integral cage door 43 and the adjacent inner blocking net 41 are connected and locked through a chain lock.

The implementation principle of the second folding storage cage of the embodiment of the application is as follows: before the upper part body 3 moves towards the bottom plate 1, the pin shaft of the whole cage door 43 is detached, so that the whole cage door 43 is detached, then the whole cage door 43 penetrates through the upper part body 3 along the vertical direction to be placed on the bottom plate 1, then the blocking net 41 in the frame is detached and placed on the whole cage door 43, the highest point of the blocking net 41 in the frame with the highest height is lower than the height of the upper surface of the upper part body 3, then the upper part body 3 is close to the bottom plate 1, and then two storage cages are stacked in the vertical direction.

Example three:

referring to fig. 4, the third embodiment of the present application discloses a folding storage cage, which is different from the first embodiment in that the height of the supporting upright 2 can be adjusted only by setting a hinge point at the midpoint of the supporting upright. The screen blocking part is a folding screen 44 and an inner folding screen 45. And the positioning tabs 32 and the mesh reinforcing rods 33 are removed.

Referring to fig. 4, the turnover blocking net 44 is arranged between two supporting upright posts 2 in the same row, the horizontal length direction of the turnover blocking net 44 is parallel to the X-axis direction, four corners of the upper surface of the bottom plate 1 are all integrally formed with bottom plate blocks 24, the bottom ends of the four supporting upright posts 2 are in one-to-one correspondence and are respectively hinged to the four bottom plate blocks 24, the bottom parts of the end surfaces of the two ends of the horizontal length direction of the turnover blocking net 44 are in one-to-one correspondence and are respectively rotatably connected to the adjacent vertical sides of the two corresponding bottom plate blocks 24, the rotation plane of the turnover blocking net 44 is vertical and parallel to the Y-axis direction, and the upper part of the turnover blocking net 44 can be rotatably placed on the bottom plate 1. The height of the rotation point of one of the turnover barrier nets 44 is higher than that of the other turnover barrier net 44, so that the two turnover barrier nets 44 can be attached in a horizontal state. The upper surface of the X-axis 38 is inserted with a folding screen pin 34 along the vertical direction, and the folding screen pin 34 is inserted on the upper surface of the folding screen 44 when the folding screen 44 is vertical, so that the folding screen 44 cannot move freely.

In another embodiment of this embodiment, the bottom plate blocks 24 may also be integrally formed on the bottom surface of the end portion of the X-axis rod 38, the upper portions of the end surfaces of the two ends of the turnover blocking net 44 in the horizontal length direction are respectively connected to the adjacent vertical side surfaces of the two corresponding bottom plate blocks 24 in a one-to-one correspondence manner, and the turnover blocking net pin 34 may be disposed at the lower portion of the bottom plate 1 or the support column 2 to fix the position of the turnover blocking net 44.

Referring to fig. 4, the inner baffle net 45 is located between two support columns 2 at the same side in two rows, the horizontal length direction of the inner baffle net 45 is parallel to the Y axis direction, the upper parts of the end surfaces at the two ends of the horizontal length direction of the inner baffle net 45 are respectively and rotationally connected to the upper parts of the two corresponding support columns 2 in a one-to-one correspondence manner, the lower parts of the end surfaces at the two ends of the horizontal length direction of the inner baffle net 45 are respectively and rotationally connected to the lower parts of the two corresponding support columns 2 in a one-to-one correspondence manner, and the upper rotational axis and the lower rotational axis of the inner baffle net 45 are both horizontal and parallel to the Y axis direction. The hinge point is arranged at the middle point of the height of the inner folding baffle net 45, so that the two sides of the hinge point of the inner folding baffle net 45 can be rotated, the rotation axis of the hinge point in the middle of the inner folding baffle net 45 is horizontal and parallel to the Y-axis direction, and when the upper body 3 moves towards the bottom plate 1, the inner folding baffle net 45 is bent to enable the hinge point at the middle point of the inner folding baffle net 45 to move towards the vertical central line of the bottom plate 1. The height of the rotating point of the lower part of the inner folding baffle net 45 and the supporting upright post 2 is higher than the height of the highest rotating point of the folding baffle net 44, so that the inner folding baffle net 45 can be bent into a horizontal state.

The implementation principle of the third folding storage cage in the embodiment of the application is as follows: before the upper part body 3 moves towards the bottom plate 1, the turnover blocking net pin shaft 34 is detached, the turnover blocking net 44 with a low rotation point is turned over to be attached to the bottom plate 1, then the turnover blocking net 44 with a high rotation point is turned over, the two turnover blocking nets 44 are in a horizontal state and attached to each other, the upper surface of the turnover blocking net 44 is horizontal and lower than or flush with the upper surface of the bottom plate block 24, the upper part body 3 moves towards the bottom plate 1, the inner turnover blocking net 45 is bent, the inner turnover blocking net 45 is horizontal and attached to the turnover blocking net 44 finally, the supporting upright post 2 is horizontal, and then the two storage cages are stacked in the vertical direction.

Example four:

the fourth of the embodiment of the application discloses a folding storage cage, refer to fig. 5, with the third difference of embodiment lie in that turn over a pin joint that keeps off net 44 self intermediate point department and set up so that turn over the part that keeps off net 44 pin joint both sides and can rotate around the pin joint in the middle of self, turn over the axis of rotation that keeps off net 44 self intermediate point department and be the level and be on a parallel with the X axle direction. The height of the pivot point between the bottom of each of the two fold-over screens 44 and the floor block 24 is the same.

The implementation principle of the fourth folding storage cage in the embodiment of the application is as follows: before the upper part body 3 moves towards the bottom plate 1, the turnover blocking net pin shaft 34 is detached, the upper part of the turnover blocking net 44 is turned over around a middle hinge point, the parts of two sides of the middle hinge point of the turnover blocking net 44 are attached to each other, the turnover blocking net 44 is turned over around a rotation point of the upper part body and the bottom plate block 24, the two turnover blocking nets 44 are horizontal and attached to the upper surface of the bottom plate 1, enough space is reserved between the hinge points of the two turnover blocking nets 44 and cannot be abutted to each other, the upper part body 3 moves towards the bottom plate 1, the inward folding blocking net 45 is bent, the inward folding blocking net 45 is finally horizontal and attached to the turnover blocking net 44, the supporting upright posts 2 are also horizontal, and then the two storage cages are stacked in the vertical direction.

Example five:

the fifth embodiment of the present application discloses a folding storage cage, and referring to fig. 6 and 7, the differences from the third embodiment and the fourth embodiment are that only one Y-axis rod 37 is provided, and only one inner baffle net 45 is provided.

Referring to fig. 6 and 7, two inward-folding doors 46 are installed between two supporting columns 2 without the inward-folding blocking net 45, hinge points are arranged at the middle points of the heights of the two inward-folding doors 46, the middle hinge points of the inward-folding doors 46 are arranged to be the same as the hinge points of the inward-folding blocking net 45, the rotation axis of the middle hinge points of the inward-folding doors 46 is horizontal and parallel to the Y-axis direction, two hinge points are arranged between each inward-folding door 46 and one adjacent supporting column 2, and the two hinge points of the inward-folding doors 46 and the two hinge points of the supporting columns 2 are respectively located on two sides of the middle hinge points of the inward-folding doors 46 in a one-to-one correspondence manner, so that the inward-folding doors 46 can be folded along with the rotation of the supporting columns 2 and are stably folded. The two inner folding cage doors 46 can be connected and locked through a chain lock or a bolt.

In another embodiment of this embodiment, only one of the inside-folding doors 46 may be provided, and the inside-folding door 46 and the adjacent folding retaining net 44 may be connected and locked by a chain lock or a latch.

The implementation principle of the fifth folding storage cage in the embodiment of the application is as follows: before the upper part body 3 moves towards the bottom plate 1, the turnover blocking net pin shaft 34 is detached, the turnover blocking net 44 is folded correspondingly, then the upper part body 3 moves towards the bottom plate 1, so that the inward folding blocking net 45 and the inward folding cage door 46 are bent, the inward folding blocking net 45 and the inward folding cage door 46 are finally horizontal and are attached to the turnover blocking net 44, sufficient space is reserved between the hinge points of the inward folding blocking net 45 and the inward folding cage door 46, the supporting upright post 2 is horizontal, and then the two storage cages are stacked in the vertical direction.

Example six:

the sixth embodiment of the application discloses a folding storage cage, referring to fig. 8, the difference with the third embodiment, the fourth embodiment and the fifth embodiment lies in that an upright post erecting mechanism which can make the hinge point of the two supporting upright posts 2 in the same row difficult to approach randomly is installed between the two supporting upright posts 2 in the same row, the upright post erecting mechanism comprises two threaded cylinders 47 which are correspondingly abutted to the two supporting upright posts 2 in the same row one by one respectively, a position of a turnover baffle net 44 close to the hinge point of the supporting upright posts 2 is penetrated and provided with a baffle net groove 22, the threaded cylinders 47 are penetrated and arranged on the vertical inner wall of the baffle net groove 22 to be inserted into the supporting upright posts 2, the length direction of the threaded cylinders 47 is horizontal and parallel to the X-axis direction, one end of the threaded cylinders 47 abutted to the supporting upright posts 2 is close to the hinge point of the supporting upright posts 2, the same two bidirectional screw rods 48 are in threaded connection between the two threaded cylinders 47, the two ends of the bidirectional screw rods 48 are opposite in thread direction, the rubber layer is coaxially adhered to the circumferential outer wall at the central point of the bidirectional screw 48. The outer periphery of one end of the threaded cylinder 47 inserted into the support column 2 is rectangular, so that when the bidirectional screw 48 is rotated, the threaded cylinder 47 is not easy to rotate along with the rotation of the bidirectional screw 48.

The implementation principle of the sixth folding storage cage in the embodiment of the application is as follows: when it is desired to enlarge the space between the upper body 3 and the base plate 1, the two-way screw 48 is turned so that the two threaded cylinders 47 are distanced from each other, so that the two support uprights 2 of the same row tend to be vertical.

Example seven:

seventhly disclose a folding storage cage in the embodiment of this application, refer to fig. 9, six differences with the embodiment lie in that, the stand erects the mechanism including being horizontally stand vaulting pole 49, stand vaulting pole 49 length direction is on a parallel with the X axle direction, peg graft in two support post 2 of arranging with along the Y axle direction respectively at stand vaulting pole 49 both ends one-to-one, stand vaulting pole 49 pegs graft in the pin joint vicinity of support post 2 self along the Y axle direction, vaulting pole screw 31 is all worn to be equipped with at stand vaulting pole 49 both ends, vaulting pole screw 31 threaded connection is in support post 2.

The seventh implementation principle of the folding storage cage in the embodiment of the application is as follows: when the distance between the upper body 3 and the bottom plate 1 needs to be enlarged, a worker pulls the upper body 3 upwards, then another worker inserts the column support rods 49 into two support columns 2 in the same row correspondingly, and then the support rod screws 31 are screwed in corresponding to the column support rods 49.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.