CN220466471U - Multilayer three-dimensional frame of putting suitable for rock core storehouse - Google Patents

Abstract

The utility model discloses a multilayer three-dimensional placement frame suitable for a core warehouse, which belongs to the field of constructional engineering and comprises a stand column module, wherein the stand column module is provided with a beam module with adjustable height; the vertical column module or the cross beam module is also provided with a vertical lifting module, the vertical lifting module is provided with a horizontal conveying module, and the horizontal conveying module is provided with a cargo tray. The modular assembly type mounting structure reduces the mounting and dimension cost, solves the problem of complex mounting engineering of the traditional mechanical placement frame, has multiple repeated units, strong reusability and high standardization level, and is more beneficial to realizing rapid assembly; further, the height of the beam module relative to the upright post module is adjustable, the height of the storage rack placing layer is not fixed, the height of each placing layer can be flexibly adjusted according to the types and the quantity of the core samples to be stored, and the flexibility of storage space arrangement is improved.

Description

Multilayer three-dimensional frame of putting suitable for rock core storehouse

Technical Field

The utility model belongs to the field of constructional engineering, and particularly relates to a multilayer three-dimensional placement frame suitable for a core warehouse.

Background

The shelf is a support structure product for article storage and display and the like, wherein the beam type laminate shelf is one of storage shelves, and belongs to medium-sized shelves, also called as a picking type shelf, a partition type shelf and the like. The beam type goods shelf has the characteristics of simple structure, safety, reliability, random adjustment and combination, no limitation of the sequence of the goods in and out of the warehouse, capability of determining the layer load requirement along with the size of the standards of the upright post and the beam, large moment of inertia, strong layer load capacity and strong shock resistance. The multi-layer stereoscopic shelf is a storage shelf system which efficiently utilizes the warehouse space, can greatly utilize the warehouse space and improves the storage density and the working efficiency of the warehouse. The automatic stereoscopic warehouse has wide application and good prospect in a plurality of fields such as industrial production, logistics and the like by virtue of the advantages of high space utilization rate, high automation degree, good safety performance and the like. The application of the assembled structure is continuously heated, and the steel structure is increasingly applied to the assembled building due to the advantages of high construction efficiency, short construction period, easy guarantee of construction quality and the like.

However, the automatic stereoscopic warehouse for multi-variety small-batch storage is applied to a small number of occasions and lacks of corresponding researches, the current intensive stereoscopic warehouse with higher automation and intelligent degree is used for small-variety large-batch storage, the intensive stereoscopic warehouse is not applicable for multi-variety small-batch storage, and the intensive stereoscopic warehouse is complex to install, long in installation period and high in manufacturing cost and later maintenance cost. When the height of the three-dimensional storage shelf is higher, the stability is poorer, larger potential safety hazards exist, workers operate the three-dimensional storage shelf, safety accidents easily occur, and due to engineering characteristics, the shelf installation has accident risks such as falling accident risks at high places of the workers, object hitting accident risks, falling accident risks of hoisted objects and the like. The main function of the core warehouse is to store core samples, and the core samples are characterized by large weight and large sample quantity, and the common light goods shelf can not meet the bearing requirement.

Chinese patent application number CN202222062352.2 discloses "a storage commodity circulation is with three-dimensional goods shelves of multilayer", including the goods shelves body, the driving motor is all installed through the bolt in the both sides of the goods shelves body, driving motor's output welding has the main chain wheel, the concave groove has all been seted up to the inside both sides of the goods shelves body, the inner wall one side in concave groove has the secondary sprocket through bearing swing joint, the outside transmission of main chain wheel and secondary sprocket is connected with the chain, outside one side fixed mounting of chain has the connecting block, the outside of connecting block has the interval pallet through the bolt-mounting, the inside of the goods shelves body is through the bolt-mounting on the pallet. The output shaft of the driving motor can rotate the main chain wheel, and meanwhile, the main chain wheel rotates the secondary chain wheel by utilizing the chain, so that the storage positions of the interval pallets are changed, the distance between the pushing frame and the interval pallets and the distance between the interval pallets and the storage plates are changed, and the multi-layer goods and goods with different volumes are conveniently stored. But they generally require a skilled technician to install and maintain and are therefore relatively costly.

Chinese patent application number CN202111484972.9 discloses "a three-dimensional multilayer multi-bin storage rack", storage rack includes the chassis, and the upper side terminal surface of chassis is gone up and is controlled respectively and fixedly is provided with the truss, both sides about be provided with the packing cupboard that is used for storing the goods that transversely and layer-like arranged between the truss, the running through is provided with the storage rack that is used for the storage around in the packing cupboard, control the distribution carry out fixed connection and be located between the packing cupboard through fixed truss fixed connection is in both ends about the packing cupboard is located be provided with the tray subassembly that is used for bearing the goods of putting up in the packing cupboard, aim at designing an automatic goods and go out the storehouse and draw three-dimensional multilayer multi-bin storage rack and increase warehouse space utilization and reduce inconvenience and the potential safety hazard that bring when high-level goods shelves draw the goods. But the shelf placement layer is fixed in height and poor in adjustability, so that the flexibility of arrangement of the storage space is greatly reduced.

Disclosure of Invention

The utility model aims to solve the problems in the prior art and provides a multilayer three-dimensional placement frame suitable for a core warehouse.

The aim of the utility model is realized by the following technical scheme: the multilayer three-dimensional placing rack suitable for the core warehouse comprises a column module, wherein a height-adjustable beam module is arranged on the column module; the vertical column module or the cross beam module is also provided with a vertical lifting module, the vertical lifting module is provided with a horizontal conveying module, and the horizontal conveying module is provided with a cargo tray.

In one example, the column module includes a column with a height positioning structure thereon.

In one example, the column module further comprises a transverse diagonal strut, and the columns are connected through the transverse diagonal strut.

In one example, the beam module includes a beam and a connecting rod, and the beams are connected by the connecting rod.

In an example, the vertical lifting module comprises a first fixing frame and a second fixing frame which are vertically and oppositely arranged, the first fixing frame and the second fixing frame are correspondingly provided with connecting gears in a penetrating way, and the corresponding connecting gears on the first fixing frame and the second fixing frame are meshed through a chain; the first fixing frame or the second fixing frame is provided with a first groove rotating wheel, and the first groove rotating wheel is connected with an output shaft of the first gear motor.

In an example, the horizontal conveying module comprises a first sprocket rod and a second sprocket rod which are horizontally arranged oppositely, the first sprocket rod and the second sprocket rod are connected through an annular conveying belt, the cargo pallet is placed on the annular conveying belt, and the first sprocket rod or the second sprocket rod is connected with an output shaft of the second gear motor.

It should be further noted that the technical features corresponding to the examples above may be combined with each other or replaced to form a new technical solution.

Compared with the prior art, the utility model has the beneficial effects that:

1. in an example, the modular assembly type design reduces the installation and dimension cost, solves the problem of complex installation engineering of the traditional mechanical placement frame, has multiple repeated units, strong reusability and high standardization level, and is more beneficial to realizing rapid assembly; further, the height of the beam module relative to the upright post module is adjustable, the height of the storage rack placing layer is not fixed, the height of each placing layer can be flexibly adjusted according to the types and the quantity of the core samples to be stored, and the flexibility of storage space arrangement is improved.

2. In an example, the transverse diagonal braces and the connecting rods are used as connecting and reinforcing structures between the upright posts and the cross beams respectively, so that the overall lateral resistance and the vertical load bearing capacity of the structure are further improved, and the engineering application value is very high.

Drawings

The following detailed description of the present utility model is further detailed in conjunction with the accompanying drawings, which are provided to provide a further understanding of the present application, and in which like reference numerals are used to designate like or similar parts throughout the several views, and in which the illustrative examples and descriptions thereof are used to explain the present application and are not meant to be unduly limiting.

FIG. 1 is a three-dimensional schematic view of a multi-layered three-dimensional shelf of the present utility model;

FIG. 2 is a three-dimensional schematic of a high strength bolt of the present utility model;

FIG. 3 is a three-dimensional schematic view of a high strength expansion bolt according to the present utility model;

FIG. 4 is a three-dimensional schematic of a connector according to the present utility model;

FIG. 5 is a three-dimensional schematic of a base in accordance with the present utility model;

FIG. 6 is a three-dimensional schematic of a stud module of the present utility model;

FIG. 7 is a three-dimensional schematic view of a beam module in accordance with the present utility model;

FIG. 8 is a three-dimensional schematic of a vertical lift module of the present utility model;

fig. 9 is a three-dimensional schematic of a horizontal transfer module in the present utility model.

In the figure: 1: a beam module; 1-1: a cross beam; 1-2: a U-shaped connecting sheet; 1-3: a first bolt hole; 1-4: an L-shaped connecting sheet; 1-5: a second bolt hole; 2: a column module; 2-1: a third bolt hole; 2-2: a fourth bolt hole; 2-3: a column; 3: a vertical lifting module; 3-1: a fixing frame; 3-2: a coupling gear; 3-3: a chain; 3-4: a first gear motor; 3-5: a first grooved wheel; 4: a horizontal transfer module; 4-1: a transport tray; 4-2: an endless conveyor belt; 4-3: a sprocket bar; 4-4: lifting the connecting rod; 4-5: a second gear motor; 4-6: a second grooved pulley; 5: a high-strength bolt; 5-1: a screw; 5-2: a first flat washer; 5-3: a first hex nut; 6, a high-strength expansion bolt; 6-1: countersunk head bolts; 6-2: a sleeve; 6-3: a second flat washer; 6-4: a spring washer; 6-5: a second hex nut; 7: a connecting piece; 7-1: hollow rectangular steel girder; 7-2: connecting steel sheets; 7-3: a fifth bolt hole; 8: a base; 8-1: a rectangular steel plate; 8-2: a sixth bolt hole; 9: a connecting rod; 9-1: hollow round steel pipe; 9-2: a seventh bolt hole; 10: a transverse diagonal brace; 10-1: c-shaped steel sheets; 10-2: an eighth bolt hole; 11: a tray; 11-1: a tray plate; 11-2: tray feet; 12: a bolt.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully understood from the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that directions or positional relationships indicated as being "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are directions or positional relationships described based on the drawings are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Further, ordinal words (e.g., "first and second," "first through fourth," etc.) are used to distinguish between objects, and are not limited to this order, but rather are not to be construed to indicate or imply relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Aiming at the defects of the existing goods shelf, the utility model combines the stress characteristics of the prior multi-layer goods shelf, considers that the layer height of the core warehouse is generally not more than 10m and the number of the openings is more, so the intensive stereoscopic warehouse with higher automation and intelligent degree is not applicable; considering the requirement of ensuring the storage density of the core warehouse shelf and classifying and placing the core in multiple varieties, a multi-layer three-dimensional shelf is adopted; the bearing capacity, the assembly convenience, the overall stability, the adjustability and other factors of the multilayer three-dimensional placement frame are considered, the high efficiency and the safety of the installation operation are considered, the overall cost is controlled, and the requirements of green environmental protection and the like are met. The utility model provides a multilayer three-dimensional placing frame suitable for a core warehouse. The multilayer three-dimensional placing frame integrally adopts an assembled steel structure system, can obviously improve the side resistance and the vertical load bearing capacity of the whole structure, and has great engineering application value.

In an example, a multi-layer three-dimensional placement frame suitable for a core warehouse, as shown in fig. 1, comprises a column module 2 and a beam module 1. The vertical column module is used as a supporting structure in the vertical direction and is connected with the beam module, the height position of the beam module arranged on the vertical column module can be adjusted, a plurality of bolt holes with different heights can be formed in the vertical column module, and the beam module can realize height adjustment through connection and fixation of the different bolt holes; of course, a plurality of grooves with different heights can be formed in the upright post module, and the beam module is fixed in the different grooves to realize height adjustment; or a plurality of positioning support plates with different heights are arranged on the upright post module, and the beam module is fixed on the different support plates to realize height adjustment; the height-adjustment structure is of conventional design for the person skilled in the art and is not mentioned here. In this example, the beam module is used as a supporting structure in the horizontal direction, and the plurality of column modules and the beam module are assembled in a modularized combination manner, for example, the assembly is realized by means of bolts or welding, and the "unit module" hoisting construction can be adopted for installation, so that the multilayer three-dimensional placement frame shown in fig. 1 is obtained.

Further, as shown in fig. 1, the multi-layer three-dimensional placement frame of the present utility model further includes a vertical lifting module 3, which can carry a cargo pallet 11, thereby realizing automatic lifting of the acquisition pallet 11. In particular, vertical lifting modules may be provided on the column modules and vertical lifting modules may also be provided on the beam modules, such as securing the vertical lifting modules to the topmost beam module. Still further, as shown in fig. 1, the vertical lifting module is provided with a horizontal conveying module 4, at this time, the vertical lifting module 3 carries the horizontal conveying module 4, and the horizontal conveying module 4 carries the cargo pallet 11, so as to realize automatic lifting and horizontal displacement of the cargo pallet 11, facilitate efficient and convenient core transportation on the cargo pallet 11 to a position to be placed, and of course, the core can be replaced by other cargoes, so that placing and displaying of other cargoes can be realized.

Preferably, the present example adopts the modularization steel construction technique, and stand module, crossbeam module, vertical lift module, horizontal transfer module are steel material promptly, have light high strength, equipment nimble characteristics, when guaranteeing to put the bearing capacity of frame, be convenient for put the installation of frame. Of course, in order to ensure the mechanical strength of the placing rack, the placing rack can be made of other metals or alloys.

The example placing rack is convenient to assemble, good in integrity and high in recycling property. Specifically, the multi-layer three-dimensional placing rack adopts an assembled steel structure system, so that the problem of complex installation engineering of the traditional mechanical placing rack is solved, and the multi-layer three-dimensional placing rack is multiple in repeated units, high in standardization level and more beneficial to realizing rapid assembly; the upper load of the steel structure is low, the gravity load representative value is small, and the bearing capacity of the structure is improved and the earthquake effect of the structure is reduced.

Further, the space arrangement of the placing rack of the example is flexible, and the adjustability is good. The multi-layer three-dimensional placing rack can be formed by combining unit modules, multiple kinds of cores can be effectively distinguished through multiple unit modules, the arrangement is simple, the space utilization rate is high, the core samples can be conveniently and quickly stored, the planar arrangement of the multi-layer three-dimensional placing rack can be reasonably arranged according to the condition of a core storage place, the height of each layer of placing layer can be flexibly adjusted according to the type and the quantity of the core samples required to be stored, and particularly, the stacking height of the cores stored in each layer of the multi-layer three-dimensional placing rack can be matched by adjusting the fixed height of a cross beam, so that the effect of fully utilizing space is achieved, the problem of poor adjustability of the three-dimensional placing rack is effectively solved, and the flexibility of the arrangement of the storage space is ensured.

In addition, the placing frame is environment-friendly, cost is saved, and construction period is short. Specifically, the multilayer three-dimensional placement frame adopts an assembled steel structure system, so that wet operation is less, cement and sand in a construction site can be avoided from piling up, noise and dust pollution are reduced, the influence on the operation of peripheral things is small, and the recycling rate of the adopted main construction materials is up to more than 90%; the steel structure system has smaller cross section, so that the multi-layer three-dimensional placing frame has larger usable area, saves construction materials and is beneficial to reducing the manufacturing cost; all parts required by the multilayer three-dimensional placing frame are prefabricated in factories and then transported to a construction site, and are assembled on the ground through bolt plug connection, so that the operation is simple, the installation time and personnel configuration are saved, and the construction period is greatly shortened.

Preferably, the multi-layer three-dimensional placing frame consists of a beam module, a column module, a vertical lifting module and a horizontal conveying module, wherein the four modules are matched with bolts, connecting pieces and a base, and the bolts comprise high-strength bolts and high-strength expansion bolts. Specifically, as shown in fig. 2, the high strength bolt 5 is an M10 x 40 high strength bolt of 10.9 level, and comprises a screw 5-1, wherein first flat washers 5-2 are arranged at two ends of the screw 5-1, the first flat washers 5-2 are in contact with first hexagonal nuts 5-3, and the first hexagonal nuts 5-3 are fixed at one end and movable at the other end. As shown in fig. 3, the high strength expansion bolt 6 is composed of a countersunk bolt 6-1, a sleeve 6-2, a second flat washer 6-3, a spring washer 6-4 and a second hexagonal nut 6-5. As shown in FIG. 4, the middle rod piece in the connecting piece 7 is a hollow rectangular steel pipe 7-1, the cross section size is 50 multiplied by 80mm, the length is 150mm, the two ends are 100 multiplied by 170mm rectangular connecting steel sheets 7-2, and the four corners of the rectangular connecting steel sheets 7-2 are respectively provided with a 10 multiplied by 10mm fifth bolt hole 7-3 at the position 25mm away from the adjacent two sides. As shown in FIG. 5, the base 8 has a cross-sectional dimension of 200X 200mm and a thickness of 10mm, and four circular reserved sixth bolt holes (expansion bolt holes) 8-2 each having a diameter of 10mm are provided at positions 30mm apart from the adjacent two sides.

In one example, the column module includes a column with a height positioning structure thereon. In this example, the height positioning structure is specifically a plurality of high different bolt holes, fixes the crossbeam module in the bolt hole of different height can realize high regulation. Preferably, the column module further comprises a transverse diagonal brace, and the columns are connected through the transverse diagonal brace. Specifically, as shown in fig. 6, in this example, the upright post 2-3 is 6m long, the cross section is C-shaped, the cross section size is 50×100×50mm, two sides of the upright post 2-3 are provided with a fourth bolt hole (round reserved bolt hole) 2-2 with a diameter of 10mm from the bottom at intervals of 60mm in the middle, the front surface of the upright post is provided with two third bolt holes (diamond reserved bolt holes) 2-1 with diamond edges of 10mm from the bottom at intervals of 60mm in the uniformly distributed mode, the upright post steel is Q345 steel, and the rest components are Q235 steel. The transverse diagonal bracing 10 comprises C-shaped steel sheets 10-1, the cross section size is 40 multiplied by 40mm, the C-shaped steel sheets 10-1 are standard components, each length is 1m, and an eighth bolt hole (a circular reserved bolt hole on the transverse diagonal bracing) 10-2 with the diameter of 10mm is respectively arranged at the positions 10mm away from the end parts of the two ends of each steel sheet. Further, the upright posts 2-3 are inverted , namely hollow rectangular upright posts, a surface is reserved, the two upright posts 2-3 are spaced by 0.8m, the groove surfaces of the upright posts 2-3 are relatively parallel to each other and placed on the ground, and the upright posts are fixed by high-strength bolt plug-in connection in sequence in a shape of a Chinese character 'Fu', so as to form an upright post module 2.

In one example, the beam module comprises beams and connecting rods, the beams are connected by the connecting rods, preferably the beams are connected and fixed by two crossed connecting rods. Specifically, as shown in FIG. 7, the cross beam 1-1 is a hollow rectangular steel beam, the cross section size is 100×50mm, the cross beam 1-1 is a standard component, each length is 1m, two ends of the cross beam 1-1 are L-shaped connecting pieces (steel sheets) 1-4, the size is 50×50×150mm, a first bolt hole (square reserved bolt hole) 1-3 with the diameter of 10mm is respectively arranged in the middle of the connecting steel sheets 1-4 along the direction of the rectangular cross section of the cross beam 1-1, the direction of the rectangular cross section of the vertical cross beam is 15mm away from the end, three first bolt holes with the diameter of 10×10mm are uniformly distributed at the hole and hole spacing of 60mm, two sides of the inner side of the cross beam are respectively provided with a U-shaped connecting piece 1-2 with the thickness of 15mm from the end, and a second bolt hole (round reserved bolt hole) 1-5 with the diameter of 10mm is arranged in the middle. The connecting rod 9 comprises a hollow round steel pipe 9-1 with the diameter of 20mm and the length of 1200mm, steel pipes with the lengths of 40mm at the two ends are pressed into steel sheets, and a seventh bolt hole (a round reserved bolt hole at the two ends of the steel pipe) 9-2 with the length of 10 multiplied by 10mm is respectively arranged at the position, 15mm away from the end, of each steel sheet. Further, two cross beams 1-1 are placed on the ground at intervals of 0.8m, the surfaces of the U-shaped connecting pieces 1-2 are relatively parallel, two connecting rods 9 are arranged between the cross beams 1-1 in a crossing mode, one cross beam is placed above the U-shaped connecting pieces 1-2, the other cross beam is placed below the U-shaped connecting pieces 1-2, and the ends of the connecting rods 9 are fixedly connected with second bolt holes 1-5 in the middle of the U-shaped connecting pieces 1-2 in a splicing mode through high-strength bolts 5 to form a cross beam module 1.

Furthermore, two upright post modules are fixed in parallel perpendicular to the ground through clamping plates, vertical diamond reserved bolt holes are formed in the front of the C-shaped steel plate of the upright post, second bolt holes are formed in the side face of the upright post, the upright post and the cross beam are fixedly connected with each other in a high-strength bolt inserting mode at the reserved bolt holes, one cross beam module is connected with the two upright post modules to form a frame placement layer, the operation is repeated, a plurality of cross beam modules are connected with the two upright post modules, and a multi-layer frame placement layer is formed. The height of each layer of frame placement layer can be adjusted up and down at a step distance of 0.6-1.5 m. In this example, the stand adopts the diamond-shaped bolt hole structure of reserving for the connecting piece grafting of stand and crossbeam tip is inseparable, thereby can prevent that the goods shelves from rocking improves the security that goods shelves used, and even as a whole with the mode of bolt grafting between a plurality of unit modules, makes goods shelves stability greatly improve.

In an example, as shown in fig. 8, the vertical lifting die 3 includes a first fixing frame and a second fixing frame which are vertically and oppositely arranged, wherein the first fixing frame and the second fixing frame are collectively called as a fixing frame 3-1, the first fixing frame and the second fixing frame are correspondingly provided with connecting gears 3-2 in a penetrating way, and the corresponding connecting gears 3-2 on the first fixing frame and the second fixing frame are meshed through chains 3-3; the first fixing frame or the second fixing frame is provided with a first groove rotating wheel (large groove rotating wheel) 3-5, and the first groove rotating wheel is connected with an output shaft of a first speed reduction motor (high power speed reduction motor) 3-4 of 3-5. Specifically, the sizes of the first fixing frame and the second fixing frame are 30 multiplied by 50 multiplied by 200mm, and a circular preformed hole with the diameter of 20mm is arranged at the center 30mm away from one side end. The round rod piece in the middle of the connecting shaft gear is 40mm in diameter and 1m in length, round gears with diameters of 100mm are respectively arranged at the two ends and the middle, and the connecting shaft gear rod piece connected with the gear motor is also provided with a large groove rotating wheel at the 1/4 rod piece. The size and length of the chain are meshed with the gears. Further, a connecting shaft gear in the vertical lifting module passes through the fixing frame left and right, the fixing frame is tightly clung to the side face of the upright post and welded on the cross beams at the upper end part and the lower end part, and then a chain is arranged on the gear to ensure that the two are meshed.

In an example, as shown in fig. 9, the horizontal conveying module 4 includes a first sprocket bar and a second sprocket bar which are horizontally arranged opposite to each other, the first sprocket bar and the second sprocket bar are collectively called as a sprocket bar 4-3, the first sprocket bar and the second sprocket bar are connected by an endless conveyor belt 4-2, the endless conveyor belt is a horizontal conveyor belt connected end to end, the cargo pallet 11 is placed on the endless conveyor belt, and the first sprocket bar or the second sprocket bar is connected with an output shaft of a second gear motor (a low-power gear motor) 4-4. The cargo pallet 11 includes a bottom pallet foot 11-2 and a top pallet plate 11-1 connected to the pallet foot 11-2. Specifically, the size of the tray plate is 450 multiplied by 800 multiplied by 30mm, and the tray feet are welded by square hollow steel pipes with the size of 30 multiplied by 30 mm. Further, the transport tray is made of rubber material and has a size of 350×800×30mm, and an end of the transport tray away from the shelf is connected to the endless conveyor belt and is provided below the tray plate 11-1. The annular conveyer belt is a chain belt woven by steel wires, has the size of 2000 multiplied by 1200mm and is directly connected with the chain wheel. As shown in FIG. 9, the middle part of the sprocket rod 4-3 is a round rod with the diameter of 40mm, the two ends are round sprockets with the diameter of 80mm, steel protective shells are arranged on the two sides where the sprockets are located, and a small groove rotating wheel 4-6 is arranged in the middle of the sprocket rod 4-3 connected with the first gear motor 3-4. Further, the horizontal conveying module 4 further comprises a lifting connecting rod 4-4, the section size of the rectangular hollow steel pipe of the lifting connecting rod is 60 multiplied by 30mm, the length of the rectangular hollow steel pipe is 1.2m, three groups of two bolt connecting members are uniformly distributed and arranged 20mm away from the end of one side of the goods shelf, and the other side of the rectangular hollow steel pipe is welded and connected with the steel protective shell. In this example, in the horizontal transfer module that comprises transportation dish, annular conveyer belt, sprocket pole, promotion connecting rod, second gear motor, with the bolt with the connecting element in the promotion connecting rod fixed on the vertical chain in the vertical lifting module, realized the connection of horizontal transfer module and vertical lifting module, just also formed the unit module of a three-dimensional frame of putting of multilayer.

Combining the above examples to obtain the preferred example placing rack of the utility model, wherein the mounting process of the placing rack is as follows:

the two cross beams 1-1 are spaced by 0.8m, the surfaces of the U-shaped connecting pieces 1-2 are relatively placed on the ground in parallel, two connecting rods 9 are arranged between the cross beams 1-1 in a crossing manner, one connecting rod is placed above the U-shaped connecting pieces 1-2, the other connecting rod is placed below the U-shaped connecting pieces 1-2, a first hexagon nut 5-3 and a first plain washer 5-2 at the movable end are firstly removed by a high-strength bolt 5, then a rod part 5-1 passes through a first bolt hole 1-3 on the U-shaped connecting pieces on the cross beams 1-1 and a seventh bolt hole 9-2 at two ends of a steel pipe on the connecting rods 9, and then the first plain washer 5-2 at the movable end and the first hexagon nut 5-3 are fixed by the high-strength bolt 5, so that a cross beam module is formed.

Further, two skids are placed on the ground, two upright posts 2-3 are arranged on the skids in a group of 0.8m intervals, groove surfaces are relatively parallel, the surfaces of eighth bolt holes 10-2 (round reserved bolt holes on the transverse inclined struts) on the transverse inclined struts 10 are vertically downwards fixed at the vertical intervals of 0.6m in a shape like a Chinese character 'ji', specifically, a first hexagon nut 5-3 at a movable end and a flat washer 5-2 are firstly taken down, a rod part 5-1 passes through a second bolt hole 2-1 on the upright posts 2-3 and a second bolt hole 10-2 on the transverse inclined struts, and the flat washer 5-2 at the movable end and the first hexagon nut 5-3 are added with the high-strength bolt 5 to form an upright post module.

Further, two column modules are fixed in parallel perpendicular to the ground through clamping plates, each column 2-3 is a C-shaped steel plate, a vertical fourth bolt hole (a column front diamond reserved bolt hole) 2-2 is formed in the front of each column, a third bolt hole (a column side round reserved bolt hole) 2-1 is formed in the side of each column, each column 2-3 and each beam 1-1 are fixedly connected with each other through a high-strength bolt 5, specifically, the high-strength bolts 5 firstly take down a first hexagon nut 5-3 at a movable end and a flat washer 5-2 and a flat washer 5-3 at the movable end, respectively, penetrate through a first bolt hole 1-5 on an L-shaped connecting sheet on each beam 1-1 and a side second bolt hole 2-1 on each column 2-3, then fix the movable end flat washer 5-2 and the first hexagon nut 5-3 through the high-strength bolts 5, so that one beam module is connected with the two column modules to form a layer of frame placing layer, and a plurality of beam modules are repeatedly connected with the two column modules to form a multilayer frame placing layer. The height of each layer of frame placement layer can be adjusted up and down at a step distance of 0.6-1.5m, and the structure is simple and reliable.

Further, the connecting shaft gear 3-2 in the vertical lifting module 3 passes through the fixing frame 3-1 from left to right, the fixing frame 3-1 is tightly clung to the side surface of the upright post 2-3 and welded on the cross beam 1-1 at the upper end part and the lower end part, and then the chain 3-3 is arranged on the gear to ensure that the two are meshed. The connecting gear 3-2 at the lower end part is also provided with a first groove rotating wheel 3-5 at the 1/4 rod part and connected with the first gear motor 3-4, so as to realize the vertical lifting of the horizontal conveying module 4.

Further, a tooling positioning die is assembled on the ground, the goods shelf main body is hoisted to the positioning die, and the upright posts 2-3 are positioned and fastened on the positioning die by high-strength bolts 5. The base 8 is fixed on the ground by using a high-strength expansion bolt 6 at a positioning position, specifically, the high-strength expansion bolt 6 firstly takes down a second hexagonal nut 6-5, a spring washer 6-4 and a flat washer 6-3 at a movable end, passes through a round reserved expansion bolt hole 8-2 on the base 8 by using a countersunk bolt 6-1 and a sleeve 6-2, then sequentially adds the high-strength expansion bolt 6 to the flat washer 6-3 at the movable end, the spring washer 6-4 and the second hexagonal nut 6-5 for fixation, and then welds the bottom of the upright post 2-3 on a positioning die on the rectangular steel plate 8-1.

Further, in the horizontal conveying module 4 consisting of the conveying disc 4-1, the horizontal conveying belt 4-2, the sprocket wheel rod 4-3, the lifting connecting rod 4-4 and the second gear motor 4-5, the connecting member in the lifting connecting rod 4-4 is fixed on the vertical chain 3-3 in the vertical lifting module 3 by the bolt 12, so that the connection between the horizontal conveying module 4 and the vertical lifting module 3 is realized, and a unit module of the multilayer three-dimensional placing frame is formed. The chain wheel rod 4-3 far away from the shelf main body side is also provided with a second groove rotating wheel 4-6 at the middle part of the rod piece and connected with a second gear motor 4-5 to realize the conveying movement of the cargo pallet 11 on the horizontal conveying belt 4-2.

Further, a plurality of multi-layer three-dimensional placing frame unit modules are formed, and two transversely adjacent unit modules are connected with second bolt holes 2-1 on the upright posts 2-3 of different adjacent unit modules in a plugging manner through high-strength bolts 5, so that the two transversely adjacent unit modules are connected into a whole; a connecting piece 7 is used between two longitudinally adjacent unit modules, a hollow rectangular steel beam 7-1 is aligned and placed between upright posts 2-3 of different unit modules, a high-strength bolt 5 is used for firstly taking down a first hexagonal nut 5-3 at the movable end and a flat washer 5-2, then a rod piece part 5-1 passes through the first bolt hole 7-3 on a connecting steel sheet and a fourth bolt hole 2-2 on the upright post 2-3, then the flat washer 5-2 and the first hexagonal nut 5-3 are fixed by the high-strength bolt 5, and the longitudinally two unit modules are connected into a whole. And finally, the positioning die is removed.

The working principle of the embodiment of the utility model is as follows: the combined use of the vertical lifting module 3 and the horizontal conveying module 4 fully plays a role in chain transmission, and realizes automatic transportation of core samples on the shelf tray 11. Under the load action of the core, the beam 1-1 transmits gravity generated by the load to the upright post 2-3 through the hollow rectangular steel beam (beam) and the L-shaped connecting piece 1-4, and the high-strength bolt 5 is tangent to the L-shaped connecting piece 1-4, the second bolt hole 2-1 and the fourth bolt hole 2-2 under the action of gravity, so that the high-strength bolt 5 is inserted and fixed more tightly and firmly. The transverse adjacent unit modules are fixedly connected by high-strength bolts 5 in a plugging manner, and the longitudinal adjacent unit modules are fixedly connected by high-strength bolts 5 in a plugging manner by connecting pieces 7, so that a plurality of unit modules form a whole, the whole lateral resistance and the vertical load bearing capacity of the multilayer three-dimensional structure can be obviously improved, the earthquake response of the multilayer three-dimensional structure can be effectively reduced, and the safety of the main body of the multilayer three-dimensional placement frame structure can be ensured.

The foregoing detailed description of the utility model is provided for illustration, and it is not to be construed that the detailed description of the utility model is limited to only those illustration, but that several simple deductions and substitutions can be made by those skilled in the art without departing from the spirit of the utility model, and are to be considered as falling within the scope of the utility model.

Claims (6)

1. Multilayer three-dimensional frame of putting suitable for rock core storehouse, its characterized in that: the device comprises a stand column module, wherein the stand column module is provided with a beam module with adjustable height; the vertical column module or the cross beam module is also provided with a vertical lifting module, the vertical lifting module is provided with a horizontal conveying module, and the horizontal conveying module is provided with a cargo tray.

2. The multi-layer three-dimensional placement frame suitable for a core magazine according to claim 1, wherein: the upright post module comprises an upright post, and a height positioning structure is arranged on the upright post.

3. The multi-layer three-dimensional placement frame suitable for a core magazine as defined in claim 2, wherein: the upright post module further comprises a transverse inclined strut, and the upright posts are connected through the transverse inclined strut.

4. A multi-layer stereoscopic rest for core magazine according to claim 1 or 3, characterized in that: the beam module comprises a beam and a connecting rod, and the beams are connected through the connecting rod.

5. The multi-layer three-dimensional placement frame suitable for a core magazine according to claim 1, wherein: the vertical lifting module comprises a first fixing frame and a second fixing frame which are vertically and oppositely arranged, connecting gears are correspondingly arranged on the first fixing frame and the second fixing frame in a penetrating mode, and the corresponding connecting gears on the first fixing frame and the second fixing frame are meshed through chains; the first fixing frame or the second fixing frame is provided with a first groove rotating wheel, and the first groove rotating wheel is connected with an output shaft of the first gear motor.

6. The multi-layer three-dimensional placement frame suitable for a core magazine according to claim 1, wherein: the horizontal conveying module comprises a first sprocket rod and a second sprocket rod which are horizontally arranged oppositely, the first sprocket rod and the second sprocket rod are connected through an annular conveying belt, a cargo tray is placed on the annular conveying belt, and the first sprocket rod or the second sprocket rod is connected with an output shaft of a second gear motor.