CN113003082A - Material storage system for power grid construction site - Google Patents

Abstract

The invention provides a material storage system for a power grid construction site, which belongs to the technical field of power grid construction and comprises a main body goods shelf, a placing slide rail, a placing slide block and a placing driving mechanism, wherein the upper part of the main body goods shelf is provided with a plurality of storage positions, the placing slide block is also provided with a placing lifting column, the placing lifting column is also provided with a placing transportation platform and a placing lifting mechanism, and the upper part of the placing transportation platform is also provided with a conveying mechanism. According to the power grid construction site material storage system provided by the invention, the three-dimensional movement of the side surface of the main body goods shelf for placing the transportation platform can be realized through the horizontal movement of the placing sliding block and the vertical movement of the placing transportation platform, the main body goods shelf is also provided with a plurality of storage positions, materials can be placed on the placing transportation platform when the materials need to be stored, then the placing sliding block moves horizontally under the action of the placing driving mechanism, and the materials are placed at the appointed storage position by matching with the vertical movement of the placing transportation platform, so that the materials can be stored more conveniently and neatly on the construction site.

Description

Material storage system for power grid construction site

Technical Field

The invention belongs to the technical field of power grid construction, and particularly relates to a material storage system for a power grid construction site.

Background

Along with the rapid development of economy in China, the power consumption of each area is also increased rapidly, so that the infrastructure of a national power grid is also increased rapidly along with the increase of the power consumption, wherein the power grid facility construction is used for supplying power to the foundation, and in the power grid facility construction process, in order to ensure the well-known and orderly construction site materials (raw materials and tools), a storage shelf is usually adopted for storing the construction site materials. However, the material management on the construction site is generally realized by adopting a manual spreading method. Practice shows that the management method has the problems of management confusion and high difficulty in inventory combing, and the construction efficiency of the power supply facility of the power grid is seriously influenced.

Disclosure of Invention

The invention aims to provide a material storage system and a material storage method for a power grid construction site, and aims to solve the problems of disordered material management and high difficulty in inventory combing in the conventional power grid construction site.

In order to achieve the purpose, the invention adopts the technical scheme that: provides a material storage system for a power grid construction site, which comprises a main body goods shelf, a placing slide rail, a placing slide block and a placing driving mechanism, wherein the upper part of the main body goods shelf is provided with a plurality of storage positions, the placing slide rail is arranged on the side surface of the main body goods shelf and is parallel to the bottom surface of the main body goods shelf, the placing slide block is arranged on the placing slide rail and can slide along the length direction of the placing slide rail, the placing driving mechanism is used for driving the placing slide block to slide along the length direction of the placing slide, the placing slide block is also provided with a placing lifting column arranged along the height direction of the main body goods shelf, the placing and lifting column is also provided with a placing and transporting platform which can slide along the height direction of the placing and lifting column and a placing and lifting mechanism which is used for driving the placing and transporting platform to move along the placing and lifting column, the upper part of the placing and transporting platform is also provided with a transporting mechanism used for transporting materials to the storage positions on the main body shelf.

As another embodiment of this application, it is a plurality of the storage position is in be rectangular array and arrange on the main part goods shelves, every the both sides of storage position all are provided with two openings, two the opening is located respectively the both sides face of main part goods shelves, the opposite side of main part goods shelves is provided with and is used for following the material is released to the discharging device who places the conveying platform in the storage position.

As another embodiment of the present application, the discharging device includes a discharging slide rail disposed on the other side of the main rack and parallel to the bottom surface of the main rack, a discharging slide block disposed on the discharging slide rail and capable of sliding along the length direction of the discharging slide rail, a discharging driving mechanism for driving the discharging slide block to slide along the length direction of the discharging slide rail, a discharging lifting rod disposed on the discharging slide block, a discharging transportation platform disposed on the side of the discharging lifting rod and capable of sliding along the height direction of the discharging lifting rod, and a discharging lifting mechanism disposed on the top of the discharging lifting rod for driving the discharging transportation platform to slide, wherein a telescopic pushing member for pushing out materials from a storage location and a telescopic mechanism for driving the telescopic pushing member to move are further disposed on the discharging transportation platform.

As another embodiment of this application, telescopic machanism includes that two settings are in flexible slide rail, the slip setting on the ejection of compact slider are in flexible slider, setting on the flexible slide rail are in on the flexible slide rail and with flexible slider threaded connection's telescopic screw rod and setting be in flexible slide rail tip is used for the drive telescopic screw rod pivoted power pack that stretches out and draws back.

As another embodiment of this application, it sets up including rotating to place elevating column side and with place transportation platform threaded connection place lifting screw, set up placing lifting screw tip and with place the lifting runner that lifting screw coaxial center set up and set up the lift power pack who is used for driving the lifting runner on placing the elevating column.

As another embodiment of this application, the side of placing the transportation platform still is provided with two gyro wheel baffles that set up at an interval each other, it is located two to place the lift post between the gyro wheel baffle, all still rotate on the gyro wheel baffle and be provided with a plurality of lift gyro wheels.

As another embodiment of this application, transport mechanism including set up place the transport slide rail at transport platform top and slide and set up transport slide, set up that be used for supporting the material on the slide rail transport slide, set up transport the drive rack of slide side, rotate and set up place on the transport platform and with the drive gear of drive rack meshing and set up place on the transport platform and be used for the drive gear pivoted transports the power pack.

As another embodiment of this application, so the quantity of drive gear is two, two drive gear is located the both ends of drive gear respectively, two all be provided with driving pulley on the drive gear, two still around being equipped with the belt pulley on driving pulley's the circumference.

As another embodiment of this application, main part goods shelves include main frame, a plurality of dismantlement setting are in installation riser in the main frame, it is a plurality of the installation riser sets up and the tip is all dismantled and is connected each other at interval on the main frame, still be provided with a plurality of supporting plates on the installation riser, it is a plurality of the supporting plate is followed installation riser direction of height interval sets up.

As another embodiment of the application, a plurality of installation clamping grooves used for clamping the supporting plate are formed in the installation vertical plate, installation clamping hooks are arranged on the side faces of the supporting plate, and the installation clamping hooks are detachably installed inside the installation clamping grooves.

The material storage system for the power grid construction site has the beneficial effects that: compared with the prior art, be provided with the slide rail of placing that is on a parallel with main part goods shelves bottom setting in main part goods shelves side, main part goods shelves all install on ground or other installation faces with placing the slide rail, and place and still slide on the slide rail and be provided with and place the slider, still be provided with on placing the slider and place the lift post, and can follow and place the gliding transportation platform of placing of lift post height direction, it can slide from top to bottom placing the drive of elevating system, it can slide along the length direction who places the slide rail under the effect of placing actuating mechanism to place the slider, it still is provided with on the transportation platform to be used for transporting the material transport the transport mechanism in the storage position on the main part goods shelves. According to the material storage system for the power grid construction site, the three-dimensional movement of the side face of the main goods shelf for placing the transportation platform can be achieved through the horizontal movement of the placing sliding block and the vertical movement of the placing transportation platform, the plurality of storage positions are further arranged on the main goods shelf, materials can be placed on the placing transportation platform when the materials need to be stored, then the placing sliding block moves horizontally under the action of the placing driving mechanism and is matched with the vertical movement of the placing transportation platform to place the materials to the appointed storage positions, then the materials are placed into the storage positions through the transportation mechanism and are stored and recorded in a computer, and the materials only need to be taken out according to the recorded positions when the materials need to be taken out, so that the materials can be stored more conveniently and tidily on the construction site, meanwhile, the material storage carding is facilitated, and the construction speed and efficiency are improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a material storage system of a power grid construction site according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a discharging device used in the embodiment of the present invention;

FIG. 3 is a partial schematic view of a transport mechanism used in an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 2;

fig. 5 is a partial structural diagram of a main body shelf used in the embodiment of the invention.

In the figure: 1. a main body shelf; 11. a main frame body; 12. installing a vertical plate; 13. a support pallet; 14. installing a clamping groove; 15. installing a clamping hook; 16. a fixing unit; 2. a placement device; 21. placing a slide rail; 22. placing a sliding block; 23. placing a driving mechanism; 24. placing a lifting column; 25. placing a transportation platform; 26. placing a lifting mechanism; 27. a roller baffle; 28. lifting rollers; 3. a discharging device; 31. a discharge slide rail; 32. a discharging slide block; 33. a discharge driving mechanism; 34. a discharging lifting rod; 35. a discharging and transporting platform; 36. a discharging lifting mechanism; 4. a conveyance mechanism; 41. a conveying slide rail; 42. a transport sled; 43. a drive rack; 44. a drive gear; 45. a conveyance power unit; 5. a telescopic pusher; 6. a telescoping mechanism; 61. a telescopic slide rail; 62. a telescopic slide block; 63. a telescopic screw; 64. a telescopic power unit.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and is therefore not to be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 and fig. 2 together, a material storage system for a power grid construction site according to the present invention will now be described. The material storage system for the power grid construction site comprises a main body shelf 1, a placing slide rail 21, a plurality of storage positions are arranged at the upper part of the main body shelf 1, the placing slide rail is arranged on the side surface of the main body shelf 1 and is parallel to the bottom surface of the main body shelf 1, the setting is on placing slide rail 21 and can be along placing slide rail 21 length direction gliding slider 22 of placing, and be used for the drive to place slider 22 along placing slide rail 21 length direction gliding actuating mechanism 23 of placing, it still is provided with along the gliding lifting column 24 of placing of main part goods shelves 1 direction of height setting on the slider 22 to place, it still is provided with on the lifting column 24 to place and can follow and place the gliding transport platform 25 of placing of lifting column 24 direction of height and be used for the drive to place transport platform 25 along placing lifting column 24 motion placing lifting mechanism 26, the upper portion of placing transport platform 25 still is provided with and is used for transporting the material transport mechanism 4 in the storage position on main part goods shelves 1.

The electric wire netting job site goods and materials storage system that this embodiment provided, compared with the prior art, be provided with the slide rail 21 of placing that is on a parallel with the setting of main part goods shelves 1 bottom in main part goods shelves 1 side, main part goods shelves 1 all installs on ground or other installation faces with placing slide rail 21, and place slide rail 21 on still slide and be provided with and place slider 22, still be provided with on placing slider 22 and place lift post 24, and can follow the gliding transportation platform 25 of placing of 24 direction of height of lift post, it can slide from top to bottom placing the drive of elevating system 26 to place transportation platform 25, it can slide along the length direction who places slide rail 21 under the effect of placing actuating mechanism 23 to place slider 22, it still is provided with on the transportation platform 25 and is used for transporting the material to transport the transport mechanism 4 in the storage position on main part goods shelves. The material storage system of the power grid construction site can realize the three-dimensional movement of the side surface of the main body goods shelf 1 for placing the transportation platform 25 through the horizontal movement of the placing slide block 22 and the vertical movement of the placing transportation platform 25, and the main body goods shelf 1 is also provided with a plurality of storage positions, when the material is required to be stored, the material can be placed on the placing and transporting platform 25, then the placing slide block 22 is horizontally moved under the action of the placing driving mechanism 23, and the goods and materials are placed at the designated storage position in cooperation with the vertical movement of the placing and transporting platform 25, then the material is placed into the storage position by the conveying mechanism 4 and is stored and recorded in a computer, only need when the goods and materials need take out according to the position of record can, make the storage of job site goods and materials convenient clean and tidy more, also make things convenient for the stock of goods and materials to comb simultaneously, improved the speed and the efficiency of construction.

In this embodiment, this electric wire netting job site goods and materials storage system still includes the control unit, and the control unit preferred is the computer, and what link to each other with the computer can also be provided with and sweep a yard rifle and can conveniently carry out label and record to goods and materials. The power unit for placing the driving mechanism 23, the conveying mechanism 4 and the lifting mechanism 26 is electrically connected with the control unit, the storage positions on the main body shelf 1 can be numbered through the control unit, then the driving mechanism 23, the conveying mechanism 4 and the power unit for placing the lifting mechanism 26 are controlled through the control unit, the storage positions with the specified numbers are placed on the materials, and the materials storage system is more convenient to use.

As a specific embodiment of the material storage system for the power grid construction site provided by the invention, please refer to fig. 3 to 5, a plurality of storage locations are arranged on the main shelf 1 in a rectangular array, two openings are respectively arranged on two sides of each storage location, the two openings are respectively located on two side surfaces of the main shelf 1, and a discharging device 3 for pushing materials out of the storage locations onto the placing and transporting platform 25 is arranged on the other side of the main shelf 1. The storage positions are arranged in a rectangular array mode to enable the serial numbers of the storage positions to be more convenient, and meanwhile the storage positions are matched with the movement of the placement transportation platform 25, so that the placement and the taking out of materials are more convenient. Deposit the both sides of position and all be provided with two openings, can place the goods and materials on placing transport platform 25 when the goods and materials need to be stored, then place slider 22 and place under the effect of actuating mechanism 23 horizontal migration to the vertical motion of placing transport platform 25 is placed the appointed position of storing from an opening part with the goods and materials in the cooperation. Place transportation platform 25 and move to the opening part of storing the position when goods and materials need to take out, then release goods and materials from storing the position through discharging device 3 from another exit and place transportation platform 25 on, and transport the bottom of main part goods shelves 1 with goods and materials through placing transportation platform 25, discharging device 3 sets up the degree of automation that makes goods and materials take out better, it is more convenient to make the storage of goods and materials take out, discharging device 3 is similar with placer 2 structure.

Referring to fig. 2 and 4, the discharging device 3 includes a discharging slide rail 31 disposed on the other side of the main rack 1 and parallel to the bottom surface of the main rack 1, a discharging slide block 32 disposed on the discharging slide rail 31 and capable of sliding along the length direction of the discharging slide rail 31, and a discharging driving mechanism 33 for driving the discharging slide block 32 to slide along the length direction of the discharging slide rail 31, the automatic feeding device comprises a discharging lifting rod 34 arranged on a discharging sliding block 32, a discharging transportation platform 35 which is arranged on the side surface of the discharging lifting rod 34 and can slide along the height direction of the discharging lifting rod 34, a discharging lifting mechanism 36 which is arranged at the top of the discharging lifting rod 34 and used for driving the discharging transportation platform 35 to slide, and a telescopic pushing piece 5 used for pushing materials out from a storage position and a telescopic mechanism 6 used for driving the telescopic pushing piece 5 to move are further arranged on the discharging transportation platform 35. Ejection of compact slide rail 31 with place slide rail 21 parallel arrangement each other, and set up respectively in the both sides of main part goods shelves 1, ejection of compact slider 32 slides appointed horizontal position along ejection of compact slide rail 31 under ejection of compact actuating mechanism 33's effect when the material needs to be taken out, then go up and down to appointed height through ejection of compact elevating system 36 drive ejection of compact transport platform 35, finally store the ejecting taking out of completion goods and materials of position department with goods and materials through telescopic machanism 6 drive flexible impeller 5, make taking out of goods and materials more intelligent more convenient.

In this embodiment, ejection of compact actuating mechanism 33 is including rotating the ejection of compact screw rod that sets up on ejection of compact slide rail 31 and with ejection of compact slide rail 31 parallel arrangement and being used for driving ejection of compact screw rod pivoted ejection of compact power unit to ejection of compact screw rod and ejection of compact slider 32 threaded connection run through ejection of compact slider 32 setting as preferred ejection of compact screw rod, ejection of compact power unit is servo motor, ejection of compact power unit's drive end and ejection of compact screw rod's end connection.

Referring to fig. 2 and 4, as a specific embodiment of the material storage system of the power grid construction site provided by the present invention, the telescopic mechanism 6 includes two telescopic slide rails 61 disposed on the discharging slide block 32, a telescopic slide block 62 slidably disposed on the telescopic slide rails 61, a telescopic screw 63 disposed on the telescopic slide rails 61 and in threaded connection with the telescopic slide block 62, and a telescopic power unit 64 disposed at an end of the telescopic slide rails 61 and used for driving the telescopic screw 63 to rotate. The telescopic sliding block 62 can be driven to slide along the length of the telescopic sliding rail 61 in a square mode by driving the telescopic screw 63 to rotate through the telescopic power unit 64, so that the telescopic pushing piece 5 on the telescopic sliding block 62 is driven to move, the telescopic pushing piece 5 is driven to move more stably in the mode, materials are taken out from the storage position more safely and reliably, and the materials are taken out more conveniently.

Referring to fig. 1 and 3, the placing and lifting mechanism 26 includes a placing and lifting screw rotatably disposed on a side surface of the placing and lifting column 24 and in threaded connection with the placing and transporting platform 25, a lifting wheel disposed at an end of the placing and lifting screw and coaxially disposed with the placing and lifting screw, and a lifting power unit disposed on the placing and lifting column 24 and used for driving the lifting wheel. Place lifting screw and place transportation platform 25 threaded connection, the side of placing transportation platform 25 is provided with the installation piece, places lifting screw and runs through the installation piece setting. The lifting screw is driven by the lifting power unit to rotate, so that the lifting and descending of the transportation platform 25 can be realized, the lifting mechanism 26 is arranged to adopt the structure, the lifting motion of the transportation platform 25 is more convenient, and the screw thread is adopted to drive the transportation platform 25 to move more stably.

In this embodiment, the material taking and lifting mechanism has the same structure as the material placing and lifting mechanism 26, so that the movement of the material discharging and transporting platform 35 is more convenient, and the movement position of the material discharging and transporting platform 35 is more accurate.

As a specific embodiment of the material storage system of the power grid construction site provided by the present invention, please refer to fig. 1 and 3, the side surface of the transportation platform 25 is further provided with two roller baffles 27 arranged at intervals, the lifting column 24 is arranged between the two roller baffles 27, and the roller baffles 27 are further provided with a plurality of lifting rollers 28 in a rotating manner. Will place lift post 24 through two gyro wheel baffles 27 and clip to will place the transport platform 25 through the effect of placing the lifting screw and compress tightly in the side of placing lift post 24, lift gyro wheel 28 supports and leans on the side of placing lift post 24 this moment, and it makes the installation of placing transport platform 25 more convenient to place transport platform 25 and adopt this kind of mounting means, and it is more convenient also to make the motion of placing transport platform 25 simultaneously. In addition, the roller baffle 27 is further provided with clamping rollers, the rotating shafts of the clamping rollers and the rotating shafts of the lifting rollers 28 are perpendicular to each other, the lifting column 24 is placed at a position between the two sets of clamping rollers, the clamping rollers can prevent the transportation platform 25 from shaking in the lifting process of the transportation platform 25, the transportation platform 25 is placed more stably and firmly, and meanwhile, the movement position of the discharging transportation platform 35 is more accurate.

Referring to fig. 3, the conveying mechanism 4 includes a conveying slide rail 41 disposed on the top of the placing and transporting platform 25, a conveying slide plate 42 slidably disposed on the conveying slide rail 41 for supporting the material, a driving rack 43 disposed on a side surface of the conveying slide plate 42, a driving gear 44 rotatably disposed on the placing and transporting platform 25 and engaged with the driving rack 43, and a conveying power unit 45 disposed on the placing and transporting platform 25 for driving the driving gear 44 to rotate. When the goods and materials need to be unloaded from the placing and transporting platform 25, the driving gear 44 is driven to rotate by the conveying power unit 45, the driving gear 44 can drive the conveying sliding plate 42 to slide along the length direction of the conveying sliding rail 41 through the driving rack 43, so that the goods and materials placed on the conveying sliding plate 42 are pushed into the storage position, the conveying mechanism 4 adopts the structure, the space is saved, and the goods and materials are more convenient to transport.

As a specific embodiment of the material storage system of the power grid construction site provided by the present invention, please refer to fig. 3, so that the number of the driving gears 44 is two, the two driving gears 44 are respectively located at two end portions of the driving gears 44, the two driving gears 44 are both provided with driving pulleys, and the circumferences of the two driving pulleys are further provided with belt pulleys in a winding manner. The number of the driving gears 44 is two, so that the movement of the conveying sliding plate 42 is longer, materials can be better conveyed into the storage position, and the two driving gears 44 adopt belt transmission, so that the transmission is more convenient and reliable.

As a specific embodiment of the material storage system of the power grid construction site provided by the present invention, please refer to fig. 1 and 5, the main rack 1 includes a main frame 11, and a plurality of vertical installation plates 12 detachably installed in the main frame 11, the vertical installation plates 12 are installed at intervals, and the end portions of the vertical installation plates are detachably connected to the main frame 11, the vertical installation plates 12 are further provided with a plurality of supporting support plates 13, and the supporting support plates 13 are installed at intervals along the height direction of the vertical installation plates 12. Two supporting support plates 13 and the mounting vertical plate 12 are enclosed to form a storage position, so that the storage of materials is more convenient. By adopting the structure, the main goods shelf 1 can be conveniently and quickly assembled on the main goods shelf 1 during construction, so that the main goods shelf 1 is more convenient to use.

As a specific embodiment of the material storage system of the power grid construction site provided by the invention, referring to fig. 1 and 5, a plurality of installation slots 14 for clamping the support supporting plate 13 are respectively arranged on the installation vertical plates 12, installation hooks 15 are respectively arranged on the side surfaces of the support supporting plate 13, and the installation hooks 15 are detachably installed in the installation slots 14. Can fix through clamping installation draw-in groove 14 with installation trip 15 when supporting plate 13 installs, make supporting plate 13's installation convenient and fast more, installation draw-in groove 14 comprises the groove of stepping down that the level set up and the groove that clamps of vertical setting simultaneously, and installation trip 15 is fixed through the welding with supporting plate 13, makes supporting plate 13's installation more firm.

In this embodiment, a fixing unit 16 for fixing the mounting vertical plate 12 to the main frame 11 is further disposed at an end of the mounting vertical plate 12, the fixing unit 16 includes a U-shaped frame disposed at the end of the mounting vertical plate 12, and a fastener disposed on the U-shaped frame, the U-shaped frame is clamped outside the main frame 11, the fastener is disposed through a side wall of the U-shaped frame and is in threaded connection with the side wall, and one end of the fastener abuts against a side surface of the main frame 11 when the U-shaped frame is fixed.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A material storage system for a power grid construction site is characterized by comprising a main body goods shelf, a placing slide rail, a placing slide block and a placing driving mechanism, wherein the upper part of the main body goods shelf is provided with a plurality of storage positions, the placing slide rail is arranged on the side surface of the main body goods shelf and is parallel to the bottom surface of the main body goods shelf, the placing slide block is arranged on the placing slide rail and can slide along the length direction of the placing slide rail, the placing driving mechanism is used for driving the placing slide block to slide along the length direction of the placing slide rail, the placing slide block is also provided with a placing lifting column arranged along the height direction of the main body goods shelf, the placing and lifting column is also provided with a placing and transporting platform which can slide along the height direction of the placing and lifting column and a placing and lifting mechanism which is used for driving the placing and transporting platform to move along the placing and lifting column, the upper part of the placing and transporting platform is also provided with a transporting mechanism used for transporting materials to the storage positions on the main body shelf.

2. The material storage system for the power grid construction site as claimed in claim 1, wherein the plurality of storage positions are arranged on the main body shelf in a rectangular array, two openings are formed in two sides of each storage position, the two openings are respectively located on two side faces of the main body shelf, and a discharging device for pushing materials out of the storage positions onto a placement and transportation platform is arranged on the other side of the main body shelf.

3. The material storage system for power grid construction sites as claimed in claim 2, wherein the discharging device comprises a discharging slide rail disposed on the other side of the main rack and parallel to the bottom surface of the main rack, a discharging slide block disposed on the discharging slide rail and capable of sliding along the length direction of the discharging slide rail, a discharging driving mechanism for driving the discharging slide block to slide along the length direction of the discharging slide rail, a discharging lifting rod disposed on the discharging slide block, a discharging transportation platform disposed on the side of the discharging lifting rod and capable of sliding along the height direction of the discharging lifting rod, and a discharging lifting mechanism disposed on the top of the discharging lifting rod for driving the discharging transportation platform to slide, the discharging and transporting platform is also provided with a telescopic pushing piece used for pushing the materials out of the storage position and a telescopic mechanism used for driving the telescopic pushing piece to move.

4. The material storage system for the power grid construction site according to claim 3, wherein the telescopic mechanism comprises two telescopic slide rails arranged on the discharging slide block, a telescopic slide block slidably arranged on the telescopic slide rails, a telescopic screw rod arranged on the telescopic slide rails and in threaded connection with the telescopic slide block, and a telescopic power unit arranged at an end of the telescopic slide rails and used for driving the telescopic screw rod to rotate.

5. A power grid construction site material storage system as claimed in claim 1, wherein the placing and lifting mechanism comprises a placing and lifting screw rotatably disposed at a side of the placing and lifting column and threadedly coupled to the placing and transporting platform, a lifting wheel disposed at an end of the placing and lifting screw and coaxially disposed with the placing and lifting screw, and a lifting power unit disposed on the placing and lifting column for driving the lifting wheel.

6. A power grid construction site material storage system as claimed in claim 5, wherein the side of the placement and transportation platform is further provided with two roller baffles spaced apart from each other, the placement lifting column is located between the two roller baffles, and each roller baffle is further rotatably provided with a plurality of lifting rollers.

7. A power grid construction site material storage system as claimed in any one of claims 1 to 6, wherein the conveying mechanism comprises a conveying slide rail arranged on the top of the placing and transporting platform, a conveying slide plate slidably arranged on the conveying slide rail for supporting materials, a driving rack arranged on the side of the conveying slide plate, a driving gear rotatably arranged on the placing and transporting platform and meshed with the driving rack, and a conveying power unit arranged on the placing and transporting platform for driving the driving gear to rotate.

8. The material storage system for a power grid construction site as claimed in claim 7, wherein the number of the driving gears is two, the two driving gears are respectively located at two ends of the driving gears, the two driving gears are both provided with driving pulleys, and the circumferences of the two driving pulleys are further provided with belt pulleys in a winding manner.

9. The material storage system for the power grid construction site according to claim 1, wherein the main rack comprises a main frame body and a plurality of mounting vertical plates detachably arranged in the main frame body, the mounting vertical plates are arranged at intervals, end portions of the mounting vertical plates are detachably connected to the main frame body, a plurality of supporting support plates are further arranged on the mounting vertical plates, and the supporting support plates are arranged at intervals along the height direction of the mounting vertical plates.

10. The material storage system for the power grid construction site as claimed in claim 9, wherein the mounting vertical plates are respectively provided with a plurality of mounting slots for mounting the support plate, the side surfaces of the support plate are respectively provided with a mounting hook, and the mounting hooks are detachably mounted in the mounting slots.

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