CN110606308B - Warehouse management system suitable for glass insulator - Google Patents

Abstract

The invention discloses a warehouse management system suitable for glass insulators, which comprises a conveying device and an access system, wherein the conveying device is connected with the storage system through a pipeline; the conveying device comprises a plurality of conveying belts arranged in a warehouse, a plurality of conveying protection frames are arranged on the surfaces of the conveying belts at equal intervals, a placing chute is arranged at the center of the upper surfaces of the conveying protection frames, a plurality of baffle pieces are arranged in the placing chute, a conveying clamping box is arranged on the conveying protection frames, the conveying protection frame is provided with an auxiliary access mechanism, a user can directly take out the insulators through an access opening, once a first insulator is taken out, if the clamping box is pulled again, a fixed clamping block at the position of the first insulator can be taken to the lower surface of the rolling belt, and meanwhile, a second insulator is positioned right below the access opening; even if the damaged insulator is placed into the box, the follow-up tracing work cannot be influenced, so that the box cover does not need to be opened frequently, and the operation is convenient.

Description

Warehouse management system suitable for glass insulator

Technical Field

The invention relates to the technical field of warehouse storage, in particular to a warehouse management system suitable for glass insulators.

Background

A glass insulator is a device for supporting and insulating a wire and is called an insulator. The insulator device is made of glass, and is called a glass insulator; at present, the most widely used in the line is the toughened glass insulator, and in the power grid operation, the glass insulator is generally stored on the ground directly, which is not beneficial to storing the glass insulator and is not easy to manage, so a warehouse is used for auxiliary access, the warehouse comprises a storehouse for storing articles, transportation and transmission facilities (such as cranes, elevators, slides and the like), conveying pipelines and equipment for entering and exiting the storehouse, fire-fighting facilities, management rooms and the like, and managers can take the glass insulator by means of an access system and a conveying device when taking the glass insulator, so that the insulator can not be missed and the like.

When present managers used conveyor to carry out the access operation, all will place the case of different types of insulator through the conveyer belt and send to the warehouse access mouth, later from the interior insulator of taking out of case again, but there is the problem during its operation: in case the insulator of same type is more in quantity, when the user took the insulator on the conveyor, need frequent case lid of opening the case could take out, its complex operation is complicated, and a plurality of insulators pile up the back together, in case the staff takes the in-process and takes not according to the order, has single damaged insulator to be put into the incasement again simultaneously, will make subsequent backtracking examine the work and receive the influence.

Disclosure of Invention

Therefore, the invention provides a warehouse management system suitable for glass insulators, and aims to solve the problems that in the prior art, due to the fact that the number of insulators of the same type is large, when a user takes the insulators on a conveying device, the insulators need to be taken out only by frequently opening a box cover of a box, the operation is complex, and after a plurality of insulators are stacked together, once workers take the insulators out of sequence in the taking process, and meanwhile, a single damaged insulator is placed into the box, the subsequent backtracking inspection work is affected.

In order to achieve the above object, an embodiment of the present invention provides the following:

a warehouse management system suitable for glass insulators comprises a conveying device and an access system.

The conveying device comprises a plurality of conveying belts arranged in the warehouse, a plurality of conveying protection frames are arranged on the surfaces of the conveying belts at equal intervals, a placing chute is arranged at the center of the upper surfaces of the conveying protection frames, a plurality of baffle pieces are arranged in the placing chute, a conveying card box is arranged on the conveying protection frames, and an auxiliary access mechanism is arranged in the conveying card box;

the auxiliary access mechanism comprises two rolling shafts arranged in the conveying card box, a tension spring connecting block directly connected with the conveying card box and a rolling belt, wherein two ends of the rolling belt are respectively sleeved on the two rolling shafts; a plurality of fixed clamping blocks are arranged on the upper surface of the outer side of the rolling belt at equal intervals, and a plurality of rubber clamping tables are connected between every two adjacent fixed clamping blocks; the lower surface of the outer side of the rolling belt is connected with a plurality of rotating elastic sheets penetrating through the conveying card box, and the cross sections of the rotating elastic sheets are of T-shaped structures; a connecting spring is arranged between the rotating elastic sheet and the rolling belt;

the access system comprises a terminal processor, an information storage module, a display module and a warning module.

The display module comprises a numeric keyboard module and an online display module; the display module is used for inputting insulator types to be used or stored, displaying the quantity information of the glass insulators under the insulator types in real time, and transmitting the input insulator types to the terminal processor and the information storage module;

the terminal processor is used for establishing a mapping relation between a conveying card box and insulator types of glass insulators stored in the conveying card box, searching a corresponding conveying card box according to the mapping relation and the received insulator types, and controlling a driving assembly to convey the conveying card box to a position of a receiving opening; the system comprises a display module, a storage module and a storage module, wherein the display module is used for storing the type and quantity information of the insulators; the quantity information is also used for sending warning information to a warning module when the quantity information is lower than a warning threshold value;

the information storage module is used for storing the input insulator type, the residual insulator quantity information under the insulator type, the mapping relation between the insulator types of the glass insulators stored in the conveying card box and the conveying card box, and the type and quantity information of the taken out insulator of the glass insulators;

the warning module is used for warning and reminding the received warning information.

As a preferable scheme of the invention, a taking port is formed in the box cover of the conveying card box, and two pushing blocks in an isosceles trapezoid structure are symmetrically arranged on one side, far away from the conveying protection frame, of the upper inner wall of the conveying card box.

As a preferable scheme of the invention, the rubber clamping table is in an isosceles trapezoid structure, and a rubber clamping cover is arranged on the surface of one side of the rubber clamping table, which is far away from the conveying card box.

According to a preferable scheme of the invention, mounting grooves are formed in the upper surface of the conveying protection frame and positioned on two sides of the sliding groove, limiting rods in L-shaped structures are connected in the two mounting grooves, a jacking spring is arranged between each limiting rod and the conveying protection frame, and one end, far away from the conveying protection frame, of each limiting rod is connected with a clamping column.

As a preferred scheme of the invention, a fixing rod in an L-shaped structure is arranged at one end of the conveying protection frame far away from the limiting rod, a blocking column is connected at one end of the fixing rod far away from the conveying protection frame, and a force unloading rod is movably connected between the fixing rod and the limiting rod.

As a preferable scheme of the present invention, a fixing plate is disposed on an inner surface of the rolling belt, the tension spring connecting block is located on an inner side of the rolling belt, and a connecting tension spring is fixedly installed between the tension spring connecting block and the fixing plate.

As a preferable scheme of the present invention, the two side surfaces of the fixing clamp block are both provided with clamp table fixing grooves for clamping the rubber clamp table.

As a preferred scheme of the present invention, the information storage module includes a card box information data packet and an insulator type data packet, the card box information data packet is used to store card box label information of the card box and quantity information of insulators stored in the card box, and the insulator type data packet is used to store insulator types and quantity information of glass insulators under the insulator types;

the card box information data packet consists of a plurality of card box information recording tables, and the insulator type data packet consists of a plurality of insulator type recording tables; the plurality of card box information recording tables correspond to the plurality of insulator type recording tables one by one respectively to form a mapping relation between the conveying card box and insulator types of the glass insulators stored in the conveying card box;

the information storage module also comprises an access information recording table for storing the time information of the user for accessing the insulator.

As a preferable aspect of the present invention, the warning information includes warning time and warning content.

The invention has the following advantages:

(1) the equipment is provided with an auxiliary storing and taking mechanism, when a user uses a conveying belt to convey insulators required to be taken, the conveying belt firstly conveys a conveying card box to a receiving opening of a warehouse, then if the user needs to take out the insulators of the type, the insulators in the card box only need to be taken out through the taking opening, once the user takes out a first insulator, if the user pulls the card box again, a fixed clamping block where the first insulator is located is rolled to be taken to the lower surface of the fixed clamping block, a second insulator is located right below the taking opening, and the steps are repeated, so that the insulators are taken by the user in sequence, if a single damaged insulator is placed into the box, the subsequent retrospective examination work cannot be influenced, and the operation is convenient and rapid, and the box cover does not need to be opened frequently;

(2) this equipment is provided with carries the protection frame, and it can fix the case of placing the insulator completely for the insulator in the case can not receive great vibrations, and the setting of gag lever post still can make the case be close to the one end perk of warehouse access opening simultaneously, makes the focus of the case of filling with the insulator forward all the time, even the user pulls out most case carelessly, whole box also can not drop easily, and its protectiveness is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a schematic overall structure diagram of an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional front view of an auxiliary access mechanism according to an embodiment of the present invention;

FIG. 3 is a schematic top cross-sectional view of an auxiliary access mechanism according to an embodiment of the invention;

FIG. 4 is a schematic top cross-sectional view of a conveyor belt according to an embodiment of the invention;

FIG. 5 is a schematic cross-sectional front view of a transportation protection rack according to an embodiment of the present invention;

FIG. 6 is a side view of a transport protection rack in accordance with an embodiment of the present invention;

fig. 7 is a block diagram of the structure of the embodiment of the present invention.

In the figure:

1-a conveyor belt; 2-conveying a protective frame; 3, conveying the card box; 4-auxiliary access mechanism;

201-placing a chute; 202-a gear piece; 203-mounting grooves; 204-a limiting rod; 205-jack-up springs; 206-a clamping post; 207-fixing the bar; 208-a shift post; 209-force-releasing rod;

301-a user port; 302-a push block;

401-roll axis; 402-tension spring connecting block; 403-rolling the belt; 404-a fixing sheet; 405-connecting a tension spring; 406-a fixed clamp block; 407-rubber clamping table; 408-rotating the spring plate; 409-connecting spring; 410-rubber clip cover; 411-clamping table fixing groove.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 7, the present invention provides a warehouse management system for glass insulators, which includes a conveying device and an access system.

The access system comprises a terminal processor, an information storage module, a display module and a warning module.

The display module comprises a numeric keyboard module and an online display module, and the display module is used for inputting insulator types required to be used or stored, displaying the quantity information of the glass insulators of the types in real time, and transmitting the input insulator types to the terminal processor and the information storage module.

The terminal processor is used for establishing a mapping relation between the conveying card box 3 and insulator types of the glass insulators stored in the conveying card box 3; searching a conveying card box 3 corresponding to the mapping relation according to the insulator type transmitted by the display module, and controlling the driving assembly to convey the conveying card box 3 storing the glass insulator of the type to the position of the access opening so as to be convenient for a user to access; and meanwhile, the type and quantity information of the accessed glass insulators is processed, the residual quantity information of the type of the glass insulators is displayed on the display module, and then the warning information is sent to the warning module corresponding to the type of the insulators according to the taken glass insulators. The warning information comprises the alarm time and the alarm content.

The information storage module is used for storing the input insulator type and the residual quantity information of the glass insulators of the type and also used for storing the mapping relation established in the interrupt processor; in addition, the information storage module is also used for backing up and storing the type and quantity information of the taken-out insulators, so that management personnel can conveniently verify and manage the insulators.

The warning module makes corresponding response according to the warning information sent by the terminal processor, so as to remind a subsequent user whether to take the glass insulator or not, and bring convenience for managers to store and supplement the glass insulator of the type.

The warning module may be a commercially available indicator light or a buzzer, and may preferably be an indicator light.

When the warehouse management system is used, workers can firstly put the glass insulators in the conveying card box 3, input information such as types, quantity and the like of the insulators through the digital keyboard module, backup information is stored in the information storage module through the terminal processor, and meanwhile, a receiving opening is formed in the warehouse to allow the workers to receive the insulators.

When the insulator is picked up, the worker can select the type and the number of the insulators to be picked up through the number keyboard module, and then the terminal processor can process the selected information and send an execution command to the conveying device; the conveying device responds to the execution command, so that the conveying card box 3 where the insulator of the type is placed is moved to the pick-up opening by the conveying belt, then a user can take out the insulators in sequence through the conveying device, after the insulators are picked up by workers, the insulators are clicked on the digital keyboard module for confirmation, and meanwhile the terminal processor processes the confirmed information, so that the information storage module updates the insulator types in the conveying card boxes 3; once the insulator in a certain transport card box 3 is completely removed, the terminal processor sends out warning command information to the warning module, and after the warning module executes a command, the indicator lamp on the transport card box 3 lights up a red light to indicate that the transport card box 3 is empty; the staff can place the glass insulator in the empty transport card box 3 at the storage opening by selecting the empty transport card box 3, and store the information of registering a new insulator through the numerical keyboard module.

The information storage module comprises a card box information data packet used for storing card box label information and total number information of the insulators stored in the conveying card box 3, and an insulator type data packet used for storing the types and the numbers of the insulators.

The card box information data packet is composed of a plurality of card box information recording tables, the insulator type data packet is composed of a plurality of insulator type recording tables, and the card box information recording tables correspond to the insulator type recording tables one by one respectively so as to form a mapping relation between the insulator types of the glass insulators stored in the conveying card box 3 and the conveying card box 3. The information storage module also comprises an access information recording table for storing the time information of the user for accessing the insulator.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the main working principle of the conveying device is that, based on the access system, the auxiliary access mechanism 4 assists the user to take the insulators, so that the user can take the insulators from the conveying card box 3 in sequence, even if the insulators with single damage are put into the conveying card box 3, the subsequent retrospective examination work cannot be influenced, and the user can take the insulators more conveniently and quickly without frequently opening the box cover.

Specifically, this conveyor includes that a plurality of installs the conveyer belt 1 in the warehouse, installs a plurality of transport protection frame 2 at the equidistant installation in the surface of conveyer belt 1, and the central point of carrying 2 upper surfaces of protection frame puts and is equipped with places spout 201, places and installs a plurality of in the spout 201 and keep off piece 202, is equipped with on carrying protection frame 2 and carries card case 3, carries to be provided with in the card case 3 and assists access mechanism 4.

When the device is used, a plurality of insulators of the same type can be sequentially placed into the taking ports 301 in the conveying card box 3, and then a user can manage the insulators through the access system. And when getting to use, the conveyer belt 1 can be directly with the transport card case 3 of placing this type of insulator that the user required used, remove to the warehouse and get the mouth, later, the user can pull out transport card case 3 and carry protection frame 2, and when the user pulling carried card case 3, supplementary access mechanism 4 can make the insulator that is not taken away remove to get and use mouthful 301 under to avoid the user to take the insulator according to the order not, lead to subsequent backtracking to examine the condition emergence that the work received the influence.

Specifically, as shown in fig. 1, 2 and 3, the auxiliary access mechanism 4 includes two rolling shafts 401 installed in the transport card box 3, a tension spring connection block 402 directly connected to the transport card box 3, and rolling belts 403 having two ends respectively sleeved on the two rolling shafts 401, a plurality of fixed clamping blocks 406 are installed on the upper surface of the outer side of the rolling belts 403 at equal intervals, the width value of the fixed clamping blocks 406 is smaller than the width value of the rolling belts 403, so as to avoid the situation that the pushing blocks 302 block the fixed clamping blocks 406 to influence the movement of the rolling belts 403, a plurality of rubber clamping platforms 407 are connected between the adjacent fixed clamping blocks 406, two rubber clamping platforms 407 are symmetrically arranged between the adjacent two fixed clamping blocks 406, the lower surface of the outer side of the rolling belts 403 is connected with a plurality of rotating elastic pieces 408 penetrating through the transport card box 3 and having a T-shaped cross section structure, the rotating elastic pieces 408 are rotatably connected with the rolling belts 403, a connecting spring 409 is arranged between the rotating elastic sheet 408 and the rolling belt 403.

When the auxiliary access mechanism 4 is in use, once a user pulls the conveying card box 3, so that the conveying card box 3 slides out of the conveying protection frame 2, the rotating elastic sheet 408 can contact with the stop sheet 202, so that the rolling belt 403 is driven to roll along the rolling shaft 401 towards the direction of the pushing block 302, because the box cover of the conveying card box 3 is provided with the taking port 301, and the upper inner wall of the conveying card box 3 is symmetrically provided with two pushing blocks 302 in an isosceles trapezoid structure at one side far away from the conveying protection frame 2, i.e. the two outer walls of the pushing block 302 at one end close to the rolling belt 403 are inclined planes, when the rolling belt 403 rolls along the rolling shaft 401, the insulator placed between two adjacent fixed clamping blocks 406 is driven to move towards the direction of the pushing block 302, and when the first insulator moves to the position of the pushing block 302, because the rubber clamping tables 407 are placed at two ends of the insulator, and the rubber clamping table 407 is in an isosceles trapezoid structure, so when the rubber clamping tables 407 at two ends of the insulator are in contact with the pushing block 302, the rubber clamping tables 407 are pushed to move in a direction close to the insulator until the rubber clamping tables 407 cannot move, and the position of the rolling belt 403 is limited, at this time, if a user continues to pull the transport card box 3, the rotating elastic sheet 408 will continue to be in contact with the blocking sheet 202, but the rolling belt 403 cannot roll along the rolling shaft 401, so that the rotating elastic sheet 408 is pushed by the first blocking sheet 202 to rotate, and then the connecting spring 409 is compressed, so that the rotating elastic sheet 408 contacts with the second blocking sheet 202 until the user can take out the insulator smoothly, and a blank space is formed between two adjacent fixed clamping blocks 406 after the user takes out the insulator.

Once the first insulator is taken away, when the user pulls the card box 3 outwards, the pushing block 302 only contacts with the rubber clamping platforms 407 at the two ends of the second insulator, so that the rolling belt 403 cannot roll along the rolling shaft 401, and therefore the user can take out the second insulator smoothly; when the user pushes the transport card box 3 back, the returned transport card box 3 will bring the rotation elastic sheet 408 to move together, and the reset rotation elastic sheet 408 contacts with the stop sheet 202 again, so that the rolling belt 403 rolls along the rolling shaft 401 in the opposite direction, and the blank space with the insulators removed is moved to the position right below the removal port 301, and at this time, the user can store the insulators in sequence.

In addition, the rubber clamp cover 410 is installed on the surface of one side of the rubber clamp table 407, which is far away from the conveying card box 3, and the rubber clamp cover 410 can play a role in protection, so that the insulator cannot be damaged by clamping, and meanwhile, damage caused by vibration can be avoided; the rubber clip cover 410 can also serve as a complementary length so that when a shorter insulator is placed between adjacent fixed clip blocks 406, the push block 302 can still contact the rubber clip stage 407 so that the device can be used properly.

Further, as shown in fig. 4, fig. 5 and fig. 6, mounting grooves 203 have been all seted up in the both sides of placing spout 201 to the upper surface of transport protection frame 2, all be connected with the gag lever post 204 that is L type structure in two mounting grooves 203, install jack-up spring 205 between gag lever post 204 and the transport protection frame 2, gag lever post 204 is connected with centre gripping post 206 in the one end of keeping away from transport protection frame 2, this centre gripping post 206 can play the effect of connecting two gag lever posts 204, two gag lever posts 204 are connected the back well simultaneously, just can block transport card case 3, make transport card case 3 can not move about easily.

The limiting rod 204 with the L-shaped structure can clamp the position of the conveying card box 3, so that the conveying card box 3 cannot move easily, and the jacking spring 205 can jack up the limiting rod 204 and the conveying card box 3, so that the gravity center of the conveying card box 3 is forward; the larger the number of the taken-out insulators is, the more forward the center of gravity of the insulators is, so that the situation that the insulators in the transport card box 3 fall off due to the fact that a user carelessly pulls out too many transport card boxes 3 is avoided.

The end of the conveying protection frame 2 far away from the limiting rod 204 is provided with a fixing rod 207 with an L-shaped structure, the end of the fixing rod 207 far away from the conveying protection frame 2 is connected with a blocking column 208, and a force unloading rod 209 is movably connected between the fixing rod 207 and the limiting rod 204.

The two fixing rods 207 are also provided, and the two fixing rods 207 are connected by the blocking post 208, so that the purpose of further fixing the position of the transport cassette 3 can be achieved, and the force releasing rod 209 is provided for releasing the pulling force applied to the stopper rod 204 when the user pulls out the transport cassette 3.

Specifically, a fixing plate 404 is disposed on an inner surface of the rolling belt 403, the tension spring connecting block 402 is located on an inner side of the rolling belt 403, and a connecting tension spring 405 is fixedly mounted between the tension spring connecting block 402 and the fixing plate 404, so that the rolling belt 403 has a certain automatic reset function, when the rolling belt 403 moves in a direction toward the pushing block 302, the connecting tension spring 405 is stretched, the elastic force of the connecting tension spring 405 is increased, and meanwhile, the stability of the rolling belt 403 during movement can be ensured, so that the rolling belt 403 cannot roll quickly to cause the occurrence of the condition that the insulator falls off, and when a user completely pulls out the transport card box 3, in order to avoid the occurrence of the condition that the rolling belt 403 cannot reset, the connecting tension spring 405 plays a role, so that the rolling belt 403 automatically resets.

The both sides surface of fixed clamp splice 406 all offers the clamp stand fixed slot 411 that is used for blocking rubber clamp stand 407, and the existence of this clamp stand fixed slot 411 can play to rubber clamp stand 407 and lead and spacing effect for the condition that dislocation or drop can not appear when moving in rubber clamp stand 407.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (9)

1. The warehouse management system suitable for the glass insulator is characterized by comprising a conveying device and an access system;

the conveying device comprises a plurality of conveying belts (1) arranged in a warehouse, a plurality of conveying protection frames (2) are arranged on the surfaces of the conveying belts (1) at equal intervals, a placing sliding groove (201) is formed in the center of the upper surface of each conveying protection frame (2), a plurality of baffle pieces (202) are arranged in the placing sliding groove (201), a conveying card box (3) is arranged on each conveying protection frame (2), and an auxiliary access mechanism (4) is arranged in each conveying card box (3);

the auxiliary access mechanism (4) comprises two rolling shafts (401) arranged in the conveying card box (3), a tension spring connecting block (402) directly connected with the conveying card box (3) and rolling belts (403) with two ends respectively sleeved on the two rolling shafts (401); a plurality of fixed clamping blocks (406) are arranged on the upper surface of the outer side of the rolling belt (403) at equal intervals, and a plurality of rubber clamping tables (407) are connected between every two adjacent fixed clamping blocks (406); the lower surface of the outer side of the rolling belt (403) is connected with a plurality of rotating elastic sheets (408) penetrating through the conveying card box (3), and the cross section of each rotating elastic sheet (408) is of a T-shaped structure; a connecting spring (409) is arranged between the rotating elastic sheet (408) and the rolling belt (403);

the access system comprises a terminal processor, an information storage module, a display module and a warning module;

the display module comprises a numeric keyboard module and an online display module; the display module is used for inputting insulator types to be used or stored, displaying the quantity information of the glass insulators under the insulator types in real time, and transmitting the input insulator types to the terminal processor and the information storage module;

the terminal processor is used for establishing a mapping relation between the conveying card box (3) and insulator types of glass insulators stored in the conveying card box (3), searching the corresponding conveying card box (3) according to the mapping relation and the received insulator types, and controlling a driving assembly to send the conveying card box (3) to a position of a drawing port; the system comprises a display module, a storage module and a storage module, wherein the display module is used for storing the type and quantity information of the insulators; the quantity information is also used for sending warning information to a warning module when the quantity information is lower than a warning threshold value;

the information storage module is used for storing the input insulator type, the residual insulator quantity information under the insulator type, the mapping relation between the conveying card box (3) and the insulator type of the glass insulator stored in the conveying card box (3), and the extracted insulator type and quantity information of the glass insulator;

the warning module is used for warning and reminding the received warning information.

2. The warehouse management system for the glass insulators as claimed in claim 1, wherein the box cover of the conveying card box (3) is provided with an access port (301), and two pushing blocks (302) in an isosceles trapezoid structure are symmetrically arranged on one side of the upper inner wall of the conveying card box (3) away from the conveying protection frame (2).

3. The warehouse management system for glass insulators as claimed in claim 1, wherein the rubber clamping table (407) is in an isosceles trapezoid structure, and a rubber clamping cover (410) is installed on the surface of one side of the rubber clamping table (407) far away from the conveying card box (3).

4. The warehouse management system for the glass insulators according to claim 1, wherein mounting grooves (203) are formed in the two sides, located on the placing chute (201), of the upper surface of the conveying protection frame (2), limiting rods (204) in L-shaped structures are connected in the two mounting grooves (203), jacking springs (205) are installed between the limiting rods (204) and the conveying protection frame (2), and clamping columns (206) are connected to one ends, far away from the conveying protection frame (2), of the limiting rods (204).

5. The warehouse management system for glass insulators as claimed in claim 4, wherein the conveying protection rack (2) is provided with a fixing rod (207) in an L-shaped structure at one end far away from the limiting rod (204), a blocking column (208) is connected to one end of the fixing rod (207) far away from the conveying protection rack (2), and a force unloading rod (209) is movably connected between the fixing rod (207) and the limiting rod (204).

6. The warehouse management system for glass insulators as claimed in claim 1, wherein a fixing plate (404) is disposed on an inner surface of the rolling belt (403), the tension spring connecting block (402) is disposed at an inner side of the rolling belt (403), and a connecting tension spring (405) is fixedly installed between the tension spring connecting block (402) and the fixing plate (404).

7. The warehouse management system for glass insulators as claimed in claim 1, wherein the two side surfaces of the fixed clamping block (406) are provided with clamping platform fixing grooves (411) for clamping the rubber clamping platforms (407).

8. The warehouse management system for glass insulators according to claim 1, wherein the information storage module comprises a card box information data packet and an insulator type data packet, the card box information data packet is used for storing card box number information of the card box and information of the number of insulators stored in the card box, and the insulator type data packet is used for storing information of insulator types and the number of glass insulators under the insulator types;

the card box information data packet consists of a plurality of card box information recording tables, and the insulator type data packet consists of a plurality of insulator type recording tables; the plurality of card box information recording tables correspond to the plurality of insulator type recording tables one by one respectively to form a mapping relation between the conveying card box (3) and insulator types of glass insulators stored in the conveying card box (3);

the information storage module also comprises an access information recording table for storing the time information of the user for accessing the insulator.

9. The warehouse management system for glass insulators as claimed in claim 1, wherein the warning message includes an alarm time and an alarm content.

Images