CN210295221U - Sharps storage device - Google Patents

Abstract

The utility model discloses a cutting tool storage device, including the cabinet body that has the unit of depositing, cutting tool accommodate device and controlling means, cutting tool accommodate device sets up in depositing the unit, and cutting tool accommodate device includes bearing subassembly, material dish, weighs subassembly and drive assembly, and the material dish is located the bearing subassembly, and drive assembly can make material dish and bearing subassembly separation to contact weighing subassembly and material dish, thereby weigh the cutting tool in the material dish; the control device is electrically connected with the driving component and the weighing component respectively. The material tray is located the top of bearing subassembly, and when not carrying out the sword and taking, the material tray supports and leans on the top at the bearing subassembly, and when carrying out the sword and taking, drive assembly makes and weighs the subassembly and supports and lean on the bottom surface of material tray, weighs the subassembly and obtains the remaining quantity of sword in the material tray through the mode of weighing. Through the cutting tool storage equipment, the accuracy of cutting tool inventory can be avoided, and therefore production can be guaranteed.

Description

Sharps storage device

Technical Field

The utility model relates to a cutting tool management technology field especially relates to a cutting tool storage device.

Background

This section provides background information related to the present disclosure only and is not necessarily prior art.

In order to ensure the smooth processing and manufacturing, enterprises need to use a large amount of equipment when processing and manufacturing, and the processing and manufacturing of the equipment are realized by cutting scrap materials of cutting tools. According to different processing materials and processing types, different types of cutting tools need to be designed to meet the requirements of actual processing and manufacturing.

Because the cutting tools are quick-wear parts, and meanwhile, in order to meet the requirements of different processing categories, a large number of spare cutting tools are stored in a common storehouse of an enterprise. When the blades need to be taken, the user registers at a manager, the manager takes the blades to the user according to the taking type and quantity, and the manager modifies the stock records.

However, in the prior art, due to the fact that the types of cutting tools are numerous, the efficiency of taking the knife by a manager is low, and the production efficiency is affected; moreover, the manager needs to be on duty in real time, so that the cost of the manager is greatly increased; in addition, the manual modification of the inventory records by the manager is easy to miss or mistake, so that the inventory information is inaccurate, and the production cannot be guaranteed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the inaccurate production that leads to of cutting tool inventory information can't be guaranteed at least. The purpose is realized by the following technical scheme:

a first aspect of the present invention provides a sharps storage device, including:

a cabinet having a storage unit;

the cutting tool accommodating device is arranged in the storage unit and comprises a supporting component, a material tray, a weighing component and a driving component, wherein the material tray is positioned on the supporting component, and the driving component can separate the material tray from the supporting component so as to contact the weighing component with the material tray, so that the cutting tools in the material tray are weighed;

and the control device is electrically connected with the driving assembly and the weighing assembly respectively.

According to the utility model discloses a sword storage device, wherein, in depositing the unit, support subassembly and material dish stack from top to bottom, the material dish is located the top of support subassembly, drive assembly with weigh the subassembly transmission and be connected, when not carrying out the sword and get, the material dish supports and leans on the top at the support subassembly, when carrying out the sword and get, drive assembly makes and weighs the subassembly and supports and lean on the bottom surface of material dish, at this moment, the material dish separates with the support subassembly, it obtains the remaining quantity of sword in the material dish through the mode of weighing to weigh the subassembly.

Specifically, the cutting tools are placed in a material tray, when the cutting tools need to be taken, a user operates a control device to complete verification and recording of user information, a tool taking requirement (including types and quantity) is input into the control device, the control device opens a storage unit, the control device starts a driving assembly, the driving assembly enables a weighing assembly to abut against the bottom surface of the material tray, the material tray is separated from a bearing assembly, the weighing assembly weighs the total mass of the material tray and all the cutting tools, the control device obtains the current quantity of the cutting tools through calculation, the user takes the cutting tools according to the required quantity, along with reduction of the cutting tools in the material tray, the weighing assembly weighs the total mass of the material tray and the remaining cutting tools in real time, and the control device can obtain the remaining quantity of the cutting tools through calculation and update the remaining inventory of the cutting tools.

Through the cutting tool storage equipment, the accuracy of cutting tool inventory can be avoided, and therefore production can be guaranteed.

In addition, according to the utility model discloses a sword storage equipment still can have following additional technical characterstic:

in some embodiments of the present invention, the support assembly comprises:

the box body is provided with an opening, and the driving component and the weighing component are arranged in the box body;

the cover plate is detachably arranged on the opening, and the driving assembly can enable the weighing assembly to extend out of the hole group and abut against the bottom surface of the material tray.

In some embodiments of the present invention, the group of holes comprises: the first long hole and the second long hole are arranged in parallel at intervals;

the weighing assembly comprises:

the first sensor is arranged on the driving component and is electrically connected with the control device, and the driving component can enable the first sensor to extend out of the first long hole and abut against the bottom surface;

the second sensor is arranged on the driving assembly and electrically connected with the control device, and the driving assembly can enable the second sensor to extend out of the second long hole and abut against the bottom surface.

In some embodiments of the present invention, the drive assembly comprises:

the servo motor is electrically connected with the control device;

the first shaft is rotatably arranged inside the box body and arranged along the length direction of the first long hole, a first working section is coaxially arranged in the middle of the first shaft, the diameter of the first working section is larger than that of the first shaft, the length of the first working section is smaller than or equal to that of the first long hole, the outer surface of the first working section comprises a first arc surface and a first plane, the first plane is arranged along the length direction of the first working section, the length of the first plane is equal to that of the first working section, and the first sensor is arranged on the first arc surface;

with the second shaft that the servo motor transmission is connected, the second shaft with rotatable mode set up in the inside of box body and follow the length direction setting of second slot hole, the middle part of second shaft is coaxial to be provided with the second working section, the diameter of second working section is greater than the diameter of second shaft, the length of second working section is less than or equal to the length of second slot hole, the surface of second working section includes second cambered surface and second plane, the second plane is followed the length direction setting of second working section just the planar length of second with the length of second working section equals, the second sensor install in the second cambered surface.

In some embodiments of the present invention, the driving assembly further comprises:

the driving gear is sleeved on the outer side of a rotating shaft of the servo motor;

the first driven gear is sleeved outside the first shaft;

the driving gear and the first driven gear are in transmission connection through the first rack;

the second driven gear is sleeved outside the second shaft;

the driving gear and the second driven gear are in transmission connection through the second rack;

the racking assembly further comprises:

a first mount to which the first rack and the second rack are slidably mounted, respectively;

and the servo motor is arranged on the second seat.

In some embodiments of the present invention, the first seat has been respectively provided with:

the length of the first long groove is greater than that of the first rack, and the first rack is slidably arranged in the first long groove;

a second elongated slot having a length greater than a length of the second rack, the second rack slidably disposed within the second elongated slot.

In some embodiments of the present invention, the bottom surface is provided with a guide pillar, the cover plate is provided with a guide hole, and the guide pillar is movably disposed in the guide hole.

In some embodiments of the present invention, the number of the guide pillars is plural, each of the guide pillars is uniformly distributed on the bottom surface, the number of the guide holes is consistent with the number of the guide pillars, and the guide holes correspond to the guide pillars.

In some embodiments of the present invention, the number of the storage units is plural, each of the storage units is uniformly distributed on the cabinet body, the number of the cutting tool accommodating devices is equal to the number of the storage units, and the cutting tool accommodating devices are correspondingly disposed in the storage units.

In some embodiments of the invention, the control device comprises;

the human-computer interaction unit is used for inputting user information and user requirements;

the control unit is used for verifying the user information, processing the user requirement and updating the stored information;

the storage unit is used for storing user data and blade information in the blade storage device;

the display unit is used for displaying the processing progress required by the user and displaying the current blade information in the blade storage equipment;

and the communication unit is used for data transmission with the remote control host.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like parts are designated by like reference numerals throughout the drawings. In the drawings:

figure 1 schematically illustrates a schematic structural view of a sharps storage apparatus according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of portion A of the sharps storage apparatus of FIG. 1;

figure 3 is a schematic view of the configuration of the sharps receiving means of the sharps storage unit of figure 1 from a first perspective;

figure 4 is an exploded view of the sharps container of figure 3;

FIG. 5 is a schematic structural view of the first shaft of the exploded structural view of the sharps container shown in FIG. 4;

FIG. 6 is a schematic structural view of the second shaft of the exploded structural view of the sharps container shown in FIG. 4

Figure 7 is a schematic structural view of the first seat in an exploded structural view of the sharps container shown in figure 4;

figure 8 is a schematic view of the configuration of the sharps receiving means of the sharps storage unit of figure 1 from a second perspective;

fig. 9 is a schematic structural view of a section a-a of the cutting tool holder shown in fig. 8 from a second perspective (the material tray is not separated from the cover plate);

fig. 10 is a schematic view of a cross-sectional view taken along a line a-a of the second perspective of the blade holder of fig. 8 (with the tray separated from the cover);

fig. 11 is a block diagram showing the configuration of the control means in the blade storage device.

100 is a sharps storage device;

1 is a cabinet body, and 11 is a storage unit;

2, a cutting tool accommodating device, 21, a material tray, 211, a guide post, 22, a supporting component, 221, a cover plate, 2211, a first long hole, 2212, a second long hole, 2213, a guide hole, 222, a box body, 2221, a first seat, 22211, a first long groove, 22212, a second seat, 23, a driving component, 231, a first driven gear, 232, a driving gear, 233, a servo motor, 234, a second driven gear, 235, a second rack, 236, a first rack, 237, 2371, a first working section, 23711, a first cambered surface, 23712, a first plane, 238, a second shaft, 2381, a second working section, 23811, a second cambered surface, 23812, 24, a weighing component, 241, a first sensor and 242, are second sensors.

3 is a ground margin;

4 is a storage unit door;

5 is a control device, 51 is a display unit, 52 is a monitoring unit, 53 is a control unit, 54 is a human-computer interaction unit, 55 is a communication unit, 56 is a storage unit, and 57 is an alarm unit;

6 is a cutting tool, the cutting tool is a cutting tool,

7 is a mobile terminal;

and 8, a control host.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It is to be understood that the terminology used herein is for the purpose of describing particular example embodiments only, and is not intended to be limiting. As used herein, the singular forms "a", "an" and "the" may be intended to include the plural forms as well, unless the context clearly indicates otherwise. The terms "comprises," "comprising," "including," and "having" are inclusive and therefore specify the presence of stated features, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, steps, operations, elements, components, and/or groups thereof. The method steps, processes, and operations described herein are not to be construed as necessarily requiring their performance in the particular order described or illustrated, unless specifically identified as an order of performance. It should also be understood that additional or alternative steps may be used.

Although the terms first, second, third, etc. may be used herein to describe various elements, components, regions, layers and/or sections, these elements, components, regions, layers and/or sections should not be limited by these terms. These terms may be only used to distinguish one element, component, region, layer or section from another region, layer or section. Terms such as "first," "second," and other numerical terms when used herein do not imply a sequence or order unless clearly indicated by the context. Thus, a first element, component, region, layer or section discussed below could be termed a second element, component, region, layer or section without departing from the teachings of the example embodiments.

For convenience of description, spatially relative terms, such as "inner", "outer", "lower", "below", "upper", "above", and the like, may be used herein to describe one element or feature's relationship to another element or feature as illustrated in the figures. Such spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" or "over" the other elements or features. Thus, the example term "below … …" can include both an orientation of above and below. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

As shown in fig. 1 to 11, according to an embodiment of the present invention, there is provided a sharps tool storage device 100 comprising: the knife edge containing device 2 is arranged in the storage unit 11, the knife edge containing device 2 comprises a supporting component 22, a material tray 21, a weighing component 24 and a driving component 23, the material tray 21 is located on the supporting component 22, and the driving component 23 can separate the material tray 21 from the supporting component 22 so as to enable the weighing component 24 to be in contact with the material tray 21, so that the knife edge 6 in the material tray 21 is weighed; the control device 5 is electrically connected to the drive assembly 23 and the weighing assembly 24, respectively.

According to the utility model discloses a sword utensil storage equipment 100, wherein, in depositing unit 11, support subassembly 22 stacks from top to bottom with material dish 21, material dish 21 is located support subassembly 22's top, drive assembly 23 is connected with weighing the transmission of subassembly 24, when not carrying out the sword utensil 6 and taking, material dish 21 supports and leans on the top at support subassembly 22, when carrying out the sword utensil 6 and taking, drive assembly 23 makes weighing subassembly 24 support and leans on the bottom surface of material dish 21, at this moment, material dish 21 separates with support subassembly 22, weigh subassembly 24 through the mode of weighing 6 remaining quantities of sword utensil in the acquisition material dish 21.

Specifically, as shown in fig. 9 and 10, the cutting tool 6 is placed in the material tray 21, the material tray 21 is abutted against the supporting component 22, when the cutting tool 6 needs to be taken, the user operates the control device 5 to complete verification and recording of user information, a tool taking requirement (including type and quantity) is input to the control device 5, the control device 5 opens the storage unit 11, the control device 5 starts the driving component 23, the driving component 23 enables the weighing component 24 to abut against the bottom surface of the material tray 21, the material tray 21 is separated from the supporting component 22, the weighing component 24 weighs the total mass of the material tray 21 and all the cutting tools 6, the control device 5 calculates the current quantity of the cutting tools 6, the user takes the cutting tool 6 according to the required quantity, and along with reduction of the cutting tools 6 in the material tray 21, the weighing component 24 weighs the total mass of the material tray 21 and the rest cutting tools 6 in real time, the control device 5 can obtain the residual quantity of the cutting tools 6 through calculation, the residual inventory of the cutting tools 6 is updated, after the knife taking action is completed, the control device 5 starts the driving assembly 23, the driving assembly 23 enables the weighing assembly 24 to be separated from the bottom surface of the material tray 21, and the bottom surface of the material tray 21 is abutted against the supporting assembly 22 again.

With the present sharps blade storage device 100, the accuracy of the inventory of blades 6 can be avoided from being guaranteed, thereby enabling production to be guaranteed.

It should be understood that above-mentioned cabinet body 1 can be placed in the storehouse, also can be placed in the workshop (the position that does not influence processing), through placing cabinet body 1 in the workshop, can save the distance that the user came and came to save the time of taking of cutting tool 6, and then improved the efficiency of production. In addition, the material tray 21 is separated from the supporting component 22 when the knife is taken, the weighing component 24 is abutted against the bottom surface of the material tray 21 so as to weigh the material tray 21 and the cutting tools 6, after the knife is taken, the weighing component 24 is separated from the bottom surface of the material tray 21, the bottom surface of the material tray 21 is abutted against the supporting component 22, and errors such as fatigue effect and creep deformation caused by the fact that the weighing component 24 is in contact with the material tray 21 for a long time can be avoided through the structure, so that the precision of the weighing component 24 is guaranteed, and the inventory accuracy of the cutting tools 6 is improved.

It should be pointed out that material dish 21 is the box-shaped structure that the top has the open end, and a plurality of cutters 6 are placed in box-shaped structure's inside, utilize box-shaped structure's lateral wall to form the spacing to cutters 6, avoid weighing in-process cutters 6 drop to guarantee the safety of cutters 6 and the safety of user's sword process of getting.

In addition, the process of the control device 5 calculating the number of blades 6 is specifically as follows:

the mass of the cutting tool 6 monomer (the calibration parameter for the cutting tool 6 leaving the factory) is g₁The mass of the material tray 21 (which can be calibrated beforehand) is g₂The total mass of the weighing assembly 24 is G and the number of knives 6 is n, calculated by the following formula:

n＝(G-g₂)/g₁

wherein G varies with the number of blades 6, so that the number of blades 6 can be obtained by measuring the current value of G by the weighing assembly 24.

Furthermore, as shown in fig. 1, a plurality of feet 3 are evenly distributed on the bottom surface of the cabinet body 1, each foot 3 can isolate the cabinet body 1 from the ground, thereby avoiding the corrosion and pollution of surface water or oil stain to the cabinet body 1, prolonging the service life of the cabinet body 1, each foot 3 is of an adjustable structure, and can meet the leveling requirements of the cabinet body 1 on different grounds, thereby improving the placing stability of the cabinet body 1.

It is further understood that the racking assembly 22, as shown in figures 4, 9 and 10, includes: a box body 222 with an opening and a cover plate 221 with a hole group, wherein the driving component 23 and the weighing component 24 are arranged in the box body 222; the cover 221 is removably mounted to the opening and the drive assembly 23 is able to extend the weighing assemblies 24 out of the aperture set and against the underside of the tray 21. The driving assembly 23 is arranged inside the box body 222, the driving assembly 23 is sealed inside the box body 222 through the cover plate 221, the weighing assembly 24 can extend out of the box body 222 through the hole group under the driving of the driving device and can also retract into the box body 222 through the hole group, when the cutting tool 6 needs to be weighed, the weighing assembly 24 extends out of the hole group and abuts against the bottom surface of the material tray 21 under the driving of the driving assembly 23 so as to weigh the mass of the material tray 21 and the cutting tool 6, when the cutting tool 6 does not need to be weighed, the driving assembly 23 drives the weighing assembly 24 to return into the box body 222 through the hole group, and at the moment, the cover plate 221 is attached to the bottom surface of the material tray 21 so as to form support for the material tray 21.

On one hand, the weighing of the mass of the material tray 21 and the cutting tool 6 can be effectively realized through the structures of the cover plate 221 and the box body 222, so that the inventory information of the cutting tool 6 is updated in real time, and the accuracy of the inventory information is ensured; on the other hand, the drive unit 23 and the weighing unit 24 are accommodated in the box 222, so that the influence of external parts on the drive unit 23 and the weighing unit 24 can be effectively avoided, and the effective use of the drive unit 23 and the weighing precision of the weighing unit 24 can be guaranteed.

It should be noted that, the connection mode between the cover plate 221 and the box body 222 may be screw connection or snap connection, and the two are connected by screws in the application, and the screw connection mode is convenient for disassembly and assembly, and has high connection strength, and the service life can be effectively prolonged.

In addition, as shown in fig. 3, in the present application, the material tray 21 is rectangular, and the shapes of the box body 222 and the cover plate 221 are the same as the shape of the material tray 21, but the size of the material tray 21 is smaller than the size of the cover plate 221, when the material tray 21 abuts against the cover plate 221, the edge of the material tray 21 has a certain distance from the edge of the cover plate 221, and the size of the cover plate 221 is larger than the size of the material tray 21, so that the phenomenon that the material tray 21 is offset and falls off in the moving process can be avoided, thereby ensuring the safety of the cutting tool 6, and ensuring the safety of the cutting tool.

Further, as shown in fig. 4, 9 and 10, the group of holes comprises: a first long hole 2211 and a second long hole 2212 arranged in parallel at an interval; the weighing assembly 24 comprises a first sensor 241 and a second sensor 242, the first sensor 241 is mounted on the driving assembly 23 and electrically connected with the control device 5, the driving assembly 23 can enable the first sensor 241 to extend out of the first long hole 2211 and abut against the bottom surface; the second sensor 242 is mounted on the driving unit 23 and electrically connected to the control device 5, and the driving unit 23 can make the second sensor 242 extend out of the second long hole 2212 and abut on the bottom surface. Specifically, the first long hole 2211 and the second long hole 2212 are arranged in parallel at an interval, the first sensor 241 can extend out of or return into the case body 222 through the first long hole 2211, and the second sensor 242 can extend out of or return into the case body 222 through the second long hole 2212. When a user needs to take a knife, the control device 5 is started, the control device 5 controls the driving assembly 23 to operate, the driving assembly 23 enables the first sensor 241 to extend out through the first long hole 2211 and abut against the bottom surface of the material tray 21, the second sensor 242 extends out through the second long hole 2212 and abuts against the bottom surface of the material tray 21, at the moment, the material tray 21 is separated from the supporting assembly 22, the first sensor 241 and the second sensor 242 form a support for the material tray 21, and meanwhile, the first sensor 241 and the second sensor 242 achieve weighing of the mass of the material tray 21 and the mass of the blades 6 in the material tray 21.

Can form the multiposition to material dish 21 through setting up first sensor 241 and second sensor 242 on the one hand and support to improved the stability of material dish 21, on the other hand can improve the precision of weighing through using two sensors to weigh the quality of material dish 21 and cutting tool 6, thereby guaranteed the accuracy of cutting tool 6 stock data.

It should be understood that the first sensor 241 and the second sensor 242 move synchronously, i.e., both extend simultaneously or both return simultaneously to the interior of the cartridge body 222.

Note that the first long hole 2211 and the second long hole 2212 have the same shape and size, and are provided in the cover plate 221 correspondingly.

Further, as shown in fig. 4, 5, 6, 9 and 10, the driving assembly 23 includes: the servo motor 233, a first shaft 237 in transmission connection with the servo motor 233 and a second shaft 238 in transmission connection with the servo motor 233, wherein the servo motor 233 is electrically connected with the control device 5; the first shaft 237 is rotatably arranged inside the box body 222 and arranged along the length direction of the first long hole 2211, a first working section 2371 is coaxially arranged in the middle of the first shaft 237, the diameter of the first working section 2371 is larger than that of the first shaft 237, the length of the first working section 2371 is smaller than or equal to that of the first long hole 2211, the outer surface of the first working section 2371 comprises a first arc surface 23711 and a first plane 23712, the first plane 23712 is arranged along the length direction of the first working section 2371, the length of the first plane 23712 is equal to that of the first working section 2371, and the first sensor 241 is arranged on the first arc surface 23711; second shaft 238 sets up in box body 222 with rotatable mode and sets up along the length direction of second slot 2212, the middle part of second shaft 238 is coaxial to be provided with second working segment 2381, the diameter of second working segment 2381 is greater than the diameter of second shaft 238, the length of second working segment 2381 is less than or equal to the length of second slot 2212, the surface of second working segment 2381 includes second cambered surface 23811 and second plane 23812, second plane 23812 sets up along the length direction of second working segment 2381 and the length of second plane 23812 is equal with the length of second working segment 2381, second sensor 242 installs in second cambered surface 23811.

Specifically, the driving assembly 23 includes a servo motor 233, and a first shaft 237 and a second shaft 238 which are respectively connected to the servo motor 233 in a transmission manner, wherein a middle section of the first shaft 237 is coaxially provided with a first working section 2371, a diameter of the first working section 2371 is larger than that of the first shaft 237, the first working section 2371 is formed by splicing a first arc surface 23711 and a first plane 23712 along an outer surface of the first working section 2371, the first plane 23712 is arranged along a length direction of the first working section 2371 and has a length equal to that of the first working section 2371, the first sensor 241 is installed on the first arc surface 23711, in a normal state, the first plane 23712 is located in the first long hole 2211 and does not protrude from an opening of the first long hole 2211 far from the box body 222, when a user performs a knife-taking operation, the servo motor 233 drives the first shaft 237 to rotate, the first working section 2371 rotates synchronously with the first shaft 237, at this time, the first plane 23712 gradually leaves the first long hole 2211 and enters the, the first arc 23711 gradually enters the first long hole 2211, the first arc 23711 can protrude out of the first long hole 2211 and be far away from the hole opening of the box body 222 along with the continuous entering of the first arc 23711, the first arc 23711 can jack up the material tray 21 attached to the cover plate 221, so that the material tray 21 is separated from the cover plate 221, the servo motor 233 controls the first shaft 237 to stop rotating after the first sensor 241 is contacted with the bottom surface of the material tray 21, the first sensor 241 and the first arc 23711 support the material tray 21, and after the knife taking action is completed, the first shaft 237 reversely rotates to return to the normal state; a second working section 2381 is coaxially arranged at the middle section of the second shaft 238, the diameter of the second working section 2381 is larger than that of the second shaft 238, the second working section 2381 is formed by splicing a second arc surface 23811 and a second plane 23812, the second plane 23812 is arranged along the length direction of the second working section 2381 and has a length equal to that of the second working section 2381, the second sensor 242 is installed on the second arc surface 23811, in a conventional state, the second plane 23812 is positioned in the second long hole 2212 and does not protrude from the opening of the second long hole 2212 far away from the box body 222, when a user carries out a knife taking operation, the servo motor 233 drives the second shaft 238 to rotate, the second working section 2381 rotates along with the second shaft 238 synchronously, at this time, the second plane 23812 gradually leaves the second long hole 2212 and enters the box body 222, the second arc surface 23811 gradually enters the second long hole 2212, and the second arc surface 23811 can protrude from the opening of the second long hole 2212 and far away from the box body 222, the second arc surface 23811 can jack up the material tray 21 attached to the cover plate 221, so that the material tray 21 is separated from the cover plate 221, the servo motor 233 controls the second shaft 238 to stop rotating after the second sensor 242 contacts the bottom surface of the material tray 21, the second sensor 242 and the second arc surface 23811 support the material tray 21, and after the knife-removing operation is completed, the first shaft 237 reversely rotates to return to the normal state.

Under the normal state, the first plane 23712 is located in the first long hole 2211, the second plane 23812 is located in the second long hole 2212, at this time, the material tray 21 is attached to the cover plate 221, the cover plate 221 supports the material tray 21, when the knife-taking action is performed, the servo motor 233 drives the first shaft 237 and the second shaft 238 to rotate synchronously, the first arc surface 23711 protrudes out of the opening of the first long hole 2211 away from the box body 222 to jack up the material tray 21, so that the first arc surface 23711 and the first sensor 241 support one side of the material tray 21, the second arc surface 23811 protrudes out of the opening of the second long hole 2212 away from the box body 222 to jack up the material tray 21, so that the second arc surface 23811 and the second sensor 242 support the other side of the material tray 21, the material tray 21 and the cover plate 221 are completely separated through the support of both sides, and thus the first sensor 241 and the second sensor 242 can be used for weighing 6 in the material tray 21 and the material tray 21, and further, the stock data of the cutting tool 6 can be updated, the accuracy of the stock data is ensured, and the production is ensured.

It should be noted that the number of the first sensors 241 is plural, each first sensor 241 is arranged at equal intervals along the axial direction of the first working section 2371, the number of the second sensors 242 is the same as the number of the first sensors 241, and the positions of the second sensors 242 correspond to the positions of the first sensors 241, respectively, and the accuracy of weighing the quality of the material tray 21 and the blades 6 in the material tray 21 can be improved by arranging the plural first sensors 241, the plural second sensors 242, the positions of the first sensors 241 and the positions of the second sensors 242, thereby ensuring the accuracy of the stock data of the blades 6.

In addition, the first sensor 241 and the second sensor are both load cells.

Specifically, as shown in fig. 4, 9 and 10, the drive assembly 23 further includes a drive gear 232: the driving gear 232 is sleeved outside a rotating shaft of the servo motor 233; the first driven gear 231 is fitted around the outside of the first shaft 237; the driving gear 232 and the first driven gear 231 are in transmission connection through a first rack 236; the second driven gear 234 is sleeved outside the second shaft 238; the driving gear 232 is in transmission connection with the second driven gear 234 through a second rack 235; the support member 22 further includes a first seat 2221 and a second seat 2222, wherein the first rack 236 and the second rack 235 are slidably mounted on the first seat 2221, and the servo motor 233 is mounted on the second seat 2222.

More specifically, a first rack 236 and a second rack 235 are arranged in parallel, the first rack 236 and the second rack 235 are simultaneously in meshing transmission with a driving gear 232, a first driven gear 231 is in meshing transmission with the first rack 236, a second driven gear 234 is in meshing transmission with the second rack 235, a servo motor 233 is started, a rotating shaft of the servo motor 233 drives the driving gear 232 to rotate, the driving gear 232 respectively enables the first rack 236 and the second rack 235 to move, the first rack 236 moves to drive the first driven gear 231 to rotate, so that the first shaft 237 is driven to rotate, further the first cambered surface 23711 jacks up the material tray 21, and the first sensor 241 is used for weighing the material tray 21 and the quality of the cutters 6 in the material tray 21; the second rack 235 moves to drive the second driven gear 234 to rotate, so as to drive the second shaft 238 to rotate, further enable the second arc surface 23811 to jack up the material tray 21, and weigh the material tray 21 and the quality of the cutting tools 6 in the material tray 21 by using the second sensor 242.

Can effectively guarantee driven accuracy through the drive mode of gear and rack looks meshing to guarantee that primary shaft 237 and secondary shaft 238 can rotate in step, and then make first cambered surface 23711 and second cambered surface 23811 can effectively jack-up material tray 21, be convenient for first sensor 241 and second sensor 242 to the measurement of material tray 21 and the interior sword utensil 6 quality of material tray 21.

It should be noted that, as shown in fig. 7, the first seat 2221 is respectively provided with: the first and second elongated slots 22211, 22212 are arranged in a parallel and staggered manner, wherein the length of the first elongated slot 22211 is greater than that of the first rack 236, the first rack 236 is slidably arranged in the first elongated slot 22211, the length of the second elongated slot 22212 is greater than that of the second rack 235, and the second rack 235 is slidably arranged in the second elongated slot 22212, the first elongated slot 22211 can guide the first rack 236, so that the moving directionality of the first rack 236 can be ensured, and the second elongated slot 22212 can guide the second rack 235, so that the moving directionality of the second rack 235 can be ensured.

Specifically, as shown in fig. 4, 9 and 10, the guide post 211 is disposed on the bottom surface, the guide hole 2213 is disposed on the cover plate 221, and the guide post 211 is movably disposed in the guide hole 2213. When the cutting tool 6 is not taken out, the material tray 21 is supported through the cover plate 221, when the cutting tool 6 is taken out, the material tray 21 is supported through the first arc surface 23711 and the second operation section 2381 of the first operation section 2371 and the second arc surface 23811, because the material tray 21 and the first arc surface 23711 and the second arc surface 23811 are in line contact, the material tray 21 is easy to transversely shift (in a direction perpendicular to the moving direction), the transverse shift of the material tray 21 can be avoided by arranging the guide pillar 211, so that the position of the material tray 21 in the moving process is ensured, the weighing component 24 is convenient to weigh the mass of the cutting tools 6 in the material tray 21 and the material tray 21, the quantity of the stored cutting tools 6 is convenient to obtain, and the accuracy of the stock data of the cutting tools 6 is ensured.

It should be noted that, the number of the guide columns 211 is plural, each guide column 211 is uniformly distributed on the bottom surface of the material tray 21, the number of the guide holes 2213 is the same as the number of the guide columns 211, the guide holes 2213 are arranged corresponding to the guide columns 211, and by arranging the plural guide columns 211 and the guide holes 2213, the moving direction of the material tray 21 can be further improved, the weighing of the cutting tools 6 by the weighing assembly 24 is ensured, so as to obtain accurate inventory data of the cutting tools 6.

Specifically, as shown in fig. 1, the number of the storage units 11 is plural, each storage unit 11 is uniformly distributed on the cabinet 1, the number of the sharps receiving devices 2 is the same as the number of the storage units 11, and the sharps receiving devices 2 are correspondingly arranged in the storage units 11. Through set up a plurality of units 11 of depositing on the cabinet body 1 to correspond in each unit 11 of depositing and be provided with cutting tool utensil accommodate device 2, can realize depositing different cutting tools 6 through a plurality of units 11 of depositing, thereby improve the variety of cutting tool 6 stocks, the use of the production process of being convenient for, and then make the continuity of production obtain the guarantee.

It should be understood that the size of each storage unit 11 can be adjusted according to actual use, that is, the size of each storage unit 11 can be equal or different, so as to meet the storage requirements of different types of blades 6.

It should be noted that the storage unit door 4 is provided at the position of the storage unit 11 in an openable and closable manner, and the storage unit door 4 is provided with an electromagnetic lock which is controlled by the control device 5 to facilitate opening and closing, thereby improving convenience in use by a user.

It is specifically understood that, as shown in fig. 1 and 11, the control device 5 includes a human-machine interaction unit 54, a control unit 53, a storage unit 56, a display unit 51 and a communication unit 55, wherein the human-machine interaction unit 54 is used for inputting user information and user requirements, the control unit 53 is used for verifying the user information, processing the user requirements and updating the stored information, the storage unit 56 is used for storing user profiles and blade information in the blade storage device 100, the display unit 51 is used for displaying the progress of the user requirements processing and displaying the current blade information in the blade storage device 100, and the communication unit 55 is used for data transmission with the remote control host 8.

When a user needs to take a knife, the user inputs user information through the man-machine interaction unit 54, the user information comprises a user name and a password, the control unit 53 compares the user name and the password input by the user with user data stored in the storage unit 56, if the comparison result is inconsistent, the authentication fails, the user can re-input the user name and the password, if the comparison result is consistent, the authentication succeeds, the user inputs user requirements through the man-machine interaction unit 54, the user requirements comprise the types of the blades 6 and the required number of each type, after receiving the user requirements, the control unit 53 formulates a knife taking sequence according to the user requirements, the control unit 53 sequentially opens the storage units 11 according to the knife taking sequence, after the first storage unit 11 is opened, the driving device positioned in the first storage unit 11 is started, the material tray 21 is separated from the supporting component 22, the weighing component 24 weighs the material tray 21 and the quantity of the blades 6 in the material tray 21, the weighing result is fed back to the control unit 53, the control unit 53 can obtain the quantity of the current blades 6 of the storage unit 11 through calculation, a user takes out the blades 6 according to the required quantity, after the blades 6 are taken out, the weighing component 24 reweighs the material tray 21 and the quantity of the blades 6 in the material tray 21 and feeds back to the control unit 53 again, so that the residual quantity of the blades 6 after the blades are taken out is obtained, after the blades 6 are taken out, the user closes the storage unit 11, the control unit 53 controls the driving component 23 to work so that the bearing component 22 supports the material tray 21, the control unit 53 sends the residual quantity of the blades 6 after the blades are taken out to the storage unit 56 to replace original inventory data, and the user carries out the blade taking operation of the next storage unit 11 according to the blade taking sequence, until the whole driving action is completed. The display unit 51 displays information such as the type of the user's knife-taking, the number corresponding to each type, the type and number of the taken knives 6, the position of the taken knife storage unit 11, the remaining amount of the knives 6 in the taken knife storage unit 11, and the like in real time during the knife-taking process of the user. The communication unit 55 may be in data communication with the control host 8, either by wired or wireless means, to facilitate control and management of the sharps blade storage device 100 by the control host 8.

It should be noted that, the user can pre-install the control software in the mobile terminal 7 (smart phone or PAD, etc.), and communicate with the communication unit 55 of the control device 5 in a wireless or limited manner, so as to implement the input of completing the user authentication and the user requirement in advance, thereby effectively improving the efficiency of the user in fetching the knife.

In addition, the control device 5 further comprises an alarm unit 57, the control unit 53 monitors the type and the number of the blades taken by the user, and when the number of the blades 6 taken out of one type is larger than the required number, the alarm unit 57 sends out an alarm signal such as sound, light, electricity and the like to remind the user of wrong operation, so that the situations of wrong taking of the blades 6 and the like are avoided.

Furthermore, the control device 5 further includes a monitoring unit 52, and the monitoring unit 52 monitors the condition of the periphery of the cutting tool storage device 100 in real time for a camera, so as to facilitate effective monitoring of the cutting tool storage device 100.

In the implementation of the cutting tool storage device 100, the method for managing and controlling the cutting tool storage device 100 includes the following steps:

inputting user information, wherein the user information comprises a user name and a password;

verifying user information, clearing input user information and returning to a user information input step if the verification fails, entering a user requirement input step if the verification is successful, specifically, screening and comparing the input user information with pre-stored user information when the user information is verified, wherein the input user information comprises a user name and a password, the user information comprises a preset user name and a preset password, if the input user name and the password are completely consistent with the preset user name and the preset password, the verification is successful, if the input user name and the password are not consistent with the preset user name and the preset password, the verification fails, and after the user verification fails, the user information can be input again for re-verification.

After the user information is successfully verified, the user inputs user requirements through the man-machine interaction unit 54, the user requirements comprise the types and the number of the cutting tools 6, the control unit 53 formulates a cutting tool taking sequence according to the user requirements, the cutting tool taking sequence is the sequence of taking the cutting tools 6 by the user, the control unit 53 sequentially opens the storage units 11 according to the cutting tool taking sequence, after the cutting tools 6 in one storage unit 11 are taken, the weighing component 24 in the storage unit 11 weighs the rest cutting tools 6, the control unit 53 obtains the rest number of the cutting tools 6 in the storage unit 11 through calculation, sends the rest number of the cutting tools 6 to the storage unit 56 to update the data of the cutting tools 6 in the storage unit 11, and the user performs cutting tool taking operation of the next storage unit 11 according to the cutting tool taking sequence until all cutting tool taking actions are completed.

Opening the storage unit 11 at the first position according to the knife taking sequence, carrying out knife taking operation according to the number of the knives, weighing the rest knives 6 of the storage unit 11 at the first position after the knife taking action of the storage unit 11 at the first position is finished, updating the number of the knives 6 in the storage unit 11 at the first position, closing the current storage unit 11, taking the knives 6 in the storage unit 11 at the next position according to the knife taking sequence until the knife taking action is finished

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A sharps storage device, comprising:

a cabinet having a storage unit;

the cutting tool accommodating device is arranged in the storage unit and comprises a supporting component, a material tray, a weighing component and a driving component, wherein the material tray is positioned on the supporting component, and the driving component can separate the material tray from the supporting component so as to contact the weighing component with the material tray, so that the cutting tools in the material tray are weighed;

and the control device is electrically connected with the driving assembly and the weighing assembly respectively.

2. The sharps storage apparatus of claim 1 wherein said holding assembly comprises:

the box body is provided with an opening, and the driving component and the weighing component are arranged in the box body;

the cover plate is detachably arranged on the opening, and the driving assembly can enable the weighing assembly to extend out of the hole group and abut against the bottom surface of the material tray.

3. The sharps storage device of claim 2, wherein said set of holes comprises: the first long hole and the second long hole are arranged in parallel at intervals;

the weighing assembly comprises:

the first sensor is arranged on the driving component and is electrically connected with the control device, and the driving component can enable the first sensor to extend out of the first long hole and abut against the bottom surface;

the second sensor is arranged on the driving assembly and electrically connected with the control device, and the driving assembly can enable the second sensor to extend out of the second long hole and abut against the bottom surface.

4. The sharps storage device of claim 3, wherein said drive assembly comprises:

the servo motor is electrically connected with the control device;

the first shaft is rotatably arranged inside the box body and arranged along the length direction of the first long hole, a first working section is coaxially arranged in the middle of the first shaft, the diameter of the first working section is larger than that of the first shaft, the length of the first working section is smaller than or equal to that of the first long hole, the outer surface of the first working section comprises a first arc surface and a first plane, the first plane is arranged along the length direction of the first working section, the length of the first plane is equal to that of the first working section, and the first sensor is arranged on the first arc surface;

with the second shaft that the servo motor transmission is connected, the second shaft with rotatable mode set up in the inside of box body and follow the length direction setting of second slot hole, the middle part of second shaft is coaxial to be provided with the second working section, the diameter of second working section is greater than the diameter of second shaft, the length of second working section is less than or equal to the length of second slot hole, the surface of second working section includes second cambered surface and second plane, the second plane is followed the length direction setting of second working section just the planar length of second with the length of second working section equals, the second sensor install in the second cambered surface.

5. The sharps storage device of claim 4, wherein said drive assembly further comprises:

the driving gear is sleeved on the outer side of a rotating shaft of the servo motor;

the first driven gear is sleeved outside the first shaft;

the driving gear and the first driven gear are in transmission connection through the first rack;

the second driven gear is sleeved outside the second shaft;

the driving gear and the second driven gear are in transmission connection through the second rack;

the racking assembly further comprises:

a first mount to which the first rack and the second rack are slidably mounted, respectively;

and the servo motor is arranged on the second seat.

6. The sharps storage apparatus of claim 5, wherein said first seats are respectively open with:

the length of the first long groove is greater than that of the first rack, and the first rack is slidably arranged in the first long groove;

a second elongated slot having a length greater than a length of the second rack, the second rack slidably disposed within the second elongated slot.

7. The sharps storage unit of claim 4 wherein said bottom surface is provided with guide posts and said cover plate is provided with guide holes, said guide posts being movably disposed within said guide holes.

8. The sharps storing apparatus of claim 7 wherein said plurality of guide posts is a plurality, each of said guide posts is evenly distributed on said bottom surface, said number of guide holes corresponds to said number of guide posts, said guide holes are disposed in correspondence with said guide posts.

9. The sharps storage unit of claim 1 wherein said storage unit is plural in number, each of said storage units being evenly distributed on said cabinet, said sharps receiving means being in number with said storage units, said sharps receiving means being correspondingly disposed within said storage units.

10. A sharps storage apparatus according to any of claims 1 to 9, wherein said control means comprises;

the human-computer interaction unit is used for inputting user information and user requirements;

the control unit is used for verifying the user information, processing the user requirement and updating the stored information;

the storage unit is used for storing user data and blade information in the blade storage device;

the display unit is used for displaying the processing progress required by the user and displaying the current blade information in the blade storage equipment;

and the communication unit is used for data transmission with the remote control host.

Images