CN213415142U

CN213415142U - Material preparation equipment

Info

Publication number: CN213415142U
Application number: CN202022577039.3U
Authority: CN
Inventors: 朱月忠; 林海; 孙亮; 董可伟; 赵子琦; 罗衍鑫
Original assignee: Jabil Circuit Wuxi Co Ltd
Current assignee: Jabil Circuit Wuxi Co Ltd
Priority date: 2020-11-09
Filing date: 2020-11-09
Publication date: 2021-06-11
Anticipated expiration: 2030-11-09

Abstract

The utility model discloses a material preparation device, which comprises a movable first material rack and a second material rack which can be matched with the first material rack for use, wherein the first material rack is provided with a first bearing plate and a first limiting component, the first bearing plate is used for placing a product and is obliquely arranged on the first material rack; the second material rack is provided with a second bearing plate for bearing the product, and the second bearing plate is arranged on the second material rack in an inclined mode so as to output the product to the workbench; the first limiting assembly has a first state and a second state, and in the first state, the first limiting assembly is arranged at the lower side of the first bearing plate to limit the product on the first bearing plate; when the first bearing plate is in the first state, the first limiting assembly releases the product from the first bearing plate and slides to the second bearing plate. According to the scheme, the labor cost can be reduced, and the working efficiency is improved.

Description

Material preparation equipment

Technical Field

The utility model relates to a processing equipment technical field especially relates to a equipment of prepareeing material.

Background

At present, the assembly of electronic products is usually accomplished on antistatic work platform, and the product need transport and transfer to the workstation through the frame of prepareeing material on, is realized through artifical transport at the in-process that shifts, so can have the problem that the human cost is higher, work efficiency is lower undoubtedly.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a prepare material equipment to reduce the human cost, and improve work efficiency.

In order to solve the above problem, the utility model adopts the following technical scheme:

the utility model provides a material preparing device, which comprises a movable first material rack and a second material rack which can be matched with the first material rack for use, wherein the first material rack is provided with a first bearing plate and a first limiting component; the second material rack is provided with a second bearing plate for bearing the product, and the second bearing plate is arranged on the second material rack in an inclined mode so as to output the product to the workbench;

the first limiting assembly has a first state and a second state, and in the first state, the first limiting assembly is arranged at the lower side of the first bearing plate to limit the product on the first bearing plate; when the first bearing plate is in the first state, the first limiting assembly releases the product from the first bearing plate and slides to the second bearing plate.

The utility model discloses a technical scheme can reach following beneficial effect:

in the material preparation equipment disclosed by the utility model, the first material rack can move, so that the product can be conveyed through the first material rack; simultaneously, first loading board slopes to set up on first work or material rest, first spacing subassembly has first state and second state, can switch first spacing subassembly to the first state when transporting the product, first spacing subassembly can be with the product restriction on first loading board, so, just can ensure that the product does not drop in the transportation process, can switch first spacing subassembly to the second state when needs shift the product to the workstation, first spacing subassembly can be with the product from first loading board release and the landing to the second loading board on, then the product just can be exported to the workstation on, so just, the smooth transfer of product has been realized.

Compared with the prior art, the utility model discloses a prepare material equipment need not artifical transport product when using, only need control the state of first spacing subassembly just can swiftly shift the product on the first work or material rest to the workstation on, can reach the technical purpose who promotes work efficiency, reduces the human cost undoubtedly.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is an isometric view of a material preparation apparatus disclosed in an embodiment of the present invention;

fig. 2 is a side view of a material preparation apparatus disclosed in an embodiment of the present invention;

fig. 3 is an axonometric view of a first rack disclosed in the embodiment of the present invention;

fig. 4 and fig. 5 are perspective views of a second material frame disclosed in the embodiment of the present invention at different viewing angles;

description of reference numerals:

100-a first rack, 110-a first bearing plate, 120-a first frame, 121-a blocking piece, 122-a guide matching piece, 130-a pedal, 131-a control end, 132-a connecting end, 140-a guide rod, 150-an anti-toppling support column,

200-a second material rack, 210-a second frame, 211-a second bearing plate, 220-a second limiting component, 230-a feeding plate, 240-a lifting mechanism, 241-a driving motor, 242-a transmission chain, 243-a screw rod, 250-an accommodating space, 260-a distribution box,

300-stage, 310-lighting assembly.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The technical solutions disclosed in the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 5, an embodiment of the present invention discloses a material preparation apparatus, which is suitable for transporting a product and quickly transferring the product to a work bench 300, so as to reduce labor cost and improve work efficiency; of course, the material preparation apparatus of the embodiment may also be applied to transportation and transfer of raw material production, processing jig, and the like, and the embodiment is not limited thereto. In the following description of the present embodiment, the product is taken as an example.

The embodiment of the utility model discloses prepare material equipment includes first work or material rest 100 and second work or material rest 200.

The first stack 100 of the present embodiment is movable, and when a product is placed on the first stack 100, the product can be transported by moving the first stack 100. Specifically, a traveling assembly may be disposed at the bottom of the first rack 100, and of course, the traveling assembly may be generally selected as a traveling wheel set, and further, the traveling wheel set is specifically a universal wheel set, so that the operation is undoubtedly more convenient when the first rack 100 is moved; the first rack 100 may be provided with a first carrier plate 110, and the first carrier plate 110 is used for placing a product.

The second stack 200 may be used in conjunction with the first stack 100, it being understood that the first stack 100 is primarily used for transporting products, and the second stack 200 may serve as a base for storing products and release the products to the work table 300 when the products are required to be processed on the work table 300, i.e., the products may be intermediately stored on the second stack 200. Specifically, the second stack 200 may be provided with a second loading plate 211, and the second loading plate 211 is used for receiving a product.

Meanwhile, the first loading plate 110 is arranged on the first material frame 100 in an inclined manner, so that when a product is on the first loading plate 110, the product can slide down from the first loading plate 110 onto the second loading plate 211, and when the product is used, the second loading plate 211 is located at a lower side of the first loading plate 110. The second loading plate 211 is disposed on the second rack 200 in an inclined manner, so that when the product is on the second loading plate 211, the product can be output from the second loading plate 211 to the workbench 300, and when the workbench 300 is used, the workbench is located at a lower side of the second loading plate 211.

In this embodiment, the inclination degree of the first loading board 110 and the second loading board 211 is not limited, for example, the first loading board 110 and the second loading board 211 can form an included angle of 15-30 degrees with the horizontal plane, and when the inclination degree of the first loading board 110 and the second loading board 211 is in this range, it is possible to achieve the sliding and the sliding speed of the product to be appropriate, it is possible to avoid the inclination degree of the first loading board 110 and the second loading board 211 to be small, so that the product is difficult to offset the received frictional resistance and cannot slide, and it is possible to avoid the inclination degree of the first loading board 110 and the second loading board 211 to be large, so that the gravity component received by the product in the sliding direction is too large and the product slides too fast, thereby causing the product. In a further alternative, the first loading plate 110 and the second loading plate 211 may be inclined at an angle of 20 ° to the horizontal plane.

Traditional frame of prepareeing material is deposited the product on it after, portable frame of prepareeing material realizes transporting the product, then need pass through artifical transport when transferring the product to workstation 300, not only inefficiency, the human cost is also higher moreover. In order to solve the above problem, the first position-limiting assembly of the present embodiment has a first state and a second state, and in the first state, the first position-limiting assembly is located at a lower side of the first carrier plate 110 to limit the product on the first carrier plate 110; in the second state, the first position-limiting component releases the product from the first carrier plate 110 and slides down onto the second carrier plate 211.

It should be understood that, since the first loading plate 110 is disposed obliquely, the product has a tendency to slide on the first loading plate 110 toward the lower side of the first loading plate 110, and it is inevitably required that the product cannot slide off the first loading plate 110 during the transportation of the product, otherwise the product may be damaged. When the first rack 100 of this embodiment transports a product, it is able to switch the first limiting component to be in the first state, and the first limiting component can limit the product on the first bearing plate 110, so as to prevent the product from slipping off from the first bearing plate 110, thereby ensuring that the product is smoothly transported.

The first material frame 100 conveys the product to the position near the front and back of the second material piece, the first bearing plate 110 can be in butt joint with the second bearing plate 211, the first limiting assembly is switched to be in the second state, and the limiting effect of the first limiting assembly on the product can be removed in the second state, so that the product can be released on the first bearing plate 110, and the product can slide onto the second bearing plate 211 due to the inclined arrangement of the first bearing plate 110, and the second bearing plate 211 is also inclined, so that the product can slide onto the workbench 300 smoothly from the second bearing plate 211.

As can be seen from the above description, in the material preparation apparatus disclosed in the embodiment of the present invention, since the first material frame 100 is movable, the transportation of the product can be realized through the first material frame 100; meanwhile, the first bearing plate 110 is arranged on the first material frame 100 in an inclined mode, the first limiting assembly has a first state and a second state, the first limiting assembly can be switched to the first state when products are conveyed, the products can be limited on the first bearing plate 110 by the first limiting assembly, and therefore the products can be prevented from falling off in the conveying process, the first limiting assembly can be switched to the second state when the products are required to be transferred to the workbench 300, the products can be released from the first bearing plate 110 by the first limiting assembly and slide onto the second bearing plate 211, then the products can be output to the workbench 300, and smooth transfer of the products is achieved.

Compared with the prior art, the embodiment of the utility model discloses a prepare material equipment need not artifical transport product when using, only need control the state of first spacing subassembly just can swiftly shift the product on the first work or material rest 100 to workstation 300, can reach the technical purpose who promotes work efficiency, reduces the human cost undoubtedly.

In order to increase the product carrying capacity of the first rack 100, the first carrying plate 110 may be provided in plurality, and correspondingly, the second carrying plate 211 may also be provided in plurality, and the number of the first carrying plate 110 is the same as that of the second carrying plate 211, so that the first carrying plate 110 and the second carrying plate 211 are in one-to-one correspondence, and when transferring the products, the products on each first carrying plate 110 may slide onto the corresponding second carrying plate 211. The specific number of the first loading plate 110 and the second loading plate 211 is not limited in this embodiment, and the number of them may be four, but may also be other numbers such as three, five, etc.

Meanwhile, in order to optimize the structural layout of the first and

second stacks

100 and 200 and improve the structural compactness thereof, the plurality of first bearing plates 110 of the embodiment may be arranged at even intervals in the height direction of the first stack 100, and the plurality of second bearing plates 211 are arranged at even intervals in the height direction of the second stack 200. Under such a configuration, the first and

second carrier plates

110 and 211 are stacked on the first and

second stacks

100 and 200, respectively, which can reduce the circumferential dimensions of the first and

second stacks

100 and 200 undoubtedly, and further improve the compactness thereof.

Because the first stack 100 has a plurality of first loading plates 110, and there is a great difficulty in limiting the products on the plurality of first loading plates 110 at the same time, based on this, the first position-limiting assembly of the embodiment may include a first frame 120 movably disposed on the first stack 100, and the moving direction is located in the height direction of the first stack 100, the first frame 120 includes a plurality of stoppers 121, the number of the stoppers 121 is the same as the number of the first loading plates 110, and the stoppers 121 are disposed on the lower side of the first loading plates 110. It should be understood that the stoppers 121 may limit the products on the first carrier plate 110, and the stoppers 121 are disposed in one-to-one correspondence with the first carrier plate 110; just because the dam 121 is located at the lower side of the first loading plate 110, the products are restricted by the dam 121 when they slide down from the lower side of the first loading plate 110.

Meanwhile, when the first limiting assembly is in the first state, the blocking member 121 limits the product on the first carrying plate 110; when the first position-limiting assembly is in the second state, the barrier 121 moves along with the first frame 120 to avoid the product, so as to release the product. Specifically, since the first frame 120 is movable on the first stack 100, the restriction state of the products by the stopper 121 can be changed by the movement of the first frame 120; when the first position-limiting assembly is in the first state, the blocking member 121 is located on the sliding path of the product, so that the product is prevented by the blocking member 121 and is further limited on the first carrying plate 110 when sliding down; when the products on the first carrier plate 110 need to be transferred to the workbench 300, the first position-limiting assembly can be switched to be in the second state, in this process, the first frame 120 is controlled to move in the height direction of the first rack 100, and the blocking member 121 also moves upward and moves away from the sliding path of the products to avoid the products, so that the products can smoothly slide from the first carrier plate 110 onto the second carrier plate 211 and finally onto the workbench 300.

After a group of products is transferred away, the first frame 120 is controlled to move downward so that the barrier member 121 is located on the sliding path of the products, and the first position-limiting assembly is switched to the first state, and at this time, the products will not fall off when the next group of products is placed on the first carrier plate 110.

In the present embodiment, the specific type of the barrier member 121 is not limited, and may be selected from a rod-shaped structural member, a block-shaped structural member, and the like. Specifically, the dam 121 may be a dam bar extending in a width direction of the first loading plate 110, so that the dam bar can dam the entire area of the first loading plate 110, thereby realizing the limitation of the maximum range of products.

In order to enable the first frame 120 to move along the height direction of the first stack 100, so as to ensure that the first frame 120 does not deflect during the moving process, and further ensure that the blocking member 121 limits the whole area of the first loading plate 110, the first stack 100 of this embodiment may include a guide rod 140 extending along the height direction thereof, the first frame 120 is provided with a guide mating member 122, and the guide mating member 122 is movably sleeved on the guide rod 140. Specifically, since the guide rod 140 extends along the height direction of the first stack 100, the guide fitting element 122 sleeved on the guide rod 140 is inevitably located in the height direction of the first stack 100 when moving, and the whole first frame 120 can move along with the guide fitting element 122 in the height direction of the first stack 100, so that the blocking element 121 moves in the height direction of the first stack 100 without being deflected.

Generally, the guiding fitting 122 is a sleeve, which is sleeved on the guiding rod 140 to have a larger contact area therebetween, so as to ensure the connection stability of the two.

As mentioned above, the first frame 120 needs to be moved to drive the blocking member 121 to move, so as to switch the state of the first position-limiting assembly, and if the first frame 120 is manually pushed to move, there is undoubtedly a problem of difficult operation. Based on this, in order to optimize the convenience of moving the first frame 120 and more conveniently switch the state of the first limiting assembly, the first limiting assembly of the embodiment may further include a pedal 130, and the pedal 130 is connected to the first frame 120, so that the pedal 130 is driven to drive the first frame 120 to move. Specifically, when one end of the pedal 130 is driven, the pedal 130 drives the first frame 120 to move in the height direction of the first stack 100, it should be understood that, usually, the pedal 130 can be swung by stepping on one end of the pedal 130, the other end of the pedal 130 drives the first frame 120 to move, and the state of the first limiting component can be switched by moving the first frame 120 in the height direction of the first stack 100.

Further, the pedal 130 has an opposite control end 131 and a connecting end 132, the pedal 130 is rotatably connected to the first frame 120 at the connecting end 132, and the bottom of the pedal 130 abuts against the first stack 100; when the control end 131 is driven, the pedal 130 performs a lever-type swing around the region of the first stack 100, so that the connecting end 132 drives the first frame 120 to move.

It should be appreciated that due to the self weight of the first frame 120, the first frame 120 will automatically be in the low position without being driven by an external force, and the blocking member 121 is located on the sliding path of the product, i.e. the first position-limiting assembly is in the first state. In the present embodiment, the movement of the first frame 120 can be realized by stepping on the pedal 130 to make the pedal 130 perform a lever-type swing. Specifically, by stepping on the control end 131 of the pedal 130, the pedal 130 performs lever-type swing with respect to the region where the first rack 100 abuts against the control end, at this time, the connection end 132 of the pedal 130 moves upward, the first frame 120 connected to the connection end 132 is driven to move upward, and since the connection end 132 of the pedal 130 is rotatably connected to the first frame 120, the connection end 132 and the first frame 120 do not generate rigid interference when interacting with each other, so that the first frame 120 can be smoothly driven to move upward in the height direction of the first rack 100, the blocking member 121 is moved away from the sliding path of the product to avoid the product, and thus the first limiting member is switched to the second state.

When the first limiting component needs to be switched to the first state, the treading force on the pedal 130 is only required to be removed. The specific configuration of the pedal 130 is not limited in this embodiment, and it is usually a plate-shaped structural member, but it may also be a plate-like structural member, and in one embodiment, the pedal 130 may be a rectangular frame constructed by a plurality of rods, the long side of the rectangular frame may be used as a lever to swing, and the short side of the rectangular frame may be used as the control end 131 to step on.

Under the condition that the second bearing plate 211 is a plurality of, the collision of product will certainly be produced when a plurality of products simultaneously from second bearing plate 211 landing to workstation 300, and operating personnel also is convenient for pick up a plurality of products simultaneously. Based on this, the second material rack 200 of the embodiment may be provided with a second frame 210, a second limiting component 220, a feeding plate 230 and a lifting mechanism 240, wherein the plurality of second bearing plates 211 are disposed on the second frame 210, the second frame 210 is movably disposed on the second material rack 200, and the moving direction is located in the height direction of the second material rack 200, that is, the plurality of second bearing plates 211 may move relative to the second material rack 200, and the moving direction is located in the height direction of the second material rack 200, so as to ensure that the second bearing plates 211 are accurately butted with the first bearing plates 110.

The lifting mechanism 240 is connected to the second frame 210 to drive the second frame 210 to move, and the lifting mechanism 240 serves as a power member capable of providing a driving effect for the movement of the second frame 210. The second position-limiting component 220 is located at the lower side of the second supporting board 211, and when the product falls from the lower side of the second supporting board 211, the product is blocked by the second position-limiting component 220, i.e. the second position-limiting component 220 can limit the product on the second supporting board 211.

Meanwhile, in the height direction of the second stack 200, the feeding plate 230 is located above the second limiting assembly 220, and when the lifting mechanism 240 drives the second frame 210 to ascend, the plurality of second bearing plates 211 can be sequentially abutted with the feeding plate 230, so that the products slide onto the feeding plate 230. It should be understood that when the first position-limiting assembly is in the second state, the products on the first supporting board 110 can be released to slide down onto the second supporting board 211, and the second position-limiting assembly 220 limits the products on the second supporting board 211; at this time, the second frame 210 can be driven to ascend by the lifting mechanism 240, and the plurality of second bearing plates 211 can be driven to ascend in the height direction of the second rack 200, because the feeding plate 230 is located above the second limiting component 220, the plurality of second bearing plates 211 can move to the upper side of the second limiting component 220 according to the sequence from top to bottom and are sequentially butted with the feeding plate 230, when each second bearing plate 211 is butted with the feeding plate 230, the products on the second bearing plate 211 can slide onto the feeding plate 230 and then slide onto the workbench 300 from the feeding plate 230.

After all the products on the second supporting plate 211 are transferred to the worktable 300, the second frame 210 may be driven to reset by the lifting mechanism 240, so that the second supporting plate 211 is again butted with the first supporting plate 110.

In this embodiment, the second rack 200 according to this embodiment can transfer a group of multiple products to the workbench 300 one by one, so that a situation that multiple products slide down to the workbench 300 at the same time can be avoided, and the purpose of protecting the products can be achieved while an operator can pick up a single product in sequence.

The specific type of the second limiting assembly 220 is not limited in this embodiment, and it may be a whole block of baffle disposed at the lower side of the second carrier plate 211, or a plurality of limiting rods extending along the height direction of the second stack 200. Further, when the second limiting component 220 is a limiting rod set extending along the height direction of the second rack 200, a guide block may be disposed on the second frame 210, and the guide block is slidably sleeved on the limiting rod set, so as to guide the movement of the second frame 210.

In this embodiment, the lifting mechanism 240 may have various types, such as a hydraulic telescopic assembly, a rack and pinion assembly, a linear motor, and the like, and in another specific embodiment, the lifting mechanism 240 may include a driving motor 241, a transmission chain 242, and a lead screw 243, an output end of the driving motor 241 is connected to the transmission chain 242, one end of the lead screw 243 is connected to the transmission chain 242, and the other end of the lead screw 243 is connected to the second frame 210, and the driving motor 241 drives the lead screw 243 to rotate through the transmission chain 242. Specifically, the driving motor 241 can drive the transmission chain 242 to rotate along the circumferential direction thereof, and the transmission chain 242 can drive the lead screw 243 to rotate, so that the second frame 210 can move up and down on the lead screw 243. It should be noted that, in order to optimize the structural layout of the second stack 200, the second frame 210 may be provided with an extension connecting block, and is connected with the lead screw 243 through the extension connecting block, and the extension connecting block is in threaded fit with the lead screw 243, so that the extension connecting block can be driven to move up and down when the lead screw 243 rotates, and then the second frame 210 can be driven to integrally lift.

In order to enable the second frame 210 to move up and down within the preset range, the material preparation equipment of this embodiment may further include a high-level optoelectronic module and a low-level optoelectronic module, the high-level optoelectronic module is configured to detect that the second frame 210 rises to a first preset position, and the low-level optoelectronic module is configured to detect that the second frame 210 falls to a second preset position; when the second frame 210 is located at the first predetermined position, the second bearing plate 211 located at the bottommost side is in butt joint with the feeding plate 230, and when the second frame 210 is located at the second predetermined position, the plurality of second bearing plates 211 are in one-to-one butt joint with the plurality of first bearing plates 110.

It should be noted that, the high-order photovoltaic module and the low-order photovoltaic module both include a light emitting device and a light sensing device, and the light sensing device can receive light emitted by the light emitting device, convert an optical signal into an electrical signal and transmit the electrical signal to a background program, and then issue a control command to the lifting mechanism 240. Specifically, when the second bearing plate 211 at the bottommost side of the second frame 210 is butted with the feeding plate 230, the lifting mechanism 240 is controlled to stop operating based on the sensing of the high-position photovoltaic module, so as to avoid potential safety hazards caused by the second frame 210 excessively rising and exceeding the driving stroke of the lifting mechanism 240; when the lifting mechanism 240 drives the second frame 210 to descend until the second carrier plate 211 is butted with the corresponding first carrier plate 110, the lifting mechanism 240 can be controlled to stop operating based on the sensing of the low-position photovoltaic module, so as to prevent the second frame 210 from excessively descending to cause the second carrier plate 211 and the second carrier plate 211 to be dislocated.

Because the first stack 100 has a certain height, especially when moving, the first stack 100 may have a risk of toppling over, and therefore, the first stack 100 of this embodiment may be provided with the anti-toppling supporting pillar 150 at the edge of the bottom thereof, and when the first stack 100 is tilted, the anti-toppling supporting pillar 150 can be abutted against the supporting surface, so as to prevent the first stack 100 from being tilted further and toppling over finally; typically, the anti-toppling support post 150 extends in a vertical direction with a small gap from the support surface to avoid contact with the support surface to interfere with movement of the first stack 100.

In order to enable the first material frame 100 and the second material frame 200 to be installed in place when being matched, so that the first bearing plate 110 and the second bearing plate 211 are accurately butted, and the first bearing plate 110 and the second bearing plate 211 are prevented from being dislocated, the second material frame 200 of this embodiment may be provided with an accommodating space 250 at a side close to the first material frame 100, and the first material frame 100 may be partially arranged in the accommodating space 250. So set up down, the second work or material rest 200 just can carry out the partial parcel to first work or material rest 100 in the circumference, and first work or material rest 100 can only pass through the opening business turn over accommodation space 250, and will be restricted by second work or material rest 200 in other directions, not only can avoid first work or material rest 100 to shift when using, also is convenient for provide the predetermined mounted position for first work or material rest 100 through accommodation space 250 to be convenient for first work or material rest 100 realizes the cooperation installation with second work or material rest 200 fast.

Further, in the aforementioned embodiment that the first material rack 100 is provided with the universal wheel set, the universal wheel set may be selected as a type with a brake switch, so that after the first material rack 100 is installed in place, the brake of the universal wheel set is realized through the brake switch, and then the first material rack 100 loses the mobility temporarily, and the transfer process of the product is prevented from being affected.

In order to obtain a good illumination environment when a product is assembled and processed on the workbench 300, the workbench 300 of the present embodiment may have an illumination assembly 310, and the light emitting direction of the illumination assembly 310 faces the workbench 300. Based on the lighting assembly 310, the working area of the workbench 300 can be compensated with light to optimize the illumination environment of the working area; generally, a bracket may be formed on the worktable 300 by extension, the bracket extends to the upper side of the worktable 300, and the illuminating assembly 310 may be disposed on the bracket with its light-emitting side facing the working area of the worktable 300.

The equipment of prepareeing material of this embodiment can also include block terminal 260, and the cable, the accessory of aforementioned driving motor 241, high-order photoelectricity module and low level photoelectricity module etc. all can be settled in block terminal 260, so can optimize the inside structural layout of the equipment of prepareeing material.

The utility model discloses what the key description in the above embodiment is different between each embodiment, and different optimization characteristics are as long as not contradictory between each embodiment, all can make up and form more preferred embodiment, consider that the literary composition is succinct, then no longer describe here.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. The material preparing equipment is characterized by comprising a movable first material rack (100) and a second material rack (200) which can be matched with the first material rack (100) for use, wherein the first material rack (100) is provided with a first bearing plate (110) and a first limiting assembly, the first bearing plate (110) is used for placing products and is obliquely arranged on the first material rack (100); the second material rack (200) is provided with a second bearing plate (211) used for bearing the products, and the second bearing plate (211) is arranged on the second material rack (200) in an inclined mode so as to output the products to the workbench (300);

the first limiting assembly has a first state and a second state, and in the first state, the first limiting assembly is arranged at the lower side of the first bearing plate (110) and limits the product on the first bearing plate (110); when the product is in the second state, the first limiting assembly releases the product from the first bearing plate (110) and slides onto the second bearing plate (211).

2. The stock preparation apparatus of claim 1, wherein the first loading plate (110) and the second loading plate (211) are both in a plurality of same number, the plurality of first loading plates (110) are arranged at regular intervals in a height direction of the first stack (100), and the plurality of second loading plates (211) are arranged at regular intervals in a height direction of the second stack (200).

3. The stock preparation apparatus of claim 2, wherein the first limiting assembly comprises a first frame (120) movably disposed on the first stack (100) and moving direction is in height direction of the first stack (100), the first frame (120) comprises a plurality of blocking pieces (121), the number of the blocking pieces (121) is the same as that of the first loading plate (110), and the blocking pieces (121) are disposed at lower side of the first loading plate (110);

when the first limiting assembly is in the first state, the barrier (121) limits the product on the first bearing plate (110); when the first limiting assembly is in the second state, the barrier (121) moves along with the first frame (120) to avoid the product so as to release the product.

4. The stock preparation apparatus of claim 3, wherein the first stack (100) comprises a guide bar (140) extending along a height direction thereof, and the first frame (120) is provided with a guide fitting member (122), and the guide fitting member (122) is movably sleeved on the guide bar (140).

5. The stock preparation apparatus of claim 3, wherein the first stop assembly further comprises a step plate (130), the step plate (130) being connected to the first frame (120); when one end of the pedal (130) is driven, the pedal (130) drives the first frame (120) to move in the height direction of the first material rack (100).

6. The stock preparation apparatus of claim 5, wherein the tread plate (130) has opposite control and connection ends (131, 132), the tread plate (130) being rotatably connected to the first frame (120) at the connection end (132), and a bottom of the tread plate (130) abutting the first stack (100); when the control end (131) is driven to move, the pedal (130) performs lever type swing around the region of the first material rack (100) abutted against the pedal, so that the connecting end (132) drives the first frame (120) to move.

7. The material preparation apparatus of claim 2, wherein the second stack (200) is provided with a second frame (210), a second limiting assembly (220), a feeding plate (230) and a lifting mechanism (240), the plurality of second bearing plates (211) are arranged on the second frame (210), the second frame (210) is movably arranged on the second stack (200), and the moving direction is located in the height direction of the second stack (200); the lifting mechanism (240) is connected with the second frame (210) to drive the second frame (210) to move;

the second limiting assembly (220) is positioned at the lower side of the second bearing plate (211) and can limit the product on the second bearing plate (211); in the height direction of the second rack (200), the feeding plate (230) is located above the second limiting component (220), and when the lifting mechanism (240) drives the second frame (210) to ascend, the plurality of second bearing plates (211) can be sequentially abutted with the feeding plate (230) so that the products slide onto the feeding plate (230).

8. The stock preparation apparatus of claim 7, wherein the lifting mechanism (240) comprises a driving motor (241), a transmission chain (242) and a lead screw (243), an output end of the driving motor (241) is connected with the transmission chain (242), one end of the lead screw (243) is connected with the transmission chain (242), the other end of the lead screw (243) is connected with the second frame (210), and the driving motor (241) drives the lead screw (243) to rotate through the transmission chain (242).

9. The stock preparation equipment of claim 7, further comprising a high-level optoelectronic module for detecting that the second frame (210) is raised to a first predetermined position and a low-level optoelectronic module for detecting that the second frame (210) is lowered to a second predetermined position; when the second frame (210) is located at the first preset position, the second bearing plate (211) located at the bottommost side is butted with the feeding plate (230), and when the second frame (210) is located at the second preset position, the plurality of second bearing plates (211) are butted with the plurality of first bearing plates (110) one by one.

10. The stock preparation apparatus of claim 1, wherein the second stack (200) is provided with a receiving space (250) at a side adjacent to the first stack (100), the first stack (100) being partially placeable in the receiving space (250).