CN214526078U - Automatic storing and taking system for tire sections - Google Patents

Abstract

The utility model discloses an automatic storage and taking system of tire section, including two storage racks and the access conveyer that are used for depositing the tire section, two storage racks are located the both sides of storing the conveyer respectively, but the storage conveyer includes the lifting unit of lateral shifting's lateral shifting subassembly and liftable, and the lateral shifting subassembly sets up on lifting unit, and on the lateral shifting subassembly was arranged in to the tire section, the tire section goes up and down and lateral shifting realized the tire section and deposits the storage rack in or take out the storage rack under lifting unit and lateral shifting subassembly's effect. This automatic storage and taking system of tire section has satisfied the sectional demand of a large amount of tires of storage for the sectional storage of tire is neater orderly more, and is not mixed and disorderly, is convenient for seek, and storage and taking out conveyer's setting makes the sectional storage of tire and takes out and realize mechanization, has satisfied and has deposited the tire section on the support frame of higher department, the rational utilization of the sectional storage space of tire.

Description

Automatic storing and taking system for tire sections

Technical Field

The utility model belongs to the technical field of the access of tire section, specifically speaking relates to an automatic access system of tire section.

Background

In the tire development link, a large number of sections are cut in stages of competitive product tire analysis, trial production, quantity test and the like, and along with the increase of the number of new product development specifications and the enhancement of tire confidentiality, the requirement of a section confidential storage device is urgent. The storage mode of the current tire section mainly has three defects: 1. the tire section storage room is disordered, the storage efficiency is low, and the difficulty in changing the storage place is high; 2. the sections of products with different specifications are stacked together, and can be checked by personnel with or without inquiry authority, so that the confidentiality is poor; 3. the basic information such as section specification, trial-manufacture wheel number and the like is not recorded enough, and the secondary reference value is low.

To the above-mentioned problem, put forward the utility model discloses specially.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, an automatic storing and taking system for a tire section is proposed. In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides an automatic access system of tire section, includes two storage framves that are used for depositing the tire section and be used for depositing the storage frame or take out the storage conveyer of storage frame with the tire section, but two storage framves are located storage conveyer's both sides respectively, but storage conveyer includes lateral shifting's lateral shifting subassembly and liftable lifting unit, the lateral shifting subassembly set up in on the lifting unit, on the lateral shifting subassembly was arranged in to the tire section, the tire section goes up and down and lateral shifting realized the tire section and deposits the storage frame or takes out the storage frame under the effect of lifting unit and lateral shifting subassembly.

Preferably, the storage frame includes the riser and sets up a plurality of support frames on the riser, and a plurality of support frames are along vertical interval distribution on the riser, the support frame includes the backup pad that two intervals set up, and two backup pads are arranged respectively in to the sectional both sides of tire.

Preferably, an industrial PC is arranged outside one of the storage shelves, a limit module for identifying the authority of the person who accesses and an information input and reading module for inputting and reading the stored information of the tire section and the basic information of the tire section are arranged in the industrial PC, and the access and transportation device is in communication connection with the industrial PC.

Preferably, the storage conveyer still includes support piece, the lateral shifting subassembly set up in on the support piece, support piece set up in on the lifting unit, support piece goes up and down along with lifting unit's lift, the lateral shifting subassembly includes two parallel arrangement's lateral shifting unit, the lateral shifting unit includes first slide rail, slidable sets up the section movable plate on first slide rail, sets up the driving rack on the section movable plate, is used for driving the rotatory first motor of drive gear with the drive gear meshed's drive gear and being connected with drive gear, the driving rack set up in the downside of section movable plate, the tire section is arranged in and is removed along with the removal of section movable plate on two section movable plates of lateral shifting subassembly.

Preferably, the distance between the two outer side edges of the two section moving plates is smaller than the gap between the two oppositely arranged support plates.

Preferably, lifting unit includes two relative lifting unit that set up, lifting unit includes the second motor, with the output shaft of second motor drive shaft, set up in the driven shaft of driving shaft top, set up respectively in two driving pulley at driving shaft both ends, set up respectively in two driven pulley at driven shaft both ends and correspond two hold-in ranges that two driving pulley and two driven pulley set up, the lower extreme of hold-in range is connected on driving pulley, and the upper end correspondence of hold-in range is connected on the driven pulley that is located the driving pulley top, support piece's four corners department fixed connection respectively is on four hold-in ranges of lifting unit, and two second motor synchronous operation of lifting unit drive four hold-in ranges synchronous motion and then realize support piece's lift.

Preferably, the connection between the two driving belt wheels and the driving shaft and the connection between the two driven belt wheels and the driven shaft are both in key connection.

Preferably, the power transmission device further comprises a top plate and a bottom plate, the top plate is connected to the upper end between the two storage frames, the bottom plate is connected to the lower end between the two storage frames, and the bottom plate and the top plate are respectively provided with a fixed support used for supporting the driving shaft and the driven shaft.

Preferably, the support member is a longitudinal moving assembly, and the two transverse moving units are respectively longitudinally movably arranged on the longitudinal moving assembly to realize the adjustable distance between the two transverse moving units.

Preferably, the longitudinal movement assembly comprises a support base plate, a third motor arranged on the support base plate, a bidirectional ball screw connected with an output shaft of the third motor, two nut seats respectively connected to the bidirectional ball screw, and second slide rails respectively arranged on two sides of the bidirectional ball screw, the two nut seats are respectively provided with a fixed plate, the two transverse movement units are respectively installed on the two fixed plates, the first slide rails of the two transverse movement units are perpendicular to the bidirectional ball screw, the two nut seats move in opposite directions or move back to back under the action of the third motor and the bidirectional ball screw, so that the distance between the two transverse movement units is adjustable, and four corners of the support base plate are respectively and fixedly connected to four synchronous belts of the lifting assembly.

Preferably, the supporting baseplate is the rectangle structure, four tip of the relative both sides of supporting baseplate all are provided with the connecting plate, be provided with the promotion connecting plate of two relative settings on the connecting plate, be provided with on two relative two sides of promotion connecting plate with hold-in range complex in the cog, be provided with the hole of stepping down that supplies the hold-in range to pass on two connection plates that promote between the connecting plate, the hold-in range passes the hole of stepping down and arranges in between two promotion connecting plates, and two promotion connecting plates pass through bolt and nut fastening connection with the hold-in range.

Has the advantages that:

1. the utility model provides an automatic system of accessing of tire section includes storage frame and access conveyer, set up a plurality of sectional support frames of tire that are used for depositing on the storage frame, the support frame is arranged neatly, a large amount of sectional demands of storage have been satisfied, make the sectional storage of tire clean and tidy more orderly, not in a jumble, be convenient for seek, access conveyer's setting makes the sectional storage of tire and takes out and realize mechanizedly, satisfied and deposited the tire section on the support frame of higher department, the rational utilization of the sectional storage space of tire.

2. The support frame includes the backup pad that two intervals set up, and the interval between two backup pads can be adjusted according to the demand, has realized storing the tire section of different width.

3. The outside of storage frame is provided with the industry PC, be provided with the restriction module that is used for discerning the personnel's of acceping in the industry PC, the realization has only the personnel of authority just can access the conveyer operation through the operation of industry PC control access to the tire section, the security of tire section access has been improved, and access conveyer cooperation industry PC's information input and reading module have avoided artifical cost plenty of time to look for the problem of tire section and have avoided the problem that the secondary reference value that leads to because of tire section basic information record is not enough low.

4. The utility model provides an automatic access system of tire section realizes depositing to the tire section through the operation of access conveyer, and mechanized the tire section of depositing has improved the sectional access efficiency of tire.

5. The longitudinal movement assembly is arranged to realize that the distance between the two transverse movement units is adjustable, so that the storing and transporting device can adapt to the transportation of tire sections with different widths.

Drawings

Fig. 1 is a schematic structural view of the automatic storing and taking system for tire sections of the present invention.

Fig. 2 is a schematic structural diagram of a section of a tire supported by a support frame.

FIG. 3 is a top view of the lateral shifting assembly.

Fig. 4 is a schematic structural view of the lateral shift unit.

Fig. 5 is a schematic structural view of the longitudinal moving assembly.

Fig. 6 is a partially enlarged view of a portion a in fig. 5.

Fig. 7 is a schematic structural view of the lifting assembly.

Fig. 8 is a cross-sectional view of the lift assembly.

In the figure: 100. a storage rack; 110. a support frame; 111. a support plate; 200. a lifting assembly; 210. a second motor; 220. a drive shaft; 221. a key; 222. a driving pulley; 223. locking the nut; 230. a fixed support; 231. a rolling bearing; 232. positioning blocks; 240. a synchronous belt; 250. a driven shaft; 251. a driven pulley; 300. a longitudinal movement assembly; 310. a fixing plate; 320. a third motor; 330. a second fixed support; 340. a bidirectional ball screw; 350. a nut seat; 360. a second slide rail; 370. a support base plate; 371. a connecting plate; 372. lifting the connecting plate; 400. a lateral movement assembly; 410. a first motor; 420. a transmission gear; 430. a first slide rail; 440. moving the section; 500. a base plate; 600. an industrial PC machine; 700. a top plate; 800. and (4) tire section.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the following description, together with the drawings of the present invention, clearly and completely describes the technical solution of the present invention, and based on the embodiments in the present application, other similar embodiments obtained by those skilled in the art without creative efforts shall all belong to the protection scope of the present application.

As shown in fig. 1, the automatic tire section storing and taking system provided in this embodiment includes two storage racks 100 for storing tire sections 800 and a storing and taking device for storing tire sections 800 in the storage racks 100 or taking out the storage racks 100, the two storage racks 100 are respectively located at two sides of the storing and taking device, the storing and taking device includes a support, a lateral moving assembly 400 capable of moving laterally and a lifting assembly 200 capable of lifting, the lateral moving assembly 400 is disposed on the support, the support is disposed on the lifting assembly 200, the support is lifted and lowered along with the lifting assembly 200, the tire sections 800 are disposed on the lateral moving assembly 400, and the tire sections 800 are lifted and moved laterally under the actions of the lifting assembly 200 and the lateral moving assembly 400 to store the tire sections 800 in the storage racks 100 or take out the storage racks 100.

As shown in fig. 1 and 2, the storage rack 100 includes a vertical plate and a plurality of support frames 110 disposed on the vertical plate, the plurality of support frames 110 are vertically spaced apart on the vertical plate, when the tire section 800 is stored on the support frame 110, first, the tire section 800 is placed on the transverse moving assembly 400, the lifting assembly 200 is operated, the transverse assembly carries the transverse moving assembly 400 to a position corresponding to the support frame 110 under the action of the lifting assembly 200, and the transverse moving assembly 400 transversely moves to transfer the tire section 800 onto the support frame 110.

The support frame 110 includes two support plates 111 disposed at an interval, and two sides of the tire section 800 are disposed on the two support plates 111, respectively. Further, backup pad 111 is L shape structure, and two backup pads 111 set up relatively, and the diaphragm of backup pad 111 is used for placing tire section 800, and the riser of backup pad 111 is used for restricting that tire section 800 from moving about, prevents that tire section 800 from taking place the condition that drops, and interval between two backup pads 111 can be adjusted according to the demand, realizes storing the tire section 800 of different width. One end of the supporting plate 111 is provided with a fixed connection plate 371, the supporting plate 111 is connected on the vertical plate through the fixed connection plate 371, and the supporting plate 111 and the fixed connection plate 371 are matched to form a T-shaped structure.

Further, an industrial PC 600 is arranged outside one of the storage shelves 100, a limit module for identifying the authority of the person accessing and storing and an information inputting and reading module for inputting and reading the stored information of the tire section 800 and the basic information of the tire section 800 are arranged in the industrial PC 600, and the access and transportation device is in communication connection with the industrial PC 600. The arrangement realizes that only authorized personnel can access the tire section 800 by controlling the access transportation device to operate through the industrial PC 600, improves the access security of the tire section 800, and avoids the problem that the access transportation device is matched with an information input and reading module of the industrial PC 600 to manually spend a large amount of time to search the tire section 800 and the problem that the secondary reference value is low due to insufficient record of basic information of the tire section 800.

As shown in fig. 3 and 4, the traverse assembly 400 includes two traverse units arranged in parallel, each traverse unit includes a first slide rail 430, a section moving plate 440 slidably arranged on the first slide rail 430, a driving rack arranged on the section moving plate 440, a driving gear 420 engaged with the driving rack, and a first motor 410 connected to the driving gear 420 for driving the driving gear 420 to rotate, the driving rack is arranged at the lower side of the section moving plate 440, and the tire section 800 is arranged on the two section moving plates 440 of the traverse assembly 400 and moves along with the movement of the section moving plate 440. The distance between the two outer sides of the two section moving plates 440 is smaller than the gap between the two oppositely arranged support plates 111, so that the tire section 800 can be smoothly placed on the support frame 110 by the transverse moving assembly 400, the tire section 800 carried by the transverse moving assembly 400 moves to a position between the two support plates 111, at this time, the two section moving plates 440 are positioned between the two support plates 111, and the section moving plates 440 descend under the action of the lifting assembly 200 to place the tire section 800 on the support frame 110.

As shown in fig. 1, 7 and 8, the lifting assembly 200 includes two lifting units oppositely disposed, each of the lifting units includes a second motor 210, a driving shaft 220 connected to an output shaft of the second motor 210, set up in driven shaft 250 above driving shaft 220, set up respectively in two driving pulley 222 at driving shaft 220 both ends, set up respectively in two driven pulley 251 at driven shaft 250 both ends and correspond two hold-in ranges 240 that two driving pulley 222 and two driven pulley 251 set up, the lower extreme of hold-in range 240 is connected on driving pulley 222, the upper end of hold-in range 240 corresponds to be connected on the driven pulley 251 that is located driving pulley 222 top, support piece's four corners department fixed connection respectively is on four hold-in ranges 240 of lifting unit 200, two second motor 210 synchronous operation of lifting unit 200 drive four hold-in ranges 240 synchronous motion and then realize support piece's lift.

Further, the automatic tire section storing and taking system further includes a top plate 700 and a bottom plate 500, the top plate 700 is connected to the upper end between the two storage shelves 100, the bottom plate 500 is connected to the lower end between the two storage shelves 100, and the bottom plate 500 and the top plate 700 are respectively provided with a fixing support 230 for supporting the driving shaft 220 and the driven shaft 250. Two ends of the driving shaft 220 are respectively installed in a fixed support 230 on the base plate 500 through rolling bearings 231, a positioning block 232 for limiting the position of the rolling bearings 231 is further arranged in the fixed support 230, and locking nuts 223 are respectively arranged on the opposite outer sides of the two driving pulleys 222 on the driving shaft 220. The installation structure of the driven shaft 250 is the same as that of the driving shaft 220, and thus, a detailed description thereof is omitted. The connection of the two driving pulleys 222 to the driving shaft 220 and the connection of the two driven pulleys 251 to the driven shaft 250 are both key 221 connections.

Two side plates can be further arranged between the two vertical plates, so that the two vertical plates, the two side plates, the top plate 700 and the bottom plate 500 are matched to form a box body structure, a door for operators to go in and out is arranged on the side plates, the opening and closing lock of the door is controlled by the industrial PC 600, and the arrangement further ensures the airtightness and confidentiality of the storage of the tire section 800.

Further, the supporting member may be a single plate-shaped structure or other structures, and as a preferred feature of the present embodiment, the supporting member is the longitudinal moving assembly 300, and the two lateral moving units are respectively and longitudinally movably disposed on the longitudinal moving assembly 300 to achieve adjustable distance between the two lateral moving units, so that the storing and transporting device can be adapted to transport tire sections 800 with different widths.

As shown in fig. 5 and 6, the longitudinal moving assembly 300 includes a supporting base plate 370, a third motor 320 disposed on the supporting base plate 370, a bidirectional ball screw 340 connected to an output shaft of the third motor 320, two nut seats 350 respectively connected to the bidirectional ball screw 340, and second slide rails 360 respectively disposed at two sides of the bidirectional ball screw 340, two oppositely disposed second fixed supports 330 are disposed on the supporting base plate 370, two ends of the bidirectional ball screw 340 are rotatably disposed on the second fixed supports 330, a fixed plate 310 is disposed on each of the two nut seats 350, two transverse moving units are respectively mounted on the two fixed plates 310, first slide rails 430 of the two transverse moving units are disposed perpendicular to the bidirectional ball screw 340, the two nut seats 350 move towards or away from each other under the action of the third motor 320 and the bidirectional ball screw 340 to achieve adjustable distance between the two transverse moving units, the four corners of the supporting base plate 370 are respectively and fixedly connected to the four synchronous belts 240 of the lifting assembly 200.

Further, supporting baseplate 370 is the rectangle structure, four tip of the relative both sides of supporting baseplate 370 all are provided with connecting plate 371, be provided with the promotion connecting plate 372 of two relative settings on connecting plate 371, be provided with on two relative faces of promotion connecting plate 372 with hold-in range 240 complex in-cogged, be provided with the hole of stepping down that supplies hold-in range 240 to pass on two connection plates 371 that promote between the connecting plate 372, hold-in range 240 passes the hole of stepping down and arranges in between two promotion connecting plates 372, two promote connecting plate 372 and pass through bolt and nut fastening connection with hold-in range 240.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. The utility model provides an automatic system of access of tire section, its characterized in that includes two storage framves that are used for depositing the tire section and is used for depositing the tire section in the storage frame or take out the access conveyer of storage frame, and two storage framves are located the both sides of storing conveyer respectively, but the storage conveyer includes lateral shifting's lateral shifting subassembly and the lifting unit of liftable, the lateral shifting subassembly set up in on the lifting unit, on the lateral shifting subassembly was arranged in to the tire section, the tire section goes up and down and lateral shifting realized the tire section and deposits the storage frame or takes out the storage frame under the effect of lifting unit and lateral shifting subassembly.

2. The automatic storing and taking system for the tire sections as claimed in claim 1, wherein the storage rack comprises a vertical plate and a plurality of supporting frames arranged on the vertical plate, the supporting frames are distributed on the vertical plate at intervals along the vertical direction, the supporting frames comprise two supporting plates arranged at intervals, and two sides of the tire sections are respectively arranged on the two supporting plates.

3. The automatic tire section access system according to claim 1, wherein an industrial PC is provided outside one of the storage shelves, a restriction module for identifying the authority of an access person and an information input and read module for inputting and reading the tire section storage information and the tire section basic information are provided in the industrial PC, and the access transportation device is in communication connection with the industrial PC.

4. The automated tire section access system of claim 1, wherein the storage and transport device further comprises a support member, the transverse moving component is arranged on the supporting component, the supporting component is arranged on the lifting component, the supporting component is lifted along with the lifting component, the transverse moving component comprises two transverse moving units which are arranged in parallel, each transverse moving unit comprises a first slide rail, a section moving plate which is arranged on the first slide rail in a sliding way, a transmission rack which is arranged on the section moving plate, a transmission gear which is meshed with the transmission rack and a first motor which is connected with the transmission gear and is used for driving the transmission gear to rotate, the transmission rack is arranged on the lower side of the section moving plates, and the tire sections are arranged on the two section moving plates of the transverse moving assembly and move along with the movement of the section moving plates.

5. The automatic tire section access system of claim 4, wherein said lifting assembly comprises two oppositely disposed lifting units, the lifting unit comprises a second motor, a driving shaft connected with an output shaft of the second motor, a driven shaft arranged above the driving shaft, two driving belt wheels respectively arranged at two ends of the driving shaft, two driven belt wheels respectively arranged at two ends of the driven shaft and two synchronous belts arranged corresponding to the two driving belt wheels and the two driven belt wheels, the lower end of the synchronous belt is connected with the driving belt wheel, the upper end of the synchronous belt is correspondingly connected with the driven belt wheel positioned above the driving belt wheel, the four corners of the supporting piece are respectively and fixedly connected to the four synchronous belts of the lifting assembly, and the two second motors of the lifting assembly synchronously run to drive the four synchronous belts to synchronously move so as to realize the lifting of the supporting piece.

6. The automatic tire section storing and taking system as claimed in claim 5, further comprising a top plate and a bottom plate, wherein the top plate is connected to the upper end between the two storage racks, the bottom plate is connected to the lower end between the two storage racks, and the bottom plate and the top plate are respectively provided with a fixed support for supporting the driving shaft and the driven shaft.

7. The system for automatically storing and taking out tire sections as claimed in claim 5, wherein the support member is a longitudinal moving assembly, and the two lateral moving units are respectively and longitudinally movably arranged on the longitudinal moving assembly to realize the distance adjustment between the two lateral moving units.

8. The automatic tire section storage and retrieval system of claim 7, wherein the longitudinal movement assembly includes a support base plate, a third motor disposed on the support base plate, two-way ball with the output shaft of third motor, connect respectively in two nut seats on the two-way ball and set up respectively in the second slide rail of two-way ball both sides, all be provided with the fixed plate on two nut seats, two lateral shifting units install respectively on two fixed plates, two lateral shifting unit's first slide rail with two-way ball sets up perpendicularly, and two nut seats move towards each other under the effect of third motor and two-way ball or move back to each other and realized that the distance between two lateral shifting units is adjustable, the four corners department of bottom plate is fixed connection respectively on four synchronizing bands of lifting unit.

9. The automatic tire section storing and taking system according to claim 8, wherein the supporting base plate is of a rectangular structure, four ends of two opposite sides of the supporting base plate are provided with connecting plates, two oppositely arranged lifting connecting plates are arranged on the connecting plates, two opposite sides of the two lifting connecting plates are provided with inner cogs matched with the synchronous belt, a yielding hole for the synchronous belt to pass through is arranged on the connecting plate between the two lifting connecting plates, the synchronous belt passes through the yielding hole and is arranged between the two lifting connecting plates, and the two lifting connecting plates and the synchronous belt are connected through bolt and nut in a fastening manner.

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