CN219468706U - Precious metal vault lifting and conveying module - Google Patents

Abstract

The utility model discloses a precious metal vault lifting and conveying module, which is characterized by comprising a tray for placing precious metals; comprises a top moving fixing plate; the jacking translation assembly and the access chain line assembly are arranged on the jacking translation fixing plate; the jacking translation assembly drives the tray to vertically displace and horizontally displace relative to the jacking fixed plate; the in-out chain line assembly drives the tray to horizontally displace; the jacking and translating assembly drives the tray to be separated from or matched with the access chain line assembly, and the jacking and translating assembly comprises a guide part; the jacking translation assembly is driven by the first driving part, the second driving part and the third driving part; the first driving part drives the jacking translation assembly to vertically displace; the second driving part is connected with the jacking translation assembly and drives the tray to horizontally displace in the left or right direction on the jacking translation assembly; the third driving part drives the tray to horizontally displace in the forward or backward direction; the utility model has the beneficial effects of improving the transportation efficiency, realizing the steering of the tray and having small volume.

Description

Precious metal vault lifting and conveying module

Technical Field

The utility model relates to the field of precious metal vaults, in particular to a precious metal vault lifting and conveying module.

Background

The precious metal smart vault comprises a warehouse-in transmission module, a telescopic platform, a conveying channel, a warehouse lifting assembly, a warehouse-in lifting assembly, a lifting conveying module, an image module, a plastic package module and other components;

at present, precious metal ex-warehouse and warehouse-in cannot conduct intelligent calculation and prompt, efficiency is low due to the fact that storage positions are judged manually, a cabinet door is opened randomly, management is not standardized and physical damage is easily caused to articles, customized automatic checking cannot be conducted, manual checking work is tedious and errors are easy to occur, various reports cannot be automatically issued according to requirements, such as various logs, lists and inventory conditions, and in general, information management is not achieved on the existing precious metal ex-warehouse and warehouse-in, and the existing precious metal ex-warehouse-in is seriously dependent on manual work.

The telescopic table can be used for realizing left and right telescopic transportation of the tray containing the noble metal, so that the tray is placed in a noble metal vault, manual operation is avoided, and efficiency is improved; the warehouse-in conveying module can realize warehouse-in and warehouse-out conveying of the trays containing the noble metals, so that the trays are moved to the front of workers, and compared with the telescopic platform, the warehouse-in conveying module conveys the trays outside the noble metal vault, and the telescopic platform is positioned in the noble metal vault.

The in-out lifting assembly is used for lifting and conveying the noble metal in-out warehouse, and the conveying channel is used for conveying the noble metal in the noble metal vault.

The precious metal vault image module is used for photographing precious metal warehouse-in and warehouse-out, transmitting data, counting and realizing automatic counting.

When the telescopic platform is used for carrying the tray containing noble metal in a left-right telescopic manner, the tray is placed in a passageway in a noble metal vault, a noble metal vault lifting assembly is installed in the passageway, the telescopic platform is used for placing the tray on the noble metal vault lifting assembly, then the noble metal vault lifting assembly is used for transporting the tray up and down, the tray can be transported below a noble metal vault image module, and the tray is photographed by the noble metal vault image module, data transmission, statistics, grabbing and placed on a conveying channel.

The lifting and conveying module is used for steering the moving tray, so that the conveying efficiency is improved.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides the precious metal vault lifting and conveying module which has the beneficial effects of improving the conveying efficiency, realizing the steering of the tray and being small in size.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the noble metal vault lifting and conveying module comprises a tray for placing noble metals; the method is characterized in that: comprises a top moving fixing plate; the jacking translation assembly and the access chain line assembly are arranged on the jacking translation fixing plate; the jacking translation assembly drives the tray to vertically displace and horizontally displace relative to the jacking fixed plate; the in-out chain line assembly drives the tray to horizontally displace; the jacking translation assembly drives the tray to be separated from the access chain line assembly or matched with the access chain line assembly.

Through the structure, the tray is used for placing noble metals, and the lifting conveying module is used for lifting and conveying the tray, so that the tray is convenient to transfer and change in the noble metal vault; compared with the traditional assembly line transmission with an arc track, the lifting conveying module can directly change the travelling route of the tray by 90 degrees, so that the lifting conveying module has the advantages of small volume and high conveying efficiency; or the tray conveyed on the jacking and translating assembly is contacted with the access chain assembly when the jacking and translating assembly descends, and then is conveyed by the access chain assembly, and the conveying directions of the jacking and translating assembly and the access chain assembly are vertical, so that the travelling route of the tray can be changed.

The utility model is further provided with: the jacking translation assembly comprises a guide part; the jacking translation assembly is driven by the first driving part and the second driving part; the first driving part drives the jacking translation assembly to vertically displace; the second driving part is connected with the jacking translation assembly and drives the tray to horizontally displace in the left or right direction on the jacking translation assembly; the third driving part drives the tray to horizontally move in the front or rear direction.

Through the structure, the guide part is used for limiting and guiding the jacking translation assembly, the jacking translation assembly can move along the vertical direction under the drive of the first driving part, and the second driving part provides power for the horizontal movement of the tray.

The utility model is further provided with: the first driving part comprises a first motor and a first rotating shaft which is driven by the first motor through a belt; the first rotating shaft is connected with a second rotating shaft in a belt transmission manner; the two ends of the first rotating shaft and the second rotating shaft are connected with a top moving rotating arm; a top moving wheel sleeve is arranged on the top moving rotating arm; the jacking wheel sleeve is driven by external force to rotate by the axle center of the first rotating shaft or the second rotating shaft, and drives the jacking translation assembly to vertically displace.

Through the structure, the structure of the top moving rotary arm is in a flat drop shape, the axes of the first rotary shaft and the second rotary shaft are not coaxial with the top moving wheel sleeve, when the first rotary shaft and the second rotary shaft rotate, the movement track of the top moving wheel sleeve is a circle, and the center of the circle is coaxial with the first rotary shaft and the second rotary shaft; because the motion track of the jacking wheel sleeve is a circle, the object can be pushed to move up and down, and the jacking translation assembly can be driven to vertically displace under the condition of matching with the guide part structure.

The utility model is further provided with: the first rotating shaft and the second rotating shaft are provided with bearings; the bearing is connected with the bearing mounting seat, and the first rotating shaft and the second rotating shaft are mounted on the top moving fixing plate; the first motor is arranged on the top moving fixing plate through a first motor seat; the output shaft of the first motor and the first rotating shaft are fixedly provided with synchronous wheels; synchronous transmission is carried out between the synchronous wheel on the output shaft of the first motor and the synchronous wheel on the first rotating shaft through a belt; and the synchronous wheels on the first rotating shaft and the synchronous wheels on the second rotating shaft are synchronously driven by a belt.

Through the arrangement of the structure, the first rotating shaft and the second rotating shaft can rotate under the driving of the first motor, and the first rotating shaft and the second rotating shaft can mutually drive, so that the four top transfer arms rotate to lift or drive the object to descend.

The utility model is further provided with: the jacking translation assembly comprises a strip line connecting plate; the two sides of the strip line connecting plate are provided with a top moving strip line part; a plurality of top moving guide blocks matched with the top moving wheel sleeves are fixedly arranged below the strip line connecting plate; a waist-shaped hole is formed in the top moving guide block; the top moving wheel sleeve is arranged in the kidney-shaped hole, and when the first rotating shaft and the second rotating shaft rotate, the top moving wheel sleeve is driven to rotate, the positions of the top moving wheel sleeve and the kidney-shaped hole are changed, and the belt wire connecting plate is pushed to move up and down.

Through the structure setting, the top is moved the arm and is rotated, carries out lifting or drive to the object of band wire link and band wire link top and descends, and the setting in waist shape hole can make the top move the arm and rotate the time, is located waist shape downthehole always, and waist shape hole's length is greater than the top and moves the arm and rotate circular shape diameter that forms, and the top moves the guide block and is provided with four.

The utility model is further provided with: the guide part comprises a guide rod positioned below the strip line connecting plate; a guide seat is fixedly arranged on the top moving fixing plate; the guide rod is spliced with the guide seat, the guide seat is provided with a splicing hole, and the guide seat axially guides and limits the guide rod.

Through the arrangement of the structure, when the top moving rotating arm rotates to form a circle, the top moving guide block can be driven to move, the force for driving the top moving guide block to horizontally move and move up and down is provided, but the force for horizontally moving can be counteracted through the arrangement of the guide part, the limit is realized, and therefore, the top moving guide block can only be driven to move up and down.

The utility model is further provided with: the top moving belt line part comprises a belt line guide rail, belt line idler wheels and belt line driving wheels which are arranged at two ends of the belt line guide rail; the belt wire guide rail is provided with a belt wire guide bar; the belt idler pulley is arranged on the side surface of the belt guide rail through a belt tensioning plate; the belt wire driving wheel is arranged on the side surface of the belt wire guide rail through the belt wire driving plate; the top moving belt line part further comprises an annular belt line; the annular belt wire is arranged on the belt wire idler wheel and the belt wire driving wheel and is driven by the belt wire driving wheel; a belt line driving shaft is arranged between the top moving belt line parts; and two ends of the belt wire driving shaft are matched with the belt wire driving wheel and drive the belt wire driving wheel to rotate.

Through the structure setting, the structure on the belt line guide rail is characterized in that under the condition of being matched with the second driving part, the tray is conveyed, the section of the belt line guide bar is set to be -shaped with a concave, a part of the annular belt line is arranged in the concave of the belt line guide bar, the annular belt line is annular, strip-shaped protrusions are arranged in the inner ring, grooves matched with the strip-shaped protrusions are formed in the outer peripheral surfaces of the belt line idler wheel and the belt line wheel, so that when the belt line wheel rotates, the movement of the annular belt line is driven, belt transmission is realized, and because the whole top moving belt line part is supported by the top moving transfer arm, when the top moving transfer arm rotates to the lowest point, a part of the annular belt line below the belt line guide rail is not contacted with an object below.

The utility model is further provided with: the second driving part comprises a second motor; the second motor is arranged below the strip line connecting plate through the strip line motor plate; the output shaft of the second motor is connected with a second driving wheel; the belt line driving shaft is connected with a belt line driving wheel; the second driving wheel and the belt line driving wheel are in belt transmission; the end part of the belt line driving shaft penetrates through the belt line driving wheels and then is connected with the belt line driving plates in a matched mode, one belt line driving plate and two belt line tensioning plates are arranged on each belt line guide rail, and the two belt line tensioning plates are respectively arranged on two sides of the belt line guide rail, namely two sides of the belt line idler wheels.

Through the structure, the second motor of the second driving part is used for driving the driving wheel with the wire, driving the driving wheel to rotate, driving the annular belt wire to move, and moving the tray.

The utility model is further provided with: the access chain line assembly comprises access chain line parts arranged on two sides above the top moving fixing plate; the jacking translation assembly is arranged between the two access chain line parts.

Through above-mentioned structure setting, jacking translation subassembly sets up between two in and out chain line portions, when the jacking translation subassembly was to the tray lifting, can lift up the tray that is located in and out chain line subassembly, when the jacking translation subassembly drove the tray and descend, in and out chain line portion can accept the tray.

The utility model is further provided with: the access chain line part comprises an access chain line guide rail; the two ends of the access chain line guide rail are respectively connected with an access chain line idler wheel and an access chain line wheel; two parallel inlet and outlet chain line dragging bars are arranged on the inlet and outlet chain line guide rail; the access chain line part also comprises an access top moving chain line; the access top moving chain line is annularly arranged, and the access top moving chain line is matched with the access chain line idler wheel and the access chain line wheel; and the inlet and outlet chain line guide rail is provided with a channel which is convenient for the inlet and outlet top moving chain line to pass through.

Through the structure setting, the structure of the access chain line part is similar to that of the top-moving belt line part, a channel is formed on the access chain line guide rail, but the channel is not formed on the belt line guide rail, because a part of annular belt line below the belt line guide rail is not contacted with an object below, and if the access top-moving chain line does not pass through the channel, the access top-moving chain line is arranged like the annular belt line, the access top-moving chain line can be contacted with the object below, and therefore the channel is required to be arranged.

The utility model is further provided with: the inlet and outlet chain line idler wheels are arranged between inlet and outlet chain line tensioning plates arranged on two sides of the inlet and outlet chain line guide rail; the access chain line driving wheel is arranged on an access chain line driving plate arranged on one side of the access chain line guide rail; the access chain driving wheel is driven to rotate by the third driving part, so that the tray is driven to move forwards or backwards.

The utility model is further provided with: the third driving part comprises a third motor which is arranged on the side surface of the access chain line guide rail through an access chain line motor seat; the jacking translation assembly comprises an access chain driving shaft arranged between two access chain driving wheels; a third driving wheel is arranged on the output shaft of the third motor; a chain driving wheel is arranged on the inlet and outlet chain driving shaft; the third driving wheel and the chain line driving wheel are in belt transmission.

The utility model is further provided with: the access chain line assembly further comprises a first access chain line flange and a second access chain line flange; the first access chain line flange and the second access chain line flange are respectively arranged above the two access chain line guide rails; the first access chain line flange is higher than the second access chain line flange; and an access chain line limiting pad is further arranged on the first access chain line baffle edge.

Through the setting of above-mentioned structure, the setting of flange can be spacing to the tray that moves on the access chain line subassembly, prevents to break away from, and first access chain line flange is higher than the second access chain line flange for it is spacing to the tray of transportation on the jacking translation subassembly to arrive in chain line spacing pad.

The utility model is further provided with: the top moving fixing plate is provided with a speed regulator for regulating the speed of the first motor, the second motor and the third motor; the access chain line limiting pad is arranged on the side surface of the access chain wheel limiting seat; the access chain line limiting pad is provided with a plurality of access chain line limiting pads.

Drawings

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

FIG. 2 is a schematic diagram of the structure of the present embodiment;

FIG. 3 is a schematic diagram of the structure of the present embodiment (including a tray);

reference numerals: 1. a tray; 2. a top moving fixing plate; 3. a first motor; 4. a first rotating shaft; 5. a second rotating shaft; 6. a top-moving rotating arm; 7. a top-moving wheel sleeve; 8. a bearing mounting seat; 9. a first motor base; 10. a synchronizing wheel; 11. a strip line connecting plate; 12. a top moving guide block; 13. waist-shaped holes; 14. a guide rod; 15. a guide seat; 16. a belt line guide rail; 17. a belt idler; 18. a belt wire wheel; 19. a strip line guide bar; 20. a belt line tensioning plate; 21. a belt line driving plate; 22. an endless belt line; 23. a belt line drive shaft; 24. a second motor; 25. a wire-bearing motor plate; 26. a second drive wheel; 27. a belt line driving wheel; 28. an access chain guide; 29. an access chain idler; 30. an access chain line wheel; 31. a top shift chain line is accessed; 32. a channel; 33. an access chain tensioning plate; 34. an access chain drive plate; 35. a motor base for in-out chain line; 36. a third motor; 37. an access link drive shaft; 38. a third drive wheel; 39. a chain line driving wheel; 40. a first access link flange; 41. a second access link flange; 42. an access chain line limiting pad; 43. a speed regulator.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

The embodiment discloses a precious metal vault lifting and conveying module, which has the beneficial effects of improving conveying efficiency, realizing steering of a tray 1 and being small in size, and comprises the tray 1 for placing precious metals, as shown in fig. 1 to 3; comprises a top moving fixing plate 2; the jacking translation assembly and the access chain line assembly are arranged on the jacking translation fixing plate 2; the jacking translation assembly drives the tray 1 to vertically displace and horizontally displace relative to the jacking fixed plate 2; the inlet and outlet chain line assembly drives the tray 1 to horizontally displace; the jacking translation assembly drives the tray 1 to be separated from or matched with the access chain line assembly.

Through the structure, the tray 1 is used for placing noble metals, and the lifting conveying module is used for lifting and conveying the tray 1, so that the tray 1 is convenient to transfer and change in a noble metal vault; compared with the traditional assembly line transmission with an arc track, the lifting conveying module can directly change the travelling route of the tray 1 by 90 degrees, so that the lifting conveying module has the advantages of small volume and high conveying efficiency, and the lifting conveying module has the advantages that the lifting and shifting assembly and the access chain line assembly are lifted and lowered, the height of the access chain line assembly is unchanged, and the lifting and shifting assembly can lift the tray 1 positioned on the access chain line assembly, and is not conveyed by the access chain line assembly any more but conveyed by the lifting and shifting assembly; or when the jacking and translating assembly descends, the tray 1 conveyed on the jacking and translating assembly contacts with the access chain assembly and is conveyed by the access chain assembly, and the conveying directions of the jacking and translating assembly and the access chain assembly are vertical, so that the travelling route of the tray 1 can be changed.

The jacking translation assembly comprises a guide part; the jacking translation assembly is driven by the first driving part and the second driving part; the first driving part drives the jacking translation assembly to vertically displace; the second driving part is connected with the jacking translation assembly and drives the tray 1 to horizontally displace in the left or right direction on the jacking translation assembly; the third driving part drives the tray to horizontally move in the front-back direction.

Through the structure, the guide part is used for limiting and guiding the jacking translation assembly, the jacking translation assembly can move along the vertical direction under the drive of the first driving part, and the second driving part provides power for the horizontal movement of the tray 1.

The first driving part comprises a first motor 3 and a first rotating shaft 4 which is driven by the first motor 3 through a belt; the first rotating shaft 4 is connected with a second rotating shaft 5 in a belt transmission manner; the two ends of the first rotating shaft 4 and the second rotating shaft 5 are connected with a top transfer arm 6; the top transfer arm 6 is provided with a top transfer wheel sleeve 7; the jacking wheel sleeve 7 is driven by external force to rotate by the axle center of the first rotating shaft 4 or the second rotating shaft 5, and drives the jacking translation assembly to vertically displace.

Through the structure, the structure of the top moving rotary arm 6 is in a flat drop shape, the axes of the first rotary shaft 4 and the second rotary shaft 5 and the top moving wheel sleeve 7 are not coaxial, when the first rotary shaft 4 and the second rotary shaft 5 rotate, the movement track of the top moving wheel sleeve 7 is a circle, and the center of the circle is coaxial with the axes of the first rotary shaft 4 and the second rotary shaft 5; because the movement track of the jacking wheel sleeve 7 is a circle, the object can be pushed to move up and down, and the jacking translation assembly can be driven to vertically displace under the condition of matching with the guide part structure.

The first rotating shaft 4 and the second rotating shaft 5 are provided with bearings; the bearing is connected with a bearing mounting seat 8, and the first rotating shaft 4 and the second rotating shaft 5 are mounted on the top moving fixing plate 2; the first motor 3 is arranged on the top moving fixing plate 2 through a first motor 3 seat; the output shaft of the first motor 3 and the first rotating shaft 4 are fixedly provided with a synchronous wheel 10 on the second rotating shaft 5; the synchronous wheel 10 on the output shaft of the first motor 3 and the synchronous wheel 10 on the first rotating shaft 4 are synchronously driven by a belt; the synchronous wheel 10 on the first rotating shaft 4 and the synchronous wheel 10 on the second rotating shaft 5 are synchronously driven by a belt.

Through the above structure setting, the first pivot 4, the second pivot 5 can be under the drive of first motor 3 rotation, and first pivot 4, the second pivot 5 can transmission each other to make four top shift transfer arm 6 rotate, rise or drive the decline to the object.

The jacking translation assembly comprises a strip line connecting plate 11; the two sides of the strip line connecting plate 11 are provided with a top moving strip line part; a plurality of top moving guide blocks 12 matched with the top moving wheel sleeve 7 are fixedly arranged below the strip line connecting plate 11; a waist-shaped hole 13 is formed in the top moving guide block 12; the top moving wheel sleeve 7 is arranged in the kidney-shaped hole 13, and when the first rotating shaft 4 and the second rotating shaft 5 rotate, the top moving wheel sleeve 7 is driven to rotate, the positions of the top moving wheel sleeve 7 and the kidney-shaped hole 13 are changed, and the belt wire connecting plate 11 is pushed to move up and down.

Through the structure setting, the top transfer arm 6 rotates, carries out lifting or drives the decline to the object of band wire link plate 11 and band wire link plate 11 top, and waist shape hole 13's setting can make when the top transfer arm 6 rotates, is located waist shape hole 13 always, and waist shape hole 13's length is greater than the circular diameter that the rotation of top transfer arm 6 formed, and top transfer guide block 12 is provided with four.

The guide part comprises a guide rod 14 positioned below the strip line connecting plate 11; a guide seat 15 is fixedly arranged on the top moving fixing plate 2; the guide rod 14 is spliced with the guide seat 15, a splicing hole is formed in the guide seat 15, and the guide seat 15 axially guides and limits the guide rod 14.

Through the arrangement of the structure, when the jacking-moving rotary arm 6 rotates to form a circle, the jacking-moving guide block 12 can be driven to move, the jacking-moving guide block 12 is driven to horizontally move and move up and down, but through the arrangement of the guide part, the horizontally moving force can be counteracted, the limit is realized, and therefore, the jacking-moving guide block 12 can only be driven to move up and down.

The top moving belt line part comprises a belt line guide rail 16, belt line idler wheels 17 and belt line driving wheels 18 which are arranged at two ends of the belt line guide rail 16; the belt line guide rail 16 is provided with a belt line guide bar 19; the belt idler pulley 17 is arranged on the side face of the belt guide rail 16 through a belt tensioning plate 20; the belt wire driving wheel 18 is arranged on the side surface of the belt wire guide rail 16 through a belt wire driving plate 21; the top shift belt line portion further includes an endless belt line 22; the annular belt wire 22 is arranged on the belt wire idler pulley 17 and the belt wire driving wheel 18 and is driven by the belt wire driving wheel 18; a belt line driving shaft 23 is arranged between the top moving belt line parts; the two ends of the belt wire driving shaft 23 are matched with the belt wire driving wheel 18 and drive the belt wire driving wheel 18 to rotate.

With the above arrangement, the structure on the belt guide rail 16, in the case of cooperation with the second driving portion, conveys the tray 1, the section of the belt guide 19 is set to be -shaped with the recess, a part of the endless belt 22 is set in the recess of the belt guide 19, the endless belt 22 is annular, the inner ring is provided with the strip-shaped protrusion, and the outer circumferential surfaces of the belt idler pulley 17 and the belt pulley 18 are provided with the grooves cooperating with the strip-shaped protrusion, thereby realizing movement of the endless belt 22 when the belt pulley 18 rotates, realizing belt transmission because the whole top-moving belt portion is supported by the top-moving transfer arm 6, and therefore, when the top-moving transfer arm 6 rotates to the lowest point, a part of the endless belt 22 below the belt guide rail 16 is not in contact with an object below.

The second drive section includes a second motor 24; the second motor 24 is arranged below the strip line connecting plate 11 through a strip line motor plate 25; the output shaft of the second motor 24 is connected with a second driving wheel 26; the belt line driving shaft 23 is connected with a belt line driving wheel 27 in an upper key way; a belt transmission between the second driving wheel 26 and the belt line driving wheel 27; the end of the belt driving shaft 23 passes through the belt driving wheel 18 and then is connected with the belt driving plate 21 in a matched manner, each belt guide rail 16 is provided with a belt driving plate 21 and two belt tensioning plates 20, and the two belt tensioning plates 20 are respectively arranged on two sides of the belt guide rail 16, namely two sides of the belt idler wheel 17.

Through the above structure arrangement, the second motor 24 of the second driving part is used for driving the driving wheel 18 to drive the driving wheel to rotate and drive the annular belt line 22 to move, so that the tray 1 is moved.

The access chain line assembly comprises access chain line parts arranged on two sides above the top moving fixed plate 2; the jacking translation assembly is arranged between the two access chain line parts.

Through the structure setting, the jacking translation subassembly sets up between two in and out chain line portions, when jacking translation subassembly to tray 1 lifting, can lift up the tray 1 that is located in and out chain line subassembly, when jacking translation subassembly drive tray 1 decline, in and out chain line portion can accept tray 1.

The access link portion includes an access link guide 28; the two ends of the inlet and outlet chain line guide rail 28 are respectively connected with an inlet and outlet chain line idler wheel 29 and an inlet and outlet chain line wheel 30; two parallel inlet and outlet chain line dragging bars are arranged on the inlet and outlet chain line guide rail 28; the access chain line part also comprises an access top moving chain line 31; the top moving chain line 31 is arranged in a ring shape, and the top moving chain line 31 is matched with the chain line idler wheel 29 and the chain line idler wheel 30; the access chain guide 28 is provided with a channel 32 for the access top-shift chain 31 to pass through.

With the above arrangement, the in-out chain portion structure is similar to the top shift chain portion structure, the in-out chain guide 28 is provided with the passage 32, but the belt guide 16 is not provided with the passage 32, because a part of the endless belt 22 below the belt guide 16 is not in contact with the underlying object, and if the in-out top shift chain 31 is not passed through the passage 32 but is arranged like the endless belt 22, it is necessary to provide the passage 32.

The inlet and outlet chain idler wheel 29 is arranged between inlet and outlet chain tensioning plates 33 arranged at two sides of the inlet and outlet chain guide rail 28; the access link wire wheel 30 is mounted on an access link wire drive plate 34 provided on one side of the access link wire guide rail 28; the access chain wire wheel 30 is driven to rotate by the third driving part, so as to drive the access top moving chain wire 31 to move.

The third driving part comprises a third motor 36 which is arranged on the side surface of the access chain guide rail 28 through an access chain motor seat 35; the jacking translation assembly comprises an access chain drive shaft 37 arranged between two access chain drive wheels 30; a third driving wheel 38 is mounted on the output shaft of the third motor 36; a chain drive wheel 39 is mounted on the access chain drive shaft 37; the third drive wheel 38 is in belt drive with a chain drive wheel 39.

The access chain assembly further comprises a first access chain flange 40 and a second access chain flange 41; the first access chain stop 40 and the second access chain stop 41 are respectively arranged above the two access chain guide rails 28; the first access chain line flange 40 is higher than the second access chain line flange 41; the first access link stop edge 40 is further provided with an access link stop pad 42.

Through the above-mentioned structure setting, the setting of flange can be spacing to the tray 1 that moves on the access chain line subassembly, prevents to break away from, and first access chain line flange 40 is higher than second access chain line flange 41 for it is spacing to go into chain line spacing pad 42 to the tray 1 of transportation on the jacking translation subassembly.

The top moving fixing plate 2 is provided with a speed regulator 43 for regulating the speed of the first motor 3, the second motor 24 and the third motor 36; the access chain line limiting pad 42 is arranged on the side surface of the access chain wheel limiting seat; the access chain line limiting pad 42 is provided with a plurality of access chain line limiting pads.

The above embodiments are only preferred embodiments of the present utility model, and are not intended to limit the present utility model, and any modifications, equivalent substitutions, improvements, etc. within the design concept of the present utility model should be included in the scope of the present utility model.

Claims (14)

1. The noble metal vault lifting and conveying module comprises a tray for placing noble metals; the method is characterized in that: comprises a top moving fixing plate; the jacking translation assembly and the access chain line assembly are arranged on the jacking translation fixing plate; the jacking translation assembly drives the tray to vertically displace and horizontally displace relative to the jacking fixed plate; the in-out chain line assembly drives the tray to horizontally displace; the jacking translation assembly drives the tray to be separated from the access chain line assembly or matched with the access chain line assembly.

2. The precious metal vault lift transport module of claim 1, wherein: the jacking translation assembly comprises a guide part; the jacking translation assembly is driven by the first driving part and the second driving part; the first driving part drives the jacking translation assembly to vertically displace; the second driving part is connected with the jacking translation assembly and drives the tray to horizontally displace in the left or right direction on the jacking translation assembly.

3. The precious metal vault lift transport module of claim 2, wherein: the first driving part comprises a first motor and a first rotating shaft which is driven by the first motor through a belt; the first rotating shaft is connected with a second rotating shaft in a belt transmission manner; the two ends of the first rotating shaft and the second rotating shaft are connected with a top moving rotating arm; a top moving wheel sleeve is arranged on the top moving rotating arm; the jacking wheel sleeve is driven by external force to rotate by the axle center of the first rotating shaft or the second rotating shaft, and drives the jacking translation assembly to vertically displace.

4. A precious metal vault lift delivery module according to claim 3, wherein: the first rotating shaft and the second rotating shaft are provided with bearings; the bearing is connected with the bearing mounting seat, and the first rotating shaft and the second rotating shaft are mounted on the top moving fixing plate; the first motor is arranged on the top moving fixing plate through a first motor seat; the output shaft of the first motor and the first rotating shaft are fixedly provided with synchronous wheels; synchronous transmission is carried out between the synchronous wheel on the output shaft of the first motor and the synchronous wheel on the first rotating shaft through a belt; and the synchronous wheels on the first rotating shaft and the synchronous wheels on the second rotating shaft are synchronously driven by a belt.

5. The precious metal vault lift transport module of claim 4, wherein: the jacking translation assembly comprises a strip line connecting plate; the two sides of the strip line connecting plate are provided with a top moving strip line part; a plurality of top moving guide blocks matched with the top moving wheel sleeves are fixedly arranged below the strip line connecting plate; a waist-shaped hole is formed in the top moving guide block; the top moving wheel sleeve is arranged in the kidney-shaped hole, and when the first rotating shaft and the second rotating shaft rotate, the top moving wheel sleeve is driven to rotate, the positions of the top moving wheel sleeve and the kidney-shaped hole are changed, and the belt wire connecting plate is pushed to move up and down.

6. The precious metal vault lift transport module of claim 5, wherein: the guide part comprises a guide rod positioned below the strip line connecting plate; a guide seat is fixedly arranged on the top moving fixing plate; the guide rod is spliced with the guide seat, the guide seat is provided with a splicing hole, and the guide seat axially guides and limits the guide rod.

7. The precious metal vault lift transport module of claim 6, wherein: the top moving belt line part comprises a belt line guide rail, belt line idler wheels and belt line driving wheels which are arranged at two ends of the belt line guide rail; the belt wire guide rail is provided with a belt wire guide bar; the belt idler pulley is arranged on the side surface of the belt guide rail through a belt tensioning plate; the belt wire driving wheel is arranged on the side surface of the belt wire guide rail through the belt wire driving plate; the top moving belt line part further comprises an annular belt line; the annular belt wire is arranged on the belt wire idler wheel and the belt wire driving wheel and is driven by the belt wire driving wheel; a belt line driving shaft is arranged between the top moving belt line parts; and two ends of the belt wire driving shaft are matched with the belt wire driving wheel and drive the belt wire driving wheel to rotate.

8. The precious metal vault lift transport module of claim 7, wherein: the second driving part comprises a second motor; the second motor is arranged below the strip line connecting plate through the strip line motor plate; the output shaft of the second motor is connected with a second driving wheel; the belt line driving shaft is connected with a belt line driving wheel; the second driving wheel and the belt line driving wheel are in belt transmission; the end part of the belt line driving shaft penetrates through the belt line driving wheels and then is connected with the belt line driving plates in a matched mode, one belt line driving plate and two belt line tensioning plates are arranged on each belt line guide rail, and the two belt line tensioning plates are respectively arranged on two sides of the belt line guide rail, namely two sides of the belt line idler wheels.

9. The precious metal vault lift transport module of claim 8, wherein: the access chain line assembly comprises access chain line parts arranged on two sides above the top moving fixing plate; the jacking translation assembly is arranged between the two access chain line parts.

10. The precious metal vault lift transport module of claim 9, wherein: the access chain line part comprises an access chain line guide rail; the two ends of the access chain line guide rail are respectively connected with an access chain line idler wheel and an access chain line wheel; two parallel inlet and outlet chain line dragging bars are arranged on the inlet and outlet chain line guide rail; the access chain line part also comprises an access top moving chain line; the access top moving chain line is annularly arranged, and the access top moving chain line is matched with the access chain line idler wheel and the access chain line wheel; and the inlet and outlet chain line guide rail is provided with a channel which is convenient for the inlet and outlet top moving chain line to pass through.

11. The precious metal vault lift transport module of claim 10, wherein: the inlet and outlet chain line idler wheels are arranged between inlet and outlet chain line tensioning plates arranged on two sides of the inlet and outlet chain line guide rail; the access chain line driving wheel is arranged on an access chain line driving plate arranged on one side of the access chain line guide rail; the access chain driving wheel is driven to rotate by the third driving part, so that the tray is driven to move forwards or backwards.

12. The precious metal vault lift transport module of claim 11, wherein: the third driving part comprises a third motor which is arranged on the side surface of the access chain line guide rail through an access chain line motor seat;

the jacking translation assembly comprises an access chain driving shaft arranged between two access chain driving wheels; a third driving wheel is arranged on the output shaft of the third motor; a chain driving wheel is arranged on the inlet and outlet chain driving shaft; the third driving wheel and the chain line driving wheel are in belt transmission.

13. The precious metal vault lift transport module of claim 12, wherein: the access chain line assembly further comprises a first access chain line flange and a second access chain line flange; the first access chain line flange and the second access chain line flange are respectively arranged above the two access chain line guide rails; the first access chain line flange is higher than the second access chain line flange; and an access chain line limiting pad is further arranged on the first access chain line baffle edge.

14. The precious metal vault lift transport module of claim 13, wherein: the top moving fixing plate is provided with a speed regulator for regulating the speed of the first motor, the second motor and the third motor; the access chain line limiting pad is arranged on the side surface of the access chain wheel limiting seat; the access chain line limiting pad is provided with a plurality of access chain line limiting pads.