CN115092600B

CN115092600B - Overlength spare storage facilities in oxidation workshop

Info

Publication number: CN115092600B
Application number: CN202211037599.7A
Authority: CN
Inventors: 廖敏笙; 魏东新; 钟建; 钟广锋; 廖文川
Original assignee: Guangzhou Naide Industrial Co ltd
Current assignee: Guangzhou Naide Industrial Co ltd
Priority date: 2022-08-29
Filing date: 2022-08-29
Publication date: 2022-11-15
Anticipated expiration: 2042-08-29
Also published as: CN115092600A

Abstract

The invention relates to a storage device for overlength pieces in an oxidation production workshop, which comprises: the fixing plate is fixedly arranged on the base and symmetrically arranged, a through groove is formed in the fixing plate, and a transverse plate is fixed on the fixing plate; be provided with the multiunit that is used for placing overlength piece on the base and accept the board, be provided with on the base and accept board fixed connection's guide assembly, be provided with on the diaphragm and accept the pole, still be provided with on the diaphragm and be used for accepting the actuating mechanism that the board position just was connected with accepting the pole through guide assembly adjustment, be provided with the supporting component who is used for supporting guide assembly on the fixed plate, be provided with on the base and be used for adjusting accepting the pole position so that the stopper of actuating mechanism and guide assembly separation, still be provided with the gag lever post on the base, be provided with the adjustment mechanism who is connected with gag lever post and stopper on the diaphragm.

Description

Overlength spare storage facilities in oxidation workshop

Technical Field

The invention relates to the field of storage, in particular to an overlong piece storage device in an oxidation production workshop.

Background

The oxidation production workshop is used for electroplating metal, and the production processes are generally surface leveling, hanging, chemical degreasing, cleaning, neutralization, cleaning, alkaline etching, cleaning, anodic oxidation, cleaning, dyeing or electrolytic coloring, cleaning, sealing, mechanical brightening, inspection and storage.

In terms of storage, a workshop can produce some overlong pieces, certain requirements are met for storage, the traditional storage equipment is generally a simple storage rack, workers are required to manually carry the overlong pieces to the rack, and the storage difficulty is increased due to the fact that the height of the rack cannot be adjusted generally, so that the overlong piece storage equipment for the oxidation production workshop is provided.

Disclosure of Invention

The invention aims to provide a storage device for overlength pieces in an oxidation production workshop, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an overlength storage apparatus of an oxidation production plant, comprising:

the fixing plate is fixedly arranged on the base and symmetrically provided with through grooves, and a transverse plate is fixedly arranged on the fixing plate;

be provided with the multiunit that is used for placing overlength piece on the base and accept the board, be provided with on the base and accept board fixed connection's guide assembly, be provided with on the diaphragm and accept the pole, still be provided with on the diaphragm and be used for accepting the actuating mechanism that the board position just was connected with accepting the pole through the guide assembly regulation, be provided with the supporting component who is used for supporting guide assembly on the fixed plate, be provided with on the base and be used for adjusting accepting the pole position so that actuating mechanism and guide assembly separation's stopper, still be provided with the gag lever post that is used for adjusting the accepting pole position through actuating mechanism on the base, be provided with the adjustment mechanism who is connected with gag lever post and stopper on the diaphragm.

As a further scheme of the invention: the guide assembly comprises a fixed rod which is fixedly arranged on the base and symmetrically arranged, a plurality of groups of supporting sleeves which are movably arranged on the fixed rod, a supporting rod which is fixedly arranged on the supporting sleeve and clamped with the through grooves, the supporting rod is connected with the supporting assembly and the driving mechanism, and the supporting sleeve is fixedly connected with the bearing plate.

As a still further scheme of the invention: the driving mechanism comprises a second motor fixedly mounted on the transverse plate, belt wheels which are rotatably mounted on the transverse plate and symmetrically arranged, and a conveying belt sleeved on the belt wheels, wherein an elastic assembly connected with the supporting rod is arranged on the conveying belt, the elastic assembly is fixedly connected with the bearing rod, and one belt wheel is connected with a second motor output shaft.

As a still further scheme of the invention: the elastic component comprises a supporting plate fixedly installed on the conveying belt, a hollow rod fixedly installed on the supporting plate and symmetrically arranged, and a first spring fixedly installed in the hollow rod, wherein a limiting structure connected with the hollow rod is arranged on the transverse plate, and the limiting structure is connected with the supporting rod and fixedly connected with the bearing rod.

As a still further scheme of the invention: the limiting structure comprises a movable rod, a clamping groove, a movable block, a second spring and a support rod, wherein the movable rod is movably installed in the hollow rod and is fixedly connected with a first spring, the clamping groove is formed in the hollow rod and is clamped with the receiving rod, the movable block is movably installed in the movable rod and is intermittently clamped with the clamping groove, the second spring is installed in the movable rod and is abutted against the movable block, and the movable rod is intermittently abutted against the support rod.

As a still further scheme of the invention: the supporting component comprises a plurality of groups of fixed sleeves which are fixedly arranged on the fixed plate and are arranged at equal intervals, supporting blocks which are movably arranged in the fixed sleeves and are abutted to the supporting rods, and third springs which are fixedly arranged in the fixed sleeves and are fixedly connected with the supporting blocks.

As a still further scheme of the invention: the adjusting mechanism comprises a first motor fixedly mounted on the transverse plate, a transmission rod rotatably mounted on the transverse plate and connected with an output shaft of the first motor, a first guide groove and a second guide groove formed in the transmission rod, a guide assembly connected with the transmission rod is arranged on the base, and the guide assembly is fixedly connected with a limiting block and a limiting rod.

As a still further scheme of the invention: the guide assembly comprises a guide rod, a guide sleeve, a clamping structure, a guide sleeve and a limiting rod, wherein the guide rod is fixedly installed on the base and symmetrically arranged, the guide sleeve and the guide sleeve are movably installed on the guide rod, the clamping structure is arranged on the base and connected with the guide sleeve and the guide sleeve, the guide sleeve is fixedly connected with the limiting rod, and the clamping structure is connected with the limiting block.

As a still further scheme of the invention: the clamping structure comprises a movable sleeve movably mounted on the transmission rod, a first protrusion fixedly mounted on the movable sleeve and clamped with a guide groove, and a second movable sleeve movably mounted on the transmission rod, wherein the second protrusion is fixedly mounted on the second movable sleeve and clamped with the guide groove, and the first movable sleeve is fixedly connected with the limiting block.

Compared with the prior art, the invention has the beneficial effects that: this application can place back on accepting the board at overlength piece, accept the position of board through the regulation, realize the purpose of a plurality of overlength piece storage, actuating mechanism works, and accept the board through the guide assembly drive and move to supporting component on, and under adjustment mechanism's effect, adjust the position of stopper, thereby utilize the position of accepting the pole and adjusting actuating mechanism, make actuating mechanism and guide assembly separation, will accept the board and transport to required position, and simultaneously, adjustment mechanism still can drive actuating mechanism through the gag lever post and move, make the bracing piece get back to initial position, and drive the guide assembly motion once more, repeat above-mentioned step, in order to realize the storage to overlength piece.

Drawings

FIG. 1 is a schematic diagram of an embodiment of an extra-long article storage facility in an oxidation production plant;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of a half-section of an embodiment of an extra-long storage facility of an oxidation plant;

FIG. 4 is an exploded view of a part of the adjusting mechanism, the limiting block and the limiting rod in an embodiment of the storage equipment for the ultra-long pieces in the oxidation production workshop;

FIG. 5 is a schematic view showing a part of a driving mechanism in an embodiment of an extra-long storage facility in an oxidation plant;

FIG. 6 is a schematic view of a partial half-section of an embodiment of an extra-long storage facility of an oxidation plant;

FIG. 7 is a schematic view showing a connection relationship between a part of the driving mechanism and a part of the adjusting mechanism in an embodiment of the extra-long storage facility in the oxidation production plant;

FIG. 8 is a schematic view of a partial explosion in an embodiment of an extra-long storage facility in an oxidation plant;

FIG. 9 is a schematic structural diagram of a fixing plate and a supporting member in an embodiment of the storage apparatus for ultra-long parts in an oxidation production plant.

In the figure: 1. a base; 2. a fixing plate; 3. a transverse plate; 4. a fixing rod; 5. a support sleeve; 6. a bearing plate; 7. a through groove; 8. a support bar; 9. a first motor; 10. a transmission rod; 11. a first guide groove; 12. a second guide groove; 13. a first movable sleeve; 14. a limiting block; 15. a first guide sleeve; 16. a first bump; 17. a guide bar; 18. a second movable sleeve; 19. a second guide sleeve; 20. a limiting rod; 21. a second motor; 22. a conveyor belt; 23. a support plate; 24. a hollow shaft; 25. a movable rod; 26. a card slot; 27. a first spring; 28. a movable block; 29. a second spring; 30. a carrying rod; 31. a second bump; 32. fixing the sleeve; 33. a third spring; 34. and (6) supporting the block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In addition, an element described herein as being "secured to" or "disposed on" another element may be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Referring to fig. 1~9, in an embodiment of the present invention, an apparatus for storing very long parts in an oxidation production plant includes:

the device comprises a base 1 and fixing plates 2 which are fixedly arranged on the base 1 and symmetrically arranged, wherein through grooves 7 are formed in the fixing plates 2, and transverse plates 3 are fixedly arranged on the fixing plates 2;

referring to fig. 1 and 3, a plurality of receiving plates 6 for placing the ultra-long part are arranged on the base 1, a guiding assembly fixedly connected with the receiving plates 6 is arranged on the base 1, the guiding assembly comprises fixing rods 4 fixedly mounted on the base 1 and symmetrically arranged, a plurality of supporting sleeves 5 movably mounted on the fixing rods 4, and supporting rods 8 fixedly mounted on the supporting sleeves 5 and clamped with the through grooves 7, the supporting rods 8 are connected with the supporting assemblies and the driving mechanisms, and the supporting sleeves 5 are fixedly connected with the receiving plates 6.

It should be noted that, the length of accepting board 6 is greater than the length of overlength piece, in order to facilitate the storage of overlength piece, under the initial condition, under the effect of gravity, make every supporting sleeve 5 laminate each other, at this moment, the interval between accepting board 6 is minimum, in order to facilitate the overlength piece to place on accepting board 6, when needing to store overlength piece, under actuating mechanism's effect this moment, drive bracing piece 8 motion, and drive supporting sleeve 5 along the length direction motion of dead lever 4, in order to drive the board 6 that accepts that is located the top and placed the overlength piece and move to required position, at this moment, can place overlength piece again and next accept on board 6.

Referring to fig. 1, 3, and 5-8, a horizontal plate 3 is provided with a receiving rod 30, the horizontal plate 3 is further provided with a driving mechanism for adjusting the position of the receiving plate 6 through a guiding component and connected to the receiving rod 30, the driving mechanism includes a second motor 21 fixedly mounted on the horizontal plate 3, pulleys symmetrically mounted on the horizontal plate 3, a conveyor belt 22 sleeved on the pulleys, the conveyor belt 22 is provided with an elastic component connected to the support rod 8, the elastic component is fixedly connected to the receiving rod 30, one of the pulleys is connected to an output shaft of the second motor 21, the elastic component includes a support plate 23 fixedly mounted on the conveyor belt 22, hollow rods 24 fixedly mounted on the support plate 23 and symmetrically disposed, a first spring 27 fixedly mounted in the hollow rods 24, the horizontal plate 3 is provided with a limiting structure connected to the support rod 8 and fixedly connected to the receiving rod 30, the limiting structure includes a movable rod 25 movably mounted in the hollow rods 24 and fixedly connected to the first spring 27, a support rod 26 opened in the hollow rods 24 and clamped to the receiving rod 30, a support rod 25 movably mounted in the movable rod 25 and abutted to the movable rod 25, and a second spring 28, and an intermittent block 28 mounted in the movable block and abutted to the movable rod 25.

Further, the tip of movable block 28 is circular-arc setting, under the initial condition, spring 27 is in normal condition, movable rod 25 is located the stroke end of keeping away from cavity pole 24, movable block 28 is in the separation state with draw-in groove 26, and with the inner wall butt of cavity pole 24, no. two spring 29 is in compression state, when needs are adjusted and are accepted board 6 position, no. two motor 21 works this moment, and through the motion of band pulley drive conveyer belt 22, thereby drive backup pad 23 motion, backup pad 23 still can drive movable rod 25 motion through cavity pole 24, when movable rod 25 moves to 8 butt positions with the bracing piece, drive bracing piece 8 motion, thereby the drive is accepted board 6 motions.

Referring to fig. 1 and 9, a fixed plate 2 is provided with a supporting assembly for supporting the guiding assembly, a base 1 is provided with a limiting block 14 for adjusting the position of the receiving rod 30 to separate the driving mechanism from the guiding assembly, the base 1 is further provided with a limiting rod 20 for adjusting the position of the receiving rod 30 through the driving mechanism, the supporting assembly includes a plurality of sets of fixed sleeves 32 fixedly mounted on the fixed plate 2 and arranged at equal intervals, supporting blocks 34 movably mounted in the fixed sleeves 32 and abutted to the supporting rods 8, and third springs 33 fixedly mounted in the fixed sleeves 32 and fixedly connected to the supporting blocks 34.

Still further, the end of the limiting rod 20 is arc-shaped, the end of the supporting block 34 and the limiting block 14 are inclined, in the initial state, the movable rod 25 is located at the end of the stroke in the direction of the base 1, at this time, the movable block 28 and the slot 26 are in the engaged state, the receiving rod 30 is located at the end of the stroke in the direction of the supporting plate 23, the first spring 27 is in the compressed state, in order to ensure that the movable rod 25 is always abutted against the uppermost supporting rod 8, when it is necessary to control the separation of the movable block 28 and the slot 26, the position of the movable rod 25 is located, the conveyor belt 22 moves and drives the movable rod 25 and the movable block 28 to move, when the movable block 28 moves to the position abutted against the limiting rod 20, the movable block 28 is driven to move towards the movable rod 25 under the action of the limiting rod 20, the arc surface of the movable block 28 is abutted against the slot 26, and the first spring 27 is elastically released, and drives the movable rod 25 and the carrying rod 30 to move towards the direction far away from the hollow rod 24, at this time, the movable rod 25 just moves to the gap between the uppermost supporting rod 8 and the supporting rod 8 below the uppermost supporting rod and enters the gap, the conveyor belt 22 continues to move, so that the supporting rod 8 is driven by the movable rod 25 to move towards the direction far away from the base 1, when the supporting rod 8 moves to the position abutting against the inclined surface of the supporting block 34, the supporting block 34 is driven to enter the fixed sleeve 32 and compress the third spring 33, when the supporting rod 8 moves to the position separated from the supporting block 34, the third spring 33 is elastically released and drives the supporting block 34 to return to the initial position, at this time, the carrying rod 30 just moves to the position abutting against the inclined surface of the limiting block 14, under the action of the limiting block 14, the carrying rod 30 is driven to move towards the supporting plate 23 and drives the movable rod 25 to move, so that the movable block 28 moves, when the movable block 28 moves to the position of being clamped with the clamping groove 26 again, the bearing rod 30 moves to the tail end of the stroke and is separated from the limiting block 14, and the steps are repeated, so that the bearing plate 6 is lifted.

Referring to fig. 1-4 and 7, an adjusting mechanism connected with a limiting rod 20 and a limiting block 14 is arranged on a transverse plate 3, the adjusting mechanism includes a first motor 9 fixedly mounted on the transverse plate 3, a transmission rod 10 rotatably mounted on the transverse plate 3 and connected with an output shaft of the first motor 9, a first guide groove 11 and a second guide groove 12 formed on the transmission rod 10, a guide assembly connected with the transmission rod 10 is arranged on a base 1, the guide assembly is fixedly connected with the limiting block 14 and the limiting block 20, wherein the guide assembly includes guide rods 17 fixedly mounted on the base 1 and symmetrically arranged, a first guide sleeve 15 and a second guide sleeve 19 movably mounted on the guide rods 17, a clamping structure arranged on the base 1 and connected with the first guide sleeve 15 and the second guide sleeve 19, the second guide sleeve 19 is fixedly connected with the limiting rod 20, the clamping structure is connected with the limiting block 14, the clamping structure includes a first movable sleeve 13 movably mounted on the transmission rod 10, a first projection 16 fixedly mounted on the first movable sleeve 13 and clamped with the first guide groove 11, a second projection 16 movably mounted on the second guide sleeve 18 and a first projection 31 movably mounted on the second guide sleeve 12, and a first projection 31 are movably connected with the limiting block 12.

Finally, because the heights of each bearing plate 6 and each support block 34 are gradually decreased, in order to ensure that the movable rod 25 can be smoothly abutted against each support rod 8 located at the initial position, and after the bearing plates 6 move to the required position, the movable rod 25 is prevented from being abutted against the support rod 8 already located on the support blocks 34 again, the positions of the limit blocks 14 and the limit rods 20 need to be adjusted, the first guide groove 11 and the second guide groove 12 are threaded grooves, because the distance between the support blocks 34 is different from the distance between the bearing plates 6, the screw pitches formed in the first guide groove 11 and the second guide groove 12 are different, in the initial state, the first movable sleeve 13 and the second movable sleeve 18 are respectively located above the uppermost support block 34 and the support rod 8, when the first motor 9 works, the drive transmission rod 10 is driven to rotate, the first movable sleeve 13 and the second movable sleeve 18 are driven to move, because the first bulge 16 and the second bulge 31 are respectively clamped with the first guide groove 11 and the second guide groove 12, under the action of the guide grooves, the action of the movable sleeve 13 and the second movable sleeve 31 are respectively clamped with the first guide sleeve 11 and the second guide groove 12, and the sleeve 20, the sleeve 17 can only drive the movable sleeve 20 to move along the direction of the guide rod 8, the direction of the support rod 20, the sleeve 17, the sleeve 20, the support rod 20 is driven to move along the direction of the support rod 8, the support rod 17, the sleeve 17, the support rod 17, the sleeve 17, the support rod 20 is driven by the sleeve 8, when the bracing piece 8 moves to the top of the supporting block 34 of the top, stopper 14 and bolster 30 butt, make movable rod 25 and bracing piece 8 separate, under the effect of gravity, bracing piece 8 and supporting block 34 butt, when the movable block 28 again with gag lever post 20 butt, gag lever post 20 just moves to being located between two bracing pieces 8 of the top of initial position, make movable rod 25 drive bracing piece 8 in proper order and move, when bracing piece 8 moves to the second supporting block 34 top, stopper 14 again with bolster 30 butt, make bracing piece 8 and movable rod 25 separate, and movable rod 25 can not contact with the bracing piece 8 that is located on the supporting block 34 of the top, thereby ensure that bolster 6 moves to required position in proper order.

In use, for example, in an embodiment combining all the features described in the present application, in an initial state, under the action of gravity, each of the supporting sleeves 5 is attached to each other, at this time, the distance between the receiving plates 6 is minimized to facilitate the placement of the ultra-long piece on the receiving plates 6, when the ultra-long piece needs to be stored, the second motor 21 is operated and drives the conveyor belt 22 to move through the belt pulley, thereby driving the supporting plate 23 to move, the supporting plate 23 also drives the movable rod 25 to move through the hollow rod 24, and at the same time, the first motor 9 is operated to drive the transmission rod 10 to rotate and drive the first movable sleeve 13 and the second movable sleeve 18 to move, because the first protrusion 16 and the second protrusion 31 are respectively engaged with the first guide groove 11 and the second guide groove 12, the movable sleeves move under the action of the guide grooves, the first movable sleeve 13 and the second movable sleeve 18 can respectively drive the first guide sleeve 15 and the second guide sleeve 19 to move along the length direction of the guide rod 17, under the action of the guide rod 17, the movable sleeves are ensured not to rotate along with the transmission rod 10, so that the movable sleeves can only move along the length direction of the transmission rod 10, thereby driving the limit block 14 and the limit rod 20 to move, when the limit rod 20 moves to the middle position of the uppermost support rod 8 and the support rod 8 below the uppermost support rod, the limit rod 20 is abutted against the movable block 28, under the action of the limit rod 20, the movable block 28 is driven to move towards the inside of the movable rod 25, the arc surface of the movable block 28 is abutted against the clamping groove 26, the first spring 27 is elastically released, and the movable rod 25 and the bearing rod 30 are driven to move towards the direction far away from the hollow rod 24, at the moment, the movable rod 25 just moves to the gap between the uppermost support rod 8 and the support rod 8 below the uppermost support rod and enters the gap, the conveyor belt 22 continues to move, so that the support rod 8 is driven to move towards the direction away from the base 1 through the movable rod 25, when the support rod 8 moves to the position abutting against the inclined surface of the support block 34, the support block 34 is driven to enter the fixed sleeve 32 and compress the third spring 33, when the support rod 8 moves to the position separated from the support block 34, the third spring 33 is elastically released and drives the support block 34 to return to the initial position, at the moment, the receiving rod 30 just moves to the position abutting against the inclined surface of the limit block 14, under the action of the limit block 14, the receiving rod 30 is driven to move towards the direction of the support plate 23 and drives the movable rod 25 to move, so that the movable block 28 moves, when the movable block 28 moves to the clamping position with the clamping groove 26 again, the receiving rod 30 moves to the tail end of the stroke and is separated from the limit block 14, and the steps are repeated, so that the receiving plate 6 is lifted.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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

1. An overlength storage facility of an oxidation production plant, characterized in that the overlength storage facility of the oxidation production plant comprises:

the device comprises a base (1) and fixing plates (2) which are fixedly arranged on the base (1) and symmetrically arranged, wherein through grooves (7) are formed in the fixing plates (2), and transverse plates (3) are fixedly arranged on the fixing plates (2);

the base (1) is provided with a plurality of groups of bearing plates (6) for placing the overlong pieces, the base (1) is provided with a guide assembly fixedly connected with the bearing plates (6), the transverse plate (3) is provided with a bearing rod (30), the transverse plate (3) is further provided with a driving mechanism which is used for adjusting the position of the bearing plates (6) through the guide assembly and is connected with the bearing rod (30), the fixing plate (2) is provided with a supporting assembly for supporting the guide assembly, the base (1) is provided with a limiting block (14) for adjusting the position of the bearing rod (30) so as to separate the driving mechanism from the guide assembly, the base (1) is further provided with a limiting rod (20) for adjusting the position of the bearing rod (30) through the driving mechanism, and the transverse plate (3) is provided with an adjusting mechanism connected with the limiting rod (20) and the limiting block (14);

adjustment mechanism includes fixed mounting and is in a motor (9), rotation on diaphragm (3) are installed diaphragm (3) go up and with a motor (9) output shaft's transfer line (10), set up a guide way (11) and No. two guide ways (12) on transfer line (10), be provided with on base (1) with the direction subassembly that transfer line (10) are connected, the direction subassembly with stopper (14) with gag lever post (20) fixed connection.

2. The storage equipment for the overlong pieces in the oxidation production workshop as claimed in claim 1, wherein the guide assembly comprises fixing rods (4) which are fixedly mounted on the base (1) and symmetrically arranged, a plurality of groups of supporting sleeves (5) which are movably mounted on the fixing rods (4), and supporting rods (8) which are fixedly mounted on the supporting sleeves (5) and clamped with the through grooves (7), the supporting rods (8) are connected with the support assembly and the driving mechanism, and the supporting sleeves (5) are fixedly connected with the bearing plates (6).

3. The overlong piece storage device for the oxidation production workshop as claimed in claim 2, wherein the driving mechanism comprises a second motor (21) fixedly mounted on the transverse plate (3), belt wheels rotatably mounted on the transverse plate (3) and symmetrically arranged, and a conveyor belt (22) sleeved on the belt wheels, an elastic component connected with the support rod (8) is arranged on the conveyor belt (22), the elastic component is fixedly connected with the bearing rod (30), and one of the belt wheels is connected with an output shaft of the second motor (21).

4. The overlong piece storage device for the oxidation production workshop as claimed in claim 3, wherein the elastic component comprises a support plate (23) fixedly mounted on the conveyor belt (22), hollow rods (24) fixedly mounted on the support plate (23) and symmetrically arranged, and a first spring (27) fixedly mounted in the hollow rods (24), a limiting structure connected with the hollow rods (24) is arranged on the transverse plate (3), and the limiting structure is connected with the support rod (8) and fixedly connected with the bearing rod (30).

5. The storage equipment for the overlong pieces in the oxidation production workshop as claimed in claim 4, wherein the limiting structure comprises a movable rod (25) which is movably mounted in the hollow rod (24) and is fixedly connected with the first spring (27), a clamping groove (26) which is formed in the hollow rod (24) and is clamped with the bearing rod (30), and a movable block (28) which is movably mounted in the movable rod (25) and is intermittently clamped with the clamping groove (26), a second spring (29) which is abutted against the movable block (28) is mounted in the movable rod (25), and the movable rod (25) is intermittently abutted against the supporting rod (8).

6. The overlong piece storage device for the oxidation production workshop as claimed in claim 2, wherein the support assembly comprises a plurality of groups of fixed sleeves (32) which are fixedly mounted on the fixed plate (2) and are arranged at equal intervals, a support block (34) which is movably mounted in the fixed sleeves (32) and is abutted against the support rod (8), and a third spring (33) which is fixedly mounted in the fixed sleeves (32) and is fixedly connected with the support block (34).

7. The overlong piece storage device for the oxidation production workshop as claimed in claim 1, wherein the guide assembly comprises guide rods (17) which are fixedly mounted on the base (1) and symmetrically arranged, a first guide sleeve (15) and a second guide sleeve (19) which are movably mounted on the guide rods (17), and a clamping structure which is arranged on the base (1) and connected with the first guide sleeve (15) and the second guide sleeve (19), wherein the second guide sleeve (19) is fixedly connected with the limiting rod (20), and the clamping structure is connected with the limiting block (14).

8. The overlong piece storage device for the oxidation production workshop as claimed in claim 7, wherein the clamping structure comprises a first movable sleeve (13) movably mounted on the transmission rod (10), a first protrusion (16) fixedly mounted on the first movable sleeve (13) and clamped with the first guide groove (11), and a second movable sleeve (18) movably mounted on the transmission rod (10), wherein a second protrusion (31) clamped with the second guide groove (12) is fixed on the second movable sleeve (18), and the first movable sleeve (13) is fixedly connected with the limiting block (14).