CN218537608U - Oxidation transfer device - Google Patents

Abstract

An oxidation transfer device relates to the technical field of oxidation process auxiliary tools. The oxidation transfer device comprises a framework, the framework comprises four vertical rods arranged in a rectangular shape, the middle parts and the bottom parts of the adjacent vertical rods are fixedly connected through a cross rod, the middle parts of the vertical rods are jointly connected with an intermediate baffle, the bottom parts of the vertical rods are jointly connected with a bottom plate, the upper part of the intermediate baffle is provided with a first positioning plate and a plurality of strip-shaped slotted holes are formed in the first positioning plate along the length direction of the first positioning plate, the two ends of each vertical rod, which are higher than the first positioning plate, of the vertical rod are connected with a second positioning plate, the two ends of the second positioning plate are respectively fixed on the two adjacent vertical rods, and the second positioning plate is provided with a plurality of positioning grooves in one-to-one correspondence with the strip-shaped slotted holes along the length direction of the second positioning plate. Above-mentioned scheme can promote the space utilization of hanging flower basket, increases single oxidation product quantity to promote the operating efficiency, reduction in production cost, and can effectively separate the product, avoid piling up the incomplete problem of oxidation that the cover leads to because of the product, thereby promote oxidation quality.

Description

Oxidation transfer device

Technical Field

The utility model relates to an oxidation technology appurtenance technical field especially indicates an oxidation transfer device.

Background

The oxidation process of the aluminum parts mainly comprises the working procedures of blanking, bending, cold working, carrying, feeding, oxidation, blanking, clamping, spraying, mounting and the like, wherein the feeding operation is long in time consumption and low in efficiency, the aluminum parts are various (mainly comprising an aluminum plate, a box formed by bending the aluminum plate and the like), a factory usually utilizes a hanging basket to directly load the aluminum parts into the oxidation working procedure, although the hanging basket is large in space, the aluminum parts are basically randomly stacked in the hanging basket, so that the space of the hanging basket is not effectively utilized, the quantity of single oxidation products is small, the products are stacked and covered together, the problem of incomplete oxidation is easily caused, and the oxidation effect is not ideal.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an oxidation transfer device can promote the space utilization of hanging flower basket, increases single oxidation product quantity to promote the operating efficiency, reduction in production cost, and oxidation transfer device can effectively separate the product, avoids piling up the not thorough problem of oxidation that the cover leads to because of the product, thereby promotes oxidation quality.

In order to realize the purpose, the utility model adopts the following technical scheme: the utility model provides an oxidation transfer device, includes the skeleton, the skeleton is including being four montants of rectangle range, all connects fixedly between the middle part of adjacent montant and between the bottom through the horizontal pole, the middle part of montant is connected with intermediate bottom plate, bottom jointly, the intermediate bottom top is equipped with first locating plate and is equipped with a plurality of bar slotted holes along its length direction interval, the montant is connected with the both ends of second locating plate and second locating plate respectively on two adjacent montants at its position that is higher than first locating plate, the second locating plate is equipped with a plurality of positioning groove with bar slotted hole one-to-one along its length direction interval.

Preferably, a plurality of through holes are formed in the middle partition plate and the bottom plate.

Preferably, above-mentioned oxidation transfer device is still including being used for placing on first locating plate and the supplementary locating plate of cooperation second locating plate, the interval is equipped with a plurality of supplementary positioning slotted holes that length is less than slotted hole length on the supplementary locating plate, supplementary positioning slotted hole and positioning groove one-to-one.

Preferably, the number of the second positioning plates is multiple and the second positioning plates are vertically distributed on the vertical rods at intervals.

Preferably, a plurality of fixing holes with different height positions are formed in the vertical rod, connecting holes corresponding to the fixing holes are formed in the two ends of the second positioning plate, and the second positioning plate is detachably fixed on the vertical rod through fasteners.

Preferably, skeleton rear side and left and right sides all are equipped with wallboard and fix on the montant, the wallboard setting that the second locating plate is close to the skeleton rear side.

Preferably, the front side of the framework is provided with a baffle plate, and the baffle plate is arranged at the bottom of the vertical rod.

Preferably, the wall plate is provided with a plurality of through holes.

Preferably, the vertical rods and the cross rods are hollow square tubes, and the hollow square tubes are provided with flow guide holes.

Preferably, the upper end and the lower end of the vertical rod are respectively provided with a convex part and a concave part which correspond to each other.

The utility model designs the oxidation transfer device into an upper layer and a lower layer aiming at the diversity of aluminum products, wherein the upper layer is used for placing an aluminum plate, and adopts a second positioning plate with a positioning groove and a first positioning plate with a strip-shaped groove hole to position and separate the aluminum plate, thereby avoiding stacking and covering and improving the oxidation quality of the products; the lower layer is used for placing cold-work products such as boxes and the like, so that the aluminum plate and the boxes are separated, and the phenomenon that the aluminum plate and the boxes are mixed together to influence the oxidation effect is avoided. When changing over into the oxidation process, can directly hang oxidation transfer device into in the hanging flower basket to save middle material loading process, promote the operating efficiency, and oxidation transfer device can pile up and put into the hanging flower basket, can effectively promote hanging flower basket space utilization, make single oxidation product quantity more, promote work efficiency, reduction in production cost, the incomplete quality problem of oxidation that leads to because of aluminum plate piles up the cover also can be avoided in addition to the divided design.

Drawings

FIG. 1 is a front view of an oxidative transfer device in an example;

FIG. 2 is an enlarged view of the area C in FIG. 1;

FIG. 3 is a side view of the oxidative transfer device of the example, with wall panels omitted;

FIG. 4 is an enlarged view of the area D in FIG. 3;

FIG. 5 isbase:Sub>A schematic view of the cross section along the line A-A in FIG. 3;

FIG. 6 is a schematic structural view of a cross section taken along line B-B in FIG. 3, in which the first positioning plate is omitted;

FIG. 7 is a top view of the oxidative transfer device of the example;

FIG. 8 is a bottom view of the oxidative transfer device of the example;

FIG. 9 is a top view of an embodiment of an auxiliary positioning plate;

FIG. 10 is a side view of an auxiliary positioning plate according to an embodiment;

fig. 11 is a plan view illustrating the auxiliary positioning plate mounted on the first positioning plate in the embodiment.

In the figure:

1-framework 1 a-vertical rod 1 b-cross rod

2-middle partition board 3-bottom board 4-first positioning board

4 a-strip groove hole 5-second positioning plate 5 a-positioning groove

6-through hole 7-auxiliary positioning plate 7 a-auxiliary positioning slot hole

8-wall plate 9-baffle plate 10-flow guide hole

11-convex part 12-concave part 13-first reinforcing rod

14-third reinforcement bar 15-U-shaped portion.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 11, an oxidation transfer device comprises a framework 1, wherein the framework 1 comprises four vertical rods 1a which are arranged in a rectangular shape, and the four vertical rods 1a are sequentially connected to form a workpiece placing cavity inside the framework 1. The middle parts and the bottom parts of the adjacent vertical rods 1a are fixedly connected through the cross rods 1b, so that the stability of the vertical rods 1a can be ensured. Wherein the middle part of four montants 1a is connected with intermediate bottom plate 2 jointly, the bottom is connected with bottom plate 3 jointly, and intermediate bottom plate 2 can place the chamber to the work piece and separate to form the first district of placing on upper strata above intermediate bottom plate 2 for place aluminum plate, form the second of lower floor between intermediate bottom plate 2 and bottom plate 3 and place the district, be used for placing the case. A first positioning plate 4 is arranged above the middle partition plate 2, a plurality of strip-shaped groove holes 4a are formed in the first positioning plate 4 at intervals along the length direction of the first positioning plate, the vertical rods 1a are connected with a second positioning plate 5 at positions higher than the first positioning plate 4, two ends of the second positioning plate 5 are respectively fixed on two adjacent vertical rods 1a, and a plurality of positioning grooves 5a which correspond to the strip-shaped groove holes 4a one to one are formed in the second positioning plate 5 at intervals along the length direction of the second positioning plate. The second positioning plate 5 may be an L-shaped plate and is horizontally disposed on the vertical bar 1a, such that one side plate of the second positioning plate 5 is attached to the vertical bar 1a, and the other side plate is perpendicular to the vertical bar 1a. Wherein, corresponding slotted hole 4a and positioning groove 5a can form the location structure of right angle type, and aluminum plate corresponds to insert wherein alright separate, and the location structure of right angle type can play fine supporting role to aluminum plate moreover, makes its vertical interval place, avoids aluminum plate to take place to empty and lean on adjacent aluminum plate. In order to facilitate better outflow of the oxidizing liquid, a plurality of through holes 6 may be formed in both the intermediate partition 2 and the bottom plate 3, so that the oxidizing liquid can flow out through the through holes 6.

The operation principle of the oxidation transfer device is as follows: arrange the aluminum plate of unloading in oxidation transfer device upper strata, oxidation transfer device lower floor is arranged in to the case box of cold work processing, and oxidation transfer device is placed on transporting the dolly, places at each station, and wherein oxidation transfer device can pile up and put into the hanging flower basket to promote hanging flower basket space utilization, air-dry naturally after the oxidation is accomplished, hoist oxidation transfer device again and transport the dolly to next process with transporting. The work sequence is as follows: blanking or cold working → loading an oxidation transfer device → transferring to an oxidation production line → hoisting the oxidation transfer device to a hanging basket → oxidizing (air drying) → hoisting the oxidation transfer device to a transfer vehicle. Compared with the prior operation flow, the feeding operation in the oxidation process is reduced, the efficiency is higher, the aluminum plate is separated in the oxidation transfer device, the coverage can be avoided, the product oxidation quality is favorably promoted, the oxidation transfer device can be stacked and put into a hanging basket, the hanging basket space utilization rate is promoted, the single oxidation quantity of aluminum parts is increased, and the work efficiency is improved. On the other hand, above-mentioned oxidation transfer device makes aluminum plate and box part through the layered design, the problem of incomplete oxidation that leads to because of aluminum plate and box stack at will in the hanging flower basket among the prior art has been improved, and, can place a plurality of boxes on the bottom plate 3 of lower floor, because the handling process is more stable, the box is difficult for sliding, consequently, can directly place a plurality of boxes interval on bottom plate 3, of course, in order to separate each box apart better, also can set up a plurality of separators on bottom plate 3, wherein, in order to reduce the influence of separator to box oxidation process, can set up the height of separator low, for example the height of separator is a little higher than the bottom of box, as long as can play spacing blocking effect to the box can.

In order to let oxidation transfer device possess certain safeguard effect, can all set up wallboard 8 and wallboard 8 in skeleton 1 rear side and the left and right sides and fix on montant 1a, wherein the wallboard 8 setting of second locating plate 5 near skeleton 1 rear side, can form the protection enclosure around skeleton 1 from this, can stop outside article to a certain extent and stretch into in the skeleton 1 and cause the injury to the product, of course, skeleton 1 front side does not set up wallboard 8, mainly put into for the convenience of the product better. In addition, a plurality of through holes 6 may be provided in the wall plate 8 in order to facilitate better outflow of the oxidizing liquid. In order to prevent the boxes in the oxidation transfer device from accidentally sliding out, the front side of the framework 1 can be provided with the baffle 9, namely the front side of the bottom plate 3 is provided with the baffle 9 at the bottom of the vertical rod 1a, so that the boxes can be prevented from accidentally sliding out of the oxidation transfer device in the process of carrying the oxidation transfer device. It should be noted that the gap between the upper end of the baffle 9 and the middle partition 2 needs to be larger than the height of the box so as to be convenient for the box to be put into.

It should be noted that the size of the oxidation transfer device can be determined according to the size of the oxidation basket and the size of the transfer vehicle, in this embodiment, a single transfer vehicle can be used for placing one oxidation transfer device, and the oxidation basket can be used for placing six oxidation transfer devices, so that the space utilization rate and the working efficiency of the basket can be improved as much as possible.

In order to adapt to aluminum plates with different lengths, an auxiliary positioning plate 7 for matching with the second positioning plate 5 can be additionally arranged, a plurality of auxiliary positioning slotted holes 7a with the length smaller than that of the strip-shaped slotted holes 4a are arranged on the auxiliary positioning plate 7 at intervals, and the auxiliary positioning slotted holes 7a correspond to the positioning grooves 5a one to one, as shown in fig. 9 to 11. The outer dimension of the auxiliary positioning plate 7 can be equivalent to the first positioning plate 4, for example, the length and width of the auxiliary positioning plate 7 are slightly shorter than those of the first positioning plate 4, or the width of the auxiliary positioning plate 7 can be adaptively shortened according to the length of the auxiliary positioning slot hole 7a, so as to save manufacturing raw materials. During the use, auxiliary positioning board 7 can directly be spread on first locating plate 4, makes positioning groove 5a and auxiliary positioning slotted hole 7a correspond from top to bottom, also can fix on first locating plate 4 through the detachable mode, makes auxiliary positioning board 7 more firm. When aluminum plate length is shorter, alright in order to utilize auxiliary positioning board 7 to cooperate with second positioning board 5 to realize aluminum plate's location and separate, auxiliary positioning slotted hole 7a wherein and positioning groove 5a also can form the location structure of right angle type, aluminum plate inserts wherein alright separate to avoid appearing sliding because of aluminum plate length weak point appears in slotted hole 4a, make aluminum plate break away from out and appear the beat from positioning groove 5a, cause adjacent aluminum plate to paste the condition together, in order to guarantee aluminum plate's oxidation quality. Of course, the length of the auxiliary positioning slot 7a of the auxiliary positioning plate 7 can be adjusted according to actual requirements, and a plurality of auxiliary positioning plates 7 with different lengths of the auxiliary positioning slots 7a can be provided for different needs. Further, the strip groove hole 4a, the positioning groove 5a and the auxiliary positioning groove hole 7a are all vertically penetrated. In addition, U-shaped parts 15 can be arranged at two ends of the first positioning plate 4 and the auxiliary positioning plate 7, the U-shaped parts 15 can be used for supporting the first positioning plate 4 and the auxiliary positioning plate 7 to enable the positions of the first positioning plate 4 and the auxiliary positioning plate 7 to be higher, when the aluminum plate is inserted into the slotted hole 4a and the auxiliary positioning slotted hole 7a, the lower end of the aluminum plate has more downward deep allowance, and therefore the aluminum plate can be better positioned and supported.

In actual scene, not only aluminum plate length may have the difference, its height also may have the difference, consequently, can also set up a plurality of second locating plates 5 at upper and lower interval on montant 1a, can see fig. 2 to can both utilize positioning groove 5a to fix a position the aluminum plate under the lower and higher condition of height, thereby adapt to the aluminum plate of co-altitude. Of course, the second positioning plate 5 may also be set to be adjustable in height and position, so that the second positioning plate can be adjusted in real time according to aluminum plates of different heights, the adaptability is stronger, for example, a plurality of fixing holes with different height and position are formed in the vertical rod 1a, the fixing holes may be threaded holes, connecting holes corresponding to the fixing holes are formed in two ends of the second positioning plate 5, and the second positioning plate 5 is detachably fixed on the vertical rod 1a through fasteners such as screws.

Wherein, skeleton 1 includes four montant 1a, four montant 1a are the rectangle and arrange, and connect fixedly through horizontal pole 1b between the montant 1a, thereby can form firm rectangular frame structure, skeleton 1 wherein two montant 1a tops of one side do not set up horizontal pole 1b, only set up horizontal pole 1b in montant 1a middle part and the bottom of this side, make this side top be uncovered form, can be convenient for aluminum plate put into better, then can be at montant 1a top between the montant 1a of other sides, middle part and bottom all set up horizontal pole 1b, with the fastness of guaranteeing skeleton 1. Montant 1a and horizontal pole 1b wherein all can adopt hollow body structure, for example hollow square pipe, can alleviate oxidation transfer device weight from this, and in order to avoid oxidizing liquid to remain in square pipe, corrode oxidation transfer device, can set up water conservancy diversion hole 10 on hollow square pipe for oxidizing liquid in the square pipe can flow out through water conservancy diversion hole 10. In addition, the vertical rods 1a and the horizontal rods 1b can be made of steel materials and are assembled and welded so as to have enough strength. It should be noted that the bottom plate 3 may be fixed to the cross rod 1b at the bottom of the vertical rod 1a, and the middle partition plate 2 may be fixed to the cross rod 1b at the middle of the vertical rod 1a, for example, the bottom plate 3 is fixed to the upper end or the lower end of the cross rod 1b at the bottom of the vertical rod 1a, the middle partition plate 2 is fixed to the upper end or the lower end of the cross rod 1b at the middle of the vertical rod 1a, and the first reinforcing rod 13 may be further disposed between the cross rods 1b at the middle of the vertical rod 1a to improve the bearing capacity of the middle partition plate 2. Wherein, if the bottom plate 3 is fixed in the horizontal pole 1b upper end of montant 1a bottom, then can set up baffle 9, and if the bottom plate 3 is fixed at the horizontal pole 1b lower extreme of montant 1a bottom, then horizontal pole 1b can play certain effect of blockking to the case of placing on bottom plate 3, just need not to set up baffle 9 again. Bottom plate 3 in this embodiment fixes the horizontal pole 1b upper end in montant 1a bottom, therefore, can set up baffle 9 at 3 front ends of bottom plate, intermediate bottom 2 in this embodiment fixes the horizontal pole 1b lower extreme at montant 1a middle part, first locating plate 4 can fix the horizontal pole 1b upper end at montant 1a middle part, thereby form hollow intermediate layer between first locating plate 4 and intermediate bottom 2, its lower extreme can stretch into hollow intermediate layer and support on intermediate bottom 2 when aluminum plate inserts slotted hole 4a, make first locating plate 4 play better location and supporting role to aluminum plate. Of course, a second reinforcing bar can be arranged between the cross bars 1b at the bottom of the vertical bars 1a to improve the bearing capacity of the bottom plate 3. In addition, in order to further improve the strength of the framework 1, third reinforcing rods 14 can be arranged between the cross rods 1b at the tops of the vertical rods 1a on the left side and the right side of the framework 1 and the cross rods 1b in the middle of the vertical rods 1a. Wherein, first stiffener 13, second stiffener and third stiffener 14 also can adopt hollow body structure, for example hollow square pipe, sets up water conservancy diversion hole 10 on the hollow square pipe.

In addition, in order to facilitate the oxidation transfer device to be better stacked together, the upper end and the lower end of the vertical rod 1a can be respectively provided with the corresponding protruding part 11 and the corresponding concave part 12, when the oxidation transfer device is stacked together, the protruding part 11 and the concave part 12 between the oxidation transfer device can be mutually matched to play a positioning role, and the oxidation transfer device stacked together can be more stable. Wherein, can all set up bellying 11 and depressed part 12 on four montants 1a to play better positioning effect.

In summary, in the embodiment, for the diversity of aluminum products, the oxidation transfer device is designed into an upper layer and a lower layer, the upper layer is used for placing aluminum plates, and the second positioning plate 5 with the positioning grooves 5a and the first positioning plate 4 with the slotted holes 4a are used for positioning and separating the aluminum plates, so that stacking coverage is avoided, and the oxidation quality of products is improved; the lower layer is used for placing cold-work products such as boxes and the like, so that the aluminum plate and the boxes are separated, and the oxidation effect is prevented from being influenced by mixing the aluminum plate and the boxes. When changing over to the oxidation process, can directly hang oxidation transfer device into in the hanging flower basket to save middle material loading process, promote the operating efficiency, and oxidation transfer device can pile up and put into the hanging flower basket, can effectively promote hanging flower basket space utilization, make single oxidation product quantity more, promote work efficiency, reduction in production cost, the isolated design also can avoid piling up the incomplete quality problem of oxidation that covers and lead to because of aluminum plate moreover.

It is worth mentioning that, aluminum plate stacks at will among the prior art still appears easily in the hanging flower basket because of the aluminum plate level is placed and is floated outside the hanging flower basket under the buoyancy of oxidizing liquid, cause the condition that the product is lost, and through setting up slotted hole 4a and positioning groove 5a on second locating plate 5 and first locating plate 4 in this embodiment, can let aluminum plate vertical place, thereby reduce the influence of buoyancy to aluminum plate, can avoid appearing the condition that aluminum plate floated outside the hanging flower basket, can solve the problem that the product was lost among the oxidation process from this.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited to any form, although the present invention has been disclosed as above for the preferred embodiment, but not for limiting the form and the style of the product of the present invention, and any person skilled in the art can make some changes or modifications to the equivalent embodiment of the equivalent change within the technical scope of the present invention, and all the contents that do not depart from the technical solution of the present invention all belong to the patent scope of the technical solution of the present invention.

Claims (10)

1. An oxidative transfer device, characterized in that: including skeleton (1), skeleton (1) is including being four montants (1 a) that the rectangle was arranged, all connects fixedly between the middle part of adjacent montant (1 a) and between the bottom through horizontal pole (1 b), the middle part of montant (1 a) is connected with intermediate bottom plate (2), bottom jointly is connected with bottom plate (3), intermediate bottom plate (2) top is equipped with first locating plate (4) and first locating plate (4) are equipped with a plurality of bar slotted holes (4 a) along its length direction interval, montant (1 a) is connected with second locating plate (5) and the both ends of second locating plate (5) respectively and fixes on two adjacent montant (1 a) at its position that is higher than first locating plate (4), second locating plate (5) are equipped with a plurality of positioning groove (5 a) with bar slotted hole (4 a) one-to-one along its length direction interval.

2. The oxidative transfer device of claim 1, wherein: the middle partition plate (2) and the bottom plate (3) are both provided with a plurality of through holes (6).

3. The oxidative transfer device of claim 1, wherein: the positioning device is characterized by further comprising an auxiliary positioning plate (7) which is used for being placed on the first positioning plate (4) and matched with the second positioning plate (5), wherein a plurality of auxiliary positioning slotted holes (7 a) with the length smaller than that of the slotted holes (4 a) are formed in the auxiliary positioning plate (7) at intervals, and the auxiliary positioning slotted holes (7 a) correspond to the positioning grooves (5 a) one to one.

4. The oxidative transfer device of claim 1, wherein: the number of the second positioning plates (5) is multiple and the second positioning plates are distributed on the vertical rods (1 a) at intervals up and down.

5. The oxidative transfer device of claim 1, wherein: the vertical rod (1 a) is provided with a plurality of fixing holes with different height positions, and two ends of the second positioning plate (5) are provided with connecting holes corresponding to the fixing holes and detachably fixed on the vertical rod (1 a) through fasteners.

6. The oxidative transfer device of claim 1, wherein: skeleton (1) rear side and left and right sides all are equipped with wallboard (8) and fix on montant (1 a), wallboard (8) setting that second locating plate (5) are close to skeleton (1) rear side.

7. The oxidative transfer device of claim 6, wherein: the front side of the framework (1) is provided with a baffle (9), and the baffle (9) is arranged at the bottom of the vertical rod (1 a).

8. The oxidative transfer device of claim 6, wherein: the wall plate (8) is provided with a plurality of through holes (6).

9. The oxidative transfer device of claim 1, wherein: the vertical rods (1 a) and the transverse rods (1 b) are both hollow square tubes, and guide holes (10) are formed in the hollow square tubes.

10. The oxidative transfer device of claim 1, wherein: the upper end and the lower end of the vertical rod (1 a) are respectively provided with a convex part (11) and a concave part (12) which correspond to each other.

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