阅读说明：本技术 一种用于集成灶拉手的耐腐蚀铝氧化加工工艺 (Corrosion-resistant aluminum oxidation processing technology for integrated kitchen handle ) 是由 王文洪 王明宇 于 2021-06-28 设计创作，主要内容包括：本发明公开了一种用于集成灶拉手的耐腐蚀铝氧化加工工艺,包括：集成灶拉手装夹、箱体加工、集成灶拉手输送、拉手铝氧化处理、拉手烘干处理和氧化液处理。本发明的铝氧化加工工艺步骤简单,不仅可以实现多个集成灶拉手同时进行铝氧化处理,缩短加工步骤,而且可以减少资源的浪费,大大提高了铝氧化加工的质量。(The invention discloses a corrosion-resistant aluminum oxidation processing technology for an integrated kitchen handle, which comprises the following steps: the method comprises the steps of integrated stove handle clamping, box body processing, integrated stove handle conveying, handle aluminum oxidation treatment, handle drying treatment and oxidizing liquid treatment. The aluminum oxidation processing technology has simple steps, can realize the simultaneous aluminum oxidation treatment of a plurality of integrated kitchen handles, shortens the processing steps, reduces the waste of resources and greatly improves the quality of aluminum oxidation processing.)

1. A corrosion-resistant aluminum oxidation processing technology for an integrated kitchen handle is characterized by comprising the following steps:

1) handle clamp for integrated kitchen range

a. Firstly, manufacturing a corresponding handle clamping mechanism according to design requirements, and sequentially mounting each integrated stove handle on the handle clamping mechanism from top to bottom for fixing;

b. then, sequentially mounting the handle clamping mechanisms on the feeding table to ensure that the handle clamping mechanisms are sequentially placed;

2) box processing

a. Firstly, processing a corresponding box body according to requirements, determining the size of a transmission mechanism along the top of the box body, installing the corresponding transmission mechanism, connecting the transmission mechanism on the box body through a conveying belt, and extending two ends of the conveying belt out of two sides of the box body;

b. then determining the position of an aluminum oxidation chamber along the interior of the box body, installing an aluminum oxidation tank at the bottom of the aluminum oxidation chamber, installing a heating block and an impurity collecting tank along the bottom surface of the aluminum oxidation tank, installing a driving motor along the inner side surface of the aluminum oxidation tank, and installing a stirring paddle on the driving motor;

c. determining the position of a drying chamber along the interior of the box body, installing a drying groove at the bottom of the drying chamber, and installing a hot air drying assembly along the side surface of the drying groove;

d. after the drying groove is installed, a limiting groove is vertically formed between the drying groove and the aluminum oxidation groove, a lifting door is vertically installed in the limiting groove, a rack is arranged on one side of the lifting door, a motor is installed between the drying groove and the aluminum oxidation groove, a gear is installed on the motor, and the gear is meshed with the rack;

e. finally, an oxidizing liquid storage box is arranged below the drying groove, the bottom of the drying groove is communicated to one side of the aluminum oxidation groove through a guide pipe, an infusion pump is arranged on the guide pipe, the bottom of the aluminum oxidation groove is communicated with the guide pipe through a liquid discharge pipe, and the oxidizing liquid storage box is communicated with the guide pipe through a conveying pipe;

3) integrated kitchen handle conveying

a. Firstly, conveying a transmission mechanism to one side close to a feeding table through a conveying belt, starting the transmission mechanism, and manually hoisting a handle clamping mechanism positioned on the front side;

b. then lifting the handle clamping mechanism to a set height position, and conveying the transmission mechanism into the aluminum oxidation chamber through a conveying belt;

4) handle aluminum oxidation treatment

a. When the handle clamping mechanism moves to the left side of the aluminum oxidation chamber, starting the transmission mechanism, putting the lower part of the handle clamping mechanism into the aluminum oxidation tank until the handle clamping mechanism is immersed below the liquid level of the oxidation liquid, and enabling the handle of the integrated stove to be subjected to aluminum oxidation treatment;

b. then starting a driving motor, driving a stirring paddle to rotate through the driving motor, enabling the oxidizing liquid to flow towards the handle clamping mechanism, and simultaneously starting a heating block to heat the oxidizing liquid;

c. then, starting the conveying belt, driving the handle clamping mechanism to move towards the right side through the conveying belt through the transmission mechanism until the handle clamping mechanism is close to the stirring paddle, and then turning off the driving motor to stop the stirring paddle;

d. finally, the handle clamping mechanism is hoisted and lifted to a set height position through the transmission mechanism, the motor is started, the lifting door is driven to descend through the gear, and the handle clamping mechanism is conveyed into the drying chamber through the conveying belt;

5) handle drying treatment

a. When the handle clamping mechanism reaches the drying chamber, the conveying belt stops moving, and the handle clamping mechanism is lowered into the drying groove through the transmission mechanism;

b. then starting a hot air drying assembly, and drying the integrated stove handle on the handle clamping mechanism through the hot air drying assembly;

c. then, the transmission mechanism and the handle clamping mechanism are driven by the conveying belt to move rightwards along the drying groove, after the drying groove moves to a set position, the hot air drying assembly and the conveying belt are closed, the transmission mechanism is started, and the handle clamping mechanism is lifted to a set height;

d. finally, the handle after the aluminum oxidation treatment is sent out from the right side of the box body through the handle clamping mechanism through the conveying belt, after the handle clamping mechanism is taken down, the conveying belt moves in the reverse direction, the transmission mechanism is conveyed to one side of the feeding table, and the next handle clamping mechanism is conveyed;

6) treatment of oxidizing liquids

a. After a batch of integrated kitchen handles are subjected to aluminum oxidation treatment, starting an infusion pump, and conveying the oxidation liquid in the drying groove into an aluminum oxidation groove through a flow guide pipe;

b. when the liquid level of the oxidation liquid in the aluminum oxidation tank is lower than the set height, starting an infusion pump to convey the oxidation liquid in the oxidation liquid storage tank into the aluminum oxidation tank through a conveying pipe and a guide pipe;

c. and finally, cleaning the particle impurities in the impurity collecting tank.

2. The corrosion-resistant aluminum oxidation processing technology for the integrated kitchen handle according to claim 1, characterized in that: handle clamping mechanism includes the frame, the top parallel arrangement of frame has the ejector pin, all be provided with the suspension pull ring on the ejector pin, parallel arrangement has the montant on the frame, two evenly be provided with the horizontal pole between the montant, every be provided with two at least clamping subassemblies on the horizontal pole.

3. The corrosion-resistant aluminum oxidation processing technology for the integrated kitchen handle according to claim 2, characterized in that: the clamping subassembly includes the lantern ring, goes up the buckle and buckle down, the lantern ring cup joint in on the horizontal pole, go up the buckle with the buckle rotates down to be connected on the lateral surface of the lantern ring, go up the buckle with the buckle all is arc down, go up the buckle with the tip of buckle is provided with the connecting plate down, passes adjacent two through the bolt the connecting plate realizes go up the buckle with fixed connection between the buckle down.

4. The corrosion-resistant aluminum oxidation processing technology for the integrated kitchen handle according to claim 1, characterized in that: drive mechanism includes crossbeam, lifter plate, cylinder and air pump, the crossbeam is located two between the top surface of conveyer belt, two the cylinder symmetry is located on the top surface of crossbeam, the air pump is located the top surface center department of crossbeam, the air pump passes through gas-supply pipe and shunt tubes connection both sides the cylinder, the lifter plate is located the below of crossbeam, the lifter plate passes through the piston rod and connects the cylinder, the underrun stay cord of lifter plate is connected with the hasp, be provided with on the hasp and rotate the knot.

5. The corrosion-resistant aluminum oxidation processing technology for the integrated kitchen handle according to claim 1, characterized in that: an anti-overflow plate is arranged on the top surface of the aluminum oxidation groove and is arc-shaped.

6. The corrosion-resistant aluminum oxidation processing technology for the integrated kitchen handle according to claim 1, characterized in that: the hot air drying assembly comprises a hot air unit and positioning cylinders, the hot air unit is arranged on one side of the drying groove, an air outlet grid is arranged between the hot air unit and the side surface of the drying groove, the positioning cylinders are symmetrically arranged on the inner wall of the drying groove, and each positioning cylinder is uniformly provided with an air blowing nozzle.

7. The corrosion-resistant aluminum oxidation processing technology for the integrated kitchen handle according to claim 1, characterized in that: and the bottom plate on the bottom surface of the drying groove is obliquely arranged.

8. The corrosion-resistant aluminum oxidation processing technology for the integrated kitchen handle according to claim 1, characterized in that: the guide pipe is provided with a first one-way valve, and the first one-way valve is positioned between the aluminum oxidation tank and the drying tank.

9. The corrosion-resistant aluminum oxidation processing technology for the integrated kitchen handle according to claim 1, characterized in that: and a second one-way valve is arranged on the conveying pipe.

Technical Field

The invention relates to a corrosion-resistant aluminum oxidation processing technology for an integrated kitchen handle.

Background

The aluminum products are required to be oxidized, and the aluminum oxidation processing steps in the prior art are generally cleaning with clear water, oxidizing, and carrying to an oven for closed drying. The three steps are three independent operation workshops, only a small amount of aluminum scraps are cleaned from the aluminum product, a large amount of water resources are consumed for the small amount of aluminum scraps, and meanwhile, the number of process steps is large.

Disclosure of Invention

The invention aims to provide a technical scheme of a corrosion-resistant aluminum oxidation processing technology for integrated kitchen handles aiming at the defects in the prior art, the aluminum oxidation processing technology has simple steps, can realize simultaneous aluminum oxidation treatment of a plurality of integrated kitchen handles, shortens the processing steps, reduces the waste of resources and greatly improves the quality of aluminum oxidation processing.

In order to solve the technical problems, the invention adopts the following technical scheme:

a corrosion-resistant aluminum oxidation processing technology for an integrated kitchen handle is characterized by comprising the following steps:

1) handle clamp for integrated kitchen range

a. Firstly, manufacturing a corresponding handle clamping mechanism according to design requirements, and sequentially mounting and fixing the handles of each integrated stove on the handle clamping mechanism from top to bottom, so that the simultaneous processing of a plurality of handles can be realized by one-time aluminum oxidation processing, and the processing efficiency is greatly improved;

b. then, the handle clamping mechanisms are sequentially arranged on the feeding table, so that the handle clamping mechanisms are sequentially arranged, and aluminum oxidation treatment is conveniently carried out on handles of the integrated cooker in batches;

2) box processing

a. Firstly, processing a corresponding box body according to requirements, determining the size of a transmission mechanism along the top of the box body, installing the corresponding transmission mechanism, connecting the transmission mechanism on the box body through a conveying belt, wherein two ends of the conveying belt extend out of two sides of the box body, so that a handle clamping mechanism provided with a handle is conveniently conveyed, and the efficiency of aluminum oxidation treatment of the handle is improved;

b. then determining the position of an aluminum oxidation chamber along the interior of the box body, installing an aluminum oxidation tank at the bottom of the aluminum oxidation chamber, installing a heating block and an impurity collecting tank along the bottom surface of the aluminum oxidation tank, installing a driving motor along the inner side surface of the aluminum oxidation tank, installing a stirring paddle on the driving motor, heating the oxidation liquid through the heating block, ensuring that the oxidation liquid is in a flowing state, improving the aluminum oxidation treatment efficiency of the handle, collecting particle impurities in the oxidation liquid through the impurity collecting tank, reducing the residue of impurities on the surface of the handle, driving the stirring paddle to rotate through the driving motor, further driving the oxidation liquid in the aluminum oxidation tank to flow, and cleaning the handle while performing aluminum oxidation treatment;

c. then, the position of a drying chamber is determined along the interior of the box body, a drying groove is arranged at the bottom of the drying chamber, a hot air drying component is arranged along the side surface of the drying groove, and after the handle clamping mechanism moves into the drying groove, a handle on the handle clamping mechanism can be dried through the hot air drying component;

d. after the drying groove is installed, a limiting groove is vertically formed between the drying groove and the aluminum oxidation groove, a lifting door is vertically installed in the limiting groove, a rack is arranged on one side of the lifting door, a motor is installed between the drying groove and the aluminum oxidation groove, a gear is installed on the motor, the gear and the rack are meshed with each other, the gear is driven to rotate by the motor, the lifting door can be driven to move up and down, and the heat loss in the drying chamber is reduced;

e. finally, an oxidizing liquid storage box is arranged below the drying groove, the bottom of the drying groove is communicated to one side of the aluminum oxidation groove through a guide pipe, an infusion pump is arranged on the guide pipe, the bottom of the aluminum oxidation groove is communicated with the guide pipe through a liquid discharge pipe, and the oxidizing liquid storage box is communicated with the guide pipe through a conveying pipe, so that the oxidizing liquid can be recycled conveniently, and the waste of resources is reduced;

3) integrated kitchen handle conveying

a. Firstly, conveying a transmission mechanism to one side close to a feeding table through a conveying belt, starting the transmission mechanism, and manually hoisting a handle clamping mechanism positioned on the front side, so that a plurality of integrated stove handles are conveniently processed at one time;

b. then lifting the handle clamping mechanism to a set height position, and conveying the transmission mechanism into the aluminum oxidation chamber through a conveying belt;

4) handle aluminum oxidation treatment

a. When the handle clamping mechanism moves to the left side of the aluminum oxidation chamber, starting the transmission mechanism, putting the lower part of the handle clamping mechanism into the aluminum oxidation tank until the handle clamping mechanism is immersed below the liquid level of the oxidation liquid, and enabling the handle of the integrated stove to be subjected to aluminum oxidation treatment;

b. then a driving motor is started, the stirring paddle is driven to rotate through the driving motor, so that the oxidizing liquid flows to the direction of the handle clamping mechanism, meanwhile, a heating block is started to heat the oxidizing liquid, the heated oxidizing liquid can carry out aluminum oxidation treatment on the integrated stove handle, meanwhile, the stirring paddle accelerates the flow of the oxidizing liquid under the action of the driving motor, and impurities on the integrated stove handle are cleaned;

c. then, starting the conveying belt, driving the handle clamping mechanism to move towards the right side through the conveying belt through the transmission mechanism until the handle clamping mechanism is close to the stirring paddle, and then turning off the driving motor to stop the stirring paddle, so that the cleaned impurities can be prevented from being adhered to the surface of the handle of the integrated stove;

d. finally, the handle clamping mechanism is hoisted and lifted to a set height position through the transmission mechanism, the motor is started, the lifting door is driven to descend through the gear, and the handle clamping mechanism is conveyed into the drying chamber through the conveying belt;

5) handle drying treatment

a. When the handle clamping mechanism reaches the drying chamber, the conveying belt stops moving, and the handle clamping mechanism is lowered into the drying groove through the transmission mechanism;

b. then starting a hot air drying assembly, and drying the integrated stove handle on the handle clamping mechanism through the hot air drying assembly;

c. then, the transmission mechanism and the handle clamping mechanism are driven by the conveying belt to move rightwards along the drying groove, after the drying groove moves to a set position, the hot air drying assembly and the conveying belt are closed, the transmission mechanism is started, and the handle clamping mechanism is lifted to a set height;

d. finally, the handle after the aluminum oxidation treatment is sent out from the right side of the box body through the handle clamping mechanism through the conveying belt, after the handle clamping mechanism is taken down, the conveying belt moves in the reverse direction, the transmission mechanism is conveyed to one side of the feeding table, and the next handle clamping mechanism is conveyed;

6) treatment of oxidizing liquids

a. After a batch of integrated kitchen handles are subjected to aluminum oxidation treatment, starting an infusion pump, and conveying the oxidation liquid in the drying groove into an aluminum oxidation groove through a flow guide pipe;

b. when the liquid level of the oxidation liquid in the aluminum oxidation tank is lower than the set height, starting an infusion pump to convey the oxidation liquid in the oxidation liquid storage tank into the aluminum oxidation tank through a conveying pipe and a guide pipe;

c. and finally, cleaning the particle impurities in the impurity collecting tank.

The aluminum oxidation processing technology has simple steps, can realize that a plurality of integrated kitchen handles simultaneously carry out aluminum oxidation treatment, shortens the processing steps, can reduce the waste of resources and greatly improves the quality of aluminum oxidation processing.

Further, handle clamping mechanism includes the frame, the top parallel arrangement of frame has the ejector pin, all be provided with on the ejector pin and hang the pull ring, parallel arrangement has the montant on the frame, evenly be provided with the horizontal pole between two montants, be provided with two at least clamping subassemblies on every horizontal pole, the hoist and mount of whole handle clamping mechanism of being convenient for through hanging the pull ring, the montant is dismantled with the installation of horizontal pole clamping subassembly of being convenient for, the intensity after having improved integrated kitchen handle installation, prevent to drop in aluminium oxidation course of working.

Further, the clamping subassembly includes the lantern ring, go up buckle and buckle down, the lantern ring cup joints on the horizontal pole, go up the buckle and rotate with buckle down and connect on the lateral surface of the lantern ring, it all is arc with buckle down to go up the buckle, the tip of going up buckle and buckle down is provided with the connecting plate, pass two adjacent connecting plates through the bolt, fixed connection between buckle and the lower buckle is gone up in the realization, the lantern ring can be controlled along the horizontal pole and is removed, satisfy the clamping location of the integrated kitchen handle of different length, go up the buckle and can realize the clamping to integrated kitchen handle with buckle down, prevent to drop in the aluminium oxidation course of working.

Further, drive mechanism includes the crossbeam, the lifter plate, cylinder and air pump, the crossbeam is located between the top surface of two conveyer belts, two cylinder symmetries are located on the top surface of crossbeam, the air pump is located the top surface center department of crossbeam, the air pump passes through the gas-supply pipe and the cylinder of shunt tubes connection both sides, the lifter plate is located the below of crossbeam, the lifter plate passes through the piston rod and connects the cylinder, the underrun stay cord of lifter plate is connected with the hasp, be provided with the rotation on the hasp and detain, provide power for the cylinder through the air pump, make the cylinder drive the lifter plate through the piston rod and reciprocate, realize the hoist and mount to handle clamping mechanism, hasp and rotation mouth can improve the joint strength with handle clamping mechanism, avoid dropping at the in-process of transportation handle clamping mechanism and cause the potential safety hazard.

Further, an anti-overflow plate is arranged on the top surface of the aluminum oxidation groove, the anti-overflow plate is arc-shaped, and the anti-overflow plate is convenient for preventing oxidation liquid from overflowing in the process of aluminum oxidation treatment.

Further, hot-air drying subassembly includes hot-air set and a location section of thick bamboo, one side in drying groove is located to hot-air set, be provided with the air-out net between the side in hot-air set and drying groove, a location section of thick bamboo symmetry is located on the inner wall in drying groove, and evenly be provided with the shower nozzle of blowing on every location section of thick bamboo, a location section of thick bamboo and hot-air set intercommunication, it is hot-blast through hot-air set production, make hot-blast see through the air-out net and dry the integrated kitchen handle in the handle clamping mechanism, drying efficiency is improved, simultaneously it can dry integrated kitchen handle through the shower nozzle of blowing on the location section of thick bamboo, further drying efficiency is improved.

Furthermore, the bottom plate on the bottom surface of the drying groove is obliquely arranged, so that the dropped oxidation liquid can flow into the aluminum oxidation groove conveniently.

Furthermore, a first one-way valve is arranged on the flow guide pipe, the first one-way valve is positioned between the aluminum oxide tank and the drying tank, and the first one-way valve can control the opening and closing of the flow guide pipe.

Further, a second one-way valve is arranged on the conveying pipe, and the second one-way valve can control the opening and closing of the conveying pipe.

Due to the adoption of the technical scheme, the invention has the following beneficial effects:

1. the aluminum oxidation processing technology has simple steps, can realize that a plurality of integrated kitchen handles simultaneously carry out aluminum oxidation treatment, shortens the processing steps, can reduce the waste of resources and greatly improves the quality of aluminum oxidation processing.

2. The hanging of the whole handle clamping mechanism is facilitated through the hanging pull ring, the vertical rods and the horizontal rods are convenient to mount and dismount, the strength of the integrated stove handle after mounting is improved, and the handle is prevented from falling in the aluminum oxidation processing process.

3. The air pump is used for providing power for the air cylinder, the air cylinder drives the lifting plate to move up and down through the piston rod, the handle clamping mechanism is hoisted, the lock catch and the rotating port can improve the connection strength with the handle clamping mechanism, and potential safety hazards caused by falling in the process of transporting the handle clamping mechanism are avoided.

4. Produce hot-blastly through hot-blast subassembly, make hot-blastly see through the air-out net and dry the integrated kitchen handle on the mechanism of handle clamping, improve drying efficiency, hot-blastly can dry integrated kitchen handle through the shower nozzle of blowing on the location section of thick bamboo simultaneously, further improve drying efficiency.

Drawings

The invention will be further described with reference to the accompanying drawings in which:

FIG. 1 is a schematic structural diagram of an aluminum oxidation device used in a corrosion-resistant aluminum oxidation processing technology of an integrated kitchen handle according to the present invention;

FIG. 2 is a schematic structural view of a handle clamping mechanism according to the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at I;

FIG. 4 is a schematic view of the connection between the transmission mechanism and the conveyor belt according to the present invention;

FIG. 5 is a schematic structural view of a drying tub according to the present invention.

In the figure: 1-a box body; 2-a feeding table; 3-handle clamping mechanism; 4-a conveyor belt; 5-a transmission mechanism; a 6-aluminum oxidation chamber; 7-a drying chamber; 8-a limiting groove; 9-a lifting door; 10-a gear; an 11-aluminum oxidation tank; 12-an anti-overflow plate; 13-a drive motor; 14-stirring paddle; 15-heating block; 16-an impurity collection tank; 17-drying groove; 18-a hot air unit; 19-a flow guide pipe; 20-an infusion pump; 21-drain pipe; 22-a first one-way valve; 23-an oxidizing liquid storage tank; 24-a delivery pipe; 25-a second one-way valve; 26-a frame; 27-a mandril; 28-suspension tab; 29-vertical bar; 30-a cross bar; 31-a collar; 32-upper buckle plate; 33-a lower buckle plate; 34-a connecting plate; 35-a cross beam; 36-a cylinder; 37-an air pump; 38-shunt tube; 39-gas pipe; 40-a lifting plate; 41-a piston rod; 42-locking a buckle; 43-turning the button; 44-a base plate; 45-air-out grid; 46-a positioning cylinder; 47-blow head.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

In order to make the technical solutions of the present invention better understood, 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 derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that the terms first, second and the like in the description and in the claims, and in the drawings, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

As shown in fig. 1 to 5, the corrosion-resistant aluminum oxidation processing technology for the integrated kitchen handle of the invention comprises the following steps:

1) handle clamp for integrated kitchen range

a. Firstly, manufacturing a corresponding handle clamping mechanism 3 according to design requirements, and sequentially mounting each integrated stove handle on the handle clamping mechanism 3 from top to bottom for fixing, so that the simultaneous processing of a plurality of handles can be realized by one-time aluminum oxidation processing, and the processing efficiency is greatly improved;

b. then the handle clamping mechanisms 3 are sequentially arranged on the feeding table 2, so that the handle clamping mechanisms 3 are sequentially arranged, and aluminum oxidation treatment is conveniently carried out on handles of the integrated stove in batches;

handle clamping mechanism 3 includes frame 26, the top parallel arrangement of frame 26 has ejector pin 27, all be provided with on the ejector pin 27 and hang pull ring 28, frame 26 goes up parallel arrangement has montant 29, evenly be provided with horizontal pole 30 between two montants 29, be provided with two at least clamping subassemblies on every horizontal pole 30, the hoist and mount of whole handle clamping mechanism 3 of being convenient for through hanging pull ring 28, montant 29 and horizontal pole 30 are convenient for the installation of clamping subassembly and are dismantled, the intensity after the integrated kitchen handle installation has been improved, prevent to drop in the aluminium oxidation course of working. The clamping subassembly includes the lantern ring 31, go up buckle 32 and lower buckle 33, the lantern ring 31 cup joints on horizontal pole 30, it rotates to connect on the lateral surface of lantern ring 31 with buckle 33 down to go up buckle 32, it all is arc with buckle 33 down to go up buckle 32, the tip of going up buckle 32 and buckle 33 down is provided with connecting plate 34, pass two adjacent connecting plates 34 through the bolt, fixed connection between buckle 32 and the lower buckle 33 is gone up in the realization, the lantern ring 31 can be controlled along horizontal pole 30 and is removed, satisfy the clamping location of the integrated kitchen handle of different length, go up buckle 32 and buckle 33 down and can realize the clamping to the integrated kitchen handle, prevent to drop in the aluminium oxidation course of working.

2) Machining of the tank 1

a. Firstly, processing a corresponding box body 1 according to requirements, determining the size of a transmission mechanism 5 along the top of the box body 1, installing the corresponding transmission mechanism 5, connecting the transmission mechanism 5 to the box body 1 through a conveying belt 4, and enabling two ends of the conveying belt 4 to extend out of two sides of the box body 1, so that a handle clamping mechanism 3 provided with a handle is conveniently conveyed, and the efficiency of aluminum oxidation treatment on the handle is improved;

drive mechanism 5 includes crossbeam 35, lifter plate 40, cylinder 36 and air pump 37, crossbeam 35 is located between the top surface of two conveyer belts 4, two cylinders 36 symmetry are located on the top surface of crossbeam 35, air pump 37 is located the top surface center department of crossbeam 35, air pump 37 passes through gas-supply pipe 39 and shunt tubes 38 and connects the cylinder 36 of both sides, lifter plate 40 is located the below of crossbeam 35, lifter plate 40 passes through piston rod 41 and connects cylinder 36, the bottom surface of lifter plate 40 is connected with hasp 42 through the stay cord, be provided with on the hasp 42 and rotate the knot 43, provide power for cylinder 36 through air pump 37, make cylinder 36 drive lifter plate 40 through piston rod 41 and reciprocate, realize the hoist and mount to handle clamping mechanism 3, hasp 42 and rotation mouth can improve the joint strength with handle clamping mechanism 3, avoid dropping at the in-process of transportation handle clamping mechanism 3 and cause the potential safety hazard.

b. Then, the position of an aluminum oxidation chamber 6 is determined along the interior of the box body 1, an aluminum oxidation tank 11 is installed at the bottom of the aluminum oxidation chamber 6, a heating block 15 and an impurity collecting tank 16 are installed along the bottom surface of the aluminum oxidation tank 11, a driving motor 13 is installed along the inner side surface of the aluminum oxidation tank 11, a stirring paddle 14 is installed on the driving motor 13, the oxidation liquid can be heated through the heating block 15, the oxidation liquid is ensured to be in a flowing state, the aluminum oxidation treatment efficiency of the handle is improved, particle impurities in the oxidation liquid can be collected through the impurity collecting tank 16, the residue of impurities on the surface of the handle is reduced, the stirring paddle 14 can be driven to rotate through the driving motor 13, the oxidation liquid in the aluminum oxidation tank 11 can be driven to flow, and the handle can be cleaned while being subjected to aluminum oxidation treatment;

an anti-overflow plate 12 is arranged on the top surface of the aluminum oxidation tank 11, the anti-overflow plate 12 is arc-shaped, and the anti-overflow plate 12 is convenient for preventing the oxidation liquid from overflowing in the process of aluminum oxidation treatment.

c. Then, the position of the drying chamber 7 is determined along the interior of the box body 1, the drying groove 17 is arranged at the bottom of the drying chamber 7, a hot air drying component is arranged along the side surface of the drying groove 17, and after the handle clamping mechanism 3 moves into the drying groove 17, the handle on the handle clamping mechanism 3 can be dried through the hot air drying component;

hot air drying subassembly includes hot-blast unit 18 and a location section of thick bamboo 46, one side of drying groove 17 is located to hot-blast unit 18, be provided with air-out net 45 between the side of hot-blast unit 18 and drying groove 17, location section of thick bamboo 46 symmetry is located on the inner wall of drying groove 17, and evenly be provided with blow shower nozzle 47 on every location section of thick bamboo 46, location section of thick bamboo 46 and hot-blast unit 18 intercommunication, produce hot-blastly through hot-blast subassembly, make hot-blastly see through air-out net 45 and dry the integrated kitchen handle on handle clamping mechanism 3, and drying efficiency is improved, and hot-blastly can dry the integrated kitchen handle through blow shower nozzle 47 on the location section of thick bamboo 46 simultaneously, and further improves drying efficiency. The bottom plate 44 on the bottom surface of the drying tub 17 is disposed obliquely so that the dropping oxidizing liquid flows into the aluminum oxidizing tub 11.

d. After the drying groove 17 is installed, a limiting groove 8 is vertically formed between the drying groove 17 and the aluminum oxidation groove 11, a lifting door 9 is vertically installed in the limiting groove 8, a rack is arranged on one side of the lifting door 9, a motor is installed between the drying groove 17 and the aluminum oxidation groove 11, a gear 10 is installed on the motor, the gear 10 and the rack are meshed with each other, the gear 10 is driven to rotate through the motor, the lifting door 9 can be driven to move up and down, and the heat loss in the drying chamber 7 can be reduced;

e. finally, an oxidizing liquid storage box 23 is arranged along the lower part of the drying groove 17, the bottom of the drying groove 17 is communicated to one side of the aluminum oxidation groove 11 through a guide pipe 19, an infusion pump 20 is arranged on the guide pipe 19, the bottom of the aluminum oxidation groove 11 is communicated with the guide pipe 19 through a liquid discharge pipe 21, and the oxidizing liquid storage box 23 is communicated with the guide pipe 19 through a delivery pipe 24, so that the oxidizing liquid is recycled conveniently, and the waste of resources is reduced;

the draft tube 19 is provided with a first check valve 22, the first check valve 22 is positioned between the aluminum oxidation tank 11 and the drying tank 17, and the first check valve 22 can control the opening and closing of the draft tube 19. The delivery pipe 24 is provided with a second one-way valve 25, and the second one-way valve 25 can control the opening and closing of the delivery pipe 24.

3) Integrated kitchen handle conveying

a. Firstly, conveying a transmission mechanism 5 to one side close to a feeding table 2 through a conveying belt 4, starting the transmission mechanism 5, and manually hoisting a handle clamping mechanism 3 positioned on the front side, so that a plurality of integrated stove handles can be conveniently processed at one time;

b. then the handle clamping mechanism 3 is lifted to a set height position, and the transmission mechanism 5 is conveyed into the aluminum oxidation chamber 6 through the conveying belt 4;

4) handle aluminum oxidation treatment

a. When the handle clamping mechanism 3 moves to the left side of the aluminum oxidation chamber 6, the transmission mechanism 5 is started, the lower part of the handle clamping mechanism 3 is placed in the aluminum oxidation tank 11 until the handle clamping mechanism 3 is immersed below the liquid level of the oxidation liquid, and the handle of the integrated stove is subjected to aluminum oxidation treatment;

b. then, a driving motor 13 is started, a stirring paddle 14 is driven to rotate through the driving motor 13, so that the oxidizing liquid flows to the direction of the handle clamping mechanism 3, a heating block 15 is started to heat the oxidizing liquid, the heated oxidizing liquid can perform aluminum oxidation treatment on the handle of the integrated stove, and the stirring paddle 14 accelerates the flow of the oxidizing liquid under the action of the driving motor 13 to clean impurities on the handle of the integrated stove;

c. then, the conveying belt 4 is started, the handle clamping mechanism 3 is driven to move towards the right side through the conveying belt 4 through the transmission mechanism 5 until the handle clamping mechanism approaches the stirring paddle 14, and then the driving motor 13 is turned off to stop the stirring paddle 14 from working, so that the cleaned impurities can be prevented from being adhered to the surface of the integrated stove handle;

d. finally, the handle clamping mechanism 3 is hoisted and lifted to a set height position through the transmission mechanism 5, the motor is started, the lifting door 9 is driven to descend through the gear 10, and the handle clamping mechanism 3 is conveyed into the drying chamber 7 through the conveying belt 4;

5) handle drying treatment

a. When the handle clamping mechanism 3 reaches the drying chamber 7, the conveying belt 4 stops moving, and the handle clamping mechanism 3 is lowered into the drying groove 17 through the transmission mechanism 5;

b. then starting a hot air drying assembly, and drying the integrated stove handle on the handle clamping mechanism 3 through the hot air drying assembly;

c. then, the conveying belt 4 drives the transmission mechanism 5 and the handle clamping mechanism 3 to move rightwards along the drying groove 17, after the transmission mechanism moves to a set position, the hot air drying assembly and the conveying belt 4 are closed, the transmission mechanism 5 is started, and the handle clamping mechanism 3 is lifted to a set height;

d. finally, the handle after the aluminum oxidation treatment is sent out from the right side of the box body 1 through the handle clamping mechanism 3 through the conveying belt 4, after the handle clamping mechanism 3 is taken down, the conveying belt 4 moves reversely, the transmission mechanism 5 is conveyed to one side of the feeding table 2, and the conveying of the next handle clamping mechanism 3 is carried out;

6) treatment of oxidizing liquids

a. After a batch of integrated stove handles are subjected to aluminum oxidation treatment, starting the infusion pump 20, and conveying the oxidation liquid in the drying groove 17 into the aluminum oxidation groove 11 through the draft tube 19;

b. when the liquid level of the oxidation liquid in the aluminum oxidation tank 11 is lower than the set height, starting the infusion pump 20 to convey the oxidation liquid in the oxidation liquid storage tank 23 to the aluminum oxidation tank 11 through the conveying pipe 24 and the draft tube 19;

c. finally, cleaning the particle impurities in the impurity collecting tank 16.

The aluminum oxidation processing technology has simple steps, can realize that a plurality of integrated kitchen handles simultaneously carry out aluminum oxidation treatment, shortens the processing steps, can reduce the waste of resources and greatly improves the quality of aluminum oxidation processing.

The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple variations, equivalent substitutions or modifications based on the present invention to achieve substantially the same technical effects are within the scope of the present invention.