CN210499724U - Rotary type stainless steel tableware automatic polishing device with spray cooling function - Google Patents

Abstract

The utility model discloses a rotary type stainless steel tableware automatic polishing device with spray cooling, belonging to polishing equipment. A central driving shaft of a rotating disk of the device is connected with a driving device, clamping arms are uniformly distributed on the surface of the rotating disk along the radius direction of the rotating disk, one end of each clamping arm is fixedly connected with the rotating disk, and the other end of each clamping arm extends out of the outer edge of the rotating disk and is connected with a clamp holder; the head polishing machine and the tail polishing machine are oppositely arranged on two sides of the rotating disc, the feeding machine and the discharging machine are oppositely arranged on the other two sides of the rotating disc together with the spray type cooling machine and the rotary type reversing machine, the feeding machine is close to the first head polishing machine, the discharging machine is close to the last tail polishing machine, the spray type cooling machine is close to the last head polishing machine, and the rotary type reversing machine is close to the first tail polishing machine. The utility model provides an among the stainless steel tableware polishing process because of the polishing produce the problem that high temperature arouses, improved stainless steel tableware machining efficiency, prolonged equipment life, guaranteed the quality of product.

Description

Rotary type stainless steel tableware automatic polishing device with spray cooling function

Technical Field

The utility model belongs to the surface polishing equipment of stainless steel tableware, in particular to a rotary type stainless steel tableware automatic polishing device with spray cooling.

Background

At present, in the industry of stainless steel tableware and kitchenware, in order to remove the defects of pits, burrs, cracks and the like of a stainless steel tableware blank in the stamping and shaping process, the surface of the stainless steel tableware needs to be polished after the stainless steel tableware is subjected to stamping forming, the surface brightness of the polished stainless steel tableware is improved, the appearance is attractive, and the polished stainless steel tableware product can be directly packaged and sold after being cleaned.

In the production process of the existing polishing equipment, the whole tableware generates heat after the stainless steel tableware blank is polished by the head for four times, the temperature of the stainless steel tableware blank rises, and when the stainless steel tableware blank directly enters the rotary reversing machine for clamping, the high-temperature stainless steel tableware blank can carbonize a rubber pad of a clamping mechanism of the reversing machine, so that the service life of the reversing machine is shortened. The temperature of the stainless steel tableware with high temperature after the direction change can be further increased when the tail polishing machine polishes the tail of the stainless steel tableware blank, and the temperature is too high, so that the surface metal structure of the stainless steel tableware can be changed, even polishing burn occurs, and the surface is blue or even black. Meanwhile, the rubber pad is easy to adhere to the stainless steel tableware, so that black residues exist after the product is formed, and the product sale is influenced.

Therefore, after the polishing operation is completed, the rotary turntable needs to wait for 15 to 25 seconds to reduce the temperature of the stainless steel tableware blank, and the stainless steel tableware needs to wait for about 3 minutes after being subjected to one round of polishing at the head and the tail, which causes waste of processing time and influences the processing efficiency of the stainless steel tableware.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome foretell defect, provide a take spray cooling's automatic burnishing device of rotation type stainless steel tableware, reduce the temperature of stainless steel tableware blank through water smoke after the polishing, reentrant follow-up production improves work efficiency.

The utility model aims at realizing through the following technical scheme: a rotary type stainless steel tableware automatic polishing device with spray cooling comprises a rotary type feeding disc, a polishing machine, a feeding machine, a blanking machine, a spray type cooling machine and a rotary type reversing machine;

the rotary feeding plate comprises a rotating plate and a clamping device, a driving shaft is mounted in the center of the rotating plate and connected with the driving device, the clamping device comprises a clamp and clamping arms, the clamping arms are uniformly distributed on the surface of the rotating plate in the radius direction of the rotating plate, one end of each clamping arm is fixedly connected with the rotating plate, and the other end of each clamping arm extends out of the outer edge of the rotating plate and is connected with the clamp;

the polishing machine comprises a plurality of head polishing machines and a plurality of tail polishing machines, the head polishing machines and the tail polishing machines are arranged on two sides of the rotating disc relatively, the feeding machine and the discharging machine are arranged on two other sides of the rotating disc relatively with the spray type cooling machine and the rotary type reversing machine, the feeding machine is close to the head polishing machines, the discharging machine is close to the tail polishing machines, the spray type cooling machine is close to the tail polishing machines, and the rotary type reversing machine is close to the tail polishing machines.

The driving device comprises a motor, a speed reducer, a pinion and a bull gear, the motor is connected with the speed reducer, an output shaft of the speed reducer is connected with the pinion, the pinion is meshed with the bull gear, and the rotating disk is located above the bull gear and fixedly connected with the bull gear (through which connection).

The rotary feeding plate also comprises a supporting device, the supporting device comprises a supporting column, a rotary supporting column, a supporting frame and a supporting bearing, and a rotary bearing in the large gear is fixed with the supporting column uniformly distributed below the large gear along the circumferential direction of the large gear through a flange; the rotating support columns are arranged below the rotating disc and located on the outer sides of the support columns and are evenly arranged along the circumference of the rotating disc, the support frames are installed on the upper surfaces of the rotating support columns, the support bearings are installed on the support frames, the axes of the support bearings are connected with the support frames, and the upper end surfaces of the support bearings are matched with the bottom surface of the rotating disc.

The rotary feeding plate further comprises a positioning device, the positioning device comprises a triangular support frame, a cylinder, a guide shaft, a right-angle concave block and a right-angle convex block, the triangular support frame is arranged below the clamping arm and fixed on the side wall of the supporting column, the cylinder is arranged on the upper end face of the triangular support frame and connected with the guide shaft, and the tail end of the guide shaft is connected with the right-angle convex block and matched with the right-angle concave block below the clamping arm;

the rotary feeding plate also comprises a detection device, the detection device comprises an adjusting base plate and an induction block bracket, the adjusting base plate is fixed on the lower surface of the clamping arm and is positioned between the right-angle concave block and the clamp holder, and the induction block bracket for mounting the induction block is connected with the adjusting base plate; the clamping arm consists of a large arm and a small arm, one end of the large arm is fixedly connected with the rotating disk, the other end of the large arm is connected with the small arm, the small arm is inserted into the large arm and fixed with the large arm, and the tail end of the small arm is connected with the clamp holder;

the spray type cooling machine comprises a spray chamber, a sewage treatment chamber, a water tank, a high-pressure water pump and a PLC (programmable logic controller); the spray chamber is located the top of sewage treatment room, form a space between the two, this space is tableware treatment area, set up a plurality of nozzles in the spray chamber, the nozzle is connected to the one end of water pipe, the other end passes through high pressure water pump and connects the water tank, the bottom of sewage treatment room is equipped with the outlet, outlet connection Y type filter, the cartridge filter and the water tank intercommunication of Y type filter, install blowdown filter solenoid valve on the blow off pipe of Y type filter, blowdown filter solenoid valve is connected with the PLC controller, be equipped with water inlet and delivery port on the water tank of sewage treatment room below.

The rotary reversing machine comprises a clamping mechanism, a turnover mechanism and a feeding mechanism;

the clamping mechanism comprises an overturning portal frame, an upper clamping plate, a lower clamping plate, a van-type bearing and an air cylinder, wherein the overturning portal frame is of a frame structure, two guide rails for connecting an upper frame and the lower frame are installed in the overturning portal frame, the van-type bearing is sleeved on the guide rails, the upper clamping plate and the lower clamping plate are arranged between the two guide rails in parallel, two ends of the upper clamping plate and the lower clamping plate are respectively connected with the van-type bearing, the air cylinders are respectively installed between the upper clamping plate and the upper frame and between the lower clamping plate and the lower frame, and the air cylinder;

the turnover mechanism comprises a feeding support, a bearing, a gear and a cylinder, wherein the feeding support is a U-shaped support with an upward opening, shafts sleeved with the bearing are arranged on two side walls in the feeding support, a turnover door frame is arranged in the feeding support and is connected with the shafts at two ends of the feeding support, the cylinder is arranged on an outer side wall frame of the feeding support and is connected with a rack through a cylinder piston rod, the rack is meshed with the gear, and the gear is coaxially connected with the shafts at two sides of the turnover door frame;

the feeding mechanism comprises a base, an air cylinder, a sliding block and a linear sliding rail, the linear sliding rail is installed at the upper end of the base, the sliding block is installed in the linear sliding rail, a feeding support is fixed on the sliding block, the air cylinder is fixed on the base, and the air cylinder is connected with the feeding support through an air cylinder piston rod.

And the spray nozzle is provided with an electric spray regulating valve which is connected with the PLC.

The sewage treatment room is internally provided with a temperature detection probe which is connected with the PLC.

And a water level detection probe is installed in the water tank and is connected with the PLC.

The utility model has the advantages and beneficial effects that:

1. when stainless steel tableware blanks are polished by the hemp wheel, the friction between the hemp wheel and the stainless steel generates heat, the temperature is up to more than 200 ℃ after four times of polishing, and the temperature reaches the rubber carbonization temperature, so that rubber of a clamping mechanism of the rotary reversing machine is carbonized, and spray cooling equipment is added after the four times of polishing, so that the problems of product discoloration and rubber residue in products caused by high temperature generated in the polishing process of the stainless steel tableware are solved, and the product quality is improved.

2. The problem of rubber aging of the clamping equipment caused by high temperature of the stainless steel tableware is solved, and the service life of the clamping equipment is prolonged;

3. the stainless steel tableware at the cooling station is cooled while the head and tail polishing machines work, so that the original cooling waiting time is eliminated, and the processing efficiency is improved;

4. the spray cooling machine has the functions of temperature detection and accurate adjustment of spray quantity, and can ensure that tableware enters the next working procedure at a lower temperature.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of a rotary feed tray structure.

Fig. 3 is a schematic view of a spray cooler.

Fig. 4 is a schematic structural view of the rotary commutator.

Wherein:

1-chassis, 2-motor, 3-motor support, 4-reducer, 5-reducer support, 6-pinion, 7-bull gear, 8-flange, 9-support column, 10-rotating disk, 11-big arm, 12-small arm, 13-gripper, 14-rotating support column, 15-support frame, 16-support bearing, 17-triangular support frame, 18-cylinder, 19-guide shaft, 20-right-angle bump, 21-right-angle concave block, 22-adjusting shim plate, 23-induction block support, 24-polisher head, 25-tail polisher, 26-feeder, 27-feeder, 28-spray cooler, 29-rotary commutator, 30-spray chamber, 31-sewage treatment room, 32-tableware treatment area, 33-nozzle, 34-water pipe, 35-high pressure water pump, 36-water tank, 37-spraying electric regulating valve, 38-PLC controller, 39-temperature detection probe, 40-Y type filter, 41-filter cartridge, 42-sewage discharge pipe, 43-sewage discharge filter electromagnetic valve, 44-water inlet, 45-water outlet, 46-water level detection probe, 47-turnover door frame, 48-upper clamping plate, 49-lower clamping plate, 50-box bearing, 51-air cylinder, 52-guide rail, 53-feeding support, 54-bearing, 55-gear, 56-air cylinder, 57-base, 58-air cylinder, 59-slide block and 60-linear slide rail.

Detailed Description

Example (b): as shown in the figure, the rotary type automatic polishing device for the stainless steel tableware with spray cooling comprises a rotary type feeding disc, a polishing machine, a feeding machine, a blanking machine, a spray cooling machine and a rotary reversing machine, wherein a chassis 1 of the rotary type feeding disc is used as a base of the whole polishing device and is fixed on the ground; a motor bracket 3 for mounting a motor 2 and a speed reducer bracket 5 for mounting a speed reducer 4 are respectively fixedly arranged on the chassis 1, and the motor 2 and the speed reducer 4 are connected through a belt pulley; an output shaft of the speed reducer 4 is connected with a small gear 6, the small gear 6 is meshed with a large gear 7, and a rotary bearing in the large gear 7 is fixed with 8 support columns 9 uniformly distributed below the large gear 7 along the circumferential direction of the large gear 7 through a flange 8; the rotating disc 10 is positioned above the bull gear 7 and is connected with a threaded hole of the bull gear 7 through a screw; 12 clamping arms are uniformly distributed on the rotary disk 10 along the radius direction of the rotary disk 10, each clamping arm consists of a large arm 11 and a small arm 12, one end of each large arm 11 is fixedly connected to the rotary disk 10, each small arm 12 is inserted into the corresponding large arm 11 and fastened by screws and is fixed relative to the corresponding large arm, when the size of a polished product changes, the fastening screws need to be loosened, then the inserting amount of the corresponding small arm in the corresponding large arm is adjusted, the screws are fastened again after the adjusting distance is reached, and the tail end of each small arm 12 is connected with the clamp holder 13; 12 rotating support columns 14 are arranged below the rotating disk 10, are positioned on the outer sides of the support columns 9 and are uniformly arranged along the circumference of the rotating disk 10, a support frame 15 is arranged on the upper surface of each rotating support column 14, a support bearing 16 is arranged on each support frame 15, the axis of each support bearing 16 is connected with each support frame 15, and the upper end surface of each support bearing 16 is matched with the bottom surface of the rotating disk 10; a triangular support frame 17 is arranged below a large arm 11 of the clamping arm, the triangular support frame 17 is fixed on the side wall of the support column 9, an air cylinder 18 is arranged on the upper end face of the triangular support frame 17, the air cylinder 18 is connected with a guide shaft 19, and the tail end of the guide shaft 19 is connected with a right-angle convex block 20 and matched with a right-angle concave block 21 below the large arm 11 of the clamping arm; an adjusting base plate 22 is fixed on the lower surface of the clamping arm between the right-angle concave block 21 and the clamping device 13, a sensing block bracket 23 provided with a sensing block is connected with the adjusting base plate 22, and the sensing block gives a signal to a control system through photoelectric sensing so as to enable the rotating disc to move to a specified position and stop positioning. The two opposite sides of the rotating disk 10 are respectively provided with 4 head polishing machines 24 and 4 tail polishing machines 25, according to the clockwise direction, one side of the rotating disk 10 is provided with a feeding device 26 close to the first head polishing machine 24, a discharging device 27 close to the last tail polishing machine 25, a spray type cooling machine 28 is arranged close to the last head polishing machine 24, and a rotary type reversing machine 29 is arranged close to the first tail polishing machine 25. The spraying chamber 30 of the spraying type cooling machine 28 is positioned above the sewage treatment chamber 31, a space formed between the spraying chamber 30 and the sewage treatment chamber 31 is a tableware treatment area 32, a plurality of nozzles 33 are arranged in the spraying chamber 30, one end of a water pipe 34 is connected with the nozzles 33, an electric spraying regulating valve 37 is arranged on the nozzles 33, the electric spraying regulating valve 37 is connected with a PLC 38, the other end of the water pipe 34 is connected with a water tank 36 through a high-pressure water pump 35, a temperature detection probe 39 is arranged in the sewage treatment chamber 31, the temperature detection probe 39 is connected with the PLC 38, a water outlet is arranged at the bottom of the sewage treatment chamber 31 and is connected with a Y-shaped filter 40, a filter cylinder 41 of the Y-shaped filter 40 is communicated with the upper end of the water tank 36, a sewage discharge filter electromagnetic valve 43 is arranged on a sewage discharge pipe 42 of the Y-shaped filter 40, the sewage discharge filter electromagnetic valve 43 is connected with the PLC, a water level detection probe 46 is arranged in the water tank 36, and the water level detection probe 46 is connected with the PLC 38.

The clamping mechanism of the rotary reversing machine comprises a turnover portal frame 47, an upper clamp plate 48, a lower clamp plate 49, a box bearing 50 and an air cylinder 51, wherein the turnover portal frame 47 is of a frame structure, two guide rails 52 for connecting the upper frame and the lower frame are installed in the turnover portal frame 47, the box bearing 50 is sleeved on the guide rails 52, the upper clamp plate 48 and the lower clamp plate 49 are arranged between the two guide rails 52 in parallel, two ends of the upper clamp plate 48 and the lower clamp plate 49 are respectively connected with the box bearing 50, the air cylinders 51 are respectively installed between the upper clamp plate 48 and the upper frame as well as between the lower clamp plate 49 and the lower frame, and the air cylinder 51 is connected with the upper; the turnover mechanism comprises a feeding support 53, a bearing 54, a gear 55 and a cylinder 56, wherein the feeding support 53 is a U-shaped support with an upward opening, shafts sleeved with the bearing 54 are installed on the two side walls in the feeding support 53, a turnover door frame 47 is arranged in the feeding support 53 and connected with the shafts at the two ends of the feeding support 53, the cylinder 56 is arranged on the outer side wall frame of the feeding support 53 and connected with a rack through a cylinder piston rod, the rack is meshed with the gear 55, and the gear 55 is coaxially connected with the shafts at the two sides of the turnover door frame 47; the vertical turning angle of the turning gantry is 180 degrees, the module of a gear connected with the rack is 3, and the number of teeth is 21; the feeding mechanism comprises a base 57, an air cylinder 58, a sliding block 59 and a linear sliding rail 60, the linear sliding rail 60 is installed at the upper end of the base 57, the sliding block 59 is installed in the linear sliding rail 60, the feeding support is fixed on the sliding block 59, the air cylinder 58 is fixed on the base 57, and the air cylinder 58 is connected with the feeding support 53 through an air cylinder piston rod.

The rotary feed tray, the polishing machine, the spray cooling machine and the rotary reversing machine are coordinated by the same PLC in the main control cabinet, and logical relations exist in the operation time and the action sequence.

The working process is as follows:

and (3) head polishing:

the tableware blank is fed by a feeding machine, the rotary feeding plate clamps the tableware blank at a feeding station, the tableware blank is fed into a No. 1 head polishing machine to be subjected to rough polishing on the upper surface of the tableware head by adopting a hemp wheel, after 15s of polishing is finished, the tableware blank is fed into a No. 2 head polishing machine to be subjected to rough polishing on the lower surface of the tableware head by adopting the hemp wheel, after 15s of polishing is finished, the tableware blank is fed into a No. 3 head polishing machine to be subjected to fine polishing on the upper surface of the tableware head by adopting a cloth wheel, after 20s of polishing is finished, the tableware blank is fed into a No. 4 head polishing machine to be subjected to fine polishing on the lower surface of the tableware head by adopting the cloth wheel, at the moment, the head of the tableware blank is polished, a feedback signal is sent to a main control cabinet PLC (PLC).

The temperature of the plate blank is between 200 and 350 ℃.

The cooling process of the tableware:

the head is polished and then the tableware blank is fed into the spray cooling machine by the rotary feeding plate, the temperature of the tableware blank is firstly detected by the temperature detection probe of the spray cooling machine, the temperature signal is fed back to the PLC, then the PLC sends the output signal to the spray electric regulating valve and the high-pressure water pump according to the detected temperature, the regulating valve and the high pressure control the spray water quantity according to the signal, the temperature detection probe detects the tableware temperature in real time, when the tableware temperature is lower than 50 ℃, the spray cooling machine acquires the signal and then generates a spray completion signal, the spray completion signal is fed back to the PLC of the main control cabinet, the spraying is stopped, the spray cooling time is less than 15 seconds, meanwhile, the signal is sent to the rotary feeding plate, the rotary feeding plate starts to rotate after loosening the positioning locking device, the tableware after being cooled by spraying is rotated and withdrawn from the spraying.

The temperature of the dish blank is about 40-50 deg.C.

The rotation and reversing process of the tableware:

after the tableware is cooled, the tableware blanks are fed into the rotary reversing machine through the rotary feeding plate, the reversing machine rotates after clamping the tableware, the rotary feeding device clamps the tableware blanks from the reversing machine after the head and tail directions of the tableware are changed, the reversing process is completed, a feedback signal is sent to the main control cabinet PLC, the main control cabinet PLC sends a signal to the turntable, and the turntable starts to rotate after loosening the positioning locking device.

The polishing process of the tail of the tableware:

the tableware blank is sent into 1# afterbody burnishing machine by the rotation type feed table and adopts the castor to carry out tableware afterbody upper surface rough polishing, polishing 15s back is accomplished, send into 2# afterbody burnishing machine and adopt the castor to carry out tableware afterbody lower surface rough polishing, polishing 15s back is accomplished, send into 3# afterbody burnishing machine with the tableware blank and adopt the cloth wheel to carry out tableware afterbody upper surface finish polishing, polishing 20s back is accomplished, send into 4# afterbody burnishing machine with the tableware blank and adopt the cloth wheel to carry out tableware head lower surface finish polishing, the polishing of tableware blank afterbody was accomplished this moment. And after polishing, the rotary feeding device sends the tableware to a blanking station, and the whole polishing process is finished.

In the process of spraying and cooling the tableware for a long time, the sprayed cooling water can bring polishing residues on the surface of the tableware into water, so that the sewage is discharged from a sewage discharge pipe at regular time through a Y-shaped filter electromagnetic valve when the sprayed water flows back to a water tank; meanwhile, a water outlet at the bottom of the water tank is opened for a long time, and precipitated sewage is discharged out of the water tank in time, so that the high-pressure water pump is guaranteed to absorb clean water, and a nozzle cannot be blocked.

The water tank is internally provided with a water level detection probe, when the water level is lower than the water level detection probe, the high-pressure water pump stops working, the water pump is prevented from burning out in an idle running mode under the condition that the water tank is in water shortage, and meanwhile, the cooling water quantity of tableware is ensured.

The water tank is replenished with tap water from a water inlet at the upper end of the water tank, and a floating ball self-adaptive water replenishing mode is adopted.

The working process of the utility model is described below by taking the spoon as an example.

The first step is as follows: putting the meal spoon blank to be polished on a feeding machine in an arranging manner, and clamping the spoon handle part of the meal spoon by a clamp holder;

the second step is that: the rotary feeding turntable drives the clamping arm to rotate clockwise, and the head of the spoon is sequentially sent into the 4 head polishing machines to polish the head of the spoon.

The third step: at the moment, the temperature of the spoon blank rises, the rotary feeding turntable continuously rotates clockwise, and the spoon is fed into the spray cooler to carry out spray cooling on the head of the spoon;

the fourth step: after the head of the spoon is cooled, the rotary feeding turntable continuously rotates clockwise to feed the spoon into the rotary reversing machine for reversing;

the fifth step: the clamp holder clamps the spoon head part of the spoon, the rotary feeding turntable drives the clamping arm to rotate clockwise, and the spoon handle of the spoon is sequentially sent into 4 tail polishing machines to polish the spoon handle of the spoon;

and a sixth step: after the tail of the stainless steel tableware is polished, the rotary feeding turntable continues to rotate clockwise, the polished spoon is conveyed to the blanking machine, the clamp holder is loosened, and the stainless steel tableware is placed on the blanking machine.

Claims (10)

1. The utility model provides a take automatic burnishing device of refrigerated rotation type stainless steel tableware of spraying which characterized in that: comprises a rotary feed tray, a polishing machine, a feeding machine, a blanking machine, a spray type cooling machine and a rotary reversing machine;

the rotary feeding plate comprises a rotating plate and a clamping device, a driving shaft is mounted in the center of the rotating plate and connected with the driving device, the clamping device comprises a clamp and clamping arms, the clamping arms are uniformly distributed on the surface of the rotating plate in the radius direction of the rotating plate, one end of each clamping arm is fixedly connected with the rotating plate, and the other end of each clamping arm extends out of the outer edge of the rotating plate and is connected with the clamp;

the polishing machine comprises a plurality of head polishing machines and a plurality of tail polishing machines, the head polishing machines and the tail polishing machines are arranged on two sides of the rotating disc relatively, the feeding machine and the discharging machine are arranged on two other sides of the rotating disc relatively with the spray type cooling machine and the rotary type reversing machine, the feeding machine is close to the head polishing machines, the discharging machine is close to the tail polishing machines, the spray type cooling machine is close to the tail polishing machines, and the rotary type reversing machine is close to the tail polishing machines.

2. The rotary automatic stainless steel tableware polishing apparatus with spray cooling of claim 1, wherein: the driving device comprises a motor, a speed reducer, a pinion and a bull gear, the motor is connected with the speed reducer, an output shaft of the speed reducer is connected with the pinion, the pinion is meshed with the bull gear, and the rotating disc is located above the bull gear and fixedly connected with the bull gear.

3. The rotary automatic stainless steel tableware polishing apparatus with spray cooling of claim 1, wherein: the rotary feeding plate also comprises a supporting device, the supporting device comprises a supporting column, a rotary supporting column, a supporting frame and a supporting bearing, and a rotary bearing in the large gear is fixed with the supporting column uniformly distributed below the large gear along the circumferential direction of the large gear through a flange; the rotating support columns are arranged below the rotating disc and located on the outer sides of the support columns and are evenly arranged along the circumference of the rotating disc, the support frames are installed on the upper surfaces of the rotating support columns, the support bearings are installed on the support frames, the axes of the support bearings are connected with the support frames, and the upper end surfaces of the support bearings are matched with the bottom surface of the rotating disc.

4. The rotary automatic stainless steel tableware polishing apparatus with spray cooling of claim 1, wherein: the rotary feeding disc further comprises a positioning device, the positioning device comprises a triangular support frame, a cylinder, a guide shaft, a right-angle concave block and a right-angle convex block, the triangular support frame is arranged below the clamping arm and fixed on the side wall of the supporting column, the cylinder is installed on the upper end face of the triangular support frame, the guide shaft is connected with the cylinder, and the tail end of the guide shaft is connected with the right-angle convex block and matched with the right-angle concave block below the clamping arm.

5. The rotary automatic stainless steel tableware polishing apparatus with spray cooling of claim 1, wherein: the rotary feeding plate also comprises a detection device, the detection device comprises an adjusting base plate and an induction block bracket, the adjusting base plate is fixed on the lower surface of the clamping arm and is positioned between the right-angle concave block and the clamp holder, and the induction block bracket for mounting the induction block is connected with the adjusting base plate; the clamping arm consists of a large arm and a small arm, one end of the large arm is fixedly connected with the rotating disk, the other end of the large arm is connected with the small arm, the small arm is inserted into the large arm and fixed with the large arm, and the tail end of the small arm is connected with the clamp holder.

6. The rotary automatic stainless steel tableware polishing apparatus with spray cooling of claim 1, wherein: the spray type cooling machine comprises a spray chamber, a sewage treatment chamber, a water tank, a high-pressure water pump and a PLC (programmable logic controller); the spray chamber is located the top of sewage treatment room, form a space between the two, this space is tableware treatment area, set up a plurality of nozzles in the spray chamber, the nozzle is connected to the one end of water pipe, the other end passes through high pressure water pump and connects the water tank, the bottom of sewage treatment room is equipped with the outlet, outlet connection Y type filter, the cartridge filter and the water tank intercommunication of Y type filter, install blowdown filter solenoid valve on the blow off pipe of Y type filter, blowdown filter solenoid valve is connected with the PLC controller, be equipped with water inlet and delivery port on the water tank of sewage treatment room below.

7. The rotary automatic stainless steel tableware polishing apparatus with spray cooling of claim 1, wherein: the rotary reversing machine comprises a clamping mechanism, a turnover mechanism and a feeding mechanism;

the clamping mechanism comprises an overturning portal frame, an upper clamping plate, a lower clamping plate, a van-type bearing and an air cylinder, wherein the overturning portal frame is of a frame structure, two guide rails for connecting an upper frame and the lower frame are installed in the overturning portal frame, the van-type bearing is sleeved on the guide rails, the upper clamping plate and the lower clamping plate are arranged between the two guide rails in parallel, two ends of the upper clamping plate and the lower clamping plate are respectively connected with the van-type bearing, the air cylinders are respectively installed between the upper clamping plate and the upper frame and between the lower clamping plate and the lower frame, and the air cylinder;

the turnover mechanism comprises a feeding support, a bearing, a gear and a cylinder, wherein the feeding support is a U-shaped support with an upward opening, shafts sleeved with the bearing are arranged on two side walls in the feeding support, a turnover door frame is arranged in the feeding support and is connected with the shafts at two ends of the feeding support, the cylinder is arranged on an outer side wall frame of the feeding support and is connected with a rack through a cylinder piston rod, the rack is meshed with the gear, and the gear is coaxially connected with the shafts at two sides of the turnover door frame;

the feeding mechanism comprises a base, an air cylinder, a sliding block and a linear sliding rail, the linear sliding rail is installed at the upper end of the base, the sliding block is installed in the linear sliding rail, a feeding support is fixed on the sliding block, the air cylinder is fixed on the base, and the air cylinder is connected with the feeding support through an air cylinder piston rod.

8. The rotary automatic stainless steel tableware polishing apparatus with spray cooling of claim 6, wherein: and the spray nozzle is provided with an electric spray regulating valve which is connected with the PLC.

9. The rotary automatic stainless steel tableware polishing apparatus with spray cooling of claim 6, wherein: the sewage treatment room is internally provided with a temperature detection probe which is connected with the PLC.

10. The rotary automatic stainless steel tableware polishing apparatus with spray cooling of claim 6, wherein: and a water level detection probe is installed in the water tank and is connected with the PLC.

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