CN211756367U - Non-stick pan spraying assembly line - Google Patents

Abstract

The utility model provides a non-stick pan spraying assembly line, including drive arrangement, annular conveying frame, put pot post, spray booth, drive arrangement includes power device and drive gear, annular conveying frame includes that both sides have the annular of dogtooth take the tooth track and set up in the annular guide rail that the tooth track outside is taken to the annular, the annular takes tooth track and annular guide rail interval to set up, in order to form the annular track, it includes supporting disk and mobile gear to put the pot post, and locate on the annular conveying frame through mobile gear, mobile gear can remove and the rotation in the annular track through drive gear's drive, the spray booth includes the dust removal district, spraying district and drying area, one of them section of annular conveying frame passes the spray booth. The technical problem of efficiency inefficiency caused by the fact that multiple times of transferring are needed when the outer surface of the non-stick pan is sprayed in the prior art is solved, and steps needed by the whole spraying can be completed on the outer surface of the non-stick pan at one time.

Description

Non-stick pan spraying assembly line

Technical Field

The utility model relates to a non-stick pan spraying technical field especially relates to a non-stick pan spraying assembly line.

Background

At present, the coating of the non-stick pan adopts a spraying process of firstly spraying the inner surface of the non-stick pan and then inversely buckling the non-stick pan on a cylindrical appliance to spray the outer surface of the non-stick pan. However, when the outer surface of the non-stick pan is sprayed, the spraying needs to be performed through a plurality of steps, such as spraying and drying, in the prior art, the non-stick pan is often required to be transported for a plurality of times when being treated, and the transportation for a plurality of times is not only inefficient, but also can damage the non-stick pan in the transportation process.

SUMMERY OF THE UTILITY MODEL

To exist not enough among the prior art, the utility model provides a non-stick pan spraying assembly line, it has solved the problem that the number of times is transported to the non-stick pan that exists among the prior art is many, and is inefficient.

According to the embodiment of the utility model, a non-stick pan spraying assembly line, including drive arrangement, annular conveying frame, put a pot post, spraying room, drive arrangement includes power device and drive gear, annular conveying frame includes that both sides have the annular of dogtooth to take the tooth track and be the annular guide rail that sets up in the annular takes the tooth track outside with enclosing, and annular takes tooth track and annular guide rail interval to set up, in order to form the annular track, put a pot post and include supporting disk and moving gear, and locate on annular conveying frame through moving gear, the supporting disk sets up in the moving gear one end of keeping away from the ground, and stretches out outside annular conveying frame, and the non-stick pan back-off is placed on the supporting disk;

the moving gear arranged on the annular conveying frame is arranged between the annular guide rail and the annular toothed crawler, the power device drives the driving gear to rotate, the driving gear is meshed with the convex teeth on one side of the annular toothed crawler to drive the annular toothed crawler to rotate, and the convex teeth on the other side of the annular toothed crawler are meshed with the moving gear, so that the moving gear can move in the annular track and rotate under the driving of the driving gear;

the spraying chamber comprises a dust removing area, a spraying area and a drying area, one section of the annular conveying frame penetrates through the spraying chamber, so that the pot placing column arranged on the annular conveying frame enters the spraying chamber and then is moved out of the spraying chamber after sequentially passing through the dust removing area, the spraying area and the drying area,

the technical principle of the utility model is that: by using an endless carrier comprising an endless track and an endless toothed track, an endless track is formed inside. The pot placing column for placing the non-stick pot comprises a moving gear, and the moving gear is arranged in the annular track. One side of the annular toothed aluminum foil bag is provided with a moving gear, the other side of the annular toothed aluminum foil bag is provided with a driving gear, and convex teeth on two sides of the annular toothed crawler are meshed with the driving gear and the moving gear which are arranged on two sides of the annular toothed crawler. The driving gear rotates under the driving of the power device and drives the annular toothed crawler to rotate, and further drives the moving gear meshed with the convex teeth on one side of the annular toothed crawler, so that the moving gear moves in the annular track and rotates. The non-stick pan is reversely buckled on a supporting disk on the pan placing column, and the pan placing column moves on the annular conveying frame under the driving of the moving gear. The movable pot placing column can enter a spraying chamber arranged at one section of the annular conveying frame and sequentially passes through the dust removing area, the spraying area and the drying area, the outer surface of the non-stick pot on the pot placing column is sequentially subjected to dust absorption, spraying and drying treatment, and finally the pot placing column is sent out of the spraying chamber to finish spraying the non-stick pot.

Compared with the prior art, the utility model discloses following beneficial effect has: the whole spraying process can be completed without transferring the non-stick pan for many times, and meanwhile, the spraying process is only carried out in the spraying chamber, so that the adverse effects caused by other factors can be avoided as much as possible when dust removal, spraying and drying are carried out. Meanwhile, the non-stick pan can be driven by the pan column to move and rotate, so that the non-stick pan can be more conveniently subjected to dust collection, spraying and drying.

The technical problem of low efficiency caused by multiple times of transferring when the outer surface of the non-stick pan is sprayed in the prior art is solved, and the steps required by the whole spraying can be completed on the outer surface of the non-stick pan at one time.

Drawings

Fig. 1 is a schematic structural view of a non-stick pan spraying assembly line according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the spraying area according to the embodiment of the present invention.

Fig. 3 is a schematic structural view of a pot placing column according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the driving gear, the annular transmission frame and the moving gear according to the embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a partition board according to an embodiment of the present invention.

Fig. 6 is another schematic structural diagram of the pot holding column according to the embodiment of the present invention.

In the above drawings: 100. a spray chamber; 200. an annular transfer frame; 300. placing the pot column; 400. a drive gear; 500. a support frame; 110. a dust removal area; 120. a spraying area; 130. a drying zone; 140. a partition plate; 111. a dust collection device; 121. a spraying device; 310. a support disc; 320. a connecting rod; 330. a moving gear; 210. an annular guide rail; 220. an endless toothed track; 141. an opening; 340. a movable tray; 350. a spring.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1, an embodiment of the present invention provides a non-stick pan spraying assembly line, which includes a spraying chamber 100, an annular conveying frame 200, a pan placing column 300, and a driving device, wherein the driving device includes a power device (not shown in the figure) and a driving gear 400. Referring to fig. 4 and 3 together, the endless carrier 200 includes an endless toothed belt 220 having teeth on both sides thereof, and an endless guide rail 210 disposed outside the endless toothed belt 220 and spaced apart from each other to form an endless track. The pot placing column 300 comprises a support plate 310 and a moving gear 330, the moving gear 330 being provided between the annular rail 210 and the annular toothed track 220, i.e. within the annular track. The teeth of the endless toothed track 220 facing the inside of the endless track 210 on one side mesh with the moving gear 330 and on the other side mesh with the driving gear 400. The driving gear 400 is driven by the power device to rotate, and the driving gear 400 can drive the endless toothed caterpillar 220 meshed with the driving gear 400, and further drive the moving gear 330 which is positioned on the endless track and meshed with one side of the endless toothed caterpillar 220, so that the moving gear can move in the endless track and rotate. And one end of the movable gear 330 far away from the ground is connected with a supporting plate 310, the supporting plate 310 extends out of the annular transmission frame 200, and the non-stick pan can be manually placed on the supporting plate 310 in an inverted manner. Accordingly, the entire pot placing column 300 can be moved around the ring-shaped transfer frame 200 by the moving gear 330 in the ring-shaped orbit, and can be rotated while being moved. The movement of the non-stick pan in the production line can be realized through the structure. And because the moving gear 330 is driven by the convex teeth to move, the moving gear 330 can also rotate while moving, and the moving gear 330 can enable the whole non-stick pan placed on the pan placing column 300 and the whole non-stick pan placed on the pan placing column 300 to rotate while moving, thereby being beneficial to the subsequent spraying treatment of the non-stick pan.

Further, referring to fig. 2, one section of the circular transmission frame 200 passes through the spraying chamber 100, so that the pot placing column 300 moving on the circular transmission frame 200 can enter the spraying chamber 100, and after entering the spraying chamber 100, the moving pot placing column 300 passes through the dust removing area 110, the spraying area 120 and the drying area 130 in sequence. Firstly, the non-stick pan on the pan column 300 is subjected to dust removal treatment by the dust suction device 111 arranged in the dust removal area 110, so that dust on the outer surface of the non-stick pan is removed as much as possible, and the influence of the dust on the non-stick pan on subsequent spraying is avoided. The non-stick pan is carried by the pan placing column 300 passing through the dust removing area 110 into the spraying area 120, and the outer surface of the non-stick pan is sprayed by the spraying device 121. Then the non-stick pan after the spraying treatment is put on the pan column 300 through the spraying area 120, enters the drying area 130 for drying treatment, and finally is moved out of the spraying chamber 100. It is understood that the drying section 130 may be a fan heater or other drying device for drying. Specifically, as shown in fig. 1, the spraying chamber 100 is a substantially rectangular room, and the non-stick pan that is reversely buckled on the pan column 300 is fed into the spraying chamber, so that the dust removal, spraying and drying processes are sequentially performed, and the non-stick pan can complete the whole spraying process without being transported, and meanwhile, the spraying process is performed only in the spraying chamber 100, so that adverse effects caused by other factors can be avoided as much as possible when the dust removal, spraying and drying processes are performed.

Specifically, as shown in fig. 1, the ring-shaped conveying frame 200 is substantially rectangular, the driving gears 400 are disposed at four corners of the rectangle, and the driving gears 400 are dispersed to drive, so that the requirements for the size of the driving gears 400 and the driving force can be reduced. Meanwhile, the plurality of driving gears 400 can be operated simultaneously more stably, and more specifically, the supporting frame 500 is connected with the driving gears 400 at the four corners, so that the integrity of the equipment is stronger, and the equipment is more stable.

Further, as shown in fig. 4, the side of the endless track 210 opposite to the endless toothed track 220 is also provided with convex teeth and is also engaged with the moving gear 330 in the endless track, and the endless track 210 is fixedly provided. The movable gear 330 in the endless track is further restricted by the stationary endless track 210 with convex teeth, and the movable gear 330 is prevented from shifting when the endless track moves. More specifically, the circular track has a bottom plate, i.e., a bottom plate for moving the moving gear 330 is provided at an end of the moving gear 330 near the ground in the circular track. By providing the bottom plate in the circular track, the moving gear 330 can be more stable when moving in the circular track.

Further, as shown in fig. 2 and 5, a partition 140 is provided between the dust removing zone 110 and the drying zone 130 of the spraying zone 120. Of course, the partition plate 140 is provided with an opening 141 for allowing the pan placing column 300 on which the non-stick pan is placed to pass through, and the partition plate 140 can prevent the various regions in the spray booth 100 from being adversely affected when the regions are simultaneously operated. For example, when the dust suction device 111 in the dust removal area 110 sucks dust, the dye sprayed from the spray devices 121 in the spray area 120 is easily sucked into the dust suction device 111. The occurrence of such a situation can be avoided as much as possible by the partition 140.

Further, as shown in fig. 3 and 6, a connecting rod 320 is provided between the support plate 310 and the moving gear 330 to connect the two. Further, a movable plate 340 and a spring 350 are included. A spring 350 is provided on the outer surface of the connecting rod 320, i.e., the spring 350 is fitted over the connecting rod 320. The spring 350 can be compressed and expanded on the outer surface of the connecting rod 320. The connecting bar 320 passes through the center of the movable plate 340, allowing the movable plate 340 to slide on the connecting bar 320. And the movable plate 340 is connected to a spring 350 located at an outer surface of the connecting rod 320. The movable plate 340 is located below the support plate 310 and connected to one end of the spring 350 near the support plate 310. I.e., the movable plate 340 is positioned between the spring 350 and the support plate 310. The movable plate 340 connected to one end of the spring 350 can move up and down on the connection bar 320 by the compression and expansion of the spring 350. And the outer diameter of the movable plate 340 is larger than that of the supporting plate 310, when the non-stick pan is placed on the supporting plate 310 in an inverted manner, the supporting plate 310 with the smaller outer diameter supports the non-stick pan by contacting with the inner surface of the non-stick pan. At this time, the edge of the inverted non-stick pan will contact with the movable plate 340, and the movable plate 340 connected with the spring 350 will compress the spring 350 to different degrees when facing the non-stick pans with different depths. The strength of the spring 350 is selected to be moderate to ensure that the support plate 310 is in maximum contact with the inner surface of the non-stick pan, while the movable plate 340 also supports the rim of the non-stick pan. Preferentially, when the non-stick pan is placed, the supporting plate 310 is a circular disc with the same size as the inner bottom surface of the non-stick pan, and can contact with the bottom surface of the non-stick pan, so that the supporting effect is better. Through the structure, the non-stick pan placed on the pan placing column 300 is supported doubly through the supporting disc 310 and the movable disc 340, and the stability of the non-stick pan placing column 300 during moving is ensured.

Further, the outer part of the supporting plate 310 is wrapped by a rubber sleeve, and the supporting plate 310 is in contact with the inner surface of the non-stick pan, so that the non-stick pan is prevented from being damaged by the elastic rubber.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (8)

1. The utility model provides a non-stick pan spraying assembly line which characterized in that: the pot placing column (300) comprises a supporting plate (310) and a moving gear (330), the supporting plate (310) is arranged at one end, far away from the ground, of the moving gear (330), and extends out of the annular conveying frame (200), and a non-stick pot is placed on the supporting plate (310) in an inverted buckling mode;

the moving gear (330) arranged on the annular conveying frame (200) is arranged between the annular guide rail (210) and the annular toothed crawler (220), the power device drives the driving gear (400) to rotate, the driving gear (400) is meshed with a convex tooth on one side of the annular toothed crawler (220) to drive the annular toothed crawler (220) to rotate, and a convex tooth on the other side of the annular toothed crawler (220) is meshed with the moving gear (330), so that the moving gear (330) can move in the annular track and rotate under the driving of the driving gear (400);

the spraying chamber (100) comprises a dust removing area (110), a spraying area (120) and a drying area (130), wherein one section of the annular conveying frame (200) penetrates through the spraying chamber (100) so that the pot placing column (300) arranged on the annular conveying frame (200) enters the spraying chamber (100) and then is moved out of the spraying chamber (100) after sequentially passing through the dust removing area (110), the spraying area (120) and the drying area (130).

2. The non-stick pan spray line of claim 1, wherein: the annular conveying frame (200) is rectangular, and the four driving gears (400) are arranged at four corners of the rectangle.

3. The non-stick pan spray line of claim 2, wherein: the four driving gears (400) are mounted on the supporting frame (500).

4. The non-stick pan coating line of claim 1, characterized in that the endless track (210) is stationary and the endless track (210) is provided with teeth on the side opposite the endless toothed track (220), said teeth engaging the moving gear (330).

5. The non-stick pan spray line of claim 1, wherein: a partition plate (140) is arranged among the dust removing area (110), the spraying area (120) and the drying area (130), and an opening (141) through which a pot placing column (300) for placing an anti-sticking pot can pass is formed in the partition plate (140).

6. The non-stick pan spray line of claim 1, wherein: the pot placing column (300) further comprises a connecting rod (320), and the connecting rod (320) is connected with the supporting plate (310) and the moving gear (330).

7. The non-stick pan spray line of claim 6, wherein: still include spring (350) and activity dish (340), spring (350) cover is on connecting rod (320), and connecting rod (320) are followed the central point of activity dish (340) and are put and pass, and activity dish (340) can slide on connecting rod (320), and activity dish (340) are located the below of supporting disk (310) to be connected with spring (350) one end near supporting disk (310), just the external diameter of activity dish (340) is greater than the external diameter of supporting disk (310).

8. The non-stick pan spray line of claim 1, wherein: the outside of the supporting plate (310) is wrapped by a rubber sleeve.

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