阅读说明：本技术 粉末涂料加工用熔融料展平输送装置 (Melting material flattening and conveying device for powder coating processing ) 是由 李琳 于 2020-12-21 设计创作，主要内容包括：粉末涂料加工用熔融料展平输送装置,包括输送带,所述输送带一端部设置有熔融料展平机构；所述熔融料展平机构包括水平放置的方槽,所述方槽的一端对接有斜槽,所述斜槽设置在所述输送带一端部上方,所述方槽通过第一支架固定支撑,所述方槽的另一端设置有可横向伸缩移动的推送部件,所述方槽的正上方设置有可纵向伸缩移动的压平部件,所述方槽与所述斜槽结合处的两侧壁上部水平设置有导引压辊,所述导引压辊一端部通过皮带与外部的减速电机转动连接。本发明通过设置熔融料展平机构,使得熔融料变得相对平整后通过输送带运送到后道工序的压片辊进行压片,大大提高了压片辊的压片效率。(The molten material flattening and conveying device for powder coating processing comprises a conveying belt, wherein a molten material flattening mechanism is arranged at one end of the conveying belt; melting material exhibition flat mechanism includes the square groove that the level was placed, the one end in square groove is docked there is the chute, the chute sets up conveyer belt tip top, the square groove is through first support fixed stay, the other end in square groove is provided with the propelling movement part that can transversely stretch out and draw back the removal, be provided with the part that flattens that can vertically stretch out and draw back the removal directly over the square groove, the square groove with the both sides wall upper portion level that the chute combines the department is provided with the guide compression roller, a guide compression roller tip passes through the belt and is connected with outside gear motor rotates. The invention has the advantages that the molten material flattening mechanism is arranged, so that the molten material is relatively flattened and then conveyed to the tabletting rollers of the next procedure through the conveying belt for tabletting, and the tabletting efficiency of the tabletting rollers is greatly improved.)

1. Powder coating processing is with melting charge exhibition flat conveyor, its characterized in that: the device comprises a conveying belt (1), wherein a melting material flattening mechanism (2) is arranged at one end part of the conveying belt (1); melting material flattening mechanism (2) are including square groove (21) that the level was placed, the one end of square groove (21) is docked has chute (23), chute (23) set up conveyer belt (1) a tip top, square groove (21) are through first support (22) fixed stay, the other end of square groove (21) is provided with propelling movement part (24) that can transversely stretch out and draw back the removal, be provided with flattening part (25) that can vertically stretch out and draw back the removal directly over square groove (21), square groove (21) with the both sides wall upper portion level that chute (23) combined department is provided with guide compression roller (27), guide compression roller (27) a tip passes through belt (29) and rotates with outside gear motor (28) and is connected.

2. The melt flattening and conveying device for powder coating processing according to claim 1, characterized in that: the pushing component (24) comprises a first hydraulic oil cylinder (241) which is horizontally placed, the first hydraulic oil cylinder (241) is fixedly supported through a second support (242), a first telescopic rod (243) is arranged in the first hydraulic oil cylinder (241), a push plate (244) is vertically installed at the power output end of the first telescopic rod (243), the push plate (244) is movably clamped in a square groove (21) which is matched with the push plate, baffles (245) are symmetrically arranged at the left and right sides of the end portion, facing the first hydraulic oil cylinder (241), of the square groove (21) at intervals, and the first hydraulic oil cylinder (241) is connected with an external hydraulic station (26) through a first oil pipe (246).

3. The melt flattening and conveying device for powder coating processing according to claim 2, characterized in that: the top surface of the push plate (244) is flush with the top surface of the square groove (21).

4. The melt flattening and conveying device for powder coating processing according to claim 3, characterized in that: flattening part (25) include vertical second hydraulic cylinder (251) of placing, second hydraulic cylinder (251) are through third support (252) fixed stay, be provided with second telescopic link (253) in second hydraulic cylinder (251), clamp plate (254) are installed perpendicularly to the power take off end of second telescopic link (253), clamp plate (254) are located directly over square groove (21), the width of clamp plate (254) with the outer width of square groove (21) is the same, the length of clamp plate (254) equals guide compression roller (27) extremely the length of baffle (245), second hydraulic cylinder (251) through second oil pipe (255) with hydraulic pressure station (26) are connected.

5. The melt flattening and conveying device for powder coating processing according to claim 4, characterized in that: a melt discharging groove (3) is obliquely arranged above the push plate (244).

Technical Field

The invention belongs to the technical field of powder coating processing, and particularly relates to a molten material flattening and conveying device for powder coating processing.

Background

The powder coating is a solid powder synthetic resin coating composed of solid resin, pigment, filler, auxiliary agent and the like. The powder coating processing needs to fully mix the raw materials according to a certain proportion, then melt and extrude, tablet and cut into semi-finished products, then crush and grind, remove the ultramicron part by using a cyclone separator, and then produce finished products, and then store the finished products in storage after detection and packaging.

However, in the prior art, the molten material extruded by the device is amorphous dough, and if the molten material is directly conveyed to the tabletting rollers, the tabletting efficiency is affected, so that the molten material needs to be flattened before being conveyed, and the later tabletting work of the tabletting rollers is facilitated.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a molten material flattening and conveying device for powder coating processing, which has the following specific technical scheme:

the molten material flattening and conveying device for powder coating processing comprises a conveying belt, wherein a molten material flattening mechanism is arranged at one end of the conveying belt; melting material exhibition flat mechanism includes the square groove that the level was placed, the one end in square groove is docked there is the chute, the chute sets up conveyer belt tip top, the square groove is through first support fixed stay, the other end in square groove is provided with the propelling movement part that can transversely stretch out and draw back the removal, be provided with the part that flattens that can vertically stretch out and draw back the removal directly over the square groove, the square groove with the both sides wall upper portion level that the chute combines the department is provided with the guide compression roller, a guide compression roller tip passes through the belt and is connected with outside gear motor rotates.

Furthermore, the pushing component comprises a first hydraulic oil cylinder which is horizontally placed, the first hydraulic oil cylinder is fixedly supported through a second support, a first telescopic rod is arranged in the first hydraulic oil cylinder, a push plate is vertically installed at the power output end of the first telescopic rod, the push plate is movably clamped in a square groove which is matched with the push plate, baffles are symmetrically arranged at left and right intervals of the end portion of the square groove, which faces the first hydraulic oil cylinder, and the first hydraulic oil cylinder is connected with an external hydraulic station through a first oil pipe.

Further, the top surface of push pedal is with the top surface of square groove is flush.

Further, the part of flattening includes the vertical second hydraulic cylinder of placing of second, the second hydraulic cylinder passes through third support fixed stay, be provided with the second telescopic link in the second hydraulic cylinder, the clamp plate is installed perpendicularly to the power take off end of second telescopic link, the clamp plate is located directly over the square groove, the width of clamp plate with the outer width of square groove is the same, the length of clamp plate equals the guide compression roller extremely the length of baffle, the second hydraulic cylinder pass through second oil pipe with the hydraulic pressure station is connected.

Furthermore, a melt discharging groove is obliquely arranged above the push plate.

The invention has the beneficial effects that:

the invention adopts the structure that the melting material flattening mechanism is arranged, the flattening component is pressed down to the top surface of the square groove to form a melting material compression channel, and the pushing component pushes the melting material to move in the compression channel to the guide compression roller for continuous rolling, so that the melting material is relatively flattened and then is conveyed to the tabletting roller of the next procedure through the conveying belt for tabletting, and the tabletting efficiency of the tabletting roller is greatly improved.

Drawings

FIG. 1 shows a schematic view of the present invention after it has been moved over the platen;

FIG. 2 shows a schematic view of the present invention after the platen has been moved down;

FIG. 3 is a schematic view showing the structure of the present invention in combination with a melt feed chute.

Shown in the figure: 1. a conveyor belt; 2. a melt flattening mechanism; 21. a square groove; 22. a first bracket; 23. a chute; 24. a pushing member; 241. a first hydraulic cylinder; 242. a second bracket; 243. a first telescopic rod; 244. pushing the plate; 245. a baffle plate; 246. a first oil pipe; 25. a flattening member; 251. a second hydraulic cylinder; 252. a third support; 253. a second telescopic rod; 254. pressing a plate; 255. a second oil pipe; 26. a hydraulic station; 27. a guide press roll; 28. a reduction motor; 29. a belt; 3. a melt blanking trough.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1 and 2, the melt flattening and conveying device for powder coating processing comprises a conveying belt 1, wherein a melt flattening mechanism 2 is arranged at one end of the conveying belt 1; the melting charge flattening mechanism 2 comprises a horizontally placed square groove 21, one end of the square groove 21 is butted with a chute 23, the chute 23 is arranged above one end part of the conveying belt 1, the square groove 21 is fixedly supported by a first support 22, the other end of the square groove 21 is provided with a pushing component 24 capable of transversely stretching and moving, a flattening component 25 capable of longitudinally stretching and moving is arranged right above the square groove 21, a guide compression roller 27 is horizontally arranged on the upper part of two side walls at the joint of the square groove 21 and the chute 23, and one end part of the guide compression roller 27 is rotatably connected with an external speed reduction motor 28 through a belt 29; through this technical scheme, this application utilizes flattening component 25 to push down square groove 21 top surface and form the melting charge compression channel with it through setting up melting charge flattening mechanism 2, and propelling movement of propelling movement part 24 promotes the melting charge and removes to guide compression roller 27 and roll in succession in this compression channel to make the melting charge become to carry out the preforming through conveyer belt 1 after leveling relatively and carry out the preforming to the preforming roller of next procedure, improved the preforming efficiency of preforming roller greatly.

As shown in fig. 1 and 2, the pushing component 24 includes a first hydraulic oil cylinder 241 horizontally placed, the first hydraulic oil cylinder 241 is fixedly supported by a second support 242, a first telescopic rod 243 is arranged in the first hydraulic oil cylinder 241, a push plate 244 is vertically installed at a power output end of the first telescopic rod 243, the push plate 244 is movably clamped in the square groove 21 matched with the push plate 244, baffles 245 are symmetrically arranged at left and right intervals at an end of the square groove 21 facing the first hydraulic oil cylinder 241, and the first hydraulic oil cylinder 241 is connected with an external hydraulic station 26 through a first oil pipe 246; by this technical solution, the push plate 244 can be kept to move laterally in the square groove 21, and the blocking plate 245 can prevent the push plate 244 from being accidentally separated from the square groove 21.

As shown in fig. 1, the top surface of the push plate 244 is flush with the top surface of the square groove 21; by this means, it is ensured that the push plate 244 moves in the square groove 21.

As shown in fig. 1 and 2, the pressing component 25 includes a second hydraulic cylinder 251 vertically disposed, the second hydraulic cylinder 251 is fixedly supported by a third support 252, a second telescopic rod 253 is disposed in the second hydraulic cylinder 251, a pressing plate 254 is vertically mounted at a power output end of the second telescopic rod 253, the pressing plate 254 is located right above the square groove 21, a width of the pressing plate 254 is the same as an outer width of the square groove 21, a length of the pressing plate 254 is equal to a length from the guiding pressing roller 27 to the baffle 245, and the second hydraulic cylinder 251 is connected to the hydraulic station 26 through a second oil pipe 255; through the technical scheme, the pressing plate 254 can be longitudinally pressed to the top surface of the square groove 21 to form a melt compression channel, the push plate 244 is ensured to push the melt to move in the compression channel to the guide pressing roller 27 for rolling, the guide pressing roller 27 continuously rolls and outputs the relatively flat melt, the push plate 244 continuously pushes the melt to the guide pressing roller 27 to form a continuous rolling process, and the pressing plate 254 can ensure that the melt does not overflow the square groove 21 in the pushing process.

As shown in fig. 3, a melt feeding chute 3 is obliquely arranged above the push plate 244; by this means, the melt-down chute 3 is provided at this position without affecting the up-and-down movement of the platen 254.

When the method is implemented, firstly, the melt material slides into the square groove 21 through the melt material discharging groove 3, then the second hydraulic cylinder 251 is started, the pressing plate 254 is pushed by the second telescopic rod 253 to move longitudinally to the top surface of the square groove 21, then the guiding press roller 27 and the first hydraulic cylinder 241 are started, the pushing plate 244 pushes and moves the melt material under the transverse pushing of the first telescopic rod 243 to move continuously towards the guiding press roller 27 in a compression channel formed by the pressing plate 254 and the square groove 21, the guiding press roller 27 continuously rolls and outputs the relatively flat melt material, then the melt material is conveyed to a pressing roller of a next process through the conveying belt 1 for pressing, after the rolling of a mass of melt material is finished, the pushing plate 244 and the pressing plate 254 are reset, and the operation is repeated.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.