CN215401872U - Continuous feeding equipment for processing coating - Google Patents

Abstract

The utility model provides continuous feeding equipment for processing coating, which comprises a supporting plate, wherein the bottom end of the supporting plate is fixedly connected with supporting legs, a round bar is fixedly connected between the supporting legs, one side of the supporting plate is fixedly connected with a supporting plate, the top of the supporting plate is fixedly provided with a stirring mechanism, the bottom end of the stirring mechanism is communicated with a feeding mechanism, through the arranged stirring mechanism, the production ingredients are placed in the stirring box, the motor is driven to rotate, the driving gear fixedly connected with the belt pulley is driven to rotate through the transmission belt, so that the stirring blades on the surfaces of the two stirring rollers rotate to fully stir the ingredients in the stirring box, when the stirred ingredients enter the receiving tray, the material mixing device has the advantages that the material mixing device drives the auger to convey stirred materials to the discharge port to feed materials under the drive of the driving motor, so that continuous feeding is guaranteed, the traditional manual feeding and discharging mode is replaced, and the production efficiency is improved.

Description

Continuous feeding equipment for processing coating

Technical Field

The utility model relates to the technical field of paint processing, in particular to continuous feeding equipment for processing paint.

Background

Coatings, which we would normally say paints, are but one such. The coating is a liquid or solid material which is coated on the surface of a protected or decorated object and can form a firmly attached continuous film with the object to be coated so as to play a role in protection, decoration or other special functions (insulation, rust prevention, mildew prevention, heat resistance and the like). Since the early coatings mostly used vegetable oils as the main raw material, they were also called paints.

The delivery modes of the coating are different due to different properties, colors and purposes of the coating. Because the coating texture is generally very viscous, the common conveying mode is generally to carry through the mode of cylinder extrusion, then installs the baffle along cylinder axial both sides at the ejection of compact side, and the interval of two baffles inwards tightens up gradually and forms wide upper portion narrow lower part and semi-open type funnel shape. Because the axial length of the roller is the width length of the coating in a flat state, the axial length of the roller needs to be ensured to be large as much as possible in order to ensure that the coating is conveyed in a large amount. However, if the axial length of the roller is too large, the situation of accumulation is easy to occur at the discharging side due to the high viscosity of the coating, and then the problem that the material is fast extruded inwards to cause outward surge or overflow from the upper part of the baffle is caused. To prevent this problem, an operator is required to stand in the discharge position to hold the spatula to scrape the baffle back flow.

However, such a method of operation is obviously disadvantageous in that the coating material itself has high volatility and is likely to affect the health of operators when contacted and inhaled for a long time. Therefore, a novel device for conveying and feeding materials is designed, and on the basis of guaranteeing continuous conveying of the materials, the device can effectively prevent the discharge side from being blocked and overflowing and avoid manual intervention.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide continuous feeding equipment for processing paint, which aims to solve the problem that materials are added and led out in the existing paint processing process in a manual mode in the background technology. Replace current drum-type conveying equipment, become intraductal transport with the tiling, for preventing that coating from in intraductal dry and hard blocking, still add the process of stirring at the material loading in-process, can guarantee the orderly conveying of material, also can prevent that the inhomogeneous condition of mixing from appearing in the coating.

In order to achieve the purpose, the utility model provides the following technical scheme: continuous feeding equipment is used to processing coating, including the backup pad, the bottom fixedly connected with supporting leg of backup pad, fixedly connected with round bar between the supporting leg, one side fixedly connected with layer board of backup pad, the top fixed mounting of backup pad has rabbling mechanism, the bottom intercommunication of rabbling mechanism has feed mechanism.

Further, rabbling mechanism includes the agitator tank of fixed mounting at backup pad top, the top fixedly connected with hopper of agitator tank, the middle part through connection of agitator tank has two stirring rollers, two the fixed surface of stirring roller installs a plurality of stirring vane, one of them one pot head of stirring roller is equipped with the driving gear, and a pot head of another stirring roller is equipped with driven gear, the driving gear is connected with driven gear meshing.

Further, one side fixedly connected with belt pulley of driving gear, the bottom of belt pulley is equipped with the rotation motor, the output transmission of rotating the motor is connected with driving belt, the belt pulley passes through the driving belt transmission to be connected in rotating the motor, it is on the layer board surface to rotate motor fixed connection.

Further, feed mechanism is including the take-up (stock) pan that communicates in the agitator tank bottom, the fixed intercommunication in bottom of take-up pan has the conveying pipeline, the inside of conveying pipeline is equipped with the auger, the bottom fixed mounting of conveying pipeline has driving motor, driving motor's output fixed connection in auger, the discharge gate has been seted up on the top of conveying pipeline.

Furthermore, the surface of the rotating motor is covered with a protective shell, and a plurality of heat dissipation holes are formed in the surface of the protective shell.

Further, the other side fixed mounting of backup pad has first switch and second switch, rotate motor and first switch electric connection, driving motor and second switch electric connection, first switch and second switch all with external power supply electric connection.

Further, the protective shell (6) is an aluminum shell.

Compared with the prior art, the utility model has the beneficial effects that:

in the utility model, a stirring device and a feeding device are matched to form a set of novel continuous feeding equipment with a material mixing function. This charging equipment adopts the auger as the main part and replaces current drum-type equipment, because the auger itself has the transport evenly, and the less advantage of opening of ejection of compact side, therefore very suitable use is in the processing and the transportation process of coating.

According to the stirring device, production ingredients are placed in the stirring box through the stirring mechanism, the driving motor is driven to rotate, the driving gear fixedly connected with the belt pulley is driven to rotate through the transmission belt, so that the driven gear is driven, the stirring blades on the surfaces of the two stirring rollers rotate to fully stir the ingredients in the stirring box, and the phenomenon that the ingredients cannot be stirred and piled up into blocks to cause unevenness is avoided.

According to the utility model, by the aid of the feeding mechanism, when stirred ingredients enter the receiving tray, the ingredients fall into the conveying pipe through the receiving tray, and the stirred ingredients are conveyed to the discharge port to be fed under the driving of the auger by the driving motor, so that continuous feeding is ensured, the traditional manual feeding and discharging mode is replaced, and the production efficiency is improved.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic structural diagram of a stirring mechanism according to the present invention;

fig. 3 is a schematic structural diagram of the feeding mechanism of the present invention.

In the figure: 1. a support plate; 2. supporting legs; 3. a support plate; 4. a stirring mechanism; 41. a stirring box; 42. a hopper; 43. a stirring roller; 44. a stirring blade; 45. a driving gear; 46. a driven gear; 47. a belt pulley; 48. rotating the motor; 49. a drive belt; 5. a feeding mechanism; 51. a take-up pan; 52. a delivery pipe; 53. a packing auger; 54. a drive motor; 55. a discharge port; 6. a protective shell; 61. and (4) heat dissipation holes.

Detailed Description

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 given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: continuous feeding equipment is used in processing coating, including backup pad 1, the bottom fixedly connected with supporting leg 2 of backup pad 1, fixedly connected with round bar between the supporting leg 2, one side fixedly connected with layer board 3 of backup pad 1, the top fixed mounting of backup pad 1 has rabbling mechanism 4, the bottom intercommunication of rabbling mechanism 4 has feed mechanism 5.

In this embodiment: the stirring mechanism 4 comprises a stirring box 41 fixedly installed at the top of the supporting plate 1, a hopper 42 fixedly connected to the top end of the stirring box 41, two stirring rollers 43 are connected to the middle of the stirring box 41 in a penetrating manner, a plurality of stirring blades 44 are fixedly installed on the surfaces of the two stirring rollers 43, one end of one stirring roller 43 is sleeved with a driving gear 45, one end of the other stirring roller 43 is sleeved with a driven gear 46, and the driving gear 45 is meshed with the driven gear 46.

When in specific use: pour the batching into agitator tank 41 inside back, rotate through driving gear 45 and drive driven gear 46 rather than the meshing and be connected and follow the rotation to make two stirring roller 43 rotate, stirring roller 43 rotates the stirring vane 44 that drives fixed surface and connect and rotates, carries out the intensive mixing stirring to the batching of agitator tank 41 inside, and hopper 42 prevents to spill at the material in-process of falling the material.

In this embodiment: one side fixedly connected with belt pulley 47 of driving gear 45, the bottom of belt pulley 47 is equipped with rotation motor 48, and the output transmission of rotation motor 48 is connected with driving belt 49, and belt pulley 47 passes through driving belt 49 transmission and connects in rotation motor 48, and rotation motor 48 fixed connection is in layer board 3 surface.

When in specific use: when the rotating motor 48 rotates, the output end drives the transmission belt 49 to rotate, the transmission belt 49 rotates to drive the belt pulley 47 to rotate, so that the driving gear 45 fixedly connected with the belt pulley 47 is driven to rotate through the belt pulley 47, and a power source is provided for stirring of the stirring roller 43.

In this embodiment: the feeding mechanism 5 comprises a material receiving disc 51 communicated with the bottom end of the stirring box 41, the bottom of the material receiving disc 51 is fixedly communicated with a material conveying pipe 52, an auger 53 is arranged inside the material conveying pipe 52, a driving motor 54 is fixedly installed at the bottom end of the material conveying pipe 52, the output end of the driving motor 54 is fixedly connected to the auger 53, and a material outlet 55 is formed in the top end of the material conveying pipe 52.

When in specific use: when stirred ingredients enter the receiving tray 51, the ingredients fall to the inside of the conveying pipe 52 communicated with the bottom through the receiving tray 51, and when the driving motor 54 rotates, the auger 53 is driven to convey the stirred ingredients to the discharge hole 55 for feeding, so that continuous feeding is ensured, the traditional manual feeding mode is replaced, and the production efficiency is improved.

In this embodiment: the surface of the rotating motor 48 is covered with a protective shell 6, a plurality of heat dissipation holes 61 are formed in the surface of the protective shell 6, and the protective shell 6 is made of aluminum.

When in specific use: the protecting shell 6 that the surface of the rotating motor 48 is provided with plays the role of protecting the rotating motor 48, the protecting shell 6 is an aluminum shell, so that heat absorption is facilitated, and meanwhile, heat dissipation holes 61 formed in the surface of the protecting shell 6 accelerate heat dissipation, so that the normal operation of the rotating motor 48 is guaranteed.

In this embodiment: the other side of the supporting plate 1 is fixedly provided with a first switch and a second switch, the rotating motor 48 is electrically connected with the first switch, the driving motor 54 is electrically connected with the second switch, and the first switch and the second switch are both electrically connected with an external power supply.

When in specific use: when the first switch and the second switch are connected with the external power supply, the rotation of the rotating motor 48 is realized by controlling the first switch, so that the stirring mechanism 4 normally operates, the second switch is controlled to enable the driving motor 54 to rotate to drive the feeding mechanism 5 to operate and feed, and when the first switch and the second switch are disconnected with the external power supply, the equipment stops operating.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes, modifications, equivalents, and improvements may be made without departing from the spirit and scope of the utility model.

Claims (7)

1. Continuous feeding equipment is used to processing coating, including backup pad (1), its characterized in that: the bottom fixedly connected with supporting leg (2) of backup pad (1), fixedly connected with round bar between supporting leg (2), one side fixedly connected with layer board (3) of backup pad (1), the top fixed mounting of backup pad (1) has rabbling mechanism (4), the bottom intercommunication of rabbling mechanism (4) has feed mechanism (5).

2. The continuous loading apparatus for processing coating material as claimed in claim 1, wherein: rabbling mechanism (4) are including agitator tank (41) of fixed mounting at backup pad (1) top, the top fixedly connected with hopper (42) of agitator tank (41), the middle part through connection of agitator tank (41) has two stirring roller (43), two the fixed surface of stirring roller (43) installs a plurality of stirring vane (44), one of them the pot head of stirring roller (43) is equipped with driving gear (45), and the pot head of another stirring roller (43) is equipped with driven gear (46), driving gear (45) are connected with driven gear (46) meshing.

3. The continuous loading apparatus for processing coating according to claim 2, wherein: one side fixedly connected with belt pulley (47) of driving gear (45), the bottom of belt pulley (47) is equipped with rotation motor (48), the output transmission of rotating motor (48) is connected with driving belt (49), belt pulley (47) are connected in rotation motor (48) through driving belt (49) transmission, rotation motor (48) fixed connection is in layer board (3) surface.

4. A continuous loading apparatus for processing coating according to claim 3, wherein: feeding mechanism (5) are including communicateing in take-up (51) of agitator tank (41) bottom, the fixed intercommunication in bottom of take-up (51) has conveying pipeline (52), the inside of conveying pipeline (52) is equipped with auger (53), the bottom fixed mounting of conveying pipeline (52) has driving motor (54), the output fixed connection of driving motor (54) is in auger (53), discharge gate (55) have been seted up on the top of conveying pipeline (52).

5. A continuous loading apparatus for processing coating according to claim 3, wherein: the surface of the rotating motor (48) is covered with a protective shell (6), and a plurality of heat dissipation holes (61) are formed in the surface of the protective shell (6).

6. The continuous loading apparatus for processing coating according to claim 4, wherein: the other side fixed mounting of backup pad (1) has first switch and second switch, rotate motor (48) and first switch electric connection, driving motor (54) and second switch electric connection, first switch and second switch all with external power supply electric connection.

7. The continuous loading apparatus for processing coating according to claim 5, wherein: the protective shell (6) is an aluminum shell.

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