CN220897860U - Coating machine with rear net belt conveying mechanism easy to detach - Google Patents

Abstract

The utility model discloses a coating machine with a rear net belt conveying mechanism easy to detach, which comprises a frame, a front net belt conveying mechanism, a rear net belt conveying mechanism, a plurality of slurry pouring hoppers positioned above the rear net belt conveying mechanism and a material cylinder positioned below the rear net belt conveying mechanism, wherein the front net belt conveying mechanism and the rear net belt conveying mechanism are arranged on the frame; the output end of the material cylinder is connected with a main conveying pipeline through a lifting pump, and a plurality of top coating slurry separating conveying pipelines are connected with each slurry pouring hopper; the device is characterized in that the rear net belt conveying mechanism is fixed on a first movable support which is designed to be separated from the machine frame, the material cylinder is fixed on a second movable support which is designed to be separated from the machine frame, the main conveying pipeline is provided with top coating slurry output interfaces which are in one-to-one correspondence with the top coating slurry sub-conveying pipelines, and the top coating slurry output interfaces are detachably connected with the corresponding top coating slurry sub-conveying pipelines through pipeline connection hoops. The rear net belt conveying mechanism can be pulled out along with the first movable bracket relative to the frame, so that the cleaning, overhauling and maintenance of the rear net belt conveying mechanism are facilitated.

Description

Coating machine with rear net belt conveying mechanism easy to detach

Technical Field

The utility model relates to a coating machine with a rear net belt conveying mechanism easy to detach.

Background

Coating machines are currently specialized equipment used in the food production industry to cast chocolate, jam or syrup on food blanks such as ice cream, cakes, cereal bars, and the like.

The construction of known common coating machines generally comprises a frame, a belt conveyor arranged on the frame, a casting hopper, a cylinder, a lift pump and its connecting pipes. The belt conveyor is generally divided into a front belt conveyor fixed to the front of the frame and a rear belt conveyor fixed to the rear of the frame and positioned below the slurry bucket. The food embryo is placed on and conveyed by the front web conveyor to the rear web conveyor, and then the food is cast with slurry during conveyance by the rear web conveyor. The material jar is arranged at the lower part of the frame, and the output end of the material jar is connected with the slurry pouring hopper through the lifting pump and the connecting pipeline. Of course, due to the special requirements of multilayer coating of foods, a plurality of slurry pouring hoppers are usually arranged in part of the coating machine, and for this purpose, a main conveying pipeline is often required to be arranged at the output end of the material cylinder, and the slurry pouring hoppers are respectively connected with the separated conveying pipelines.

Of course, some coating machines are often designed with a priming mechanism for re-priming the top-coated food blanks. In order to prevent the interference between the top coating and the bottom coating, the rear net belt conveying mechanism of the coating machine often adopts a two-stage design of the top coating net belt conveying mechanism and the bottom coating net belt conveying mechanism. The bottom coating mechanism is arranged below the upper bottom coating net belt of the bottom coating net belt conveying mechanism and generally comprises a slurry spraying groove and a slurry stirring plate arranged in the slurry spraying groove, and is used for stirring and throwing the slurry to the bottom of the food embryo; in order to realize the feeding, the material cylinder is also connected with a separating pipeline and a (guniting groove of a) bottom coating mechanism.

However, the existing coating machine structure has the following problems in design:

it is known that coating machines, after long-term production use, require regular cleaning of the mesh belt in order to avoid that the accumulated food residues and bacteria that grow on the mesh belt, which adhere for a long time, affect the safe production of the food. Meanwhile, in order to ensure the working reliability of the mesh belt conveying mechanism, the mesh belt conveying mechanism is also required to be overhauled and maintained regularly. In actual operation, the front net belt conveying mechanism is arranged in the front of the frame in a protruding mode, the upper part and the lower part of the front net belt conveying mechanism are not interfered, the cleaning and the maintenance of the front net belt conveying mechanism are relatively convenient to implement, and the rear net belt conveying mechanism is not easy. Because in the structural design of current coating machine, back guipure conveying mechanism is direct installation fixed (its drive assembly often adopts retaining member or the mode of welding to fix) in the frame, can't dismantle, in addition its upper portion receives the interference of components such as pouring hopper and first coat mechanism, and the lower part receives interference of material jar equipment again, and operable space is narrow, consequently causes the workman to its washing and maintenance all very inconvenient.

Of course, in the existing coating machine of the design, the material cylinder is designed into a detachable form, so that the material cylinder can be separated from and pulled out relative to the frame, thereby freeing up the space below the rear net belt conveying mechanism, giving a certain operable space for workers, but because the frame is still very narrow in the area below the rear net belt conveying mechanism, the workers need to bend down to enter to clean and overhaul and maintain the lower part of the rear net belt conveying mechanism, and the process is still very labor-consuming and inconvenient, long in time consumption and low in operation efficiency.

Disclosure of Invention

The utility model aims at: aiming at the defects of the existing coating machine in the background technology, the coating machine with the rear net belt conveying mechanism easy to detach is provided, which is more convenient for cleaning, overhauling and maintaining the rear net belt conveying mechanism.

The technical scheme of the utility model is as follows: the coating machine comprises a frame, a front net belt conveying mechanism and a rear net belt conveying mechanism which are arranged on the frame and distributed back and forth, a plurality of slurry pouring hoppers which are arranged on the frame and positioned above the rear net belt conveying mechanism and sequentially arranged along the conveying direction of the rear net belt conveying mechanism, and a material cylinder positioned below the rear net belt conveying mechanism; the output end of the material cylinder is connected with a main conveying pipeline through a lifting pump, and a plurality of top coating slurry separating conveying pipelines are separated from the main conveying pipeline and are connected with each slurry pouring hopper; the device is characterized in that the rear net belt conveying mechanism is fixed on a first movable support which is designed to be separated from the frame, the material cylinder is fixed on a second movable support which is designed to be separated from the frame, the main conveying pipeline is provided with top coating slurry output interfaces which are in one-to-one correspondence with the top coating slurry distribution conveying pipelines, and the top coating slurry output interfaces are detachably connected with the corresponding top coating slurry distribution conveying pipelines through pipeline connecting hoops.

Furthermore, the rear net belt conveying mechanism adopts a two-section design and comprises a top coating net belt conveying mechanism arranged corresponding to the upper slurry pouring hopper and a bottom coating net belt conveying mechanism arranged at the rear part of the top coating net belt conveying mechanism, the first movable support is also provided with a bottom coating mechanism corresponding to the bottom coating net belt conveying mechanism, the main conveying pipeline is provided with a bottom coating slurry output interface, and the bottom coating slurry output interface is detachably connected with a bottom coating slurry distribution conveying pipeline for supplying materials to the bottom coating mechanism through a pipeline connecting clamp.

Of course, the structure of the bottom coating mechanism is the same as that of the prior art, and the bottom coating mechanism comprises a slurry spraying groove and a slurry stirring plate which is arranged in the slurry spraying groove and is driven by a motor and a cam mechanism and is used for stirring and throwing slurry to the bottom of a food embryo; in order to realize feeding, a slurry nozzle is arranged in the slurry spraying groove and is connected with a main conveying pipeline through the primary coating slurry conveying pipeline.

Further, in the utility model, the front net belt conveying mechanism is fixed on the extension bracket which is convexly fixed on the front side of the frame.

Furthermore, in the utility model, the bottoms of the first movable bracket and the second movable bracket are respectively provided with a plurality of universal casters with brakes.

Further, in the utility model, the first movable bracket is positioned at the inner side of the frame, the second movable bracket is positioned at the inner side of the first movable bracket, the front net belt conveying mechanism is positioned at the front side of the frame, the lower part of at least one of the left side and the right side of the frame is provided with a frame opening for the first movable bracket to move in and out, and the frame is symmetrically provided with frame transverse guide rollers which are propped against the front side and the rear side of the first movable bracket from the outside at the two sides in the frame opening; meanwhile, the lower part of at least one of the left side and the right side of the first movable support (which is consistent with the left side and the right side of the frame) is provided with a support opening for the second movable support to move in and out, and the front side and the rear side of the second movable support are symmetrically provided with support transverse guide rollers which are propped against the first movable support from the inside.

Or in the utility model, the first movable support is positioned at the inner side of the frame, the second movable support is positioned at the inner side of the first movable support, the front net belt conveying mechanism is positioned at the front side of the frame, the lower part of the rear side of the frame is provided with a frame opening for the first movable support to move in and out, and the frame is symmetrically provided with frame transverse guide rollers which are propped against the left side and the right side of the first movable support from the outside at the two sides in the frame opening; meanwhile, the lower part of the rear side of the first movable support (which is consistent with the rear side of the frame) is provided with a support opening for the second movable support to move in and out, and the left side and the right side of the second movable support are symmetrically provided with support transverse guide rollers which are propped against the first movable support from the inside.

The utility model has the advantages that:

1. In the structural design of the utility model, the first movable support which is designed in a split way with the frame is adopted to fix the rear net belt conveying mechanism, so that the rear net belt conveying mechanism can be pulled out along with the first movable support relative to the frame and leaves a narrow area between the slurry pouring hopper at the upper part of the frame and the lower material cylinder, thereby being very convenient for workers to realize cleaning, overhauling and maintenance operations, saving working hours, reducing the labor burden of the workers and improving the working efficiency.

2. In the structural design of the utility model, the material cylinder is fixed on the second movable bracket which is designed to be separated from the frame, so that the material cylinder is also convenient to detach and separate from the frame, and is further convenient to clean, overhaul and maintain. And because the material cylinder and the second movable support thereof can be detached before the frame, the interference to the rear net belt conveying mechanism and the first movable support thereof is reduced, thereby being further beneficial to the disconnection and the pull-out of the rear net belt conveying mechanism and the first movable support thereof.

3. In a further design scheme of the utility model, the rear net belt conveying mechanism adopts a two-section design of the top coating net belt conveying mechanism and the bottom coating net belt conveying mechanism, the bottom coating mechanism corresponding to the bottom coating net belt conveying mechanism is also arranged on the first movable bracket, and the bottom coating mechanism is also connected with a bottom coating slurry separating and conveying pipeline which can be detached relative to a main conveying pipeline of the material cylinder, so that the measures are very convenient for the mutual separation operation between the rear net belt conveying mechanism and the material cylinder.

4. According to the utility model, the top coating slurry distribution conveying pipelines of the slurry pouring hoppers are connected with the corresponding top coating slurry output interfaces on the main conveying pipeline by adopting pipeline connection hoops, so that the dismantling operation of the material cylinder can be simplified, and the working efficiency is improved.

5. In the structural design of the utility model, the frame is symmetrically provided with the frame transverse guide rollers which are propped against the first movable support from the outside, the second movable support is symmetrically provided with the support transverse guide rollers which are propped against the first movable support from the inside, and the two types of transverse guide rollers are designed to facilitate the smooth movement of the first movable support relative to the frame and the second movable support relative to the first movable support, and simultaneously can provide opposite propping force for the first movable support, and the support positioning stability of the utility model to the first movable support and a rear net belt conveying mechanism on the first movable support can be improved by matching with the brake universal castor at the bottom of the first movable support.

Drawings

The utility model is further described below with reference to the accompanying drawings and examples:

FIG. 1 is a front elevational view of the overall structure of the present utility model;

FIG. 2 is a front elevational view of the web conveying mechanism and its first movable support, and the cylinder and its second movable support of FIG. 1, shown removed;

FIG. 3 is a schematic view of the disassembled rear belt conveyor and the first movable support thereof of FIG. 1;

FIG. 4 is a right side view of FIG. 3;

FIG. 5 is a schematic view of the disassembled cylinder and the second movable bracket of the cylinder in FIG. 1;

fig. 6 is a right side view of fig. 5.

Wherein: 1. a frame; 1a, an extension bracket; 1b, the frame is open; 2. a front mesh belt conveying mechanism; 3. pouring slurry hopper; 4. a material cylinder; 5. a lift pump; 6. a main conveying pipeline; 6a, a top coating slurry output interface; 6b, a primer slurry output interface; 7. top coating slurry is divided into conveying pipelines; 8. a first movable bracket; 8a, opening the bracket; 9. a second movable bracket; 10. a pipe connection clamp; 11. a top-coating mesh belt conveying mechanism; 12. a bottom-coating net belt conveying mechanism; 13. a priming mechanism; 14. the primary coating slurry is divided into conveying pipelines; 15. universal castor with brake; 16. the frame is transversely provided with guide rollers; 17. the support is transversely provided with guide rollers; 18. and a barrier strip.

Detailed Description

Examples: the specific embodiment of the coating machine with the easily detachable rear net belt conveying mechanism provided by the utility model is described as follows with reference to fig. 1-6:

First, as in the conventional technology, the device comprises a frame 1, a front net belt conveying mechanism 2 and a rear net belt conveying mechanism which are arranged on the frame 1 and are distributed back and forth, wherein the front net belt conveying mechanism 2 is fixed on an extension bracket 1a which is convexly fixed on the front side of the frame 1, and the rear net belt conveying mechanism adopts a two-section design and consists of a top coating net belt conveying mechanism 11 positioned at the front part and a bottom coating net belt conveying mechanism 12 positioned at the rear part. Two slurry pouring hoppers 3 which are sequentially arranged along the conveying direction of the top coating net belt conveying mechanism 11 are fixed on the machine frame 1 at the upper position corresponding to the top coating net belt conveying mechanism 11, and a material cylinder 4 positioned below the rear net belt conveying mechanism is arranged at the lower part of the machine frame 1. The output end of the material cylinder 4 is connected with a main conveying pipeline 6 through a lifting pump 5, and a plurality of top coating slurry separating conveying pipelines 7 are separated from the main conveying pipeline 6 and are connected with each slurry pouring hopper 3.

The utility model has the core improvement that: the rear net belt conveying mechanism comprises a top coating net belt conveying mechanism 11 and a bottom coating net belt conveying mechanism 12 which are both fixed on a first movable bracket 8 which is designed to be separated from the frame 1, and a material cylinder 4 is fixed on a second movable bracket 9 which is designed to be separated from the frame 1; and the main conveying pipeline 6 is provided with top coating slurry output interfaces 6a which are in one-to-one correspondence with the top coating slurry sub-conveying pipelines 7, and the top coating slurry output interfaces 6a are detachably connected with the corresponding top coating slurry sub-conveying pipelines 7 through pipeline connection clamps 10, as shown in fig. 1, 2 and 5. And the first movable support 8 is further provided with a priming mechanism 13 corresponding to the priming mesh belt conveying mechanism 12, and the main conveying pipeline 6 is provided with a priming slurry output interface 6b, and the priming slurry output interface 6b is detachably connected with a priming slurry component conveying pipeline 14 for feeding the priming mechanism 13 through a pipeline connecting clamp 10, as shown in fig. 1, 3-5.

Referring to fig. 1 and 3-6, in this embodiment, four rectangular casters 15 with brake are mounted at the bottoms of the first movable support 8 and the second movable support 9. When the first movable bracket 8 and the second movable bracket 9 are required to be fixed in place, the brake block is only required to be stirred, and the universal castor 15 with the brake can provide stable locking force for the brake block.

Referring to fig. 1 again, in this embodiment, the first movable support 8 is located at the inner side of the frame 1, the second movable support 9 is located at the inner side of the first movable support 8, the front belt conveying mechanism 2 is located at the front side of the frame 1, the lower parts of the left and right sides of the frame 1 are provided with frame openings 1b for moving in and out the first movable support 8, and the frame 1 is symmetrically provided with frame transverse guide rollers 16 (two pairs are called one pair, and totally two pairs of four frame transverse guide rollers 16 are visible in fig. 1 and 2) that are abutted against the front and rear sides of the first movable support 8 from the outside in each frame opening 1 b.

Meanwhile, a bracket opening 8a (the lower right side of the first movable bracket 8 is closed by a barrier 18) for the second movable bracket 9 to move in and out is formed at the lower left side of the first movable bracket 8, as shown in fig. 3. And the front and rear sides of the second movable support 9 are symmetrically provided with support transverse guide rollers 17 (actually two pairs are called a pair, and two pairs of four support transverse guide rollers 17 are totally) which are propped against the first movable support 8 from the inside, and are shown in fig. 5 and 6.

In the structural design of the utility model, the first movable support 8 which is in a split design with the frame 1 is adopted to fix the rear net belt conveying mechanism, so that the rear net belt conveying mechanism can be pulled out along with the first movable support 8 relative to the frame 1 and leaves a narrow area between the slurry pouring hopper 3 on the upper part of the frame 1 and the lower part material cylinder 4, thereby being very convenient for workers to clean, overhaul and maintain the operation on the upper part of the frame 1, saving working hours, reducing the labor burden of the workers and improving the working efficiency.

And because the material cylinder 4 is fixed on the second movable bracket 9 which is designed to be separated from the frame 1, the material cylinder is also convenient to detach and separate from the frame, thereby being beneficial to cleaning, overhauling and maintaining the material cylinder. And because the material cylinder 4 and the second movable support 9 thereof can be detached before the frame 1, the interference to the rear net belt conveying mechanism and the first movable support 8 thereof is reduced, thereby being further beneficial to the detachment and the pulling-out of the rear net belt conveying mechanism and the first movable support 8 thereof.

The back net belt conveying mechanism adopts a two-section design of a top coating net belt conveying mechanism 11 and a bottom coating net belt conveying mechanism 12, a bottom coating mechanism 13 corresponding to the bottom coating net belt conveying mechanism 12 is also arranged on the first movable support 8, and the bottom coating mechanism 13 is also connected with a bottom coating slurry separating and conveying pipeline 14 which can be detached relative to the main conveying pipeline 6 of the material cylinder 4, so that the measures are very convenient for the mutual detachment operation between the back net belt conveying mechanism and the material cylinder 4.

In addition, the top coating slurry distribution conveying pipelines 7 of the slurry pouring hoppers 3 are connected with the corresponding top coating slurry output interfaces 6a on the main conveying pipeline 6 by adopting the pipeline connection clamp 10, so that the dismantling operation of the material cylinders 4 can be simplified, and the operation efficiency can be improved.

Finally, in the structural design of the utility model, the frame 1 is symmetrically provided with the frame transverse guide roller 16 which is propped against the first movable support 8 from the outside, the second movable support 9 is symmetrically provided with the support transverse guide roller 17 which is propped against the first movable support 8 from the inside, and the two types of transverse guide rollers are designed to facilitate the smooth movement of the first movable support 8 relative to the frame 1 and the second movable support 9 relative to the first movable support 8, and simultaneously can provide opposite propping force for the first movable support 8, and can improve the supporting and positioning stability of the utility model for the first movable support 8 and a rear net belt conveying mechanism on the first movable support 8 by matching with the brake universal castor 15 at the bottom of the first movable support 8.

The above embodiments are merely for illustrating the technical concept and features of the present utility model, and are not intended to limit the scope of the present utility model to those skilled in the art to understand the present utility model and implement the same. All modifications made according to the spirit of the main technical proposal of the utility model should be covered in the protection scope of the utility model.

Claims (6)

1. The coating machine with the rear net belt conveying mechanism easy to detach comprises a frame (1), a front net belt conveying mechanism (2) and a rear net belt conveying mechanism which are arranged on the frame (1) and distributed back and forth, a plurality of slurry pouring hoppers (3) which are arranged on the frame (1) and positioned above the rear net belt conveying mechanism and sequentially arranged along the conveying direction of the slurry pouring hoppers, and a material cylinder (4) positioned below the rear net belt conveying mechanism; the output end of the material cylinder (4) is connected with a main conveying pipeline (6) through a lifting pump (5), a plurality of top coating slurry separating conveying pipelines (7) are separated from the main conveying pipeline (6) and are connected with each slurry pouring hopper (3); the automatic coating machine is characterized in that a rear net belt conveying mechanism is fixed on a first movable support (8) which is designed to be separated from a machine frame (1), a material cylinder (4) is fixed on a second movable support (9) which is designed to be separated from the machine frame (1), a main conveying pipeline (6) is provided with top coating slurry output interfaces (6 a) which are in one-to-one correspondence with all top coating slurry conveying pipelines (7), and the top coating slurry output interfaces (6 a) are detachably connected with the corresponding top coating slurry conveying pipelines (7) through pipeline connecting hoops (10).

2. The coating machine with the rear net belt conveying mechanism easy to detach according to claim 1 is characterized in that the rear net belt conveying mechanism adopts a two-section design and comprises a top coating net belt conveying mechanism (11) which is arranged corresponding to a slurry pouring hopper (3) above and a bottom coating net belt conveying mechanism (12) which is arranged behind the top coating net belt conveying mechanism, a bottom coating mechanism (13) is arranged on the first movable support (8) corresponding to the bottom coating net belt conveying mechanism (12), a bottom coating slurry output interface (6 b) is arranged on the main conveying pipeline (6), and a bottom coating slurry distribution conveying pipeline (14) for feeding the bottom coating mechanism (13) is detachably connected to the bottom coating slurry output interface (6 b) through a pipeline connecting clamp (10).

3. A coating machine with a detachable rear belt conveyor according to claim 1, characterized in that the front belt conveyor (2) is fixed to an extension bracket (1 a) which is convexly fixed to the front side of the frame (1).

4. The coating machine with the rear net belt conveying mechanism easy to detach according to claim 1 is characterized in that a plurality of braking universal casters (15) are arranged at the bottoms of the first movable bracket (8) and the second movable bracket (9).

5. A coating machine with a detachable rear belt conveyor mechanism according to claim 1 or 3, characterized in that the first movable bracket (8) is positioned at the inner side of the frame (1), the second movable bracket (9) is positioned at the inner side of the first movable bracket (8), the front belt conveyor mechanism (2) is positioned at the front side of the frame (1), the lower part of at least one of the left and right sides of the frame (1) is provided with a frame opening (1 b) for the first movable bracket (8) to move in and out, and the frame (1) is symmetrically provided with frame transverse guide rollers (16) which are propped against the front side and the rear side of the first movable bracket (8) from the outside at the inner side of the frame opening (1 b); at the same time, the lower part of at least one of the left side and the right side of the first movable support (8) is provided with a support opening (8 a) for the second movable support (9) to move in and out, and the front side and the rear side of the second movable support (9) are symmetrically provided with support transverse guide rollers (17) which are propped against the first movable support (8) from the inside.

6. A coating machine with a detachable rear belt conveyor mechanism according to claim 1 or 3, characterized in that the first movable bracket (8) is positioned at the inner side of the frame (1), the second movable bracket (9) is positioned at the inner side of the first movable bracket (8), the front belt conveyor mechanism (2) is positioned at the front side of the frame (1), the lower part of the rear side of the frame (1) is provided with a frame opening (1 b) for the first movable bracket (8) to move in and out, and the frame (1) is symmetrically provided with frame transverse guide rollers (16) which are propped against the left side and the right side of the first movable bracket (8) from the outside at the two sides in the frame opening (1 b); meanwhile, a support opening (8 a) for the second movable support (9) to move in and out is formed in the lower portion of the rear side of the first movable support (8), and support transverse guide rollers (17) which are propped against the first movable support (8) from the inside are symmetrically arranged on the left side and the right side of the second movable support (9).