CN219252526U - Instant food pelletization equipment - Google Patents

Abstract

The utility model relates to convenient food granulating equipment, relates to the field of convenient food, and solves the problems that the traditional granulating equipment cuts by moving a cutter up and down, the using time is long, the efficiency is low, and the later collection is troublesome during cutting. The technical characteristics include: a base; the support structure is arranged on the upper surface of the base and is used for supporting; and the conveying structure is arranged on the upper surface of the supporting structure and is used for conveying. The support, collection and boxing are carried out after the cutting, the structure is relatively simple, and the use is convenient.

Description

Instant food pelletization equipment

Technical Field

The utility model relates to the technical field of instant foods, in particular to an instant food granulating device.

Background

The instant food is prepared or eaten at present, and the instant food is made into semi-finished product or finished product, frozen, and is easy to process and eaten at any time and any place. For example, the instant noodles, dried beef, canned fruits and vegetables, canned meats, various beverages, instant rice noodles, lotus root starch, rice noodles, black sesame porridge, oat porridge, frozen dumplings, frozen noodles, frozen rice dumplings and the like are common, have various flavors and various flavors, are popular and are very high-popularization foods.

Traditional pelletization equipment all cuts through the cutter reciprocates, and during the cutting, the time that uses is longer, and efficiency is lower, and later collection is comparatively troublesome moreover, so in order to solve this problem, it is very necessary to design an instant food pelletization equipment.

Disclosure of Invention

The utility model aims to solve the technical problems that the traditional granulating equipment in the prior art is used for cutting through the upward and downward movement of a cutter, the using time is long, the efficiency is low, and the later collection is troublesome, and provides the convenient food granulating equipment.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

an instant food pelletization apparatus comprising:

a base;

the support structure is arranged on the upper surface of the base and is used for supporting;

the conveying structure is arranged on the upper surface of the supporting structure and is used for conveying;

the feeding and discharging structure is arranged on the conveying structure and is used for feeding and discharging;

the cutter structure is arranged on the supporting structure and is used for dicing;

a delivery structure mounted on the support structure and configured to deliver;

a cooling structure mounted on the feed-out structure, and configured to cool;

the bearing structure is arranged on the base and is used for bearing.

Preferably, the support structure comprises: two pairs of support rods and support fixing plates;

the two pairs of support rods are arranged at the edge of the upper surface of the base, and the support fixing plates are arranged on the upper surfaces of the two pairs of support rods.

Preferably, the conveying structure includes: the device comprises a pair of supporting blocks, a conveying shell, a first fixing frame, a first rotating motor, a limiting shell, a bearing, a spiral conveying rod and a heating layer;

the pair of supporting blocks are arranged on the upper surface of the supporting fixing plate, the conveying shell is arranged on the pair of supporting blocks, the first fixing frame is arranged on the side surface of the conveying shell, the first rotating motor is arranged on the first fixing frame, the inner side surface of the conveying shell is provided with a circular groove, the limiting shell is arranged at the circular groove, the bearing is arranged in the limiting shell, the spiral conveying rod is arranged on the rotating end of the first rotating motor, the other end of the spiral conveying rod is connected with the bearing, and the heating layer is arranged on the outer surface of the conveying shell.

Preferably, the feeding and discharging structure comprises: a feed hopper and a plurality of extrusion shells;

the conveying shell is characterized in that a feeding hole is formed in the edge of the upper surface of the conveying shell, the feeding hopper is arranged at the feeding hole, a plurality of discharging holes are formed in the side surface of the conveying shell, and each extruding shell is arranged on the corresponding discharging hole.

Preferably, the cutter structure comprises: comprising the following steps: the device comprises a support frame, a second fixing frame, a second rotating motor, a connecting block, three cutters and a semi-wrapping protective shell;

the support frame is installed in supporting fixed plate upper surface, the second mount is installed in the support frame upper surface, the second rotating electrical machines is installed on the second mount, the connecting block is installed in the rotating end of second rotating electrical machines, three the cutter is installed on the connecting block, just the cutter with a plurality of extrude the casing phase-match, half parcel protective housing installs on the support frame, just half parcel protective housing and cutter phase-match.

Preferably, the feeding structure includes: sending out the shell and two pairs of speed reducing plates;

the support fixing plate is provided with an installation opening, the sending-out shell is installed at the installation opening, and the two pairs of the speed reducing plates are installed in the sending-out shell.

Preferably, the cooling structure includes: a pair of third fixing frames, a pair of micro coolers and a pair of blocking nets;

the side surface of the feeding shell is provided with a pair of rectangular openings, each third fixing frame is arranged at the corresponding rectangular opening, each micro cooler is arranged on the corresponding third fixing frame, and each blocking net is arranged on the corresponding micro cooler.

Preferably, the load bearing structure comprises: the limiting plate and the uncovered bearing box body;

the limiting plate is arranged on the upper surface of the base, the capless bearing box body is arranged at the limiting plate, and the capless bearing box body can be detached.

Preferably, a commercial power interface is arranged on the base, and a controller is arranged on the base.

The utility model has the following beneficial effects:

this convenience food pelletization equipment can be better pelletize, and is very convenient, has reduced unnecessary trouble, cuts the change into three cutter rotary cutting through with the cutter reciprocates to increase cutting efficiency, and support after the cutting and collect the vanning, simple structure relatively, convenient to use.

Drawings

The utility model is described in further detail below with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of an instant food granulating apparatus according to the present utility model;

FIG. 2 is a front view of a construction diagram of an instant food granulating apparatus according to the present utility model;

FIG. 3 is a front view of an instant food granulating apparatus of the present utility model;

fig. 4 is a top view of an instant food granulating apparatus of the present utility model.

Reference numerals in the drawings denote:

the device comprises a base 10, a supporting structure 20, a conveying structure 30, a feeding and discharging structure 40, a cutter structure 50, a feeding structure 60, a cooling structure 70, a bearing structure 80, a mains interface 90 and a controller 100;

a support rod 21 and a support fixing plate 22;

the device comprises a supporting block 31, a conveying shell 32, a first fixing frame 33, a first rotating motor 34, a limiting shell 35, a bearing 36, a spiral conveying rod 37 and a heating layer 38;

a feed hopper 41, an extrusion housing 42;

the support frame 51, the second fixing frame 52, the second rotating motor 53, the connecting block 54, the cutter 55 and the semi-wrapping protective shell 56;

a feed-out casing 61 and a speed reducing plate 62;

a third fixing frame 71, a micro-cooler 72 and a blocking net 73;

a limiting plate 81 and a non-cover bearing box 82.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 4, a supporting structure 20 on an upper surface of a base 10 is used for supporting, a conveying structure 30 on the upper surface of the supporting structure 20 is used for conveying, a feeding and discharging structure 40 on the conveying structure 30 is used for feeding and discharging, a cutter structure 50 on the supporting structure 20 is used for dicing, a delivering structure 60 on the supporting structure 20 is used for delivering, a cooling structure 70 on the delivering structure 60 is used for cooling, and a carrying structure 80 on the base 10 is used for carrying.

Preferably, the support structure 20 comprises: two pairs of support rods 21 and support fixing plates 22; two pairs of support rods 21 are installed at the edges of the upper surface of the base 10, and support fixing plates 22 are installed on the upper surfaces of the two pairs of support rods 21.

Is supported by a support bar 21 at the edge of the upper surface of the base 10 and a support fixing plate 22 on the support bar 21.

Preferably, the transfer structure 30 includes: a pair of support blocks 31, a conveying housing 32, a first fixing frame 33, a first rotating motor 34, a limit housing 35, a bearing 36, a screw conveying rod 37, and a heating layer 38; the pair of support blocks 31 are mounted on the upper surface of the support fixing plate 22, the conveying shell 32 is mounted on the upper surface of the pair of support blocks 31, the first fixing frame 33 is mounted on the side surface of the conveying shell 32, the first rotating motor 34 is mounted on the first fixing frame 33, a circular groove is formed in the inner side surface of the conveying shell 32, the limiting shell 35 is mounted on the circular groove, the bearing 36 is mounted in the limiting shell 35, the spiral conveying rod 37 is mounted on the rotating end of the first rotating motor 34, the other end of the spiral conveying rod 37 is connected with the bearing 36, and the heating layer 38 is mounted on the outer surface of the conveying shell 32.

The first rotating motor 34 on the first fixing frame 33 is matched with the bearing 36 in the limit housing 35 to drive the spiral conveying rod 37 to rotate, so that raw materials fed into the conveying housing 32 are conveyed, and meanwhile, the raw materials are heated through the heating layer 38, so that the raw materials are prevented from being solidified, and the spiral conveying rod 37 is prevented from rotating to generate blockage.

Preferably, the feeding and discharging structure 40 includes: a feed hopper 41 and several extrusion shells 42; the edge of the upper surface of the conveying shell 32 is provided with a feed inlet, the feed hopper 41 is arranged at the feed inlet, the side surface of the conveying shell 32 is provided with a plurality of discharge outlets, and each extrusion shell 42 is arranged on the corresponding discharge outlet.

Raw materials are fed into the conveying housing 32 through the feed hopper 41 and conveyed by the screw conveying rod 37, and extruded from the extrusion housing 42.

Preferably, the cutter structure 50 includes: comprising the following steps: the support frame 51, the second fixing frame 52, the second rotating motor 53, the connecting block 54, the three cutters 55 and the half-wrapping protective shell 56; the support frame 51 is installed on the upper surface of the support fixing plate 22, the second fixing frame 52 is installed on the upper surface of the support frame 51, the second rotating motor 53 is installed on the second fixing frame 52, the connecting block 54 is installed on the rotating end of the second rotating motor 53, the three cutters 55 are installed on the connecting block 54, the cutters 55 are matched with the extrusion shells 42, the half-wrapping protective shell 56 is installed on the support frame 51, and the half-wrapping protective shell 56 is matched with the cutters 55.

During extrusion, the second rotating motor 53 on the second fixing frame 52 drives the cutter 55 on the connecting block 54 to cut, so that granulation is performed, and the semi-wrapping protective shell 56 on the supporting frame 51 can be protected to a certain extent.

Preferably, the feeding structure 60 includes: a feed-out casing 61 and two pairs of speed reducing plates 62; the support fixing plate 22 is provided with an installation opening, the delivery casing 61 is installed at the installation opening, and two pairs of speed reducing plates 62 are installed in the delivery casing 61.

The feed-out housing 61 feeds out the cut raw material, and the speed is reduced by the speed reducing plate 62 in the feed-out housing 61.

Preferably, the cooling structure 70 includes: a pair of third holders 71, a pair of micro coolers 72, and a pair of barrier nets 73; the side surface of the delivery casing 61 is provided with a pair of rectangular openings, each third fixing frame 71 is mounted at the corresponding rectangular opening, each micro cooler 72 is mounted on the corresponding third fixing frame 71, and each blocking net 73 is mounted on the corresponding micro cooler 72.

When the feed-out housing 61 falls down, the cooling is performed by the micro cooler 72 on the third holder 71.

Preferably, the load bearing structure 80 comprises: a limiting plate 81 and a capless carrier case 82; the limiting plate 81 is mounted on the upper surface of the base 10, the capless bearing box 82 is mounted at the limiting plate 81, and the capless bearing box 82 can be detached.

The limiting plate 81 is used for limiting, and the box 82 is used for bearing.

Preferably, the base 10 is provided with a mains interface 90, and the base 10 is provided with a controller 100.

The power supply is connected through a mains interface 90 on the base 10 and is controlled by a controller 100 on the base 10.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (9)

1. An instant food granulating apparatus comprising:

a base (10);

a support structure (20), the support structure (20) being mounted to the upper surface of the base (10), and the support structure (20) being for support;

a transfer structure (30), the transfer structure (30) being mounted to an upper surface of the support structure (20), the transfer structure (30) being for transfer;

the feeding and discharging structure (40), the feeding and discharging structure (40) is arranged on the conveying structure (30), and the feeding and discharging structure (40) is used for feeding and discharging;

a cutter structure (50), the cutter structure (50) being mounted on the support structure (20) and the cutter structure (50) being for dicing;

-a delivery structure (60), the delivery structure (60) being mounted on the support structure (20) and the delivery structure (60) being for delivery;

-a cooling structure (70), the cooling structure (70) being mounted on the feed-out structure (60), and the cooling structure (70) being adapted for cooling;

-a carrying structure (80), the carrying structure (80) being mounted on the base (10), and the carrying structure (80) being adapted to carry a load.

2. An instant food granulation apparatus according to claim 1, characterized in that said support structure (20) comprises: two pairs of support rods (21) and support fixing plates (22);

the two pairs of support rods (21) are arranged at the edge of the upper surface of the base (10), and the support fixing plates (22) are arranged on the upper surfaces of the two pairs of support rods (21).

3. An instant food granulation apparatus according to claim 2, characterized in that said conveying structure (30) comprises: a pair of support blocks (31), a transmission housing (32), a first fixing frame (33), a first rotating motor (34), a limit housing (35), a bearing (36), a spiral transmission rod (37) and a heating layer (38);

the pair of supporting blocks (31) are arranged on the upper surface of the supporting fixed plate (22), the conveying shell (32) is arranged on the pair of upper surfaces of the supporting blocks (31), the first fixing frame (33) is arranged on the side surface of the conveying shell (32), the first rotating motor (34) is arranged on the first fixing frame (33), a circular groove is formed in the inner side surface of the conveying shell (32), the limiting shell (35) is arranged at the circular groove, the bearing (36) is arranged in the limiting shell (35), the spiral conveying rod (37) is arranged on the rotating end of the first rotating motor (34), the other end of the spiral conveying rod (37) is connected with the bearing (36), and the heating layer (38) is arranged on the outer surface of the conveying shell (32).

4. A convenience food pelletising apparatus according to claim 3, characterized in that the feeding and discharging structure (40) comprises: a feed hopper (41) and a number of extrusion shells (42);

the feeding hopper (41) is arranged at the feeding hole, a plurality of discharging holes are formed in the side surface of the conveying shell (32), and each extruding shell (42) is arranged on the corresponding discharging hole.

5. An instant food granulating apparatus as claimed in claim 4, characterized in that said cutter structure (50) comprises: comprising the following steps: the device comprises a support frame (51), a second fixing frame (52), a second rotating motor (53), a connecting block (54), three cutters (55) and a half-wrapping protective shell (56);

support frame (51) are installed in support fixed plate (22) upper surface, second mount (52) are installed in support frame (51) upper surface, second rotating electrical machines (53) are installed on second mount (52), connecting block (54) are installed in second rotating electrical machines (53) rotating end, three cutter (55) are installed on connecting block (54), just cutter (55) with a plurality of extrude casing (42) assorted, half parcel protective housing (56) are installed on support frame (51), just half parcel protective housing (56) assorted with cutter (55).

6. An instant food granulation apparatus according to claim 2, characterized in that said delivery structure (60) comprises: a feed-out housing (61) and two pairs of speed reduction plates (62);

the support fixing plate (22) is provided with an installation opening, the sending-out shell (61) is installed at the installation opening, and the two pairs of speed reducing plates (62) are installed in the sending-out shell (61).

7. An instant food granulating apparatus as claimed in claim 6, characterized in that said cooling structure (70) comprises: a pair of third fixing frames (71), a pair of micro coolers (72) and a pair of blocking nets (73);

the side surface of the delivery shell (61) is provided with a pair of rectangular openings, each third fixing frame (71) is arranged at the corresponding rectangular opening, each micro cooler (72) is arranged on the corresponding third fixing frame (71), and each blocking net (73) is arranged on the corresponding micro cooler (72).

8. An instant food granulating apparatus as claimed in claim 6, characterized in that said carrying structure (80) comprises: a limit plate (81) and a non-cover bearing box body (82);

the limiting plate (81) is arranged on the upper surface of the base (10), the capless bearing box body (82) is arranged at the limiting plate (81), and the capless bearing box body (82) can be detached.

9. An instant food granulating apparatus according to claim 1, characterized in that the base (10) is provided with a mains interface (90), and the base (10) is provided with a controller (100).

Images