CN223182892U - A high-efficiency dried meat drying machine - Google Patents

Abstract

The utility model discloses a high-efficiency preserved fruit dryer which comprises a drying shell and a high-efficiency drying mechanism, wherein six uniformly-distributed vertical support sockets are arranged on the left wall and the right wall of the drying shell, a preserved fruit baking tray is vertically inserted between each of the four horizontally-adjacent vertical support sockets, the high-efficiency drying mechanism comprises a circulating pipe, a rotating pipe, a hot air pipe, a wind direction adjusting component, a ceramic heating plate, an induced draft fan and a steam-water separator, the circulating pipe is arranged between the upper wall and the rear wall of the drying shell in a penetrating manner, the high-efficiency preserved fruit dryer adopts a circulating hot air drying mode, moisture in the device can be automatically treated while heat is prevented from being consumed by external release, the drying efficiency of the device on preserved fruit is improved, meanwhile, the device enables the hot air drying part of the preserved fruit to swing in a reciprocating manner through a transmission element, and the drying efficiency of the device on the preserved fruit is further improved through improving the hot air drying coverage range of the preserved fruit.

Description

High-effect preserved fruit dryer

Technical Field

The utility model relates to the technical field of preserved fruit drying, in particular to a high-efficiency preserved fruit dryer.

Background

The patent publication number CN 216245349U discloses that a preserved fruit drying device is related to in the prior art, including the stoving case main part, be equipped with the hot plate on the roof of stoving case main part inside, the stoving frame is installed to the below of hot plate, be equipped with the placing plate that distributes from top to bottom in the stoving frame, the inner wall of stoving case main part both sides all is equipped with the fixed block, the top of fixed block is fixed with the slide bar, the outside at the slide bar is established to the both sides of stoving case top all sliding sleeve, just the inside bottom of stoving case main part is connected with the pivot through the motor, be fixed with a plurality of connecting seat in the pivot, the outer end interlude sliding connection of connecting seat has the movable block, the movable block is located the outside one end of connecting seat and is passed through the support and be fixed with the gyro wheel, and this preserved fruit drying device can make the stoving effect on preserved fruit surface more balanced, and the quality of assurance, and the inside moisture that the inside of drying device is placed the inside the drying plate is higher than the inside of drying device, but the inside moisture that the inside of drying plate is placed in the drying device is higher than the inside the drying plate, and the inside the drying device is placed in the drying device.

Disclosure of utility model

The utility model aims to overcome the existing defects, and provides the high-efficiency preserved fruit dryer which adopts a circulating hot air drying mode, so that the moisture in the preserved fruit can be automatically treated while the consumption of heat is avoided due to external release, the drying efficiency of the preserved fruit is improved, meanwhile, the preserved fruit hot air drying part is enabled to be in reciprocating overturning and swinging by the device through the transmission element, the drying efficiency of the preserved fruit is further improved by the device through improving the hot air drying coverage range of the preserved fruit, and the problems in the background art can be effectively solved.

In order to achieve the aim, the utility model provides the following technical scheme that the high-efficiency preserved fruit dryer comprises a drying shell and a high-efficiency drying mechanism;

Six uniformly distributed vertical support sockets are arranged on the left wall and the right wall of the drying shell, and a preserved fruit baking tray is vertically inserted between each of the four horizontally adjacent vertical support sockets;

High-efficient stoving mechanism: the device comprises a circulating pipe, a rotating pipe, a hot air pipe, a wind direction adjusting component, a ceramic heating plate, an induced draft fan and a steam-water separator, wherein the circulating pipe is arranged between the upper wall and the rear wall of a drying shell in a penetrating mode, six evenly-distributed rotating pipes are arranged at the front end of the inner part of the circulating pipe through rotating joints, five evenly-distributed hot air pipes are arranged in the inner part of the rotating pipe in a penetrating mode, the induced draft fan, the steam-water separator and the ceramic heating plate are sequentially connected in series from top to bottom at the rear end of the circulating pipe, the wind direction adjusting component is arranged between the rotating pipe and the drying shell, the device adopts a circulating hot air drying mode, moisture inside the device can be automatically treated while heat is prevented from being consumed in an outward releasing mode, the drying efficiency of the device on preserved fruits is improved, meanwhile, the device enables the dried parts of the preserved fruits to swing in a reciprocating and overturning mode through a transmission element, and the drying coverage range of the hot air of the preserved fruits is further improved.

Further, the right side of stoving shell is equipped with the singlechip, and the input of singlechip is connected with external power source electricity, and the output of singlechip is connected with the input electricity of ceramic heating plate and draught fan respectively, and control electrical components is convenient.

Further, the left end of the front side of the drying shell is hinged with a closed door through two symmetrically distributed hinges, and the inside of the high-effect preserved fruit dryer is isolated from the outside in a drying mode.

Further, wind direction adjusting part includes gear and rack board, the gear sets up in the outside front end of swivelling joint respectively, and spout one has all been seted up to the left and right sides wall of stoving shell, and the inside of spout one all sliding connection has the rack board, and the rack board all is connected with adjacent gear engagement for vertical adjacent swivelling joint synchronous syntropy upset in the high-efficient preserved fruit drying-machine.

Further, wind direction adjusting part still includes translation seat, inclined plane spout and inclined plane slide, translation seat sliding connection is in spout second that the diapire of stoving shell was seted up, and the inclined plane spout has all been seted up to the left and right sides inclined plane of translation seat, and the inside of inclined plane spout is all sliding connection has the inclined plane slide, and the inclined plane slide all with adjacent rack board fixed connection, adjusts the rack board vertical height in the high-efficient preserved drying-machine.

Further, wind direction adjusting part still includes pivot and reciprocating screw, the pivot passes through the bearing and rotates to be connected in the right wall of stoving shell, and the left end of pivot is equipped with reciprocating screw, and the rear side of translation seat is equipped with the connecting seat, connecting seat and reciprocating screw threaded connection for reciprocating motion about the translation seat in the high-efficient preserved drying-machine.

Further, wind direction adjusting part still includes the motor, the motor sets up in the right side of stoving shell, and the input of motor is connected with the output electricity of singlechip, and the output shaft of motor and the right-hand member fixed connection of pivot provide power for the reciprocal upset of the stoving position positive and negative of high-efficient preserved fruit dryer.

Compared with the prior art, the high-efficiency preserved fruit dryer has the beneficial effects that:

When drying the preserved fruit, through circulating pipe, revolving tube, hot-blast main, ceramic heating plate, draught fan and catch water, adopt circulation steam stoving mode, can handle the inside moisture of device automatically when avoiding the heat to release the consumption outward, improve the drying efficiency of device to the preserved fruit, make the reciprocal upset swing in preserved fruit steam stoving position through wind direction adjusting part simultaneously, through improving preserved fruit steam stoving coverage, further improve the drying efficiency of device to the preserved fruit.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the internal structure of the present utility model;

FIG. 3 is a right side schematic view of the present utility model;

FIG. 4 shows the present utility model a schematic structural diagram of the circulating pipe;

fig. 5 is an enlarged schematic view of the structure of the present utility model at a.

In the figure, a drying shell, a singlechip, a 3 closed door, a 4 vertical support socket, a 5 preserved fruit baking tray, a 6 efficient drying mechanism, a 61 circulating pipe, a 62 rotating pipe, a 63 hot air pipe, a 64 wind direction adjusting component, a 641 gear, a 642 rack plate, a 643 translation seat, a 644 inclined plane chute, a 645 inclined plane slide seat, a 646 rotating shaft, a 647 reciprocating screw rod, a 648 motor, a 65 ceramic heating plate, a 66 induced draft fan and a 67 steam-water separator are arranged in the figure.

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 FIGS. 1-5, the embodiment provides a technical scheme that a high-efficiency preserved fruit dryer comprises a drying shell 1 and a high-efficiency drying mechanism 6;

The left and right walls of the drying shell 1 are respectively provided with six uniformly distributed vertical support sockets 4, a preserved fruit baking tray 5 is vertically inserted between each of the four horizontally adjacent vertical support sockets 4, the left end of the front side of the drying shell 1 is hinged with a closing door 3 through two symmetrically distributed hinges, when the preserved fruit is dried, a worker firstly places the preserved fruit into the preserved fruit baking tray 5, then inserts the preserved fruit baking tray 5 vertically downwards onto the corresponding vertical support sockets 4, so that the preserved fruit baking tray 5 is suspended, and then closes the closing door 3 to isolate the preserved fruit from the external environment;

The efficient drying mechanism 6 comprises a circulating pipe 61, a rotating pipe 62, a hot air pipe 63, a wind direction adjusting assembly 64, a ceramic heating plate 65, an induced draft fan 66 and a steam-water separator 67, wherein the circulating pipe 61 is arranged between the upper wall and the rear wall of the drying shell 1 in a penetrating manner, six uniformly distributed rotating pipes 62 are arranged at the front end of the inner part of the circulating pipe 61 through a rotating joint, five uniformly distributed hot air pipes 63 are arranged in the inner part of the rotating pipe 62 in a penetrating manner, and the induced draft fan 66 is sequentially connected in series from top to bottom at the rear end of the circulating pipe 61, The steam-water separator 67 and the ceramic heating plate 65, be equipped with wind direction adjusting component 64 between rotatory pipe 62 and the stoving shell 1, the right side of stoving shell 1 is equipped with singlechip 2, the input of singlechip 2 is connected with external power source electricity, the output of singlechip 2 is connected with the input electricity of ceramic heating plate 65 and draught fan 66 respectively, wind direction adjusting component 64 includes gear 641 and rack board 642, gear 641 sets up in rotatory outside front end of pipe 62 respectively, spout one has all been seted up to the left and right sides wall of stoving shell 1, the inside of spout one all sliding connection has rack board 642, rack board 642 all meshes with adjacent gear 641 and is connected, wind direction adjusting component 64 still includes translation seat 643, The inclined plane spout 644 and inclined plane slide seat 645, translation seat 643 sliding connection is in spout two that the diapire of stoving shell 1 was seted up, the inclined plane spout 644 has all been seted up to the left and right sides inclined plane of translation seat 643, the inside of inclined plane spout 644 all sliding connection has inclined plane slide seat 645, inclined plane slide seat 645 all is with adjacent rack board 642 fixed connection, wind direction adjusting component 64 still includes pivot 646 and reciprocating screw 647, pivot 646 passes through the bearing rotation and connects in the right wall of stoving shell 1, the left end of pivot 646 is equipped with reciprocating screw 647, translation seat 643's rear side is equipped with the connecting seat, connecting seat and reciprocating screw 647 threaded connection, wind direction adjusting component 64 still includes motor 648, motor 648 sets up in the right side of stoving shell 1, the input of motor 648 is connected with the output of singlechip 2, the output shaft of motor 648 is connected with the right-hand member fixed of pivot 646, during the stoving of preserved fruit, singlechip 2 starts 66 and ceramic heating plate 65, thereby heat up the gas of discharging hot-blast air 63 through ceramic heating plate 65, make the hot-blast outflow to the preserved fruit in stoving dish 5 from lower to upper portion, make the gas flow into the upper portion of the device 67 through the circulating pipe 67, make the steam-water separator 67 in the device through the downholder, The rotary pipe 62 is discharged to the inside of the device through the hot air pipe 63, thereby realizing the cyclic use of the drying air flow in the device, avoiding the contact of air and the external environment, reducing the heat loss of hot air in the device, when the steam carried by the hot air in the circulating pipe 61 passes through the steam-water separator 67, the steam-water separator 67 adopts high-temperature nano-filtration to filter and remove the steam in the hot air, the drying air in the device is circularly flowed and dehumidified, reducing the interference of heat loss and moisture on the drying of the preserved fruit, further improving the drying efficiency of the device on the preserved fruit, simultaneously, the singlechip 2 starts the motor 648 to drive the output shaft 646 to rotate, the rotating shaft 646 drives the reciprocating screw 647 to rotate, the reciprocating screw 647 drives the translation seat 643 to slide left and right along the second sliding chute in a threaded connection way, when the translation seat 643 slides left and right along the sliding chute, the left inclined slide seat 645 slides up along the left inclined slide groove 644, the left inclined slide seat 645 drives the left rack plate 642 to slide up along the first slide groove, the left rack plate 642 drives the left hot air pipe 63 to turn forward through the meshing connection, the right inclined slide seat 645 slides down along the right inclined slide groove 644, the right inclined slide seat 645 synchronously turns forward through the same principle, when the translation seat 643 slides right along the slide groove, the left hot air pipe 6 and the right hot air pipe 6 turn reversely through the same principle, the hot air pipes 6 turn alternately forward and backward along with the translation seat 643 sliding back and forth along the second slide groove, the hot air pipes 6 turn alternately forward and backward, thereby improving the direct coverage of the hot air pipes 6 to the hot air drying of the preserved fruits in the adjacent preserved fruit baking tray 5, further improve the device and to the drying efficiency of preserved fruit, the device adopts circulation steam stoving mode, can handle the inside moisture of device automatically when avoiding the heat to release the consumption outward, improve the device to the drying efficiency of preserved fruit, the device makes the reciprocal upset swing in preserved fruit steam stoving position through transmission element simultaneously, through improving preserved fruit steam stoving coverage, further improves the device to the drying efficiency of preserved fruit.

The working principle of the high-effect preserved fruit dryer provided by the utility model is as follows: when the preserved fruit is dried, a worker firstly places the preserved fruit into a preserved fruit baking tray 5, then vertically inserts the preserved fruit baking tray 5 downwards onto a corresponding vertical support socket 4, so as to suspend the preserved fruit baking tray 5, then closes a closing door 3, then starts a draught fan 66 and a ceramic heating plate 65 by a singlechip 2, heats gas discharged from a hot air pipe 63 through the ceramic heating plate 65, enables hot air to flow out to dry the preserved fruit in the preserved fruit baking tray 5 from bottom to top, runs the draught fan 66, enables the gas in the device to flow in through the upper end of a circulating pipe 61, discharges the gas into the device through a steam-water separator 67 and a rotary pipe 62 through a hot air pipe 63, realizes the recycling of the preserved fruit drying airflow in the device, avoids the contact of the gas with the external environment, reduces the heat loss of the hot air in the device, when the steam and water vapor carried by the hot air in the circulating pipe 61 passes through the steam and water separator 67, the steam and water separator 67 filters and removes the steam and water vapor in the hot air by adopting high-temperature nano-filtration, the dried fruit drying gas is circularly flowed and dehumidified, the interference of heat and moisture on the dried fruit drying is reduced, the drying efficiency of the dried fruit is further improved, meanwhile, in the dried fruit drying process, the singlechip 2 starts the motor 648 to drive the output shaft 646 to rotate, the rotating shaft 646 drives the reciprocating screw 647 to rotate, the reciprocating screw 647 is in threaded connection with the connecting seat so as to drive the translation seat 643 to slide left and right along the second sliding groove, when the translation seat 643 slides left along the sliding groove, the left inclined plane sliding seat 645 slides up along the left inclined plane sliding groove 644, the left inclined plane sliding seat 645 drives the left rack plate 642 to slide up along the first sliding groove, the rack plate 642 on the left side is connected through the meshing so that the gear 641 on the left side drives the hot air pipe 63 on the left side to positively overturn, the bevel sliding seat 645 on the right side slides downwards along the bevel sliding groove 644 on the right side, the bevel sliding seat 645 on the right side enables the hot air pipe 63 on the right side to synchronously positively overturn through the same principle, when the translation seat 643 slides rightwards along the sliding groove, the hot air pipes 6 on the left side and the right side reversely overturn through the same principle, and the hot air pipes 6 alternately overturn along with the left and right reciprocating sliding of the translation seat 643 along the sliding groove two, so that the hot air drying coverage range of the hot air pipes 6 on the hot air of the preserved fruits in the adjacent preserved fruit baking tray 5 is improved, and the drying efficiency of the device on the preserved fruits is further improved.

It should be noted that, in the above embodiment, the single-chip microcomputer 2 may employ MCS-51, the motor 648 may employ Y80M1-2, the ceramic heating plate 65 may employ MCH ceramic heating plate, the induced draft fan 66 may employ F4-72, and the single-chip microcomputer 2 controls the operation of the motor 648, the ceramic heating plate 65 and the induced draft fan 66 by the methods commonly used in the prior art.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (7)

1. The high-efficiency preserved fruit dryer is characterized by comprising a drying shell (1) and a high-efficiency drying mechanism (6);

Six uniformly distributed vertical support sockets (4) are arranged on the left wall and the right wall of the drying shell (1), and a preserved fruit baking tray (5) is vertically inserted between the four horizontally adjacent vertical support sockets (4);

The efficient drying mechanism (6) comprises a circulating pipe (61), a rotating pipe (62), a hot air pipe (63), a wind direction adjusting component (64), a ceramic heating plate (65), an induced draft fan (66) and a steam-water separator (67), wherein the circulating pipe (61) is arranged between the upper wall and the rear wall of a drying shell (1) in a penetrating mode, six uniformly distributed rotating pipes (62) are arranged at the front end of the inner portion of the circulating pipe (61) through rotating joints, five uniformly distributed hot air pipes (63) are arranged inside the rotating pipes (62) in a penetrating mode, the induced draft fan (66), the steam-water separator (67) and the ceramic heating plate (65) are sequentially connected in series from top to bottom at the rear end of the circulating pipe (61), and the wind direction adjusting component (64) is arranged between the rotating pipe (62) and the drying shell (1).

2. The high-efficiency preserved fruit dryer as set forth in claim 1, wherein the right side of the drying shell (1) is provided with a single chip microcomputer (2), the input end of the single chip microcomputer (2) is electrically connected with an external power supply, and the output end of the single chip microcomputer (2) is electrically connected with the input ends of a ceramic heating plate (65) and an induced draft fan (66) respectively.

3. The high-efficiency preserved fruit dryer as set forth in claim 1, wherein the front left end of the drying shell (1) is hinged with a closing door (3) through two symmetrically distributed hinges.

4. The high-efficiency preserved fruit dryer as set forth in claim 2, wherein the wind direction adjusting assembly (64) comprises a gear (641) and a rack plate (642), the gear (641) is respectively arranged at the front end of the outer side of the rotary tube (62), the left wall and the right wall of the drying shell (1) are respectively provided with a first sliding chute, the inside of the first sliding chute is respectively connected with the rack plate (642) in a sliding manner, and the rack plate (642) is respectively connected with the adjacent gear (641) in a meshed manner.

5. The high-efficiency preserved fruit dryer as set forth in claim 4, wherein the wind direction adjusting assembly (64) further comprises a translation seat (643), an inclined slide groove (644) and an inclined slide seat (645), the translation seat (643) is slidably connected in a second slide groove formed in the bottom wall of the drying shell (1), inclined slide grooves (644) are formed in the inclined surfaces of the left side and the right side of the translation seat (643), the inclined slide seat (645) is slidably connected in the inclined slide grooves (644), and the inclined slide seat (645) is fixedly connected with the adjacent rack plate (642).

6. The high-efficiency preserved fruit dryer as set forth in claim 5, wherein the wind direction adjusting assembly (64) further comprises a rotating shaft (646) and a reciprocating screw (647), the rotating shaft (646) is rotatably connected to the right wall of the drying shell (1) through a bearing, the reciprocating screw (647) is arranged at the left end of the rotating shaft (646), the connecting seat is arranged at the rear side of the translation seat (643), and the connecting seat is in threaded connection with the reciprocating screw (647).

7. The high-efficiency preserved fruit dryer as set forth in claim 6, wherein the wind direction adjusting assembly (64) further comprises a motor (648), the motor (648) is disposed on the right side of the drying shell (1), an input end of the motor (648) is electrically connected with an output end of the single chip microcomputer (2), and an output shaft of the motor (648) is fixedly connected with the right end of the rotating shaft (646).