CN113670039A - Air source high-temperature heat pump dehumidification baking equipment - Google Patents

Abstract

The invention discloses an air source high-temperature heat pump dehumidification baking device which structurally comprises a box door, a handle, heat dissipation holes and a baking device, wherein the box door is arranged on the front end face of the baking device, the handle is arranged on the front end face of the baking device, a pressure rod is driven to downwards extrude through the rotation of a cam, a hinged plate moves downwards to push a rotating shaft to rotate at a fixed point, so that a swinging rod swings to swing and collide with the inside of a placing mechanism, sweet potato slices placed on the placing mechanism swing to be uniformly heated and baked, the cracking of the sweet potato slices in the baking process is prevented, a supporting plate swings, the sweet potato slices in the swinging process are blocked by blocking pieces at two ends, the sweet potato slices are prevented from falling off the supporting plate, the supporting plate swings, and a jacking spring per se elastically deforms so as to push a jacking ball to jack up the sweet potato slices, avoid the adhesion of sweet potato piece after drying inside the separating tank, avoid taking out the in-process sweet potato piece and take place the fracture.

Description

Air source high-temperature heat pump dehumidification baking equipment

Technical Field

The invention relates to the technical field of high-temperature heat pumps, in particular to air source high-temperature heat pump dehumidification baking equipment.

Background

The air source high-temperature heat pump baking equipment utilizes the inverse Carnot principle, a high-temperature heat pump dryer forms a circulating system by a compressor, a heat exchanger, a throttler, a heat absorber, a compressor and the like, absorbs the heat of air and transfers the heat to a baking chamber, the temperature of the baking chamber is improved, and the sweet potato slices are baked, but because the sweet potato slices are flatly placed in the baking chamber in the process of baking the sweet potato slices, a heat outlet end is concentrated at one side, the sweet potato slices close to the heat outlet end are easily subjected to larger heat, the drying speed of partial sweet potato slices close to the heat outlet end is too high, the sweet potato slices are cracked, meanwhile, the bottoms of the sweet potato slices are placed on a partition plate, the bottoms of the sweet potato slices losing moisture are easily bonded with the partition plate, the sweet potato slices are difficult to be taken down from the partition plate, and in the taking-down process, the dried sweet potatoes are easy to break, and the integrity of the dried sweet potatoes is damaged.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: this equipment is toasted in dehumidification of air source high temperature heat pump, its structure includes chamber door, handle, louvre, baking equipment, the terminal surface before baking equipment is established to the handle is established at baking equipment preceding terminal surface, the handle is located the chamber door left side, the louvre inlays at baking equipment right side terminal surface, baking equipment includes toasting case, high temperature heat pump, evaporimeter, compressor, condenser, bearing mechanism, fan, the inside left end of toasting case inlays to firmly install high temperature heat pump to high temperature heat pump link up with the evaporimeter mutually, the evaporimeter upper end is connected with the compressor, the compressor is located condenser upper left end and link up mutually, the condenser is located the evaporimeter right side, the condenser right side is equipped with the fan to the fan is located bearing mechanism left side, bearing mechanism installs at the inside right-hand member of toasting case.

As a further improvement of the invention, the bearing mechanism comprises a cam, a pressing mechanism and a placing mechanism, the cam is fixedly arranged at the top end inside the right end of the baking oven and is positioned at the top of the pressing mechanism, the pressing mechanism penetrates through the placing mechanism, the placing mechanism is positioned at the right end inside the baking oven, the cam is in transmission connection with an external motor, and the pressing mechanism is driven by the rotation of the cam to perform reciprocating up-and-down extrusion.

As a further improvement of the invention, the pressing mechanism comprises a pressing rod, a limiting frame and a rotary swing mechanism, the lower end of the pressing rod is arranged in the limiting frame in a clearance fit mode, the rotary swing mechanism is connected with the inner shaft of the limiting frame, the lower end of the pressing rod is hinged with the upper end of the rotary swing mechanism, the rotary swing mechanism is abutted against the inner part of the placing mechanism, and the limiting frame and the rotary swing mechanism are respectively provided with five parts and are respectively and independently connected with the five placing mechanisms.

As a further improvement of the invention, the rotary swing mechanism comprises a hinged plate, a rotating shaft, a swing rod and a guide arc rod, wherein the upper end of the hinged plate is hinged with the lower end of the pressure rod, the lower end of the hinged plate is fixed with the top of the rotating shaft, the middle end of the swing rod is hinged with the middle end in the limiting frame through the rotating shaft, the outer side end of the swing rod is abutted against the inside of the placing mechanism, the guide arc rod is fixedly arranged in the limiting frame, the guide arc rod penetrates through the inside of the swing rod in a clearance fit manner, and the swing rod is arranged in an inclined angle.

As a further improvement of the invention, the placing mechanism comprises a separating mechanism, a separating plate and two blocking pieces, the swing rods are arranged in the separating mechanism and are abutted against each other, the separating plate is embedded in the upper end of the separating plate, the blocking pieces are fixedly arranged at the outer side end of the separating mechanism, and the two blocking pieces are of arc-shaped structures and are respectively arranged at the left end and the right end of the separating mechanism.

As a further improvement of the invention, the separating mechanism comprises a supporting plate, separating grooves, jacking balls and jacking springs, the swing rods are arranged at the middle ends in the supporting plate and are abutted against each other, the separating grooves are embedded in the upper end of the supporting plate, the jacking balls are positioned in the separating grooves, the lower ends of the jacking balls are welded with the tops of the jacking springs, the jacking springs are arranged in the lower end of the supporting plate, and the five separating grooves are provided and are in a long-strip groove-shaped structure.

The invention has the beneficial effects that:

1. through the rotation of cam, driven the depression bar and down extruded, at this moment the articulated slab down moves, has promoted the axis of rotation and has carried out the fixed point and rotate to make the pendulum rod swing, to the conflict of swinging inside the placing mechanism, make the sweet potato piece of placing on the placing mechanism swing, carry out the thermally equivalent and toast, prevent that the sweet potato from toasting the in-process and taking place the fracture futilely.

2. Swing through the layer board, block the piece through both ends and block the sweet potato piece of swing in-process, avoid the sweet potato piece to take place to drop from the layer board, the layer board carries out elastic deformation at the top spring self when carrying out the swing to promote the top ball and push up the sweet potato piece, avoid the sweet potato piece to dry the back adhesion inside the separating groove, avoid the in-process sweet potato piece that takes out to break.

Drawings

FIG. 1 is a schematic structural diagram of an air source high temperature heat pump dehumidification roasting device of the present invention.

FIG. 2 is a schematic view of an internal structure of the baking apparatus of the present invention.

FIG. 3 is a schematic view of a supporting mechanism according to the present invention.

Fig. 4 is a schematic structural diagram of a pressing mechanism according to the present invention.

Fig. 5 is an enlarged schematic structural diagram of a position a of the swing mechanism of the present invention.

Fig. 6 is a schematic perspective view of a placement mechanism according to the present invention.

FIG. 7 is an enlarged view of the interior and a portion of a separating mechanism according to the present invention.

In the figure: the oven comprises a box door-1, a handle-2, heat dissipation holes-3, a baking device-4, a baking box-41, a high-temperature heat pump-42, an evaporator-43, a compressor-44, a condenser-45, a supporting mechanism-46, a fan-47, a cam-461, a pressing mechanism-462, a placing mechanism-463, a pressure lever-62 a, a limit frame-62 b, a swing mechanism-62 c, a hinge plate-c 1, a rotating shaft-c 2, a swing rod-c 3, a guide arc rod-c 4, a separating mechanism-63 a, a separating plate-63 b, a blocking sheet-63 c, a supporting plate-a 1, a separating groove-a 2, a top ball-a 3 and a top spring-a 4.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention relates to an air source high-temperature heat pump dehumidification roasting device which structurally comprises a box door 1, a handle 2, a heat dissipation hole 3 and a roasting device 4, wherein the box door 1 is arranged on the front end face of the roasting device 4, the handle 2 is positioned on the left side of the box door 1, the heat dissipation hole 3 is embedded in the right side end face of the roasting device 4, the roasting device 4 comprises a roasting box 41, a high-temperature heat pump 42, an evaporator 43, a compressor 44, a condenser 45, a supporting mechanism 46 and a fan 47, the high-temperature heat pump 42 is embedded and fixedly arranged at the left end in the roasting box 41, the high-temperature heat pump 42 is communicated with the evaporator 43, the upper end of the evaporator 43 is connected with the compressor 44, the compressor 44 is positioned at the left upper end of the condenser 45 and communicated with the condenser 45 is positioned on the right side of the evaporator 43, the right side of the condenser 45 is provided with the fan 47, and the fan 47 is positioned on the left side of the supporting mechanism 46, the holding mechanism 46 is installed at the right end inside the oven 41.

The supporting mechanism 46 includes a cam 461, a pressing mechanism 462 and a placing mechanism 463, the cam 461 is fixedly mounted at the top end inside the right end of the baking box 41, the cam 461 is located at the top of the pressing mechanism 462, the pressing mechanism 462 penetrates the placing mechanism 463, the placing mechanism 463 is located at the right end inside the baking box 41, the cam 461 is in transmission connection with an external motor, and the pressing mechanism 462 is driven by the rotation of the cam 461 to perform reciprocating up-and-down extrusion, so that the placed sweet potato slices on the placing mechanism 463 are swung, and the sweet potato slice drying speed near the fan 47 end is prevented from being too fast.

The lower pressing mechanism 462 comprises a pressing rod 62a, a limiting frame 62b and a rotary swing mechanism 62c, the lower end of the pressing rod 62a is installed inside the limiting frame 62b in a clearance fit mode, the rotary swing mechanism 62c is connected with the inner shaft of the limiting frame 62b, the lower end of the pressing rod 62a is hinged to the upper end of the rotary swing mechanism 62c, the rotary swing mechanism 62c is abutted to the inner portion of the placing mechanism 463, five limiting frames 62b and five rotary swing mechanisms 62c are arranged and are respectively and independently connected with the five placing mechanisms 463, the five placing mechanisms 463 are guaranteed to swing synchronously, the integral swing effect of the sweet potato slices is improved, and cracking in the sweet potato slice baking process is avoided.

The swing mechanism 62c comprises a hinged plate c1, a rotating shaft c2, a swinging rod c3 and a guiding arc rod c4, the upper end of the hinged plate c1 is hinged with the lower end of the pressing rod 62a, the lower end of the hinged plate c1 is fixed with the top of the rotating shaft c2, the middle end of the swinging rod c3 is hinged with the middle end inside the limiting frame 62b through the rotating shaft c2, the outer side end of the swinging rod c3 is abutted against the inside of the placing mechanism 463, the guiding arc rod c4 is fixedly installed inside the limiting frame 62b, the guiding arc rod c4 penetrates through the swinging rod c3 in a clearance fit mode, the swinging rod c3 is installed in an inclined angle mode, the abutting capacity of the swinging rod c3 on the left side and the right side of the middle of the placing mechanism 463 is improved, and therefore the sweet potato slices placed on the placing mechanism 463 are guaranteed to swing and are baked uniformly heated.

The specific use mode and function of the embodiment are as follows:

in the invention, a box door 1 is opened through a handle 2, then sweet potato slices are placed on a placing mechanism 463, the high-temperature heat pump 42 is started to compress air through a compressor 44, so that a condenser 45 releases heat, at the moment, the heat on the condenser 45 is discharged onto a supporting mechanism 46 through a fan 47, the sweet potato slices are baked, in the baking process, a press rod 62a is driven to extrude downwards through the rotation of a cam 461, at the moment, a hinged plate c1 moves downwards to push a rotating shaft c2 to rotate at a fixed point, so that a swing rod c3 swings, arc-shaped guiding is carried out through a guiding arc rod c4, the swing rod c3 is ensured to swing stably around a rotating shaft c2, so that the interior of the placing mechanism 463 is swung and abutted, at the moment, the placing mechanism 463 has the effect of swinging left and right, so that the sweet potato slices placed on the placing mechanism 463 are swung and baked uniformly under heat, avoid being close to the sweet potato piece stoving speed of fan 47 end too fast, prevent that the dry baking process of sweet potato from taking place the fracture.

Example 2:

as shown in fig. 6 to 7:

wherein, placing mechanism 463 includes partition mechanism 63a, division board 63b, blocks piece 63c, pendulum rod c3 is installed inside partition mechanism 63a and is inconsistent, division board 63b has inlayed division board 63b in the inside, partition mechanism 63a outside fixed mounting blocks piece 63c, it is the arc structure to block piece 63c, is equipped with two, establishes respectively at partition mechanism 63 a's both ends about, does benefit to partition mechanism 63a and is carrying out the wobbling in-process, carries on spacingly to the sweet potato piece, avoids the sweet potato piece to take place to drop from partition mechanism 63 a.

The separating mechanism 63a comprises a supporting plate a1, a separating groove a2, a top ball a3 and a top spring a4, the swing rod c3 is mounted at the middle end inside the supporting plate a1 and is abutted against the middle end, the separating groove a2 is embedded inside the upper end of the supporting plate a1, the top ball a3 is located inside the separating groove a2, the lower end of the top ball a3 is welded with the top of the top spring a4, the top spring a4 is mounted inside the lower end of the supporting plate a1, the total five separating grooves a2 are provided, and the structure is in a shape of a long strip groove, so that the red potato chips are separated and placed conveniently, and the heating uniformity of the whole red potato chip baking is improved.

The specific use mode and function of the embodiment are as follows:

according to the invention, during the placing process of the sweet potato slices, the sweet potato slices are separated by the separation plate 63b, so that the sweet potato slices are placed in the separation groove a2, the placing uniformity of the sweet potato slices is improved, the heating uniformity of the whole baking of the sweet potato slices is improved, then the sweet potato slices swing through the support plate a1, the sweet potato slices in the swinging process are blocked by the blocking plates 63c at two ends, the sweet potato slices are prevented from falling off from the support plate a1, the support plate a1 swings while the support plate a4 elastically deforms, so that the top ball a3 is pushed to jack up the sweet potato slices, the heating uniformity of the bottoms of the sweet potato slices is improved, meanwhile, the sweet potato slices are prevented from being adhered to the inside of the separation groove a2 after being dried, the sweet potato slices are favorably taken out from the inside of the separation groove a2, and the sweet potato slices are prevented from being broken in the taking-out process.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. The utility model provides an air source high temperature heat pump dehumidification baking equipment, its structure includes chamber door (1), handle (2), louvre (3), baking equipment (4), terminal surface before baking equipment (4) is established in chamber door (1) to terminal surface before baking equipment (4) is established in handle (2), handle (2) are located chamber door (1) left side, louvre (3) are inlayed at baking equipment (4) right side terminal surface, its characterized in that:

baking equipment (4) are including toasting case (41), high temperature heat pump (42), evaporimeter (43), compressor (44), condenser (45), bearing mechanism (46), fan (47), toast the inside left end of case (41) and inlay and install high temperature heat pump (42) to high temperature heat pump (42) link up with evaporimeter (43) mutually, evaporimeter (43) upper end is connected with compressor (44), compressor (44) are located condenser (45) upper left end and link up mutually, condenser (45) are located evaporimeter (43) right side, condenser (45) right side is equipped with fan (47) to fan (47) are located bearing mechanism (46) left side, bearing mechanism (46) are installed at the inside right-hand member of toasting case (41).

2. The air source high temperature heat pump dehumidification roasting equipment of claim 1, wherein: the supporting mechanism (46) comprises a cam (461), a pressing mechanism (462) and a placing mechanism (463), wherein the cam (461) is fixedly installed at the top end inside the right end of the baking box (41), the cam (461) is located at the top of the pressing mechanism (462), the pressing mechanism (462) penetrates through the placing mechanism (463), and the placing mechanism (463) is located at the right end inside the baking box (41).

3. The air source high temperature heat pump dehumidification roasting equipment of claim 2, wherein: the pressing mechanism (462) comprises a pressing rod (62a), a limiting frame (62b) and a rotary swing mechanism (62c), the lower end of the pressing rod (62a) is installed inside the limiting frame (62b) in a clearance fit mode, the rotary swing mechanism (62c) is connected with the inner shaft of the limiting frame (62b), the lower end of the pressing rod (62a) is hinged to the upper end of the rotary swing mechanism (62c), and the rotary swing mechanism (62c) is abutted to the inner portion of the placing mechanism (463).

4. The air source high temperature heat pump dehumidification roasting equipment of claim 3, wherein: the rotary swing mechanism (62c) comprises a hinge plate (c1), a rotating shaft (c2), a swing rod (c3) and a guide arc rod (c4), the upper end of the hinge plate (c1) is hinged with the lower end of a pressure rod (62a), the lower end of the hinge plate (c1) is fixed to the top of the rotating shaft (c2), the middle end of the swing rod (c3) is hinged with the middle end inside a limiting frame (62b) through the rotating shaft (c2), the outer end of the swing rod (c3) is abutted to the inside of the placing mechanism (463), the guide arc rod (c4) is fixedly installed inside the limiting frame (62b), and the guide arc rod (c4) penetrates through the inside of the swing rod (c3) in a clearance fit mode.

5. The air source high temperature heat pump dehumidification roasting equipment of claim 4, wherein: the placing mechanism (463) comprises a separating mechanism (63a), a separating plate (63b) and a blocking sheet (63c), wherein the swing rod (c3) is installed inside the separating mechanism (63a) and is abutted against the separating mechanism, the separating plate (63b) is embedded inside the upper end of the separating plate (63b), and the blocking sheet (63c) is fixedly installed at the outer end of the separating mechanism (63 a).

6. The air source high temperature heat pump dehumidification roasting equipment of claim 5, wherein: the separating mechanism (63a) comprises a supporting plate (a1), a separating groove (a2), a top ball (a3) and a top spring (a4), the swing rod (c3) is installed at the middle end inside the supporting plate (a1) and is in contact with the middle end, the separating groove (a2) is embedded inside the upper end of the supporting plate (a1), the top ball (a3) is located inside the separating groove (a2), the lower end of the top ball (a3) is welded with the top of the top spring (a4), and the top spring (a4) is installed inside the lower end of the supporting plate (a 1).

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