CN113670023B - Double-source high-temperature heat pump equipment - Google Patents

Abstract

The invention provides a double-source high-temperature heat pump device, which structurally comprises a heating box, a box body, an indicating disc and a fan, wherein the lower end of the heating box is welded with the upper end of the box body, the inner side of the indicating disc is fixedly embedded and installed on the outer side of the box body, the inner side of the fan is fixedly embedded and connected with the outer side of the front end of the box body, the box body comprises a box body inner wall, a fluid director, a storage rack, a filter plate and a condenser, the outer side of the fluid director is fixedly embedded and connected with the inner side of the right end of the inner wall of the box body, the lower end of the storage rack is fixedly embedded and installed on the inner side of the lower end of the inner wall of the box body, and the suction force generated by the condenser is absorbed to the external steam through a filter block, when the leaf shreds float in the absorption process, the leaf shreds are attached to the gaps of the main attachment plate and the auxiliary suction plate, the leaf shreds are crushed by the internal structure and attached to the shred collecting block along with the suction force, and regularly pull down collection bits piece and clear up the piece of inside, effectively prevent to take place the too high phenomenon of steam at the inside content of box because the piece jam is on the filter block.

Description

Double-source high-temperature heat pump equipment

Technical Field

The invention belongs to the technical field of high-temperature heat pumps, and particularly relates to double-source high-temperature heat pump equipment.

Background

The high-temperature heat pump dryer is generally suitable for the air drying effect of food and materials, absorbs heat energy in the outside air through the heat pump evaporator when the tobacco leaves are dried by the equipment, transfers the energy to the drying box for repeated circulating heating through the work of the compressor, and extracts moisture through the condenser after the tobacco leaves are evaporated in the equipment to prevent the phenomenon of condensation of water drops caused by excessive steam in the equipment.

Based on the above description, the inventor finds that the existing dual-source high-temperature heat pump device mainly has the following defects, such as:

because the tobacco leaves are dried by a suspension type drying method, the brittleness of the tobacco leaves becomes higher after the moisture in the tobacco leaves and hot air are evaporated, and air flow generated by internal circulation of the hot air pushes the blades to mutually collide, wherein a part of the blades are impacted to generate debris which flutters in the equipment, and the debris adheres to a filter screen of a condenser along with the circulation flow of the hot air in the equipment, and when the debris is accumulated on the filter screen, a blocking phenomenon is formed, so that the absorption area of the condenser on steam is reduced, and the steam content in the equipment is overhigh, so that the drying effect is reduced.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a dual-source high-temperature heat pump apparatus to solve the existing problems.

Aiming at the defects of the prior art, the purpose and the effect of the double-source high-temperature heat pump equipment are achieved by the following specific technical means: the utility model provides a double-source high temperature heat pump equipment, its structure includes heating cabinet, box, dial, fan, the heating cabinet lower extreme welds mutually with the box upper end, the inboard embedded solid of dial is installed in the box outside, the fan inboard is connected with the box front end outside embedded solid, the box includes box inner wall, divertor, supporter, filter plate, condenser, the divertor outside is connected with the inboard embedded solid of box inner wall right-hand member, the supporter lower extreme is embedded solid and is installed in box inner wall lower extreme inboard, filter plate outside block is installed in condenser right-hand member inboard, the condenser lower extreme is connected with the inboard embedded solid of box inner wall left end.

Preferably, the filter plate comprises an installation block, a chip collecting block, a filter block and an embedding block, wherein the inner side of the installation block is welded with the outer side of the embedding block, the outer side of the chip collecting block is connected to the inner side of the left end of the embedding block in a clamping manner, the outer side of the filter block is connected with the inner side of the right end of the embedding block in an embedding manner, the right end of the chip collecting block is installed in a concave manner, and more flow holes are formed in the left end of the chip collecting block.

As preferred, the filter block includes main board, mounting panel, vice suction disc, the mosaic block of attaching, the main board outside of attaching welds with the mosaic block inboard mutually, mounting panel inboard and mosaic block outside welded connection, the mounting panel outside is embedded and is installed in the mosaic block inboard, the vice suction disc outside is embedded and is connected with the mosaic block inboard, main board and vice suction disc all are equipped with the interphase distance, and the interphase distance of vice suction disc is great.

Preferably, the auxiliary suction plate comprises an embedding block, a shearing rod, a movable block and an installation wall, the outer side of the lower end of the embedding block is welded with the inner side of the upper end of the installation wall, the upper end of the shearing rod is fixedly connected with the lower end of the embedding block, the lower end of the shearing rod is fixedly connected with the upper end of the movable block, the outer side of the movable block is connected with the inner side of the installation wall in a clamping manner, the outer side of the installation wall is fixedly connected with the inner side of the embedding block, an oblique angle plate is arranged at the lower end of the movable block, and a part of airflow pipe is arranged in the oblique angle plate.

As preferred, the shearing and pressing pole includes shear block, connecting plate, elastic ring, activity ring, the inboard embedded solid of shear block is installed in the connecting plate outside, the connecting plate is inboard to be connected with the activity ring outside embedded solid, the elastic ring right-hand member is connected in the connecting plate outside embedded solid, the upper end both sides of shear block are equipped with the auxiliary block, and the mutual block of shear block of upper and lower extreme can.

As preferred, the main board that attaches includes main notch board, vice notch board, drainage plate, connecting block, the main notch board outside is connected with the inboard built-in of vice notch board, the inboard block in vice notch board is connected with drainage plate outside block, the drainage plate lower extreme is built-in and is installed in the connecting block upper end, be indent formula shape between vice notch board and the drainage plate, and the indent radian of main notch board is greater than vice notch board.

As preferred, the drainage plate is including connecting wall, briquetting, cutting piece, awl kicking block, it is inboard in vice notch board to connect wall outside block connection, it is connected with the outside embedded solid of the briquetting outside to connect the wall inboard, the inside embedded solid of cutting piece outside and briquetting is connected, the outside embedded solid of awl kicking block is installed in the briquetting inboard, the outside of cutting piece is equipped with the several thorn piece, and the annular is installed and is shorter in the outer fringe interphase distance of cutting piece.

Preferably, the cone top block comprises a top cutting body, a cutting block and a cone block, the outer side of the lower end of the top cutting body is fixedly embedded inside the cone block, the inner side of the cutting block is fixedly connected with the outer side of the cone block, the outer side of the cone block is fixedly embedded inside the pressurizing block, two ends of the cone block are provided with inner concave arc-shaped grooves, and the cutting block is arranged at the lowest end of the arc-shaped grooves.

Compared with the prior art, the invention has the following advantagesAdvantageous effects：

1. Suction through the condenser production passes through the filter block and absorbs external steam, attaches to on the main space that attaches board and vice suction disc when the garrulous float of leaf in the absorption process, smashes the garrulous leaf through inside structure, along with suction is attached to on the collection bits piece to regularly pull down collection bits piece and clear up the piece of inside, effectively prevent because piece jam takes place steam and the too high phenomenon of box inside content on the filter block.

2. When the leaf fragments are attached to the auxiliary suction plate, the movable block extrudes the shearing rod, and the crushed leaf fragments enter the fragment collection block after being crushed; when the garrulous cooperation through vice notch board and drainage plate of garrulous crushing entering into the drainage plate through awl kicking block of messenger's garrulous leaf when attaching to main attaching plate, carry out the secondary crushing through the cutting piece in the drainage plate to the garrulous leaf after smashing, prevent that the piece from taking place blocking phenomenon on the suction plate.

Drawings

Fig. 1 is a schematic structural diagram of a dual-source high-temperature heat pump apparatus according to the present invention.

Fig. 2 is a schematic front sectional view of a case of a dual-source high-temperature heat pump apparatus according to the present invention.

Fig. 3 is a front sectional structural diagram of a filter plate of the dual-source high-temperature heat pump device of the invention.

Fig. 4 is a schematic side view of a filter block of a dual-source high-temperature heat pump apparatus according to the present invention.

Fig. 5 is a sectional structure diagram of an auxiliary suction block of the dual-source high-temperature heat pump device of the present invention.

Fig. 6 is a schematic structural diagram of a shear bar of a dual-source high-temperature heat pump apparatus according to the present invention.

Fig. 7 is a schematic structural diagram of a main attached plate of a dual-source high-temperature heat pump device of the invention.

Fig. 8 is a schematic diagram of the internal structure of a flow guide plate of a dual-source high-temperature heat pump device according to the present invention.

Fig. 9 is a schematic side view of a cone top block of a dual-source high-temperature heat pump apparatus according to the present invention.

In the figure: a heating box-1, a box body-2, an indicating disc-3, a fan-4, a box body inner wall-21, a fluid director-22, a commodity shelf-23, a filter plate-24, a condenser-25, a mounting block-241, a chip collecting block-242, a filter block-243, an embedded block-244, a main attached plate-431, a mounting plate-432, an auxiliary suction plate-433, a fixed block-434, an embedded block-331, a shearing rod-332, a movable block-333, a mounting wall-334, a shearing block-321, a connecting plate-322, an elastic ring-323, a movable ring-324, a main concave plate-311, an auxiliary concave plate-312, a drainage plate-313, a connecting block-314, a connecting wall-131, a pressurizing block-132, a cutting block-133, a conical top block-134, a conical top block-23, a conical top block, a conical bottom plate, a conical top block, a conical bottom block, a conical top block, a conical bottom plate, a conical top block, a conical bottom plate, a conical top block, a conical bottom plate, a conical block, a conical top block, a conical bottom plate, a conical block, a conical plate, a conical top block, a conical plate, a conical, Top cut-341, cut-342, and taper-343.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in figures 1 to 4:

the invention provides double-source high-temperature heat pump equipment which structurally comprises a heating box 1, a box body 2, an indicating disc 3 and a fan 4, wherein the lower end of the heating box 1 is welded with the upper end of the box body 2, the inner side of the indicating disc 3 is fixedly embedded and installed on the outer side of the box body 2, the inner side of the fan 4 is fixedly embedded and connected with the outer side of the front end of the box body 2, the box body 2 comprises a box body inner wall 21, a fluid director 22, a storage rack 23, a filter plate 24 and a condenser 25, the outer side of the fluid director 22 is fixedly embedded and connected with the inner side of the right end of the box body inner wall 21, the lower end of the storage rack 23 is fixedly embedded and installed on the inner side of the lower end of the box body inner wall 21, the outer side of the filter plate 24 is fixedly clamped and installed on the inner side of the right end of the condenser 25, and the lower end of the condenser 25 is fixedly connected with the inner side of the left end of the box body inner wall 21.

The filter plate 24 comprises an installation block 241, a chip collecting block 242, a filter block 243 and an embedding block 424, the inner side of the installation block 241 is welded with the outer side of the embedding block 424, the outer side of the chip collecting block 242 is clamped and connected to the inner side of the left end of the embedding block 424, the outer side of the filter block 243 is embedded and connected with the inner side of the right end of the embedding block 424, the right end of the chip collecting block 242 is in a concave installation method, more flow holes are formed in the left end of the chip collecting block 242, suction force can be conducted on the filter block 243 through the flow holes, chips generated by the filter block 243 are collected into the chip collecting block 242 to be stored, and the chips are periodically detached to be cleaned.

Wherein, filter block 243 includes that owner attaches board 431, mounting panel 432, vice suction disc 433, mosaic block 331, owner attaches the outside of board 431 and mosaic block 331 is inboard to be welded mutually, the inboard and mosaic block 331 outside welded connection of mounting panel 432, mounting panel 432 outside is embedded to be installed in mosaic block 424 inboardly, the outside of vice suction disc 433 is embedded to be connected with mosaic block 331 is inboard, owner attaches board 431 and all is equipped with alternate distance with vice suction disc 433, and the alternate distance of vice suction disc 433 is great, can prevent to block up the holistic adsorption effect of filter block 243 when entering because great piece.

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

in the invention, materials are arranged and hung on a shelf 23, a heating box 1 is started to heat the interior of a box body 2, meanwhile, external heat is sucked in through a fan 4, hot air circulates in the interior of the inner wall 21 of the box body along with the drainage action of a fluid director 22, when the tobacco leaves in the box body 2 evaporate moisture, the steam is sucked through the condenser 25, then the moisture flows out from the discharge pipe at the lower end of the condenser 25, the rest heat air enters the other side of the device through circulation, when the tobacco leaves are collided after being dried to generate leaf fragments, the leaf fragments attached to the outer surface of the filter block are crushed through the main attached plate 431 and the auxiliary suction plate 433, and then enter the scrap collecting block 242 for storage, and the chip collecting block 242 is periodically detached to clean the internal chips, so as to prevent the excessive chips from being blocked in the flow holes in the chip collecting block 242.

Example 2

As shown in fig. 5 to 9:

the invention provides double-source high-temperature heat pump equipment, wherein an auxiliary suction plate 433 comprises an embedding block 331, a shearing rod 332, a movable block 333 and an installation wall 334, the outer side of the lower end of the embedding block 331 is welded with the inner side of the upper end of the installation wall 334, the upper end of the shearing rod 332 is fixedly connected with the lower end of the embedding block 331, the lower end of the shearing rod 332 is fixedly connected with the upper end of the movable block 333, the outer side of the movable block 333 is connected with the inner side of the installation wall 334 in a clamping manner, the outer side of the installation wall 334 is fixedly connected with the inner side of the embedding block 331, an oblique angle plate is arranged at the lower end of the movable block 333, a part of airflow pipes are arranged in the oblique angle plate, and the movable block 333 can move through suction force released in a condenser 25 to extrude the shearing rod 332.

Wherein, shear bar 332 includes shear block 321, connecting plate 322, elastic ring 323, activity ring 324, the inboard embedded solid of shear block 321 is installed in the connecting plate 322 outside, connecting plate 322 is inboard to be connected with the embedded solid in the activity ring 324 outside, elastic ring 323 right-hand member is connected in the embedded solid in the connecting plate 322 outside, the upper end both sides of shear block 321 are equipped with the auxiliary block, and the shear block 321 of upper and lower extreme can block each other, can make extruded in-process cut the piece through the auxiliary block in the shear block 321, reduce clastic whole area and prevent to take place blocking phenomenon after too big piece gets into.

Wherein, main board 431 that attaches includes main notch board 311, vice notch board 312, drainage plate 313, connecting block 314, the main notch board 311 outside is connected with the inboard embedded solid of vice notch board 312, vice notch board 312 is inboard to be connected with drainage plate 313 outside block, drainage plate 313 lower extreme is embedded solid and is installed in connecting block 314 upper end, be the indent formula shape between vice notch board 312 and drainage plate 313, and the indent radian of main notch board 311 is greater than vice notch board 312, can make the piece adhere to and decompose the piece through drainage plate 313 when vice notch board 312, and the radian through the recess reduces the suction that is influenced when adhering to.

Wherein, drainage plate 313 is including connecting wall 131, supercharging piece 132, cutting piece 133, awl top piece 134, it is inboard in vice concave plate 312 to connect wall 131 outside block connection, it is connected with supercharging piece 132 outside embedded solid to connect wall 131 inboard, cutting piece 133 outside and supercharging piece 132 inboard embedded solid are connected, awl top piece 134 outside embedded solid is installed in supercharging piece 132 inboard, cutting piece 133's the outside is equipped with the several thorn piece, and the annular mounting is shorter in the outer fringe alternate distance of cutting piece 133, and the piece after accessible awl top piece 134 decomposes carries out the secondary breakage, cooperatees through suction and thorn piece and carries out complete breakage with the piece.

The cone top block 134 comprises a top cutting body 341, a cutting block 342 and a cone block 343, the outer side of the lower end of the top cutting body 341 is fixedly installed on the inner side of the cone block 343, the inner side of the cutting block 342 is fixedly connected with the outer side of the cone block 343, the outer side of the cone block 343 is fixedly installed on the inner side of the pressurizing block 132, two ends of the cone block 343 are respectively provided with an inward concave arc-shaped groove, the cutting block 342 is arranged at the lowest end of the arc-shaped grooves, chips enter the arc-shaped grooves through cutting of the top cutting body 341, and are cut by sliding of the arc-shaped grooves in the cutting block 342, so that the chips are cut in an overall shape.

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

in the invention, when the leaf fragments are attached to the outer surface of the auxiliary suction plate 433, the suction force is discharged from the gap at the lower side of the movable block 333 as the leaf fragments cover the upper surface of the shear rod 332, so that the movable block 333 pushes the shear block 321 in the shear rod 332 to crush the leaf fragments on the outer surface, and the shear rod 322 is reset through the elastic ring 323 after crushing; when the leaf fragments are attached to the main attached plate 431, the leaf fragments are attached to the upper surface of the drainage plate 313 through the concave shapes of the main concave plate 311 and the auxiliary concave plate 312, the suction force is enhanced through the pressurizing block 132, the leaf fragments are crushed through the top cutting body 341 on the cone top block 134, the leaf fragments are crushed secondarily through the cutting block 342, the crushed fragments enter the cutting block 133, the crushed fragments are crushed secondarily through the thorn blocks outside the cutting block 133, the area of the fragments is treated to be minimum, and then the fragments enter the fragment collecting block 242 together through the suction force to be collected, so that the phenomenon that the leaf fragments are attached to the outer surface of the filter block 243 for a long time to generate suction force weakening can be effectively prevented.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (1)

1. The double-source high-temperature heat pump equipment structurally comprises a heating box (1), a box body (2), an indicating disc (3) and a fan (4), wherein the lower end of the heating box (1) is welded with the upper end of the box body (2), the inner side of the indicating disc (3) is fixedly embedded and installed on the outer side of the box body (2), and the inner side of the fan (4) is fixedly embedded and connected with the outer side of the front end of the box body (2); the method is characterized in that:

the box body (2) comprises a box body inner wall (21), a fluid director (22), a storage rack (23), a filter plate (24) and a condenser (25), wherein the outer side of the fluid director (22) is fixedly embedded and connected with the inner side of the right end of the box body inner wall (21), the lower end of the storage rack (23) is fixedly embedded and installed on the inner side of the lower end of the box body inner wall (21), the outer side of the filter plate (24) is fixedly clamped and installed on the inner side of the right end of the condenser (25), and the lower end of the condenser (25) is fixedly embedded and connected with the inner side of the left end of the box body inner wall (21);

the filter plate (24) comprises an installation block (241), a chip collecting block (242), a filter block (243) and an embedding block (424), the inner side of the installation block (241) is welded with the outer side of the embedding block (424), the outer side of the chip collecting block (242) is clamped and connected to the inner side of the left end of the embedding block (424), and the outer side of the filter block (243) is fixedly connected with the inner side of the right end of the embedding block (424);

the filter block (243) comprises a main auxiliary plate (431), a mounting plate (432), an auxiliary suction plate (433) and an embedding block (331), wherein the outer side of the main auxiliary plate (431) is welded with the inner side of the embedding block (331), the inner side of the mounting plate (432) is welded with the outer side of the embedding block (331), the outer side of the mounting plate (432) is embedded and mounted on the inner side of the embedding block (424), and the outer side of the auxiliary suction plate (433) is embedded and connected with the inner side of the embedding block (331);

the auxiliary suction plate (433) comprises an embedding block (331), a shearing rod (332), a movable block (333) and an installation wall (334), wherein the outer side of the lower end of the embedding block (331) is welded with the inner side of the upper end of the installation wall (334), the upper end of the shearing rod (332) is fixedly embedded with the lower end of the embedding block (331), the lower end of the shearing rod (332) is fixedly embedded with the upper end of the movable block (333), the outer side of the movable block (333) is clamped and connected with the inner side of the installation wall (334), and the outer side of the installation wall (334) is fixedly embedded and connected with the inner side of the embedding block (331);

the shearing and pressing rod (332) comprises a shearing block (321), a connecting plate (322), an elastic ring (323) and a movable ring (324), wherein the inner side of the shearing block (321) is fixedly embedded outside the connecting plate (322), the inner side of the connecting plate (322) is fixedly embedded and connected with the outer side of the movable ring (324), and the right end of the elastic ring (323) is fixedly embedded and connected with the outer side of the connecting plate (322);

the main auxiliary plate (431) comprises a main concave plate (311), an auxiliary concave plate (312), a flow guide plate (313) and a connecting block (314), the outer side of the main concave plate (311) is fixedly connected with the inner side of the auxiliary concave plate (312), the inner side of the auxiliary concave plate (312) is clamped and connected with the outer side of the flow guide plate (313), and the lower end of the flow guide plate (313) is fixedly installed at the upper end of the connecting block (314);

the drainage plate (313) comprises a connecting wall (131), a pressurizing block (132), a cutting block (133) and a conical top block (134), the outer side of the connecting wall (131) is clamped and connected to the inner side of the auxiliary concave plate (312), the inner side of the connecting wall (131) is fixedly embedded and connected with the outer side of the pressurizing block (132), the outer side of the cutting block (133) is fixedly embedded and connected with the inner side of the pressurizing block (132), and the outer side of the conical top block (134) is fixedly embedded and installed on the inner side of the pressurizing block (132);

the conical top block (134) comprises a top cutting body (341), a cutting block (342) and a conical block (343), the outer side of the lower end of the top cutting body (341) is fixedly embedded inside the conical block (343), the inner side of the cutting block (342) is fixedly connected with the outer side of the conical block (343), and the outer side of the conical block (343) is fixedly embedded inside the pressurizing block (132).

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