CN113857010A

CN113857010A - Energy recovery type high-temperature heat pump dryer

Info

Publication number: CN113857010A
Application number: CN202111035054.8A
Authority: CN
Inventors: 邹松林
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-09-05
Filing date: 2021-09-05
Publication date: 2021-12-31

Abstract

The invention discloses an energy recovery type high-temperature heat pump dryer, which is structurally provided with a case, an operation box, a side door, an operation panel and a heat dissipation port, wherein the operation box is positioned above the case, the side door is movably connected on the front side end face of the case, the operation panel is fixedly arranged at the side position of the side door, the heat dissipation port and the case are in an integrated structure and penetrate through the lower position of the side end of the heat dissipation port, the flexible expansion and contraction of the heat dissipation port and the case are facilitated through the flexibility of an inner ring, the diameter of a flow opening of air flow is changed, the toughness of a deformation block is further matched with the expansion of the inner ring and provides reverse reset force for the deformation block, a connecting block is driven to move by the matching of a folding rod, the attraction magnetic field force between magnetic blocks is changed, the acting force is provided for the reset and folding of the folding rod while the connecting block extends laterally, the deformation block also has reset driving force after being pressed, the inner side of the inner ring is convenient to be in a through opening state so as to enable air flow to be smoothly sucked, the through opening can be narrowed in time, and the front end blocking effect is achieved for the inner cavity.

Description

Energy recovery type high-temperature heat pump dryer

Technical Field

The invention belongs to the technical field of high-temperature heat pumps, and particularly relates to an energy recovery type high-temperature heat pump dryer.

Background

The energy recovery type high-temperature heat pump dryer can suck outdoor air into the case, the air is in a high-temperature state by utilizing the action of the heat pump on the air, and the air is recovered and recycled in the drying chamber under the cooperation of the circulating system to carry out drying operation.

Based on the above findings, the present inventors found that the existing energy recovery type high-temperature heat pump dryer has the following disadvantages:

the front end of the air cylinder of the high-temperature heat pump dryer is in an open port state, when the equipment is placed in a low-temperature paint factory environment for operation, hot gas is still reserved in the air cylinder, the temperature of the cylinder wall is high, after outdoor air flow with paint is in contact with the cylinder wall through the open port, water stains are easily formed on the inner wall surface and then ice is formed, solid attachments are attached to the inner wall of the air cylinder, when outdoor air is subsequently sucked into the air cylinder, air flow circulation is not smooth, the attachments are liquefied under the action of drying air flow and flow downwards, and the use of the equipment is affected.

Therefore, it is necessary to provide an energy recovery type high temperature heat pump dryer.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an energy recovery type high-temperature heat pump dryer to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an energy recuperation type high temperature heat pump drying-machine, its structure is equipped with quick-witted case, operation case, side door, controls panel, thermovent, the operation case is located quick-witted case top, side door swing joint is on quick-witted case front side end face, control panel fixed mounting at side door side position, thermovent and quick-witted case be the integrated structure and link up and establish in its side position department under the side.

The drying room and the case are of an integrated structure and are located inside the drying room, the heat pump control box is matched with the side end of the drying room, the circulator is installed in the drying room, and the circulator is matched with the heat pump control box.

As a further improvement of the invention, the operation box is provided with a box frame, an air cylinder and a suction frame, the air cylinder is positioned on the inner side of the box frame, the suction frame is connected at the tail end of the air cylinder and is movably matched with the air cylinder, the air cylinder is of a cylindrical through cavity structure, the suction frame generates adsorption power to the interior of the air cylinder, and the bottom of the air cylinder is provided with two through column ports.

As a further improvement of the invention, the inflator is provided with an inner cavity, a front opening plate and a column opening, the inner cavity and the inflator are of an integrated structure and are positioned in the inner cavity, the column opening is arranged at the bottom of the inner cavity in a penetrating way, the front opening plate is arranged at the front end of the inner cavity and is movably matched with the inner cavity, the inner cavity is in a column barrel shape with a penetrating left and right, the column opening is provided with two positions, and the front opening plate is in a disc state and can be deformed.

As a further improvement of the invention, the front opening plate is provided with a variable body, a ring moving area and an outer limit frame, the ring moving area is positioned at the inner side of the outer limit frame, the variable body moves at the inner end of the ring moving area, the variable body is in a circular state and can be expanded and contracted to deform, and the ring moving area is in an annular hollow groove shape.

As a further improvement of the present invention, the variable body is provided with an outer ring, an inner ring, four deformable blocks and four connecting rods, the outer ring is arranged at the outermost peripheral position of the variable body, the inner ring is arranged at the inner side of the outer ring, the front end and the rear end of each connecting rod are respectively connected with the inner side and the outer side of the inner ring and are movably matched with each other, the deformable blocks are movably matched in the interval between the outer ring and the inner ring, the outer ring is a ring-shaped object made of hard silica gel and has a certain toughness supporting degree, the inner ring is in a ring-shaped shape and has elasticity and can perform ring-shaped telescopic variation, the number of the connecting rods is four, the connecting rods are telescopic and are uniformly distributed in a ring shape around the outer periphery of the inner ring, and the number of the deformable blocks is four and are distributed in a ring shape.

As a further improvement of the invention, the deformation block is provided with a folding rod, magnetic blocks and a connecting block, the upper end of the folding rod is fixedly connected with the magnetic blocks, two side ends of the connecting block are respectively connected with the inner sides of the magnetic blocks and are movably matched with the inner sides of the magnetic blocks, the connecting block is movable above the inner sides of the folding rod, the magnetic blocks are magnetic blocks and have a certain weight, a mutually attracting magnetic field is arranged between the magnetic blocks arranged on the left and the right, and the connecting block is arc-shaped and has toughness and elasticity.

As a further improvement of the invention, the connecting block is provided with a tough block, an elastic rope and a displacement ball, the elastic rope is connected to the lower end of the tough block and is movably matched with the tough block, the displacement ball is connected with the elastic rope in a penetrating manner, the tough block is a butadiene rubber block and has a good traction degree, and the elastic rope is a rubber bar structure with a good elasticity degree.

As a further improvement of the invention, the displacement ball is provided with an adapter rod, a bumping ball and a slide block, one end of the adapter rod is connected with the outer peripheral end of the bumping ball, the slide block and the adapter rod are of an integrated structure, the slide block is slidably connected with the inner side end of the displacement ball, the bumping ball is a weighted ball body, the adapter rod has elasticity, and the slide block is a block with a certain weight.

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

1. the flexibility through the inner ring is convenient for its self to do the change that expands and contracts in a flexible way, the footpath of change circulation of air current mouth is wide, the toughness of shape change piece, further cooperate the inner ring to expand and provide reverse restoring force for it, drive the connecting block displacement by the folding rod cooperation, change the magnetic field force of inhaling mutually between the magnetic path, also provide the effort for the pendulum that resets of folding rod when making the connecting block side direction extend, make shape change piece can also have the drive power that resets after the pressurized, the inner ring inboard of being convenient for is the opening state and lets the air current smoothly inhaled, also can in time narrow the opening, keep off the mouth effect for the front end to the inner chamber.

2. The flexible ball has the advantages that the flexible ball is driven by the tough block to have larger dragging degree, the ball shape of the displacement ball has certain lifting effect on the displacement ball, the sliding block with weight can slide when the displacement ball is driven, the position of the ball is pressed by the flexibility of the connecting rod in a matching way, the pressing direction of the displacement ball is continuously changed, the sliding block is further driven to rotate and swing, the self-rotating force of the displacement ball is enhanced and matched with the elasticity of the flexible ball, the flexible block is favorably pulled to generate inward gathering and shrinking, and the connecting block has better elastic resetting force.

Drawings

Fig. 1 is a schematic structural diagram of an energy recovery type high-temperature heat pump dryer according to the present invention.

Fig. 2 is a schematic internal cross-sectional structure diagram of a chassis according to the present invention.

FIG. 3 is a schematic view of an internal cross-sectional structure of an operation box according to the present invention.

Fig. 4 is a schematic view showing an internal sectional structure of a gas cylinder according to the present invention.

Fig. 5 is a schematic view of the internal cross-section structure of a front plate according to the present invention.

FIG. 6 is a schematic cross-sectional view of a modified body according to the present invention.

FIG. 7 is a schematic diagram of an internal cross-sectional structure of a shape-changing block according to the present invention.

Fig. 8 is a schematic view showing an internal sectional structure of a connecting block according to the present invention.

Fig. 9 is a schematic view of the internal cross-sectional structure of a displacement ball according to the present invention.

In the figure: the device comprises a case-1, a running box-2, a side door-3, a control panel-4, a heat dissipation port-5, a drying chamber-11, a heat pump control box-12, a circulator-13, a box frame-21, an air cylinder-22, an intake frame-23, an inner cavity-221, a front port plate-222, a column port-223, a variable-a 1, a ring moving area-a 2, an outer limit frame-a 3, an outer ring-a 11, an inner ring-a 12, a deformation block-a 13, a connecting rod-a 14, a folding rod-c 1, a magnetic block-c 2, a connecting block-c 3, a tough block-c 31, an elastic rope-c 32, a displacement ball-c 33, an engaging rod-q 1, a collision ball-q 2 and a slider-q 3.

Detailed Description

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

example 1:

as shown in figures 1 to 7:

the invention provides an energy recovery type high-temperature heat pump dryer, which is structurally provided with a case 1, an operation box 2, a side door 3, an operation panel 4 and a heat dissipation port 5, wherein the operation box 2 is positioned above the case 1, the side door 3 is movably connected to the front end face of the case 1, the operation panel 4 is fixedly arranged at the side position of the side door 3, and the heat dissipation port 5 and the case 1 are of an integrated structure and are arranged at the position of the lower side of the side end in a penetrating manner.

The drying room 11 and the case 1 are of an integrated structure and are located inside the drying room 11, the heat pump control box 12 is matched with the side end of the drying room 11, the circulator 13 is installed in the drying room 11, and the circulator 13 is matched with the heat pump control box 12.

The operation box 2 is provided with a box frame 21, an air cylinder 22 and a suction frame 23, the air cylinder 22 is located on the inner side of the box frame 21, the suction frame 23 is movably matched with the tail end of the air cylinder 22, the air cylinder 22 is a cylindrical through-core cavity structure, the suction frame 23 generates adsorption power for the interior of the air cylinder 22, two through-core ports are formed in the bottom of the air cylinder 22, and the air cylinder 22 sucks outdoor gas and substances into the interior and discharges the outdoor gas and substances downwards under the action and the cooperation of the suction frame 23, so that subsequent drying operation is facilitated.

Wherein, the inflator 22 is equipped with inner chamber 221, front opening plate 222, column mouth 223, inner chamber 221 and inflator 22 are integrated structure and are located it inside, column mouth 223 link up and establish in the inner chamber 221 bottom, its clearance fit in inner chamber 221 front end position is installed to front opening plate 222, the column section of thick bamboo that link up about inner chamber 221 is, column mouth 223 is equipped with two, front opening plate 222 is the disc state and can deforms, when producing inside absorption in the inner chamber 221, be convenient for front opening plate 222 from outside ring side expansion for its middle opening is opened, and gas and material of being convenient for get into in the inner chamber 221, and when the adsorption affinity weakens, reduce the opening gradually, form and keep off a mouthful state.

The front aperture plate 222 is provided with a variable body a1, a ring moving area a2 and an outer limit frame a3, the ring moving area a2 is positioned inside the outer limit frame a3, the variable body a1 moves at the inner end of the ring moving area a2, the variable body a1 is in a circular state and can be expanded and contracted, the ring moving area a2 is in an annular hollow groove shape, the variable body a1 is expanded and contracted by the air flow pressing force, and the ring moving area a2 is an embedded moving area added with a certain amount.

Wherein, the shifting body a1 is provided with an outer ring a11, an inner ring a12, deformation blocks a13 and connecting rods a14, the outer ring a11 is arranged at the outermost peripheral position of the shifting body a1, the inner ring a12 is arranged at the inner side of the outer ring a11, the front end and the rear end of each connecting rod a14 are respectively connected and movably matched with the inner side of the outer ring a11 and the outer side of the inner ring a12, the deformation blocks a13 are movably matched in the interval between the outer ring a11 and the inner ring a12, the outer ring a11 is a ring-shaped object made of hard silica gel and has a certain toughness support degree, the inner ring a12 is in a ring shape and has elasticity and can do annular expansion and contraction change, the connecting rods a14 is provided with four and has elasticity, and is uniformly distributed in a ring shape about the outer periphery of the inner ring a12, the deformation blocks a13 is provided with four and is distributed in a ring shape, the inner ring 12 is annularly expanded and convenient for changing the diameter width by air flow push, the inner ring a14 is deformed to assist the inner ring a12, the flexibility of a23, which is matched with the activity of the inner ring a12, enables the inner ring a12 to change under the action of force and have the reset force.

The deformation block a13 is provided with a folding rod c1, a magnetic block c2 and a connecting block c3, the upper end of the folding rod c1 is fixedly connected with a magnetic block c2, two side ends of the connecting block c3 are respectively connected with the inner sides of the magnetic blocks c2 and movably matched with the inner sides of the magnetic blocks c2, the connecting block c3 moves above the inner side of the folding rod c1, the magnetic block c2 is a magnetic block and has a certain weight, attraction magnetic fields are arranged between the magnetic blocks c2 arranged on the left and the right, the connecting block c3 is arc-shaped and has toughness and elasticity, the folding rod c1 is pressed to drive the distance between the magnetic blocks c2 to be increased, dragging force is generated on the connecting block c3, and the magnetic field force between the magnetic blocks c2 assists in resetting and elastic deformation of the connecting block c 3.

The specific use mode and function of the embodiment are as follows: the personnel controls the operation panel 4 to control the operation of the heat pump control box 12, the outside air is sucked into the air cylinder 22 through the adsorption effect generated by the suction frame 23, then enters the drying chamber 11 downwards through the column port 223, the air is heated and can circulate and utilize under the mutual cooperation of the heat pump control box 12 and the circulator 13, the drying operation is carried out on the substances in the drying chamber 11, when the air flows to the inner cavity 221 for suction, the air flows through the inner side of the inner ring a12 through the front port plate 222 to generate the outward pushing and pressing force, the flexibility of the inner ring a12 is convenient for the expansion and contraction change of the inner ring a12, the diameter of the air flow opening is changed, the flexibility of the connecting rod a14 is used for assisting the deformation of the inner ring a12, the toughness of the deformation block a13 is changed along with the extrusion force of the inner ring a12, the inner ring a12 is further matched for expansion and provides the reverse reset force, by the hinged mode of the folding rod c1 and the outer ring a11, when the connecting block c3 at the front end is pressed, the connecting block c3 is driven to move in a matched mode, meanwhile, the distance between the magnetic blocks c2 is changed, the attraction magnetic field acting force between the magnetic blocks c2 provides acting force for the resetting and swinging of the folding rod c1 when the magnetic blocks c3 laterally extend along with the folding rod c1, so that the deformation block a13 can also have resetting driving force after being pressed, the inner side of the inner ring a12 is in a through hole state, air flow is smoothly sucked, and the through hole can be timely narrowed when the acting force of the air flow is gradually reduced, and the front end blocking effect is achieved for the inner cavity 221.

Example 2:

as shown in fig. 8 to 9:

the connecting block c3 is provided with a tough block c31, an elastic rope c32 and a displacement ball c33, the elastic rope c32 is connected to the lower end of the tough block c31 and is in movable fit, the displacement ball c33 is connected with the elastic rope c32 in a penetrating manner, the tough block c31 is a polybutadiene rubber block and has a better dragging degree, the elastic rope c32 is a rubber bar structure with a better elasticity, the displacement ball c33 is in a spherical shape, the elastic rope c32 is driven to change due to the good dragging degree of 31, and the position of the displacement ball c33 is constantly changed.

The displacement ball c33 is provided with an engaging rod q1, a striking ball q2 and a slider q3, one end of the engaging rod q1 is connected to the outer peripheral end of the striking ball q2, the slider q3 and the engaging rod q1 are of an integrated structure, the slider q3 is slidably connected to the inner end of the displacement ball c33, the striking ball q2 is a ball with weight, the engaging rod q1 has elasticity, the slider q3 is a block with certain weight, the elasticity of the engaging rod q1 is matched with the striking ball q2 for displacement and pressure, the slider q3 is driven to slide under the action of weight when the engaging rod q1 is expanded and contracted, and the displacement ball c33 integrally rotates and simultaneously generates a striking action.

The specific use mode and function of the embodiment are as follows: through the toughness property of the tough block c31, when the tough block c31 is laterally extended and deformed, the elastic rope c32 is driven to be more dragged, the spherical shape of the displacement ball c33 has a certain lifting effect on the displacement ball c33, the displacement ball c33 can be penetrated through the elastic rope c32 to change the position, when the displacement ball c33 is driven, the slider q3 with the weight can slide and swing conveniently, the expansion of the connecting rod q1 is matched with the position change of the impact ball q2, the impact direction of the displacement ball c33 is continuously changed, the slider q3 is further driven to rotate and swing, the self-rotating force of the displacement ball c33 is enhanced conveniently, the self-rotating force is matched with the elasticity of the elastic rope c32, the tough block c31 is driven to be retracted inwards by pulling the tough block c31, and the connecting block c3 has better elastic resetting force.

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

1. The utility model provides an energy recuperation type high temperature heat pump drying-machine, its structure is equipped with quick-witted case (1), operation case (2), side door (3), controls panel (4), thermovent (5), operation case (2) are located quick-witted case (1) top, side door (3) swing joint is on quick-witted case (1) front end face, control panel (4) fixed mounting in side door (3) side position, thermovent (5) and quick-witted case (1) structure as an organic whole just link up and establish in its side position department under the side, its characterized in that:

the drying machine is characterized in that the case (1) is provided with a drying chamber (11), a heat pump control box (12) and a circulator (13), the drying chamber (11) and the case (1) are of an integrated structure and are located inside the drying chamber (11), the heat pump control box (12) is matched with the side end of the drying chamber (11), the circulator (13) is installed in the drying chamber (11), and the circulator (13) is matched with the heat pump control box (12).

2. The energy recovery type high temperature heat pump dryer according to claim 1, wherein: the operation box (2) is provided with a box frame (21), an air cylinder (22) and a suction frame (23), the air cylinder (22) is positioned on the inner side of the box frame (21), and the suction frame (23) is connected at the tail end of the air cylinder (22) and is in movable fit with the air cylinder.

3. The energy recovery type high temperature heat pump dryer according to claim 2, wherein: the inflator (22) is provided with an inner cavity (221), a front opening plate (222) and a column opening (223), the inner cavity (221) and the inflator (22) are of an integrated structure and are located inside the inner cavity, the column opening (223) penetrates through the bottom of the inner cavity (221), and the front opening plate (222) is installed at the front end of the inner cavity (221) and is in movable fit with the inner cavity.

4. The energy recovery type high temperature heat pump dryer according to claim 3, wherein: the front opening plate (222) is provided with a variable body (a1), a ring moving area (a2) and an outer limit frame (a3), the ring moving area (a2) is positioned at the inner side of the outer limit frame (a3), and the variable body (a1) moves at the inner end of the ring moving area (a 2).

5. The energy recovery type high temperature heat pump dryer according to claim 4, wherein: the variable body (a1) is provided with an outer ring (a11), an inner ring (a12), a deformation block (a13) and a connecting rod (a14), the outer ring (a11) is arranged at the outermost peripheral side of the variable body (a1), the inner ring (a12) is positioned at the inner side of the outer ring (a11), the front end and the rear end of the connecting rod (a14) are respectively connected with and movably matched with the inner side of the outer ring (a11) and the outer side of the inner ring (a12), and the deformation block (a13) is movably matched in the interval between the outer ring (a11) and the inner ring (a 12).

6. The energy recovery type high temperature heat pump dryer according to claim 5, wherein: the deformation block (a13) is provided with a folding rod (c1), a magnetic block (c2) and a connecting block (c3), the upper end of the folding rod (c1) is fixedly connected with the magnetic block (c2), two side ends of the connecting block (c3) are respectively connected with the inner sides of the magnetic block (c2) and movably matched with the inner sides of the magnetic block, and the connecting block (c3) is movably arranged at the upper position of the inner side of the folding rod (c 1).

7. The energy recovery type high temperature heat pump dryer according to claim 6, wherein: the connecting block (c3) is provided with a tough block (c31), an elastic rope (c32) and a displacement ball (c33), the elastic rope (c32) is connected to the lower end of the tough block (c31) and movably matched with the tough block, and the displacement ball (c33) is connected with the elastic rope (c32) in a penetrating manner.

8. The energy recovery type high temperature heat pump dryer according to claim 7, wherein: the displacement ball (c33) is provided with an adapter rod (q1), a percussion ball (q2) and a slider (q3), one end of the adapter rod (q1) is connected to the outer peripheral end of the percussion ball (q2), the slider (q3) and the adapter rod (q1) are of an integrated structure, and the slider (q3) is connected to the inner side end of the displacement ball (c33) in a sliding mode.