CN111678189A

CN111678189A - Energy-saving fan heater equipment

Info

Publication number: CN111678189A
Application number: CN202010580751.0A
Authority: CN
Inventors: 王胜
Original assignee: Dongying Qihao Commodity Co ltd
Current assignee: Dongying Qihao Commodity Co ltd
Priority date: 2020-06-23
Filing date: 2020-06-23
Publication date: 2020-09-18

Abstract

The invention discloses energy-saving warm air blower equipment, which comprises a wall body, wherein a rotating plate shaft groove with a leftward opening is arranged on the left end surface of the wall body, a rotating plate shaft is arranged between the upper end wall and the lower end wall of the rotating plate shaft groove, the rotating plate shaft is connected with the wall body, the rotating plate shaft is connected with the upper end wall and the lower end wall of the rotating plate shaft groove through a left torsion spring, the rotating plate shaft is connected with a rotating plate, a rotating groove is arranged on the right end wall of the rotating plate shaft groove, an automatic in-out switching mechanism is arranged on the right side of the rotating groove, the automatic in-out switching mechanism can automatically turn on the warm air blower when a person enters the warm air blower and leaves the warm air blower, an electric sliding block groove with a forward opening is arranged on the front end surface of the wall body, a supporting block is fixedly arranged on the bottom wall of the electric sliding block groove, personnel get in and out the automatic switch electric fan heater, and the electric fan heater utilizes the high temperature tube to humidify the room during operation.

Description

Energy-saving fan heater equipment

Technical Field

The invention relates to the technical field of energy-saving equipment, in particular to energy-saving fan heater equipment.

Background

Energy is saved, namely, the energy consumption is reduced as much as possible, and products with the same quantity and the same quality as the original products are produced; or the energy consumption of the same quantity is used for producing products with higher quantity or equal quantity and better quality than the original quantity.

The warm air blower in the current stage has a single warm air supply range and a small range, cannot supply warm air comprehensively in a large range, needs a plurality of warm air blowers to maintain the temperature, consumes extra energy, needs a manual switch, is easy to forget to close and causes a great deal of energy waste, greatly reduces the indoor humidity during the work of the warm air blower, is very dry, needs to consume redundant energy for humidification, and consumes too high energy.

Disclosure of Invention

Aiming at the technical defects, the invention provides an energy-saving fan heater device which can overcome the defects.

The invention relates to energy-saving fan heater equipment which comprises a wall body, wherein a rotating plate shaft groove with a leftward opening is formed in the left end face of the wall body, a rotating plate shaft is arranged between the upper end wall and the lower end wall of the rotating plate shaft groove and is rotatably connected with the wall body, the rotating plate shaft is connected with the upper end wall and the lower end wall of the rotating plate shaft groove through a left torsion spring, the rotating plate shaft is fixedly connected with a rotating plate, the left end of the rotating plate is positioned outside the device, a rotating groove is formed in the right end wall of the rotating plate shaft groove, the right end of the rotating plate is positioned in the rotating groove, an automatic inlet and outlet switching mechanism is arranged on the right side of the rotating groove and can automatically open the fan heater when a person leaves the fan heater when the person enters the fan heater, an electric slider groove with a forward opening is formed in the front end face of the wall body, a supporting block is fixedly arranged on the bottom, the improved water heater comprises a supporting block, and is characterized in that an electric slide rail is arranged on the bottom wall of the slide rail, a guide rail slide groove with a forward opening is formed in the front end face of the supporting block, the slide groove is connected with an electric slide block in a sliding mode, the electric slide block is connected with the electric slide rail in a power sliding mode, a top plate is fixedly connected with the top face of the electric slide block, side plates are symmetrically and fixedly connected with the left end face and the right end face of the electric slide block, five heating pipes are uniformly and fixedly connected between the side plates from top to bottom, a water storage groove with an upward opening is formed in the front face of each heating pipe and in the top face of the corresponding supporting block, a water pipe is fixedly connected with the rear end wall of the water storage groove, the.

Preferably, the front end face of the electric sliding block is provided with an air expansion groove with a forward opening, the rear end wall of the air expansion groove is provided with a fan groove with a forward opening, a fan is arranged in the fan groove and fixedly connected with a fan shaft, the fan shaft is rotatably connected with the electric sliding block, the rear end of the electric sliding block is dynamically connected with an electric power plug, the electric power plug is connected with an electric plug through an electric wire, and the electric plug is provided with an automatic plug-in disconnection mechanism.

Preferably, the automatic in-out switching mechanism is disposed in a rear oblique block groove which is located at the rear side of the rotating plate and has an opening towards the left in the right end wall of the rotating groove, a rear oblique block is slidably connected in the rear oblique block groove, the right end surface of the rear oblique block is connected with the rear oblique block groove through a first spring, the right end wall of the rotating groove is provided with a front oblique block groove which has an opening towards the left and is located at the front side of the rotating plate, a front oblique block is slidably connected in the front oblique block groove, the right end surface of the front oblique block is connected with the front oblique block groove through a second spring, the rear end surface of the front oblique block is provided with an oblique groove having a rearward opening, the oblique groove is slidably connected with a tensioning wheel, the rear end surface of the tensioning wheel is provided with a tensioning wheel groove having a rearward opening, a tensioning wheel shaft is fixedly connected between the upper end wall and the lower end wall of the tensioning wheel groove, the tensioning wheel shaft is rotatably connected with the, and the rear end surface of the tension wheel supporting block is connected with the transmission cavity through a third spring.

Preferably, a first gear which is engaged with the front end face of the rear inclined block and is positioned on the front side of the rear inclined block is arranged in the transmission cavity, the first gear is fixedly connected with a pulley shaft, the pulley shaft is rotatably connected with the wall body, a first pulley is fixedly connected with the top end of the pulley shaft, a ratchet wheel positioned on the right side of the first pulley is arranged in the transmission cavity, the ratchet wheel is connected with the first pulley through a left belt, the ratchet wheel is in power connection with the ratchet wheel shaft, the ratchet wheel shaft is rotatably connected with the wall body, a second pulley is fixedly connected with the top end of the ratchet wheel shaft, a third pulley is arranged on the right side of the second pulley in the transmission cavity, the third pulley is connected with the second pulley through a right belt, the third pulley is fixedly connected with a gear shaft, the gear shaft is rotatably connected with the wall body, and the gear shaft is connected with the bottom wall of the transmission cavity through a right torsion, gear shaft top fixedly connected with second gear, second gear bilateral symmetry meshing is connected with the third gear, third gear and spooler top fixed connection, the spooler axle with the wall body rotates to be connected, third gear top fixed connection yo-yo spooler, the spooler is connected with the stay cord rear end.

Preferably, automatic grafting disconnect mechanism include that bilateral symmetry is fixed set up in the spring block of terminal surface about the electric plug, the spring block with the electric plug is located the electric plug spout that the opening is forward and rather than sliding connection, spring block rear end face with through fourth spring coupling between the electric plug spout, electric plug spout rear end wall is provided with the electric socket, spring block rear end face with stay cord front end fixed connection, electric plug spout diapire is provided with the ascending connecting block spout of opening, electric plug bottom surface fixedly connected with connecting block, the connecting block with connecting block spout sliding connection, the connecting block bottom mounting is provided with the metal block, the metal block can be connected circuit between electric slide rail and the power thereof.

The beneficial effects are that: the device can change the heating range of the fan heater, has a larger range, realizes comprehensive heating in a large range, does not need a plurality of fan heaters, reduces extra energy consumption, is more energy-saving, does not need a manual switch, avoids the phenomenon of energy waste caused by forgetting to turn off the fan heater when people enter and exit the automatic switch, humidifies the room by using a high-temperature pipe during the working period of the fan heater, does not need to consume extra energy for humidification, further reduces energy loss and makes people more comfortable in life, wherein the automatic switch mechanism can automatically turn on the fan heater when people leave when the people enter and leave, and avoids energy waste caused by forgetting to turn off the fan heater.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an energy-saving fan heater apparatus according to the present invention;

FIG. 2 is a schematic view of A-A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic view of B-B in FIG. 2 according to an embodiment of the present invention;

FIG. 4 is a schematic view of C-C in FIG. 2 according to an embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an energy-saving warm air blower device, which comprises a wall body 10, wherein a rotating plate shaft groove 49 with a leftward opening is formed in the left end face of the wall body 10, a rotating plate shaft 29 is arranged between the upper end wall and the lower end wall of the rotating plate shaft groove 49, the rotating plate shaft 29 is rotatably connected with the wall body 10, the rotating plate shaft 29 is connected with the upper end wall and the lower end wall of the rotating plate shaft groove 49 through a left torsion spring 28, the rotating plate shaft 29 is fixedly connected with a rotating plate 27, the left end of the rotating plate 27 is positioned outside the device, a rotating groove 48 is formed in the right end wall of the rotating plate shaft groove 49, the right end of the rotating plate 27 is positioned in the rotating groove 48, an in-out and in automatic switching mechanism is arranged on the right side of the rotating groove 48, the in-out and in automatic switching mechanism can automatically switch the warm air blower when people enter and leave, an electric warm air, the bottom wall of the electric slider groove 64 is fixedly provided with a supporting block 67, the top surface of the supporting block 67 is provided with a sliding groove 73 with an upward opening, the bottom wall of the sliding groove 73 is provided with an electric sliding rail 65, the front end surface of the supporting block 67 is provided with a guide rail sliding groove 66 with a forward opening, the sliding groove 73 is in sliding connection with the electric slider 63, the electric slider 63 is in power sliding connection with the electric sliding rail 65, the top surface of the electric slider 63 is fixedly connected with a top plate 51, the top plate 51 and the left and right end surfaces of the electric slider 63 are symmetrically and fixedly connected with side plates 43, five heating pipes 54 are uniformly and fixedly connected between the left and right side plates 43 from top to bottom, the top surface of the supporting block 67 is provided with a water storage groove 55 which is positioned at the front side of the heating pipe 54 and has an upward opening, the rear end wall of the, the bottom surface of the protective net 53 is fixedly connected with a supporting slide block 56, and the supporting slide block 56 is connected with the guide rail sliding groove 66 in a sliding manner.

Beneficially, the front end face of the electric sliding block 63 is provided with a wind expansion groove 58 with a forward opening, the rear end wall of the wind expansion groove 58 is provided with a fan groove 59 with a forward opening, a fan 60 is arranged in the fan groove 59, the fan 60 is fixedly connected with a fan shaft 61, the fan shaft 61 is rotatably connected with the electric sliding block 63, the rear end of the electric sliding block 63 is connected with a plug-in power supply 62 in a power mode, the plug-in power supply 62 is connected with the electric plug 41 through an electric wire 42, and the electric plug 41 is provided with an automatic plug-in disconnection mechanism.

Advantageously, the automatic in-out switching mechanism is disposed in a rear oblique block groove 30 which is opened leftward on a right end wall of the rotation groove 48 and is located on a rear side of the rotation plate 27, a rear oblique block 50 is slidably connected to the rear oblique block groove 30, a right end surface of the rear oblique block 50 is connected to the rear oblique block groove 30 through a first spring 31, a front oblique block groove 44 which is opened leftward and is located on a front side of the rotation plate 27 is disposed on a right end wall of the rotation groove 48, a front oblique block 47 is slidably connected to the front oblique block groove 44, a right end surface of the front oblique block 47 is connected to the front oblique block groove 44 through a second spring 45, a rear end surface of the front oblique block 47 is provided with an oblique groove 46 which is opened rearward, the oblique groove 46 is slidably connected to the tension wheel support block 36, a rear end surface of the tension wheel support block 36 is provided with a tension wheel groove 35 which is opened rearward, and a tension wheel shaft 33 is fixedly connected between, the tensioning wheel shaft 33 is rotatably connected with a tensioning wheel 32, a transmission cavity 11 is arranged between the rear oblique block groove 30 and the front oblique block groove 44, and the rear end face of the tensioning wheel supporting block 36 is connected with the transmission cavity 11 through a third spring 34.

Beneficially, a first gear 26 engaged with the front end surface of the rear inclined block 50 and located at the front side of the rear inclined block 50 is disposed in the transmission cavity 11, the first gear 26 is fixedly connected with a pulley shaft 25, the pulley shaft 25 is rotatably connected with the wall 10, a first pulley 12 is fixedly connected to the top end of the pulley shaft 25, a ratchet wheel 23 located at the right side of the first pulley 12 is disposed in the transmission cavity 11, the ratchet wheel 23 is connected with the first pulley 12 through a left belt 13, the ratchet wheel 23 is in power connection with a ratchet wheel shaft 24, the ratchet wheel shaft 24 is rotatably connected with the wall 10, a second pulley 14 is fixedly connected to the top end of the ratchet wheel shaft 24, a third pulley 19 located at the right side of the second pulley 14 is disposed in the transmission cavity 11, the third pulley 19 is connected with the second pulley 14 through a right belt 15, and the third pulley 19 is fixedly connected with a gear shaft 20, the gear shaft 20 with the wall body 10 rotates to be connected, the gear shaft 20 with connect through right torsional spring 21 between the 11 diapalls in transmission chamber, the 20 top fixedly connected with second gear 17 of gear shaft, the meshing of second gear 17 bilateral symmetry is connected with third gear 16, third gear 16 and spooler 22 top fixed connection, spooler 22 with the wall body 10 rotates to be connected, third gear 16 top surface fixed connection yu 18, spooler 18 is connected with stay cord 37 rear end.

Beneficially, the automatic plugging and disconnecting mechanism comprises spring blocks 40 which are bilaterally and symmetrically fixedly arranged on the left end face and the right end face of an electric plug 41, the spring blocks 40 are located in electric plug chutes 71 with forward openings and are connected with the electric plug chutes 71 in a sliding mode, the rear end faces of the spring blocks 40 are connected with the electric plug chutes 71 through fourth springs 72, electric sockets 38 are arranged on the rear end walls of the electric plug chutes 71, the rear end faces of the spring blocks 40 are fixedly connected with the front ends of pull ropes 37, connecting block chutes 70 with upward openings are arranged on the bottom walls of the electric plug chutes 71, connecting blocks 69 are fixedly connected with the bottom faces of the electric plugs 41, the connecting blocks 69 are connected with the connecting block chutes 70 in a sliding mode, metal blocks 68 are fixedly arranged on the bottom ends of the connecting blocks 69, and the metal blocks 68 can.

In an initial state, the left torsion spring 28, the first spring 31, the second spring 45, the right torsion spring 21 and the fourth spring 72 are all in a normal tension state, the third spring 34 is in a compression state, and the left belt 13 and the right belt 15 are in a tension state; sequence of mechanical actions of the whole device: 1. the person enters, thereby rotating the rotating plate 27 counterclockwise about the rotating plate shaft 29, thereby slidably coupling the right end of the rotating plate 27 with the rear slope block 50, thereby moving the rear swash block 50 to the right, thereby rotating the first gear 26, thereby rotating the pulley shaft 25, thereby rotating the first pulley 12, and thus the ratchet 23, and thus the ratchet shaft 24, thereby rotating the second pulley 14, and thus the third pulley 19, and thus the gear shaft 20, thereby rotating the second gear 17, and thus the third gear 16, and thus the wire winder 18, thereby causing the pull cord 37 to pull the spring block 40 and the electrical plug 41 in a rearward direction, thereby causing the spring block 40 to be plugged into the electrical socket 38, so that the plug-in power supply 62 is electrified with the heating pipe 54, the fan shaft 61 is rotated, the heating pipe 54 is heated and kept at a high temperature, the fan 60 is rotated, and warm air is introduced into the room through the protective net 53; 2. the electric plug 41 moves backwards, so that the connecting block 69 and the metal block 68 move backwards, so that the electric slide rail 65 is started, so that the electric slide block 63 repeatedly moves left and right, so that heating in a large range is realized by using less energy, outdoor water enters the water storage tank 55 through the water pipe 57, so that the outdoor water is heated by the heating pipe 54 and is diffused into a room, so that the indoor humidity is improved, the living comfort of people is improved, the people pass through a doorway, then the rotating plate 27 and the rotating plate shaft 29 are reversed under the reset action of the left torsion spring 28, so that the rear inclined block 50 moves left under the reset action of the first spring 31, the direction of the ratchet wheel 23 cannot rotate, and the plugging state of the electric plug 41 and the electric socket 38 is maintained; 3. when the device needs to be reset, a person goes out to rotate the rotating plate 27 clockwise around the rotating plate shaft 29, so that the right end of the rotating plate 27 is connected with the front inclined block 47 in a sliding manner, so that the front inclined block 47 moves rightwards, so that the tensioning wheel supporting block 36, the tensioning wheel shaft 33 and the tensioning wheel 32 move forwards under the resetting action of the third spring 34, so that the right belt 15 is loosened, so that the third belt wheel 19 rotates reversely under the resetting action of the right torsion spring 21, so that the gear shaft 20 rotates reversely, so that the second gear 17 rotates reversely, so that the third gear 16 rotates reversely, so that the wire winder 18 rotates reversely, so that the pulling rope 37 loosens the pulling of the spring block 40, so that the spring block 40 and the electric plug 41 move forwards under the resetting action of the fourth spring 72, so that the spring block 40 is disconnected with the electric socket 38, so that the plug power supply 62 is disconnected with the heating pipe 54, so that the fan shaft 61 stops, the heating pipe 54 stops heating and cooling, so that the fan 60 stops rotating, the warm air is stopped to be introduced into the room through the protective net 53, the electric plug 41 moves forwards, the connecting block 69 and the metal block 68 move forwards, the electric sliding rail 65 is closed, the electric sliding block 63 stops moving, the personnel leave the automatic closing, the energy is further saved, and the device is reset.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. An energy-conserving electric fan heater equipment, includes the wall body, its characterized in that: the left end face of the wall body is provided with a rotating plate shaft groove with a leftward opening, a rotating plate shaft is arranged between the upper end wall and the lower end wall of the rotating plate shaft groove and connected with the wall body, the rotating plate shaft is connected with the upper end wall and the lower end wall of the rotating plate shaft groove through a left torsion spring and connected with a rotating plate, the right end wall of the rotating plate shaft groove is provided with a rotating groove, the right side of the rotating groove is provided with an automatic in-out opening and closing mechanism which can automatically open the fan heater when a person enters and automatically close the fan heater when the person leaves, the front end face of the wall body is provided with an electric slider groove with a forward opening, the bottom wall of the electric slider groove is fixedly provided with a supporting block, the top face of the supporting block is provided with a chute with an upward opening, the bottom wall of the chute is provided with an electric slide rail, the front, the electric slide block is in power connection with the electric slide rail, the top surface of the electric slide block is connected with a top plate, the top plate is symmetrically connected with side plates on the left end surface and the right end surface of the electric slide block, five heating pipes are evenly connected between the side plates on the left side and the right side from top to bottom, a water storage tank which is located on the front side of each heating pipe and is provided with an upward opening is arranged on the top surface of each supporting block, the rear end wall of each water storage tank is connected with a water pipe, the right end of each water pipe is connected with a water receiving box located outdoors, a protective net is fixedly arranged on the top.

2. An energy-saving fan heater unit according to claim 1, characterized in that: the electric fan comprises an electric slider and is characterized in that an air expansion groove with a forward opening is formed in the front end face of the electric slider, a fan groove with a forward opening is formed in the rear end wall of the air expansion groove, a fan is arranged in the fan groove and connected with a fan shaft, the fan shaft is connected with the electric slider, an electric power source is connected to the rear end of the electric slider in a power connection mode, the electric power source is connected with an electric plug through an electric wire, and an automatic plugging and disconnecting mechanism is arranged at the electric plug.

3. An energy-saving fan heater unit according to claim 1, characterized in that: the automatic switch mechanism is arranged on a rear oblique block groove which is arranged at the left side of an opening of the right end wall of the rotary groove and is positioned at the rear side of the rotary plate, a rear oblique block is connected in the rear oblique block groove, the right end surface of the rear oblique block is connected with the rear oblique block groove through a first spring, the right end wall of the rotary groove is provided with a front oblique block groove which is arranged at the left side of the opening and is positioned at the front side of the rotary plate, a front oblique block is connected in the front oblique block groove, the right end surface of the front oblique block is connected with the front oblique block groove through a second spring, the rear end surface of the front oblique block is provided with an oblique groove with a backward opening, the oblique groove is connected with a tensioning wheel support block, the rear end surface of the tensioning wheel support is provided with a tensioning wheel groove with a backward opening, a tensioning wheel shaft is connected between the upper end wall and the lower end wall of the tensioning wheel groove, the tensioning wheel, and the rear end surface of the tension wheel supporting block is connected with the transmission cavity through a third spring.

4. An energy-saving fan heater unit according to claim 3, characterized in that: a first gear which is meshed with the front end face of the rear inclined block and is positioned on the front side of the rear inclined block is arranged in the transmission cavity, the first gear is connected with a pulley shaft, the pulley shaft is connected with the wall body, the top end of the pulley shaft is connected with a first pulley, a ratchet wheel positioned on the right side of the first pulley is arranged in the transmission cavity, the ratchet wheel is connected with the first pulley through a left belt, the ratchet wheel is in power connection with a ratchet wheel shaft, the ratchet wheel shaft is connected with the wall body, the top end of the ratchet wheel shaft is connected with a second pulley, a third pulley positioned on the right side of the second pulley is arranged in the transmission cavity, the third pulley is connected with the second pulley through a right belt, the third pulley is connected with a gear shaft, the gear shaft is connected with the wall body, and the gear shaft is connected with the bottom wall of the transmission cavity through a, the gear shaft top is connected with the second gear, the bilateral symmetry meshing of second gear is connected with the third gear, the third gear is connected with winder axle top, the winder axle with the wall body is connected, third gear top surface is connected with yoyo winder, the winder is connected with the stay cord rear end.

5. An energy-saving fan heater unit according to claim 2, characterized in that: automatic grafting disconnect mechanism include that bilateral symmetry is fixed set up in the spring block of terminal surface about the electric plug, the spring block with the electric plug is located the electric plug spout that the opening is forward and is connected with it, spring block rear end face with through fourth spring coupling between the electric plug spout, electric plug spout rear end wall is provided with the electric socket, spring block rear end face with the stay cord front end is connected, electric plug spout diapire is provided with the ascending connecting block spout of opening, the electric plug bottom surface is connected with the connecting block, the connecting block with the connecting block spout is connected, the connecting block bottom mounting is provided with the metal block, the metal block can be connected circuit between electronic slide rail and the power.