CN109595730A - A kind of energy saving building ventilation equipment - Google Patents

Abstract

The invention discloses a kind of energy saving building ventilation equipment, belong to building field, including tube body, the tubular body is provided with blower, support rod, the first energy conversion device and the first energy storage device, first energy storage device is connect with first energy conversion device, the upper and lower ends of first energy conversion device are fixedly connected with the blower and the support rod respectively, first energy conversion device can be changed into the mechanical energy that the fan vibration generates electric energy, and first energy storage device is for storing the electric energy and providing electric energy for the blower.Compared with the prior art, the present invention improves the service life of building ventilation equipment, and energy conversion device can enable some mechanical be recycled and recycle, and reduces energy loss, energy conservation and environmental protection.

Description

A kind of energy saving building ventilation equipment

Technical field

The present invention relates to technical field of buildings, specially a kind of energy saving building ventilation equipment.

Background technique

Energy saving building refers to by optimizing the structure of building, system, service and management according to the demand of user Combination, to provide an efficient, comfortable, convenient humanized architectural environment for user, energy saving building is global spring tide Stream and main trend, this be not with the subjective will of people be transfer objective necessity, be construction business development an emphasis with Hot spot, for the ease of using ventilation equipment to building ventilation needs, and existing ventilation equipment can not carry out the amount of ventilation It adjusts, so that it is not convenient to use.Ventilation equipment at work, can have vibration, influence stabilization of equipment performance, and vibrate Itself extra mechanical energy can be generated, mechanical energy is not reasonably utilized the waste for causing the energy.

In view of the above drawbacks, creator of the present invention obtains this present invention by prolonged research and practice finally.

Summary of the invention

To solve above-mentioned technological deficiency, the technical solution adopted by the present invention is, provides a kind of energy saving building ventilation equipment, Including tube body, the tubular body is provided with blower, support rod, the first energy conversion device and the first energy storage device, and described One energy storage device is connect with first energy conversion device, the upper and lower ends of first energy conversion device respectively with it is described Blower is fixedly connected with the support rod, and the mechanical energy that first energy conversion device can generate the fan vibration turns Become electric energy, first energy storage device is for storing the electric energy and providing electric energy for the blower.

Preferably, the energy conversion device includes upper housing and lower case, the upper housing is nested in lower case.

Preferably, the lower case includes stress shell, driven shell and bottom case, the internal screw thread of the stress shell inner sidewall and The external screw thread of the upper casing lateral wall is fixed together and forms hollow damping cavity, the driven shell be close to it is described by The setting of power shell, the first axle by being located at driven shell bottom end are fixed to each other, the bottom end of the first axle by connecting rod with it is described The second axis connection on bottom case forms semiclosed or not closed cavity between the driven shell and the bottom case.

Preferably, the internal screw thread and the externally threaded section are unidirectional deviation screw threads.

Preferably, the cavity includes clockwork spring, the first piezoelectric structure layer, rotates fluted disc and the second piezoelectric structure layer, it is described Clockwork spring, the first piezoelectric structure layer, the rotation fluted disc and the second piezoelectric structure layer are set gradually from top to bottom.

Preferably, the clockwork spring is illegally occupied on the cavity top, the clockwork spring outer end is fixed on the driven shell, institute Clockwork spring inner end is stated to be fixed on the second axle sleeve being arranged on the outside of second axis, it can between second axle sleeve and second axis To keep being freely rotated.

Preferably, second axle sleeve is mutually fixed with the rotation fluted disc, the rotation of second axle sleeve can drive described The rotation of fluted disc is rotated, the outer rim of the rotation fluted disc has indentation.

Preferably, position opposite with the rotation indentation of fluted disc on the bottom case is provided with ram structure, it is described to hit Hammering structure into shape includes percussion hammer pedestal, percussion hammer and percussion hammer receptor, and the percussion hammer pedestal is fixed on bottom case on one end, the percussion hammer It is fixed on the percussion hammer pedestal, the percussion hammer receptor is arranged close to the indentation.

Preferably, the tube body is disposed with the first strainer, active carbon filtering layer, Biological Thin film layer and disinfection by ultraviolet light Lamp, first strainer, the active carbon filtering layer, the Biological Thin film layer and the ultraviolet disinfection lamp both ends respectively with institute The two sides for stating tube body are fixedly connected, and first strainer, the active carbon filtering layer and the Biological Thin film layer are arcuate structure.

Preferably, the left side at the top and bottom of the tube body is fixedly connected to fixed plate, the surface of the fixed plate is opened Equipped with long hole, the long hole is internally provided with electric telescopic rod, the second energy conversion device and the second energy storage device；The electricity The side of dynamic telescopic rod has been respectively fixedly connected with first baffle and second baffle, and the electric telescopic rod other side is fixedly connected with institute The second energy conversion device is stated, second energy storage device is connect with second energy conversion device.

Compared with the prior art, the beneficial effects of the present invention are:

1, energy saving building ventilation equipment of the present invention pass through first strainer, the active carbon filtering layer, the biology The layering air of film layer and the ultraviolet disinfection lamp can play the role of purifying air, and the electric expansion The adjustable intracorporal ventilation quantity of pipe of bar.

2, energy conversion device of the present invention can be eliminated and vibrate the bad shadow caused by equipment in ventilation equipment It rings, plays the effect of vibration damping；And electric energy can be converted by the mechanical energy that vibration generates, for providing for the ventilation equipment Electric energy recycles portion of energy and is utilizing, reduces the loss of energy, energy conservation and environmental protection.

Detailed description of the invention

Fig. 1 is energy saving building ventilation equipment structure chart of the present invention；

Fig. 2 is energy conversion device structure chart of the present invention；

Fig. 3 is upper housing front view of the present invention；

Fig. 4 is lower case structure chart of the present invention；

Fig. 5 is the cross-sectional view of lower case of the present invention；

Fig. 6 is the cross-sectional view of bottom case of the present invention；

Fig. 7 is the partial enlarged view of clockwork spring of the present invention；

Fig. 8 is the structure chart of energy saving building ventilation equipment described in the embodiment of the present invention 2；

Fig. 9 is the structure chart of energy saving building ventilation equipment described in the embodiment of the present invention 3.

In figure: 1- tube body, 2- fixed plate, 3- long hole, the first strainer of 4-, 5- active carbon filtering layer, 6- Biological Thin film layer, 7- are purple Outside line sterilamp, 8- blower, 9- fixing end, 10- support rod, the second energy conversion device of 11-, the first energy conversion device of 12-, 121- upper housing, 1211- external screw thread, 122- lower case, 1221- stress shell, the driven shell of 1222-, 1223- bottom case, in 1224- Screw thread, 1225- damping cavity, 13- first baffle, 14- second baffle, 15- electric telescopic rod, the first groove of 16-, 17- air Mass sensor, 18- protrusion, the second groove of 19-, 20- first axle, the second axis of 21-, 22- connecting rod, 23- cavity, 231- clockwork spring, The first piezoelectric structure of 232- layer, 233- rotation fluted disc, the second piezoelectric structure of 234- layer, the second axle sleeve of 24-, 25- ram structure, 251- percussion hammer pedestal, 252- percussion hammer receptor, 253- percussion hammer.

Specific embodiment

Embodiment 1

Below in conjunction with attached drawing 1, the present invention provides a kind of energy saving building ventilation equipment, including tube body 1, in the tube body 1 Portion is provided with blower 8 and support rod 10, the first energy conversion device 12 and the first energy storage device, first energy storage device and institute State the first energy conversion device 12 connection, the upper and lower ends of first energy conversion device 12 respectively with the blower 8 and institute It states support rod 10 to be fixedly connected, first energy conversion device 12, which can vibrate the blower 8 mechanical energy generated, to be changed For electric energy, first energy storage device is for storing the electric energy and providing electric energy for the blower 8.

First energy conversion device 12 includes upper housing 121 and lower case 122, and the upper housing 121 is nested in down On shell 122.The lower case 122 includes stress shell 1221, driven shell 1222 and bottom case 1223, in the stress shell 1221 The external screw thread 1211 of the internal screw thread 1224 of side wall and the upper casing lateral wall is fixed together and forms hollow damping cavity 1225, the damping cavity 1225 is provided with spring in the middle, when the damping cavity 1225 receives extruding, vibration, the bullet Spring contraction can reduce impact force；The driven shell 1222 is close to the stress shell 1221 and is arranged, described driven by being located at The first axle 20 of 1222 bottom end of shell is fixed to each other, and the stress shell 1221 drives the driven shell 1222 by unilateral bearing Movement only disappears in impact, and when spring pushes the rotation of lower case 122 to reply, the stress shell 1221 drives institute Outer housing movement is stated, the driven shell 1222 can not be reversed drive.The bottom end of the first axle 20 passes through connecting rod 22 Connect with the second axis 21 on the bottom case 1223, formed between the driven shell 1222 and the bottom case 1223 it is semiclosed or The not closed cavity of person.

The section of the internal screw thread 1224 and the external screw thread 1211 is unidirectional deviation screw thread.When by foreign impacts power When, the screw thread can make the upper housing 121 and the lower case 122 when relative motion occurs, the screw thread meeting Tripping provides damping force by the spring therein；But occur to transport in opposite directions in the upper housing 121 and the lower case 122 When dynamic, the screw thread but can firmly fix with each other and will not thread off, and also avoid upper housing 121 and lower case in this way Disengaging between 122.

The cavity includes clockwork spring 231, the first piezoelectric structure layer 232, rotates fluted disc 233 and the second piezoelectric structure layer 234, The clockwork spring 231, the first piezoelectric structure layer 232, the rotation fluted disc 233 and the second piezoelectric structure layer 234 are from upper It is set gradually under and.

The clockwork spring 231 is illegally occupied on the cavity top, and 231 outer end of clockwork spring is fixed on the driven shell 1222 On, 231 inner end of clockwork spring is fixed on the second axle sleeve 24 being arranged on the outside of second axis 21, second axle sleeve 24 and institute Stating can keep being freely rotated between the second axis 21.

Second axle sleeve 24 is fixed with 233 phase of rotation fluted disc, and the rotation of second axle sleeve 24 can drive described The rotation of fluted disc 233 is rotated, the outer rim of the rotation fluted disc 233 has indentation.

The position opposite with the rotation indentation of fluted disc 233 is provided with ram structure 25 on the bottom case 1223, described Ram structure 25 includes percussion hammer pedestal 251, percussion hammer and percussion hammer receptor 25 2, and the percussion hammer pedestal 251 is fixed at bottom case 1223 On upper one end, the percussion hammer is fixed on the percussion hammer pedestal 251, and the percussion hammer receptor 25 2 is arranged close to the indentation. Stirring the percussion hammer receptor 25 2 when the rotation fluted disc 233 rotates with certain frequency keeps percussion hammer receptor 25 2 reciprocal back and forth Movement, the percussion hammer receptor 25 2 moves back and forth itself vibration to form the ram structure 25, and is hit by described Hammer pedestal 251 is passed to the percussion hammer, and the percussion hammer constantly taps the first piezoelectric structure layer 232 and the second piezoelectricity knot Structure layer 234 makes the mechanical energy stored by the clockwork spring 231 continually become electric energy.

Embodiment 2

In the further improvement of embodiment 1, the inside of the tube body 1 has been set gradually from left to right the first strainer 4, activity Charcoal filtering layer 5, Biological Thin film layer 6 and ultraviolet disinfection lamp 7, first strainer 4, the active carbon filtering layer 5, the biofilm The both ends of layer 6 and the ultraviolet disinfection lamp 7 are fixedly connected with the two sides of the tube body 1 respectively, and first strainer 4 can mistake Biggish particle in air filtering；The active carbon filtering layer 5 can adsorb harmful substance in air；The Biological Thin film layer 6 Smaller particle can be filtered；The ultraviolet disinfection lamp 7 can play the virus killed in air；First strainer 4, The active carbon filtering layer 5 and the Biological Thin film layer 6 are arcuate structure.Draught area can be increased, improve scavenging efficiency.Institute The one end for stating blower 8 is fixedly connected with first energy conversion device 12, the other end of first energy conversion device 12 with Fixed part 9 connects, and the fixed part 9 is fixedly connected with the support rod 11, and the first energy conversion device 12 can be made more steady It is fixed.In the present embodiment, the building ventilation equipment can play the role of purifying air.

Embodiment 3

It is further improved on the basis of embodiment 2, the left side of 1 top and bottom of tube body is fixedly connected to fixation Plate 2, the surface of the fixed plate 2 offer long hole 3, the long hole 3 be internally provided with first baffle 13, second baffle 14, Electric telescopic rod 15, the second energy conversion device 11 and the second energy storage device；The side of the electric telescopic rod 15 is fixed respectively It is connected with first baffle 13 and second baffle 14, the size of exhaust air rate in the adjustable tube body 1 of electric telescopic rod 15, 15 other side of electric telescopic rod is fixedly connected with second energy conversion device 11, second energy storage device and described the The connection of two energy conversion devices 11.

Top and bottom on the left of 1 inner cavity of tube body offer the first groove 16, the inside of first groove 16 It is fixedly connected with air quality sensor 17, for detecting the air quality for entering air.When the air quality sensor 17 When detecting that outside air quality is poor, the adjustable electric telescopic rod 15 drives the first baffle 13 and described second 14 relative motion of baffle, reduces the flowing velocity of air.

The top of the first baffle 13 is provided with protrusion 18, and the bottom of the second baffle 14 is provided with and described first Matched second groove 19 of baffle 13.It is used by the collocation of described raised 18 and second groove 19, described the can be made One grade of version and the second baffle 14 are even closer when being closed.

The velocity of liquid assets of the present embodiment air in the adjustable tube body 1 of electric telescopic rod 15 described in, however it is electric Dynamic telescopic rod 15 can collide when doing stretching motion with the inner wall of the long hole 3, be arranged in the electric telescopic rod 15 Second energy conversion device 11, one end of the electric telescopic rod 15 are fixedly connected with the upper housing 121, electronic are stretched when described When compression apparatus 15 and 3 inner wall of long hole collide, the lower case 122 and the inner wall of the long hole 3 collide, because described Spring is provided between upper housing 121 and the lower case 122, it is possible to play damping effect.Described in embodiment 1 One energy conversion device 12 is identical as the structure of second energy conversion device 11, can be with so while playing vibration damping Say that the mechanical energy generated when collision is converted into electric energy, second energy storage device is for storing second energy conversion device 11 The electric energy of conversion, and the electric energy of storage can be used for the electric telescopic rod and electric energy is provided.

The foregoing is merely presently preferred embodiments of the present invention, is merely illustrative for the purpose of the present invention, and not restrictive 's.Those skilled in the art understand that in the spirit and scope defined by the claims in the present invention many changes can be carried out to it, It modifies or even equivalent, but falls in protection scope of the present invention.

Claims (10)

1. a kind of energy saving building ventilation equipment, including tube body (1), which is characterized in that the tube body (1) is internally provided with blower (8) and support rod (10), the first energy conversion device (12) and the first energy storage device, first energy storage device and described first Energy conversion device (12) connection, the upper and lower ends of first energy conversion device (12) respectively with the blower (8) and institute It states support rod (10) to be fixedly connected, the blower (8) can be vibrated the machinery generated by first energy conversion device (12) Electric energy can be changed into, first energy storage device is for storing the electric energy and providing electric energy for the blower (8).

2. energy saving building ventilation equipment according to claim 1, which is characterized in that first energy conversion device (12) Including upper housing (121) and lower case (122), the upper housing (121) is nested on lower case (122).

3. energy saving building ventilation equipment according to claim 2, which is characterized in that the lower case (122) includes stress Shell (1221), driven shell (1222) and bottom case (1223), the internal screw thread (1224) of stress shell (1221) inner sidewall and institute The external screw thread (1211) for stating upper housing (121) lateral wall is fixed together and forms hollow damping cavity (1225), described Spring is provided in damping cavity (1225), the driven shell (1222) is close to stress shell (1221) setting, is passed through First axle (20) positioned at driven shell (1222) bottom end is fixed to each other, the bottom end of the first axle (20) by connecting rod (22) with The second axis (21) connection on the bottom case (1223), forms half between the driven shell (1222) and the bottom case (1223) Closing or not closed cavity (23).

4. energy saving building ventilation equipment according to claim 3, which is characterized in that the internal screw thread (1224) and described outer The section of screw thread (1211) is unidirectional deviation screw thread.

5. energy saving building ventilation equipment according to claim 3 or 4, which is characterized in that the cavity includes clockwork spring (231), the first piezoelectric structure layer (232), rotation fluted disc (233) and the second piezoelectric structure layer (234), the clockwork spring (231), institute State the first piezoelectric structure layer (232), the rotation fluted disc (233) and the second piezoelectric structure layer (234) from top to bottom successively Setting.

6. energy saving building ventilation equipment according to claim 5, which is characterized in that the clockwork spring (231) is illegally occupied described Cavity (23) top, clockwork spring (231) outer end are fixed on the driven shell (1222), and clockwork spring (231) inner end is solid Be scheduled on the second axle sleeve (24) being arranged on the outside of second axis (21), second axle sleeve (24) and second axis (21) it Between can keep being freely rotated.

7. energy saving building ventilation equipment according to claim 6, which is characterized in that second axle sleeve (24) and the rotation Turn fluted disc (233) to fix, the rotation of second axle sleeve (24) can drive the rotation of rotation fluted disc (233), the rotation The outer rim of fluted disc (233) has indentation.

8. energy saving building ventilation equipment according to claim 7, which is characterized in that on the bottom case (1223) with the rotation The opposite position of indentation for turning fluted disc (233) is provided with ram structure (25), and the ram structure (25) includes percussion hammer pedestal (251), percussion hammer (253) and percussion hammer receptor (252), the percussion hammer pedestal (251) are fixed on bottom case (1223) on one end, The percussion hammer (253) is fixed on the percussion hammer pedestal (251), and the percussion hammer receptor (252) is arranged close to the indentation.

9. energy saving building ventilation equipment according to claim 1, which is characterized in that in the tube body (1) from left to right according to It is secondary to be provided with the first strainer (4), active carbon filtering layer (5), Biological Thin film layer (6) and ultraviolet disinfection lamp (7), first strainer (4), the both ends of the active carbon filtering layer (5), the Biological Thin film layer (6) and the ultraviolet disinfection lamp (7) respectively with it is described The two sides of tube body (1) are fixedly connected, and first strainer (4), the active carbon filtering layer (5) and the Biological Thin film layer (6) are equal For arcuate structure.

10. energy saving building ventilation equipment according to claim 9, which is characterized in that at the top and bottom of the tube body (1) Left side is fixedly connected to fixed plate (2), and the surface of the fixed plate (2) offers long hole (3), the inside of the long hole (3) It is provided with electric telescopic rod (15), the second energy conversion device (11) and the second energy storage device；The electric telescopic rod (15) Side has been respectively fixedly connected with first baffle (13) and second baffle (14), and electric telescopic rod (15) other side is fixedly connected Second energy conversion device (11), second energy storage device are connect with second energy conversion device (11).