Air replenishing fume hood

Abstract

An air replenishing fume hood includes a cabinet, a door set, an air replenishing unit and an air guiding unit. The cabinet has an inner casing defining an operating chamber and having an air inlet and an air outlet. A side of the cabinet includes an operation window. A first air passage is formed between the inner casing and the cabinet. The door set includes an outer door leaf adapted to open or close the operation window, and an inner door leaf adapted to open or close the air inlet. An end of the air replenishing unit extends into an external space via an outdoor tube, and another end of the air replenishing unit is connected to the first air passage via an extension tube. The air guiding unit includes an end connected to the air outlet, and another end extending into the external space or a collection tank.

Claims

1. An air replenishing fume hood comprising: a cabinet having an inner casing defining an operating chamber, wherein the inner casing includes an air inlet and an air outlet, wherein a surface of the cabinet facing the air inlet includes an operation window, wherein a first air passage is formed between the inner casing with the air inlet and the cabinet with the operation window; a spraying member mounted in the inner casing; a temperature sensing device mounted in the inner casing; a door set including an outer door leaf, an inner door leaf, and two counterweights respectively connected to the outer door leaf and the inner door leaf via two connecting members, wherein the outer door leaf opens or closes the operation window, and wherein the inner door leaf opens or closes the air inlet of the inner casing; an air replenishing unit, wherein an end of the air replenishing unit extends into an external space via an outdoor tube, and wherein another end of the air replenishing unit is connected to the first air passage via an extension tube; and an air guiding unit, wherein an end of the air guiding unit is connected to the air outlet of the inner casing, and wherein another end of the air guiding unit extends into the external space or a collection tank, wherein the cabinet further comprises a central processing unit and two motion sensors, wherein the two motion sensors respectively sense displacements of the two counterweights, wherein the central processing unit is configured to control a driving device to activate the outer door leaf and the inner door leaf to close the operation window and the air inlet, and wherein the temperature sensing device is configured to send a signal to the central processing unit to generate a warning signal or sound and activate the spraying member.

2. The air replenishing fume hood as claimed in claim 1, wherein a guiding plate is mounted in the inner casing, wherein a second air passage is formed between the guiding plate and the inner casing, and wherein the second air passage intercommunicates with the air outlet of the inner casing.

3. The air replenishing fume hood as claimed in claim 1, wherein the inner door leaf includes a slot intercommunicating with the first air passage and the operating chamber.

4. The air replenishing fume hood as claimed in claim 1, wherein each of the two connecting members is coupled to a transmission assembly and driven to rotate by the driving device.

5. The air replenishing fume hood as claimed in claim 1, wherein the door set further includes a control switch, wherein the control switch is a multistage footswitch, and wherein the control switch is configured to control the outer door leaf and the inner door leaf to be fully opened or partially opened at the same time.

6. The air replenishing fume hood as claimed in claim 1, wherein the door set further includes a manual button, and wherein the manual button is configured to control movement of the inner door leaf.

7. The air replenishing fume hood as claimed in claim 1, wherein the door set further includes a region sensor configured to generate and send a signal to the central processing unit when an operator leaves the air replenishing fume hood, and wherein the central processing unit activates the driving device to close the outer door leaf and the inner door leaf to a predetermined height after receiving the signal.

8. The air replenishing fume hood as claimed in claim 1, wherein the air replenishing unit includes an intake valve having an opening angle, and wherein the opening angle is adjustable to control an air replenishment volume.

9. The air replenishing fume hood as claimed in claim 1, wherein the air replenishing unit includes a first air volume detecting device mounted in the first air passage or the extension tube.

10. The air replenishing fume hood as claimed in claim 1, wherein the air guiding unit includes an exhaust valve having an opening angle, and wherein the opening angle is adjustable to control an air exhaust volume.

11. The air replenishing fume hood as claimed in claim 1, wherein the air guiding unit includes an air expelling device.

12. The air replenishing fume hood as claimed in claim 1, wherein the air replenishing unit includes an air inhaling device.

13. The air replenishing fume hood as claimed in claim 1, wherein the air guiding unit includes a second air volume detecting device mounted in the inner casing.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) The present invention will become more fully understood from the detailed description given hereinafter and the accompanying drawings which are given by way of illustration only, and thus are not limitative of the present invention, and wherein:

(2) FIG. 1 is a cross-sectional view of a conventional fume hood.

(3) FIG. 2 is a perspective view of an air replenishing fume hood according to an embodiment of the invention.

(4) FIG. 3 is a cross-sectional view of the air replenishing fume hood according to the embodiment of the invention.

(5) FIG. 4 is a perspective view of a door set of the air replenishing fume hood according to the embodiment of the invention.

(6) FIG. 5 is a cross-sectional view illustrating use of the air replenishing fume hood according to the embodiment of the invention.

(7) FIG. 6 is a cross-sectional view illustrating use of the air replenishing fume hood according to the embodiment of the invention when an abnormal situation occurs in an operating chamber.

(8) In the various figures of the drawings, the same numerals designate the same or similar parts. Furthermore, when the terms top, bottom, inner, outer and similar terms are used hereinafter, it should be understood that these terms have reference only to the structure shown in the drawings as it would appear to a person viewing the drawings, and are utilized only to facilitate describing the invention.

DETAILED DESCRIPTION OF THE INVENTION

(9) In the following contents, the term external space may be an outside space isolated from a space inside a building, an airtight space, an airtight chamber with an air conditioning apparatus, or the conventional operational chamber.

(10) FIGS. 2 and 3 shows an air replenishing fume hood according to an embodiment of the invention. The air replenishing fume hood comprises a cabinet 1 provided with a door set 2, an air replenishing unit 3 and an air guiding unit 4. The cabinet 1 defines an internal space. The door set 2 is coupled to a side of the cabinet 1 and has an inner door leaf 22 separating the cabinet 1 into an operating chamber A and a first air passage P1. The air replenishing unit 3 may guide outdoor air into the first air passage P1 and the operating chamber A. The air guiding unit 4 may guide air from the operating chamber A to an external space via a second air passage P2.

(11) The cabinet 1 may be in the form of a cuboid and arranged on a base 10. The cabinet 1 has an inner casing 11 defining the operating chamber A. The inner casing 11 includes an air inlet 12. The side of the cabinet 1 facing the air inlet 12 includes an operation window 13. The operation window 13 may be opened or closed by an outer door leaf 21 of the door set 2, and the air inlet 12 may be opened or closed by the inner door leaf 22. The first air passage P1 is formed between the inner casing 11 with the air inlet 12 and the cabinet 1 with the operation window 13. The first air passage P1 intercommunicates with the air replenishing unit 3, allowing outdoor air to be guided into the inner casing 11 via the air inlet 12. The inner casing 11 can further receive a guiding plate 14 to avoid the formation of a dead angle. By providing the guiding plate 14, airflow can be smoothly guided to avoid the air turbulence, and the second air passage P2 can be formed inside the inner casing 11, such that the air in the operating chamber A may be guided to the air guiding unit 4 via the second air passage P2.

(12) The inner casing 11 further includes an air outlet 15 through which the air in the operating chamber A may be guided outwards to the air guiding unit 4. The second air passage P2 intercommunicates with the air outlet 15 of the inner casing 11. The inner casing 11 can further receive a spraying member 16. The spraying member 16 may be connected to a fire extinguishing material (not shown) and can be coupled to a temperature sensing device 17. When an abnormal situation such as a fire occurs in the operating chamber A, the temperature sensing device 17 may generate a warning signal or sound to activate the outer door leaf 21 and the inner door leaf 22 of the door set 2 to close the operation window 13 and the air inlet 12, and to control the spraying member 16 to spay the fire extinguishing material. A central processing unit 18 is coupled to a top portion of the cabinet 1. The central processing unit 18 can receive signals sent by the temperature sensing device 17, a detection device or a control device and can perform corresponding actions. The top portion of the cabinet 1 may be unsealed, such that the door set 2 can be easily installed or maintained.

(13) Referring to FIGS. 2, 3 and 4, the door set 2 includes the outer door leaf 21 and the inner door leaf 22. The outer door leaf 21 may be used to open or close the operation window 13, and the inner door leaf 22 may be used to open or close the air inlet 12. The outer and inner door leafs 21, 22 may be made of transparent materials such as explosion-proof glass. The inner door leaf 22 may include a slot 221 (which may also be a plurality of air vents). The slot 221 intercommunicates with the first air passage P1 and the operating chamber A, such that a small amount of the air guided into the first air passage P1 can be filled into the inner case 11 via the slot 221. By such an arrangement, an air vortex that may be formed at the top of the operating chamber A can be effectively prevented. In order to make lifting of the outer door leaf 21 and the inner door leaf 22 easier, the door set 2 can include two counterweights 23 respectively connected to the outer door leaf 21 and the inner door leaf 22 via a respective connecting member 24 (such as a chain). Each of the connecting members 24 can also be coupled to a transmission assembly 25 and can be driven to rotate by a driving device 26 (such as a motor).

(14) The cabinet 1 can have two motion sensors 19 electrically connected to the central processing unit 18 if necessary. The two motion sensors 19 can respectively sense the displacements of the two counterweights 23, such that the central processing unit 18 can control the displacements of the outer door leaf 21 and the inner door leaf 22. Moreover, in order to make it easier to control lifting of the outer door leaf 21 and the inner door leaf 22, the door set 2 can also include a control switch 27, a region sensor 28, a manual button 29 and an emergency button 20. The control switch 27 may be a footswitch as shown in FIG. 2, and the control switch 27 may be a multistage switch, such that the number of times the control switch 27 is pressed can be utilized to control the outer door leaf 21 and the inner door leaf 22 to be fully opened or partially opened at the same time. The region sensor 28 can be coupled to a portion of the cabinet 1 adjacent to the operation window 13. Thus, the region sensor 28 is able to generate and send a signal to the central processing unit 18 when an operator leaves or stops operating the air replenishing fume hood, and the driving device 26 is activated by the central processing unit 18 to lower the outer door leaf 21 and the inner door leaf 22 to a predetermined height. The manual button 29 can be pressed by the operator to adjust the inner door leaf 22 to a desired height. Furthermore, when an abnormal situation such as an unusual fire occurs in the operating chamber A, by pressing the emergency button 20, the operator can rapidly lower the outer door leaf 21 and the inner door leaf 22 to close the operation window 13 and the air inlet 12, as well as control the spraying member 16 to spray the fire extinguishing material.

(15) The air replenishing unit 3 may guide outdoor air into the first air passage P1. As shown in FIGS. 2 and 3, an end of the air replenishing unit 3 extends into the external space via an outdoor tube 31, and the other end of the air replenishing unit 3 is connected to the first air passage P1 via an extension tube 32. The air replenishing unit 3 can also include an intake valve 33 having an opening angle which can be changed to control an air replenishment volume. Besides, in order to precisely control the air in the operating chamber A in a negative pressure state, the air replenishing unit 3 may further include a first air volume detecting device 34. The first air volume detecting device 34 is received in the first air passage P1 or the extension tube 32 for detecting the air replenishment volume, that is, the volume of air guided from the outdoor tube 31 into the operating chamber A. When the first air volume detecting device 34 senses that the air replenishment volume is greater than a threshold value, it will generate and send a signal to the central processing unit 18 to reduce the opening angle of the intake valve 33. By this arrangement, the air replenishment volume of the operating chamber A is reduced and kept smaller than an air exhaust volume of the second air passage P2, assuring that air in the operating chamber A does not overflow through the air inlet 12 or the operation window 13.

(16) The air guiding unit 4 may guide air from the operating chamber A to an external space. As shown in FIGS. 2 and 3, an end of the air guiding unit 4 is connected to the air outlet 15 of the inner casing 11, and the other end of the air guiding unit 4 extends into the external space or a collection tank via an guiding tube 41. The air guiding unit 4 can also include an exhaust valve 42 and a second air volume detecting device 43. The exhaust valve 42 has an opening angle which can be changed to control the air exhaust volume. The second air volume detecting device 43 is received in the inner casing 43 for detecting the air replenishment volume, that is, the volume of air guided from the guiding tube 41 to the external space. When the second air volume detecting device 43 senses that the air exhaust volume is smaller than a threshold value, it will generate and send a signal to the central processing unit 18 to expand the opening angle of the exhaust valve 33 and, thus, increase the air exhaust volume. If necessary, the air guiding unit 4 may include an air expelling device such as an exhaust fan, or the air replenishing unit 3 may include an air inhaling device such as a blower, such that airflow can be smoothly guided, assuring that the air replenishment volume of the operating chamber A is kept smaller than the air exhaust volume of the second air passage P2.

(17) FIG. 5 shows use of the air replenishing fume hood according to the embodiment of the invention. An operator can lift the outer door leaf 21 and the inner door leaf 22 to a desired height by manually pressing the manual button 29 or the stepping on the control switch 27. Thus, the operator can easily operate in the operating chamber A.

(18) FIG. 6 shows that when an abnormal situation such as a fire occurs in the operating chamber A, the temperature sensing device 17 may generate a warning signal or sound. Instead, an operator may press the emergency button 20 to activate the outer door leaf 21 and the inner door leaf 22 of the door set 2 to close the operation window 13, the air inlet 12 and the intake valve 33 of the air replenishing unit 3, as well as control the spraying member 16 to spray the fire extinguishing material, preventing the fire from spreading to the air replenishing fume hood.

(19) In summary, since the air replenishing fume hood according to the embodiment of the invention comprises the door set 2 with an outer door leaf 21 and an inner door leaf 22 that form a first air passage P1 therebetween, and since an outdoor tube 31 of an air replenishing unit 3 is utilized to guide outdoor air into the first air passage P1, the air replenishing fume hood can ensure that the air guided into the first air passage P1 comes from an external space during operation. Namely, the air replenishing fume hood will not pump air from an airtight air-conditioned chamber, such that the temperature inside the air-conditioned chamber can be maintained at a constant value, achieving an energy saving effect.

(20) Although the invention has been described in detail with reference to its presently preferable embodiments, it will be understood by one of ordinary skill in the art that various modifications can be made without departing from the spirit and the scope of the invention, as set forth in the appended claims.