CN202869292U - Furnace body exhaust control device - Google Patents

Abstract

The utility model relates to a semiconductor technology heat treatment field, in particular to a furnace body air exhaust control device. The furnace body air exhaust control device comprises a gas drive unit, a switch mechanism and a tuyere structure unit. A switch main body is arranged on the switch main mechanism. The gas drive unit can drive the switch main body to perform a straight reciprocating motion so that opening and closing of the tuyere structure unit can be performed. The switch mechanism of air exhaust of the furnace body can be controlled effectively by the switch mechanism so that control of the air exhaust of the furnace body is reliable and safe. Heat in the furnace body can be effectively prevented from overflowing so that heat insulation effect is good. The furnace body air exhaust control device is simple in structure, capable of performing accurately and low in cost.

Description

The body of heater air exhaust control device

Technical field

The utility model relates to the semiconductor technology Field of Heat-treatment, especially relates to a kind of body of heater air exhaust control device.

Background technology

At present in the semiconductor technology Field of Heat-treatment, the structure of body of heater air exhaust control device is complicated, the switching mechanism of existing air exhaust control device, adopt wheeled reciprocating motion structures or around the fixing point rotary structure, these structures need larger installation and operating spaces, complex structure more, deficient in stability, effect of heat insulation to body of heater is undesirable, and cost is higher, and potential safety hazard is more.

In order to overcome the above problems, the utility model has been done useful improvement.

The utility model content

The technical problem that (one) will solve

The purpose of this utility model provides a kind of by pneumatic unit, realizes accurately and effectively the switch control of body of heater cooling, air discharging, and the body of heater air exhaust control device of operating state that can the Real Time Monitoring pneumatic unit.

(2) technical scheme

The utility model is achieved through the following technical solutions: a kind of body of heater air exhaust control device, it comprises air pressure driver element, switching mechanism and tuyere structure unit, described switching mechanism is provided with switch main body, described air pressure driver element can drive this switch main body, makes this switch main body straight reciprocating motion.

Particularly, described switching mechanism also comprises the switch connecting portion, and described switch main body links to each other with this switch connecting portion; Described air pressure driver element comprises cylinder, and described cylinder links to each other with described switch connecting portion, and this cylinder drives described switch main body motion by this switch connecting portion; When described cylinder was in two final positions of its stroke, described switch main body was in the opening of tuyere structure unit and closed condition.

Further, described air pressure driver element also comprises the cylinder connecting portion, and described cylinder links to each other with the cylinder connecting portion; The end of described cylinder connecting portion is provided with the cylindricality mount pin; Described switch connecting portion is provided with slotted hole, and the length direction of this slotted hole is vertical direction, and described cylindricality mount pin laterally is installed in the described slotted hole, and described switch connecting portion links to each other by this cylindricality mount pin with the cylinder connecting portion.

In addition, described air pressure driver element also comprises the cylinder fixed mount, and the end of described cylinder fixed mount is provided with the installation through hole, and described cylinder is fixed on the described cylinder fixed mount by nut; Unscrew described nut, the position of this cylinder of capable of regulating on the cylinder direction of action.

Further, described switching mechanism also comprises the switch cover plate, and described switch cover plate is arranged on the switch main body; Described switch connecting portion is fixedly connected with this switch cover plate.

Further again, also comprise the on off state monitoring unit; Be provided with primary importance signaling switch, second place signaling switch and switch touch panel on the described on off state monitoring unit; Described switch connecting portion is connected with described switch touch panel, two terminal points at described cylinder stroke, described switch connecting portion drives described switch touch panel, makes this switch touch panel trigger respectively described primary importance signaling switch and second place signaling switch.

In addition, described tuyere structure unit comprises air port thermal insulation board and air port heat shield, and described air port heat shield is located on the thermal insulation board of described air port; Be respectively equipped with the first through hole and the second through hole on described air port thermal insulation board and the air port heat shield; Form the semitight space between described air port thermal insulation board and the air port heat shield; The sidepiece in described semitight space is provided with an opening, and described switch main body passes this opening and can move in described hemi-closure space linear reciprocation; Under the switching mechanism opening, described the first through hole and the second through hole form path; Under the switching mechanism closed condition, described switch main body cuts off the first through hole and the second through hole fully.

Wherein, described switching mechanism is provided with guide post in the both sides of described switch main body, and described switch main body both sides are provided with the guide post installation portion, and described tuyere structure unit is provided with the guide holder corresponding with described guide post; Described guide post one end and described guide post installation portion are fixedly linked, and the other end of this guide post places in the described guide holder and can move along this guide holder.

Further, described tuyere structure unit also comprises the heat shield fixed head, and it is outside that described heat shield fixed head is installed in the air port heat shield, and this heat shield fixed head is fixed together air port heat shield and air port thermal insulation board.

Further, described guide holder and described heat shield fixed head are the integral type structure.

In addition, be provided with draw runner on the described switch main body, in the hemi-closure space of described tuyere structure unit, be provided with described on the corresponding lower draw runner of draw runner, and should upper draw runner can be on lower this draw runner relative sliding.

Wherein, the material of described upper draw runner and lower draw runner is pottery.

In addition, the front and back ends of described switch main body on its direction of action is respectively equipped with flanged structure, when described switching mechanism was in unlatching or closed condition, the flanged structure of this switch main body front and back ends can be placed in respectively the end face of described hemi-closure space side mouth.

(3) beneficial effect

Compare with product with prior art, the utility model has the following advantages:

1. the utility model can utilize real-time monitoring unit, effectively the switching mechanism of body of heater air draft is controlled, and makes body of heater air draft control reliable and secure;

2. the utility model can effectively stop the effusion of body of heater heat, has good effect of heat insulation;

3. body of heater air exhaust control device of the present utility model is simple in structure, can accurately operate, and cost is lower.

In the accompanying drawing, the component list of each label representative is as follows:

1, air pressure driver element; 2, on off state monitoring unit; 3, switching mechanism; 4, tuyere structure unit; 11, cylinder connecting portion; 12, cylinder installing rack; 21, position signalling switch; 22, switch touch panel; 23, fixed mount; 31, switch main body; 32, cover plate; 33, switch connecting portion; 34, guide post installation portion; 35, upper draw runner; 36, guide post; 41, air port thermal insulation board; 42, air port heat shield; 43, heat shield fixed head; 44, lower draw runner.

Description of drawings

Fig. 1 is three-dimensional structure diagram of the present utility model;

Fig. 2 is structure top view of the present utility model;

Fig. 3 is the johning knot composition of switching mechanism of the present utility model and tuyere structure unit;

Fig. 4 is the generalized section of Fig. 3;

Fig. 5 is the structure chart of switching mechanism of the present utility model;

Fig. 6 is the generalized section of Fig. 5;

Fig. 7 is the structure chart that air pressure driver element of the present utility model is connected with the on off state monitoring unit.

The specific embodiment

Below in conjunction with accompanying drawing the specific embodiment of the present utility model is made a detailed explanation.

A kind of body of heater air exhaust control device as depicted in figs. 1 and 2 mainly is made of air pressure driver element 1, on off state monitoring unit 2, switching mechanism 3 and tuyere structure unit 4.Described air pressure driver element 1 links to each other with switching mechanism 3, and 3 pairs of tuyere structure unit 4 of driving switch mechanism are closed and breakdown action; Described on off state monitoring unit 2 can be to the real-time monitoring of switching mechanism 3, the location status of pilot switch mechanism 3.

As shown in Figure 7, air pressure driver element 1 is made of cylinder, cylinder fixed mount 12, cylinder connecting portion 11 etc., can certainly be to be made of other air pressure driving arrangements; On off state monitoring unit 2 is made of position signalling switch 21, switch touch panel 22, fixed mount 23 etc.;

As shown in Figure 3, switching mechanism 3 is made of switch main body 31, cover plate 32, upper draw runner 35, switch connecting portion 33, guide post installation portion 34 etc.; As shown in Figure 3 and Figure 4, tuyere structure unit 4 is made of air port thermal insulation board 41, air port heat shield 42, heat shield fixed head 43, lower draw runner 44 etc.

As shown in Figure 7, cylinder connecting portion 11 is connected with switch connecting portion 33, this switch connecting portion 33 is connected with switch touch panel 22 simultaneously, when cylinder moves, can drive the action that switching mechanism 3 is carried out opening and closing tuyere structure unit 4 by cylinder connecting portion 11,22 of switch touch panels can or be closed and shift one's position along with the unlatching of switching mechanism 3.In the cylinder stroke, because an end of switch touch panel 22 links to each other with above-mentioned switch connecting portion 33, this cylinder can drive switch touch panel 22, make its other end can be corresponding the shifting one's position in fixed mount 23 tops of on off state monitoring unit 2, and switch touch panel 22 will trigger the position signalling switch 21 that is installed on the fixed mount 23.On fixed mount 23, can a plurality of position signalling switches 21 be installed at the stroke of switch touch panel 22, especially as shown in Figure 7, can be respectively at two final position setting position signaling switches 21 of the action of switch touch panel 22; Trigger this position signalling switch 21, this position signalling switch 21 will produce the signal of telecommunication, and the state of switch is sent to control terminal.

Such as Fig. 1 and shown in Figure 5, cylinder connecting portion 11 is connected with switch connecting portion 33, but be not to be rigidly connected, in the piston rod end of cylinder one knuckle joint is set, be provided with the cylindricality mount pin on the knuckle joint, the cylindricality mount pin is rotary in the installing hole of knuckle joint, be provided with slotted hole at switch connecting portion 33, the length direction of slotted hole vertically arranges, cylindricality mount pin in the cylinder connecting portion 11 is installed among this slotted hole, thereby cylinder connecting portion 11 is linked to each other with switch connecting portion 33.The reason of doing like this is: when cylinder and switch main body 31 in height error occurs, slotted hole with this cooperation of cylindricality mount pin can eliminate at an easy rate such error, can guarantee again simultaneously the direction of action of cylinder move accurately.

In addition, as shown in Figure 7, being installed on its direction of action of cylinder can be regulated, because usually the installation of body of heater is fixed, can't regulate, error appears when between the tuyere structure unit 4 at body of heater top and cylinder, can be by this regulatory function of cylinder, guarantee that cylinder installs in place, thereby so that the action of switching mechanism 3 is accurate, the damage that can not bring adverse influence or parts because of the stroke deficiency of switching mechanism 3 or overtravel.

As shown in Figure 5, switch connecting portion 33 is connected and fixed with cover plate 32, and cover plate 32 surrounds and is fixed on the switch main body 31, and switch main body 31 is made by high temperature resistant heat insulation material, but not shock-resistant not wear-resisting, set up the bridge that is connected between switch main body 31 and the switch connecting portion 33 by cover plate 32.

As shown in Figure 4, tuyere structure unit 4 mainly contains air port thermal insulation board 41 and air port heat shield 42; Thermal insulation board 41 parts in air port are positioned at the top of body of heater, which is provided with the first through hole for air draft, and air port heat shield 42 is installed on the air port thermal insulation board 41, and are provided with the hermetically-sealed construction that matches with air port heat shield 42 around the first through hole.In addition, form a hemi-closure space between air port thermal insulation board 41 and the air port heat shield 42, this hemi-closure space is used for holding switch main body 31; Heat shield fixed head 43 is installed in air port heat shield 42 outsides, heat shield fixed head 43 is provided with installing hole simultaneously, use bolt to be connected and fixed by this installing hole and air port thermal insulation board 41, like this, heat shield fixed head 43 just connects into air port heat shield 42 and air port thermal insulation board 41 one group of fixing structure.

Being provided with the second through hole at air port heat shield 42, is aforesaid hemi-closure space between the first through hole on this second through hole and the air port thermal insulation board 41.The sidepiece in described semitight space is provided with an opening, and described switch main body 31 passes this opening and can move in described hemi-closure space linear reciprocation; Under switching mechanism 3 openings, the front end of described switch main body 31 is placed in the opening part of described enclosure space, and described the first through hole and the second through hole form path, and from then on out gas will pass through in the body of heater; Under switching mechanism 3 closed conditions, described switch main body 31 cuts off the first through hole and the second through hole fully, and gas in the body of heater is sealed.

The wearing and tearing that bring for the friction between the parts of eliminating switch main body 31 and tuyere structure unit 4, as shown in Figure 6, be provided with draw runner 35 at switch main body 31, in tuyere structure unit 4, as shown in Figure 4, be provided with corresponding with it lower draw runner 44 on the thermal insulation board 41, be provided with the mounting groove for draw runner 44 under installing on the next door of the first through hole, lower draw runner 44 is installed in this mounting groove, and the material of upper draw runner 35 and lower draw runner 44 is preferably pottery.Because the coefficient of friction of smooth ceramic surface is less, like this, by upper and lower draw runner the sliding friction between switch main body 31 and tuyere structure unit 4 parts is replaced, the while has also reached switch main body 31 and moved smoothly effect in hemi-closure space.This mode is simple in structure, successful.

As shown in Figure 4, because the unlatching of switching mechanism 3 and closing movement will be by the openings of tuyere structure unit 4 sidepieces, this thickness with regard to determine switch main body 31 is less than opening, the switch main body 31 therewith gap between opening will cause the heat of body of heater inside to overflow the device that this can bring the increase of energy consumption and endanger this around openings non-refractory from the side mouth of tuyere structure unit 4; For fear of above-mentioned situation, the special flanged structure that switch main body 31 front and back ends is respectively equipped with suitable shape, when the state that switching mechanism 3 opens or cuts out, the front and back ends of opening main body 31 can contact closely to the end face of lateral opening respectively, formation is to the obstruct of the heat of the side mouth of tuyere structure unit 4, thereby reaches good effect of heat insulation.

As shown in Figure 3, switching mechanism 3 also is provided with guide post 36 in the both sides of switch main body 31, and guide post 36 is assembled together with switch main body 31.Because switch connecting portion 33 is not to be to be rigidly connected with cylinder connecting portion 11, switch main body 31 also is matched in clearance with the lateral opening of tuyere structure unit 4, all do not have guide effect, and pass through the guide effect of guide post 36, then can guarantee the accurate of switch main body 31 direction of action.Guide post 36 is installed on the guide post installation portion 34 of switching mechanism 3 both sides.

Be provided with corresponding guide holder in tuyere structure unit 4, it is inner that guide post 36 is arranged on this guide holder, and can in the guide holder slides within, play the effect to guide post 36 guiding.Guide holder and heat shield fixed head 43 can be set to integral structure, when playing guiding, also play the fixedly effect of heat shield.

Under the effect of guide holder, the direction of action degree of accuracy of switch main body 31 is guaranteed, the direction of action precision of the switch touch panel 22 that is fixedly connected with switch connecting portion 33 also is guaranteed, and the synchronized movement with switching mechanism 3, namely correspond to switching mechanism 3 closed two states with opening, switch main body 31 is in two final positions of its actuating length, in the movement travel of Simultaneous Switching touch panel 22 on the fixed mount 23 of on off state monitoring unit 2 two corresponding ad-hoc locations are arranged also, the spacing of these two ad-hoc locations is the stroke of cylinder, namely in the conversion process of switching mechanism 3 two states the distance of process.And the particular location of these two ad-hoc locations will have with the shape size of switch touch panel 22 direct relation, can follow the shape and the size that switch touch panel 22 rationally are set according to needs to come these two specific positions of reasonable Arrangement.As shown in Figure 7, on above-mentioned two ad-hoc locations, two position signalling switches 21 will be set.Like this, when switch touch panel 22 reaches corresponding ad-hoc location, will trigger this locational position signalling switch 21, produce the corresponding signal of telecommunication, and be sent to control terminal, with the residing state in annunciator operator body of heater air port.

In addition, why not having to select to be installed in the magnetic switch on the cylinder, is owing to considering that ambient temperature is higher here, does not satisfy the magnetic switch of such demand, and the position signalling switch 21 that arranges separately, the same requirement is to want anti-certain high temperature.

The above only is preferred embodiment of the present utility model, and is in order to limit the utility model, not all within spirit of the present utility model and principle, any modification of doing, is equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (13)

1. body of heater air exhaust control device, it is characterized in that, it comprises air pressure driver element, switching mechanism and tuyere structure unit, and described switching mechanism is provided with switch main body, described air pressure driver element can drive this switch main body, makes this switch main body straight reciprocating motion.

2. body of heater air exhaust control device according to claim 1 is characterized in that, described switching mechanism also comprises the switch connecting portion, and described switch main body links to each other with this switch connecting portion; Described air pressure driver element comprises cylinder, and described cylinder links to each other with described switch connecting portion, and this cylinder drives described switch main body motion by this switch connecting portion; When described cylinder was in two final positions of its stroke, described switch main body was in the opening of tuyere structure unit and closed condition.

3. body of heater air exhaust control device according to claim 2 is characterized in that, described air pressure driver element also comprises the cylinder connecting portion, and described cylinder links to each other with the cylinder connecting portion; The end of described cylinder connecting portion is provided with the cylindricality mount pin; Described switch connecting portion is provided with slotted hole, and the length direction of this slotted hole is vertical direction, and described cylindricality mount pin laterally is installed in the described slotted hole, and described switch connecting portion links to each other by this cylindricality mount pin with the cylinder connecting portion.

4. body of heater air exhaust control device according to claim 2, it is characterized in that, described air pressure driver element also comprises the cylinder fixed mount, and the end of described cylinder fixed mount is provided with the installation through hole, and described cylinder is fixed on the described cylinder fixed mount by nut; Unscrew described nut, the position of this cylinder of capable of regulating on the cylinder direction of action.

5. body of heater air exhaust control device according to claim 2 is characterized in that, described switching mechanism also comprises the switch cover plate, and described switch cover plate is arranged on the switch main body; Described switch connecting portion is fixedly connected with this switch cover plate.

6. body of heater air exhaust control device according to claim 2 is characterized in that, also comprises the on off state monitoring unit; Be provided with primary importance signaling switch, second place signaling switch and switch touch panel on the described on off state monitoring unit; Described switch connecting portion is connected with described switch touch panel, two terminal points at described cylinder stroke, described switch connecting portion drives described switch touch panel, makes this switch touch panel trigger respectively described primary importance signaling switch and second place signaling switch.

7. each described body of heater air exhaust control device is characterized in that according to claim 1-6, and described tuyere structure unit comprises air port thermal insulation board and air port heat shield, and described air port heat shield is located on the thermal insulation board of described air port; Be respectively equipped with the first through hole and the second through hole on described air port thermal insulation board and the air port heat shield; Form the semitight space between described air port thermal insulation board and the air port heat shield; The sidepiece in described semitight space is provided with an opening, and described switch main body passes this opening and can move in described hemi-closure space linear reciprocation; Under the switching mechanism opening, described the first through hole and the second through hole form path; Under the switching mechanism closed condition, described switch main body cuts off the first through hole and the second through hole fully.

8. body of heater air exhaust control device according to claim 7, it is characterized in that, described switching mechanism is provided with guide post in the both sides of described switch main body, described switch main body both sides are provided with the guide post installation portion, and described tuyere structure unit is provided with the guide holder corresponding with described guide post; Described guide post one end and described guide post installation portion are fixedly linked, and the other end of this guide post places in the described guide holder and can move along this guide holder.

9. body of heater air exhaust control device according to claim 8, it is characterized in that, described tuyere structure unit also comprises the heat shield fixed head, and it is outside that described heat shield fixed head is installed in the air port heat shield, and this heat shield fixed head is fixed together air port heat shield and air port thermal insulation board.

10. body of heater air exhaust control device according to claim 9 is characterized in that, described guide holder and described heat shield fixed head are the integral type structure.

11. body of heater air exhaust control device according to claim 7, it is characterized in that, be provided with draw runner on the described switch main body, in the hemi-closure space of described tuyere structure unit, be provided with described on the corresponding lower draw runner of draw runner, and should upper draw runner can be on lower this draw runner relative sliding.

12. body of heater air exhaust control device according to claim 11 is characterized in that, the material of described upper draw runner and lower draw runner is pottery.

13. body of heater air exhaust control device according to claim 7, it is characterized in that, the front and back ends of described switch main body on its direction of action is respectively equipped with flanged structure, when described switching mechanism was in unlatching or closed condition, the flanged structure of this switch main body front and back ends can be placed in respectively the end face of described hemi-closure space side mouth.

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