CN205445265U - Energy -conserving automatically -controlled door - Google Patents

Abstract

The utility model provides an energy -conserving automatically -controlled door, includes the door physically, the top of the door body is equipped with the drive case, the case is opened and close through the wire rope connection to the drive case, it is equipped with balancing weight, counter weight gasbag to open and close the incasement, the counter weight gasbag pass through intake pipe, outlet duct and open and close the external intercommunication of case, the intake pipe is equipped with the solenoid valve with the junction of opening and close the case, the end -to -end connection of intake pipe has the pressure boost chamber, the one side in pressure boost chamber is equipped with the connector. The beneficial effects are that: through air pump replacement motor, provide power for opening and close of door plant, the energy can be saved through the counter weight.

Description

Energy-conservation automatically-controlled door

Technical field

This utility model relates to finishing material field, particularly a kind of automatically-controlled door.

Background technology

Automatically-controlled door be mainly used as building enter building door, be generally divided into rotary and horizontally taking type, the most rotary by rotating door-plate in real time, reach the purpose making pedestrian automatically come in and go out, the mode that horizontally taking type then uses induction apparatus, opening/closing component to combine realizes automatic open close.Horizontally taking type automatically-controlled door uses motor, air cylinder driven, steering box transmission, opens and closes for door-plate and provides power.In the case of flow of the people is relatively big, door-plate needs frequently to open and close, and motor power consumption is big, causes energy waste

Summary of the invention

The purpose of this utility model is to solve the problems referred to above, devises a kind of energy-conservation automatically-controlled door.Specific design scheme is:

A kind of energy-conservation automatically-controlled door, including door body, the top of described door body is provided with driving box, described driving box connects keying case by steel wire rope, being provided with balancing weight, counterweight air bag in described keying case, described counterweight air bag is connected with described the external of keying case by air inlet pipe, escape pipe, and described air inlet pipe and the junction opening and closing case are provided with electromagnetic valve, the end of described air inlet pipe connects has booster cavity, the side of described booster cavity to be provided with connector.

The middle part of described door body is provided with door-plate, and described door-plate is clamshell doors, and described door-plate is glass door, and described door-plate is slidably connected with described door body by slideway, and described door-plate can slide in left-right direction.

Described driving box is gear drive box, and one end of described steel wire rope is connected with described driving box, and the other end runs through the upper arm of described keying case and connection has balancing weight, counterweight air bag.

Being marked with suspension in described keying case, described counterweight air bag, balancing weight are all soaked in described suspension, and described steel wire rope is positioned at the side of described keying case and scribbles erosion shield.

Described electromagnetic valve is the electromagnetic valve with non-return valve block, and the flow direction of described non-return valve block is from opening and closing case in side inflow counterweight air bag.

The air pressure of the connector side of described booster cavity is connected the air pressure of side less than described booster cavity with described air inlet pipe.

The energy-conservation automatically-controlled door obtained by technique scheme of the present utility model, it provides the benefit that:

Replacing motor by air pump, the keying being door-plate by counterweight provides power, saves the energy.

Accompanying drawing explanation

Fig. 1 is the structural representation of energy-conservation automatically-controlled door described in the utility model；

In figure, 1, door body；2, driving box；3, steel wire rope；4, case is opened and closed；5, balancing weight；6, counterweight air bag；7, air inlet pipe；8, escape pipe；9, electromagnetic valve；10, booster cavity；11, connector；12, door-plate.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is specifically described.

Fig. 1 is the structural representation of energy-conservation automatically-controlled door described in the utility model, as shown in Figure 1, a kind of energy-conservation automatically-controlled door, including door body 1, the top of described door body 1 is provided with driving box 2, described driving box 2 connects keying case 4 by steel wire rope 3, balancing weight 5, counterweight air bag 6 it is provided with in described keying case 4, described counterweight air bag 6 is connected with described the external of keying case 4 by air inlet pipe 7, escape pipe 8, described air inlet pipe 7 and the junction opening and closing case 4 are provided with electromagnetic valve 9, the end of described air inlet pipe 7 connects has booster cavity 10, the side of described booster cavity 10 to be provided with connector 11.

The middle part of described door body 1 is provided with door-plate 12, and described door-plate 12 is clamshell doors, and described door-plate 12 is glass door, and described door-plate 12 is slidably connected with described door body 1 by slideway, and described door-plate 12 can slide in left-right direction.

Described driving box 2 is gear drive box, and one end of described steel wire rope 3 is connected with described driving box 2, and the other end runs through the upper arm of described keying case 4 and connection has balancing weight 5, counterweight air bag 6.

Being marked with suspension in described keying case 4, described counterweight air bag 6, balancing weight 5 are all soaked in described suspension, and described steel wire rope 3 is positioned at the side of described keying case 4 and scribbles erosion shield.

Described electromagnetic valve 9 is the electromagnetic valve with non-return valve block, and the flow direction of described non-return valve block is in opening and closing case 4 side inflow counterweight air bag 6.

The air pressure of connector 11 side of described booster cavity 10 is connected the air pressure of side less than described booster cavity 10 with described air inlet pipe 7.

During installation, door body 1 is fixing with building, and keying case 4 is arranged on the place driving air-conditioner outdoor unit into, booster cavity 10 is connected with air-conditioner outdoor unit.

When door-plate 12 is opened, opens solenoid valve 9, air after being pressurized is stored in booster cavity 10, and after electromagnetic valve 9 is opened, air flows in counterweight air bag 6, due to buoyancy, counterweight air bag 6 brings up balancing weight 5 and moves up, and is realized the unlatching of door-plate 12 by steel wire rope 3 transmission, in the process, the power that needs provide is the keying of electromagnetic valve 9, saves the energy.

When door-plate 12 cuts out, close electromagnetic valve 9, the air in described counterweight air bag 6, owing to pressure is extruded from described escape pipe 8, the end of described escape pipe 8 can install corresponding control valve, due to gravity as required, balancing weight 5 is to sinking, by steel wire rope 3 transmission, realized the closedown of door-plate 12 by driving box 2, in the process, the keying of the required valve that power is electromagnetic valve 9 and escape pipe 8 end provided, saves the energy.

Technique scheme only embodies the optimal technical scheme of technical solutions of the utility model; some variations that some of which part may be made by those skilled in the art all embody principle of the present utility model, within belonging to protection domain of the present utility model.

Claims (6)

1. an energy-conservation automatically-controlled door, including door body (1), the top of described door body (1) is provided with driving box (2), it is characterized in that, described driving box (2) connects keying case (4) by steel wire rope (3), it is provided with balancing weight (5) in described keying case (4), counterweight air bag (6), described counterweight air bag (6) passes through air inlet pipe (7), the external connection of escape pipe (8) and described keying case (4), described air inlet pipe (7) and the junction opening and closing case (4) are provided with electromagnetic valve (9), the end of described air inlet pipe (7) connects booster cavity (10), the side of described booster cavity (10) is provided with connector (11).

2. according to the energy-conservation automatically-controlled door described in claim 1, it is characterized in that, the middle part of described door body (1) is provided with door-plate (12), described door-plate (12) is clamshell doors, described door-plate (12) is glass door, described door-plate (12) is slidably connected with described door body (1) by slideway, and described door-plate (12) can slide in left-right direction.

3. according to the energy-conservation automatically-controlled door described in claim 1, it is characterized in that, described driving box (2) is gear drive box, one end of described steel wire rope (3) is connected with described driving box (2), the other end run through described keying case (4) upper arm and connect have balancing weight (5), counterweight air bag (6).

4. according to the energy-conservation automatically-controlled door described in claim 1, it is characterized in that, it is marked with suspension in described keying case (4), described counterweight air bag (6), balancing weight (5) are all soaked in described suspension, and described steel wire rope (3) is positioned at the side of described keying case (4) and scribbles erosion shield.

5. according to the energy-conservation automatically-controlled door described in claim 1, it is characterized in that, described electromagnetic valve (9) is the electromagnetic valve with non-return valve block, and the flow direction of described non-return valve block is in opening and closing case (4) side inflow counterweight air bag (6).

6. according to the energy-conservation automatically-controlled door described in claim 1, it is characterized in that, the air pressure of connector (11) side of described booster cavity (10) is connected the air pressure of side less than described booster cavity (10) with described air inlet pipe (7).