CN211203359U - Electric full-automatic energy-saving control device of building - Google Patents

Abstract

The utility model discloses a building electrical full-automatic energy-saving control device, comprises an operation bench, the standing groove has been seted up to the inside of operation panel, the inside one side of standing groove is provided with servo motor, servo motor imbeds in the operation panel, servo motor's output top is fixed with the lead screw, the one end of lead screw is fixed with first bearing. A building electric full-automatic energy-saving control device, the second bearing then removes along with the rotation of nut, can adjust operating panel's far and near then, the staff of the difference of being convenient for uses, thereby accomplish to utilize the flexible box that makes of pneumatic cylinder to rotate with the fixed axle, and then can adjust the angle of display panel, whether aerify the gasbag, accomplish the slip of backup pad, make the ball spill the below of landing leg, accomplish the removal and the placing of the device of being convenient for, and the shrink of ball, avoid long-term extrusion to influence the removal of ball.

Description

Electric full-automatic energy-saving control device of building

Technical Field

The utility model relates to an automatic control technical field, in particular to electric full-automatic energy-saving control device of building.

Background

Conventional architectural electrical designs include only power and lighting. With the development of the times and the progress of science and technology, the intelligent development becomes the inevitable trend of the society. The intelligent development trend of building electricity is as follows: the intelligent building is energy-saving and environment-friendly, and how to adopt a high-tech means to save energy and reduce pollution is a permanent topic of the intelligent building; the open type intelligent building must adopt a standard communication protocol, the protocol must be mainstream and is accepted by various manufacturers, the intelligent building is a dynamic and developed system, and the intelligent building of the open type system can continuously absorb new technology and update old equipment, so that the whole intelligent system facility can better run; the individuation of the intelligent building is characterized in that the individuation design is to insist on the system analysis of building objects and using objects in the aspects of large system and dynamic operation, the design of specific details is deepened according to the system operation state aiming at the specific requirements of a specific building, the individuation design in the aspect of a large system is the difference of the environmental conditions, the difference of the user capacity is approached, the difference of the application requirements is approached, the difference of management is approached, different designs are adopted for different management modes, and the difference of different functional areas in the same building is refined. China has perfect building equipment automation (BA), communication Automation (AC) and Office Automation (OA), which are called 3A systems for short. All the devices need to be manually operated correspondingly to finish corresponding adjustment, the number of required workers is small, and the labor intensity is low.

The existing energy-saving control device cannot perform corresponding distance adjustment according to a user or even perform corresponding angle adjustment according to the height of a sitting posture of the user in the using process, is inconvenient to move, causes difficulty in transportation, and brings certain influence to the using process of people.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an electric full-automatic energy-saving control device of building can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a building electric full-automatic energy-saving control device, includes the operation panel, the last fixed surface of operation panel has the fixed axle, the center department embedding of operation panel lower surface has electronic air pump, the standing groove has been seted up to the inside of operation panel, three logical grooves of group have been seted up on the operation panel, one side of standing groove inside is provided with servo motor, servo motor imbeds in the operation panel, servo motor's output top is fixed with the lead screw, the one end of lead screw is fixed with first bearing, first bearing is fixed in the another side of standing groove, cup joint two sets of nuts on the lead screw, the lateral surface of two sets of nuts cup joints and is fixed with the second bearing, the upper end of second bearing is fixed with the movable plate, the last fixed surface of movable plate has the support column, the upper end of support column is fixed with operating panel, operating panel and servo motor electric connection, utilize servo motor's start-up to drive the rotation of lead screw to can make nut and second bearing remove, accomplish the removal of the operating panel of the top then.

Preferably, the supporting legs are welded at four corners of the lower surface of the operating table, the hollow grooves are formed in the supporting legs, the sliding grooves are formed in four side faces of the hollow grooves, air guide tubes are embedded into the upper portions of the inner portions of the supporting legs, the lower ends of the air guide tubes are communicated with air bags, the lower surfaces of the air bags are fixed to the supporting plate, second fixing pieces are fixed to the lower portions of the supporting plate, balls are mounted inside the second fixing pieces, the balls are collected and released by utilizing the fact that whether the air bags are inflated or not, and the device is convenient to move and use.

Preferably, the display panel is arranged above the fixed shaft, the fixed shaft is embedded into the lower end of the display panel, a box body is fixed to the side face of the display panel, three groups of first fixing pieces are fixed to the lower surface of the box body, a ball body is placed inside the three groups of first fixing pieces, a hydraulic cylinder is fixed below the ball body and electrically connected with the operating panel, the hydraulic cylinder is fixed inside the operating platform, holes penetrating through the hydraulic cylinder and the operating platform are formed in the upper portion of the hydraulic cylinder, the hydraulic cylinder stretches out and draws back to drive the box body to ascend and descend, the fixed shaft embedded into the bottom of the display panel can enable the display panel to rotate, and accordingly the angle of the display panel is adjusted by stretching out.

Preferably, the through groove penetrates through the upper surface and the placing groove of the operating platform, a supporting column is arranged in the through groove, the supporting column is convenient to move in the through groove, and the moving plate and the operating panel can be fixed.

Preferably, the first fixing part is a one-third sphere, the hole is formed in the first fixing part and is two thirds of the size of the sphere, the sphere is fixed by the hole, and the limitation on the adjusting angle is reduced if the first fixing part is the one-third sphere.

Preferably, electronic air pump and operating panel electric connection, electronic air pump is provided with outlet duct and intake pipe, the connecting piece has been cup jointed in the intake pipe, the connecting piece design is for dismantling the pattern, the other end of connecting piece is fixed with the air duct, install the valve on the air duct, the air duct design is four lateral pipes, utilizes electronic air pump, is convenient for aerify and exit the gasbag to can accomplish the removal of device or place.

Preferably, the other end of the air duct is embedded in the supporting leg respectively, and the clamping piece for the air duct is fixed on the lower surface of the operating platform.

Preferably, the second mounting is the clean shot of five sixths' volume, the hollow size of second mounting and the size phase-match of ball, when avoiding the ball to drop, can utilize the ball to remove.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. the screw rod is rotated through the rotation of the servo motor, so that the nut is driven to rotate, the second bearing fixed on the side surface of the nut moves along with the rotation of the nut, and the movable plate fixed at the top end of the second bearing can move, so that the distance of the operation panel can be adjusted, and different workers can use the operation panel conveniently;

2. the box body is fixed on the side face of the display panel, the first fixing piece is fixed on the lower surface of the box body, the sphere is arranged inside the first fixing piece, the lower portion of the sphere is fixed at the top end of the hydraulic cylinder, the first fixing piece rotates on the surface of the sphere due to the stretching of the hydraulic cylinder, and therefore the box body rotates through the fixing shaft due to the stretching of the hydraulic cylinder, and the angle of the display panel can be adjusted;

3. the dead slot has been seted up through the inside at the landing leg, and be provided with gasbag and backup pad in the dead slot, the center department of four sides of backup pad all is equipped with the arch, and the arch all is located the sliding tray, the below of backup pad is provided with the second mounting, and the second mounting is the hollow ball of five sixths, the ball then sets up the inside at the second mounting, the size of ball and the hollow size phase-match of second mounting, make the ball expose the certain size in, avoid droing of ball, whether aerify the gasbag under the effect of electric air pump, thereby accomplish the slip of backup pad, make the below that the ball spills the landing leg, accomplish the removal and the placing of the device of being convenient for, and the shrink of ball, avoid long-term extrusion to influence the removal of ball.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

Fig. 1 is a schematic view of the overall structure of the electric full-automatic energy-saving control device for buildings of the utility model;

FIG. 2 is a cross-sectional view of an operation console in the electric full-automatic energy-saving control device for building of the present invention;

fig. 3 is a partial enlarged view of a part a in fig. 1 of the electric full-automatic energy-saving control device for building of the present invention;

FIG. 4 is a schematic view of an inflation structure in the electric full-automatic energy-saving control device for buildings of the present invention;

fig. 5 is a cross-sectional view of a support leg in the electric full-automatic energy-saving control device for building.

In the figure: 1. an operation table; 2. a support leg; 3. a fixed shaft; 4. a display panel; 5. a box body; 6. a through groove; 7. a placement groove; 8. a servo motor; 9. a screw rod; 10. a first bearing; 11. a nut; 12. a second bearing; 13. moving the plate; 14. a support pillar; 15. a hydraulic cylinder; 16. an electric air pump; 17. a sphere; 18. a first fixing member; 19. an air outlet pipe; 20. an air inlet pipe; 21. a connecting member; 22. an air duct; 23. a valve; 24. an empty groove; 25. a sliding groove; 26. an air bag; 27. a support plate; 28. a second fixing member; 29. a ball bearing; 30. an operation panel.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Examples

As shown in fig. 1-5, an electric full-automatic energy-saving control device for buildings comprises an operation table 1, a fixed shaft 3 is fixed on the upper surface of the operation table 1, an electric air pump 16 is embedded in the center of the lower surface of the operation table 1, a placement groove 7 is arranged inside the operation table 1, three groups of through grooves 6 are arranged on the operation table 1, a servo motor 8 is arranged on one side inside the placement groove 7, the servo motor 8 is embedded in the operation table 1, a lead screw 9 is fixed on the top end of the output end of the servo motor 8, a first bearing 10 is fixed on one end of the lead screw 9, the first bearing 10 is fixed on the other side surface of the placement groove 7, two groups of nuts 11 are sleeved on the lead screw 9, a second bearing 12 is sleeved and fixed on the outer side surface of the two groups of nuts 11, a movable plate 13 is fixed on the upper end of the second bearing 12, a support column 14, operation panel 30 and servo motor 8 electric connection, through servo motor 8's rotation for lead screw 9 rotates, thereby drives the rotation of nut 11, and the fixed second bearing 12 in side of nut 11 then moves along with the rotation of nut 11, and the fixed movable plate 13 in top of second bearing 12 then can move, then can adjust operation panel 30 far and near, and the staff of the difference of being convenient for uses.

The four corners of the lower surface of the operating table 1 are welded with the supporting legs 2, the supporting legs 2 are internally provided with empty grooves 24, the four side surfaces of the empty grooves 24 are respectively provided with sliding grooves 25, air guide tubes 22 are embedded into the upper parts of the insides of the supporting legs 2, the lower ends of the air guide tubes 22 are communicated with air bags 26, the lower surfaces of the air bags 26 are fixed on a supporting plate 27, second fixing pieces 28 are fixed below the supporting plate 27, and balls 29 are arranged inside the second fixing pieces 28; the electric air pump 16 is electrically connected with the operation panel 30, the electric air pump 16 is provided with an air outlet pipe 19 and an air inlet pipe 20, the air inlet pipe 20 is sleeved with a connecting piece 21, the connecting piece 21 is designed to be detachable, the other end of the connecting piece 21 is fixed with an air guide pipe 22, a valve 23 is arranged on the air guide pipe 22, and the air guide pipe 22 is designed to be four branch pipes; the other end of the air duct 22 is embedded into the support leg 2, the air duct 22 is fixed on the lower surface of the operating table 1 by a clamping piece, a hollow groove 24 is formed in the support leg 2, an air bag 26 and a support plate 27 are arranged in the hollow groove 24, the center of each of four side surfaces of the support plate 27 is provided with a bulge which is positioned in a sliding groove 25, a second fixing piece 28 is arranged below the support plate 27, the second fixing piece 28 is a hollow round ball with the length of five sixths, the ball 29 is arranged in the second fixing piece 28, the size of the ball 29 is matched with the hollow size of the second fixing piece 28, the ball 29 is prevented from falling off while exposing a certain size, the air bag 26 is inflated under the action of the electric air pump 16, so that the support plate 27 slides, whether the ball 29 leaks out of the lower part of the support leg 2 or not, and the device can be moved and placed conveniently, and the contraction of the balls 29 avoids long-term compression from affecting the movement of the balls 29.

The display board 4 is arranged above the fixed shaft 3, the fixed shaft 3 is embedded at the lower end of the display board 4, the box body 5 is fixed on the side surface of the display board 4, three groups of first fixing pieces 18 are fixed on the lower surface of the box body 5, a ball body 17 is placed inside the three groups of first fixing pieces 18, a hydraulic cylinder 15 is fixed below the ball body 17, the hydraulic cylinder 15 is electrically connected with the operation panel 30, the hydraulic cylinder 15 is fixed inside the operation table 1, a hole penetrating through the operation table 1 is formed above the hydraulic cylinder 15, the box body 5 is fixed on the side surface of the display board 4, the first fixing piece 18 is fixed on the lower surface of the box body 5, the ball body 17 is arranged inside the first fixing piece 18, the top end of the hydraulic cylinder 15 is fixed below the ball body 17, the hydraulic cylinder 15 stretches out and draws back to enable the first fixing piece 18 to rotate on the surface of the ball body 17, and the angle of the display panel 4 can be adjusted.

The through groove 6 penetrates through the upper surface of the operating platform 1 and the placing groove 7, and a supporting column 14 is arranged in the through groove 6; the first fixing member 18 is a one-third sphere, and a hole is formed in the first fixing member 18, and the hole is two-thirds of the size of the sphere 17; the second fixing member 28 is a hollow sphere of five sixths of volume, and the hollow size of the second fixing member 28 matches the size of the ball 29.

It should be noted that, the utility model relates to a building electric full-automatic energy-saving control device, when using, the start of the servo motor 8 is controlled by the operation panel 30, through the rotation of the servo motor 8, the lead screw 9 rotates, thereby the rotation of the nut 11 is driven, the second bearing 12 fixed on the side of the nut 11 moves along with the rotation of the nut 11, the movable plate 13 fixed on the top end of the second bearing 12 can move, and then the distance of the operation panel 30 can be adjusted, which is convenient for different workers to use, through the box 5 fixed on the side of the display panel 4, the lower surface of the box 5 is fixed with the first fixing part 18, the inside of the first fixing part 18 is provided with the sphere 17, the lower part of the sphere 17 is fixed on the top end of the hydraulic cylinder 15, the expansion of the hydraulic cylinder 15 is controlled by the operation panel 30, so that the first fixing part 18 rotates on the surface of the sphere 17, therefore, the box body 5 can rotate by the fixed shaft 3 by utilizing the extension and contraction of the hydraulic cylinder 15, the angle of the display panel 4 can be adjusted, the hollow groove 24 is formed in the supporting leg 2, the air bag 26 and the supporting plate 27 are arranged in the hollow groove 24, the center of four side surfaces of the supporting plate 27 is provided with the bulge which is positioned in the sliding groove 25, the second fixing part 28 is arranged below the supporting plate 27, the second fixing part 28 is a hollow round ball with the length of five sixths, the ball 29 is arranged in the second fixing part 28, the size of the ball 29 is matched with the hollow size of the second fixing part 28, the ball 29 is prevented from falling off when being exposed to a certain size, when the device needs to be moved, the connecting part 21 is arranged on the air outlet pipe 19 of the electric air pump 16, the air bag 26 is inflated until the ball 29 is exposed below the supporting leg 2, the operation of the electric air pump 16 is stopped, the valve 23 is screwed on, when the device is placed, the connecting piece 21 is installed on the air inlet pipe 20 of the electric air pump 16, the valve 23 is opened and the electric air pump 16 is started, the air bag 26 is deflated, the air bag 26 is inflated or not under the action of the electric air pump 16, so that the supporting plate 27 slides, whether the balls 29 leak out of the lower part of the supporting legs 2 or not is realized, the device is convenient to move and place, and the balls 29 shrink, and the phenomenon that long-term extrusion influences the movement of the balls 29 is avoided.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides an electric full-automatic energy-saving control device of building, includes operation panel (1), the last fixed surface of operation panel (1) has fixed axle (3), the center department embedding of operation panel (1) lower surface has electronic air pump (16), standing groove (7) have been seted up to the inside of operation panel (1), three logical groove (6), its characterized in that have been seted up to group on operation panel (1): the inside one side of standing groove (7) is provided with servo motor (8), servo motor (8) imbed in operation panel (1), the output top of servo motor (8) is fixed with lead screw (9), the one end of lead screw (9) is fixed with first bearing (10), another side at standing groove (7) is fixed in first bearing (10), two sets of nut (11) have been cup jointed on lead screw (9), and are two sets of the lateral surface of nut (11) cup joints and is fixed with second bearing (12), the upper end of second bearing (12) is fixed with movable plate (13), the last fixed surface of movable plate (13) has support column (14), the upper end of support column (14) is fixed with operating panel (30), operating panel (30) and servo motor (8) electric connection.

2. The electric full-automatic energy-saving control device for the building according to claim 1, characterized in that: landing leg (2) have all been welded to four corners of operation panel (1) lower surface, dead slot (24) have been seted up to the inside of landing leg (2), sliding tray (25) have all been seted up to four sides of dead slot (24), the inside top embedding of landing leg (2) has air duct (22), the lower extreme intercommunication of air duct (22) has gasbag (26), the lower fixed surface of gasbag (26) is on backup pad (27), the below of backup pad (27) is fixed with second mounting (28), the internally mounted of second mounting (28) has ball (29).

3. The electric full-automatic energy-saving control device for the building according to claim 1, characterized in that: fixed axle (3) top is provided with display panel (4), and fixed axle (3) embedding is at the lower extreme of display panel (4), the side of display panel (4) is fixed with box (5), the lower surface mounting of box (5) has three first mounting (18), three sets spheroid (17) have been placed to the inside of first mounting (18), the below of spheroid (17) is fixed with pneumatic cylinder (15), pneumatic cylinder (15) and operating panel (30) electric connection, the inside at operation panel (1) is fixed in pneumatic cylinder (15), and the top of pneumatic cylinder (15) is equipped with the hole that link up with operation panel (1).

4. The electric full-automatic energy-saving control device for the building according to claim 1, characterized in that: the through groove (6) penetrates through the upper surface of the operating platform (1) and the placing groove (7), and a supporting column (14) is arranged in the through groove (6).

5. The electric full-automatic energy-saving control device for the buildings according to claim 3, characterized in that: the first fixing piece (18) is a one-third sphere, a hole is formed in the first fixing piece (18), and the hole is two-thirds of the size of the sphere (17).

6. The electric full-automatic energy-saving control device for the building according to claim 1, characterized in that: electric air pump (16) and operating panel (30) electric connection, electric air pump (16) are provided with outlet duct (19) and intake pipe (20), connecting piece (21) have been cup jointed in intake pipe (20), connecting piece (21) design is for dismantling the pattern, the other end of connecting piece (21) is fixed with air duct (22), install valve (23) on air duct (22), air duct (22) design is four lateral pipes.

7. The electric full-automatic energy-saving control device for the buildings according to claim 6, characterized in that: the other end of the air duct (22) is respectively embedded into the support legs (2), and the air duct (22) is fixed on the lower surface of the operating platform (1) by a clamping piece.

8. The electric full-automatic energy-saving control device for the building according to claim 2, characterized in that: the second fixing piece (28) is a hollow ball with five sixths of volume, and the hollow size of the second fixing piece (28) is matched with the size of the ball (29).

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