CN210777303U - Electromechanical integrated combined experimental platform - Google Patents
Electromechanical integrated combined experimental platform Download PDFInfo
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- CN210777303U CN210777303U CN201922079913.8U CN201922079913U CN210777303U CN 210777303 U CN210777303 U CN 210777303U CN 201922079913 U CN201922079913 U CN 201922079913U CN 210777303 U CN210777303 U CN 210777303U
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- cover plate
- experiment platform
- apron
- platform
- connecting shaft
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Abstract
The utility model belongs to the technical field of electromechanical integrated combined type experiment platform, in particular to an electromechanical integrated combined type experiment platform, which comprises an experiment platform, wherein a support rod is arranged above the table top of the experiment platform, a connecting shaft is inserted in one end of the support rod, one end of the connecting shaft, which is close to the support rod, is inserted and connected with a cover plate, the cover plate is clamped between the support rods, a wind sheet is fixed in a back plate of the cover plate, and a sliding rod is fixed on the inner side of the cover plate, which is close to the wind sheet; traditional experiment platform has a backplate of standing, can support sliding machine, but this backplate can not be adjusted, and the structure is fixed, and the form is single, and the device will support sliding machine's backplate for the first time and change into bracing piece and apron two parts, and the apron can be driven by the motor rotation, utilizes the support of bracing piece to take place rotatoryly, utilizes the shape of apron self to cover in the experiment platform top after rotatory, can be when being not suitable for this experiment platform, protects experiment platform.
Description
Technical Field
The utility model belongs to the technical field of electromechanical integration combination formula experiment platform, concretely relates to electromechanical integration combination formula experiment platform.
Background
The mechatronics technology is a comprehensive technology which organically combines multiple technologies such as mechanical technology, electrical and electronic technology, microelectronic technology, information technology, sensor technology, interface technology, signal conversion technology and the like and comprehensively applies the technologies to the reality, modern automatic production equipment almost can be regarded as mechatronics equipment, the mechatronics needs a large amount of experimental study to skillfully master operation modes, and a lot of universities are provided at present and are provided with professions for teaching the mechatronics, and related teaching equipment is provided.
Although many electromechanical integrated experimental platforms are available in the market, the existing electromechanical integrated experimental platform technology has the following problems:
1. the electromechanical integrated combined type experiment platform does not have a protection device, and the structure is rigid and fixed and cannot be adjusted;
2. flexible dust and ventilation is not possible.
SUMMERY OF THE UTILITY MODEL
To solve the problems set forth in the background art described above. The utility model provides an mechatronic combination formula experiment platform has nimble regulation structure, can protect the experiment platform to and can dirt-proof characteristics.
In order to achieve the above object, the utility model provides a following technical scheme: an electromechanical integrated combined type experiment platform comprises an experiment platform, wherein a supporting rod is arranged above a table top of the experiment platform, a connecting shaft is inserted into one end of the supporting rod, and a cover plate is inserted into one end, close to the supporting rod, of the connecting shaft;
the utility model discloses a test platform, including apron, bracing piece, backplate, apron, hinge, motor, the apron presss from both sides and closes between the bracing piece, the backplate internal fixation of apron has the wind piece, the inboard that the apron is close to the wind piece is fixed with the slide bar, through connection has slip machinery between the slide bar, wherein one end of bracing piece is connected with the gear through the connecting axle, the outside meshing of gear has the hinge, hinge one end is connected with the motor, the side at the experiment platform is fixed to the motor.
As the utility model relates to an electromechanical integration combination formula experiment platform is preferred, constitute revolution mechanic between bracing piece and the apron, and the rotation angle scope of apron is 0-90.
As the utility model relates to an electromechanical integration combination formula experiment platform is preferred, the connecting axle is provided with two, and two connecting axles are fixed respectively in the junction of two bracing pieces and apron to the axle center and the gear axle center through connection of one of them connecting axle.
As the utility model relates to an electromechanical integration combination formula experiment platform is preferred, the backplate shape of apron sets up to "protruding" font.
As the utility model relates to an electromechanical integration combination formula experiment platform is preferred, the wind piece sets up to the shutter structure, and the wind piece has covered the three fourths of apron backplate area.
As the utility model relates to an electromechanical integration combination formula experiment platform is preferred, constitute sliding connection between slide bar and the slip machinery, and the maximum sliding distance of slip machinery is less than the length of slide bar.
Compared with the prior art, the beneficial effects of the utility model are that:
1. traditional experiment platform has a backplate of standing, can support sliding machine, but this backplate can not be adjusted, and the structure is fixed, and the form is single, and the device will support sliding machine's backplate for the first time and change into bracing piece and apron two parts, and the apron can be driven by the motor rotation, utilizes the support of bracing piece to take place rotatoryly, utilizes the shape of apron self to cover in the experiment platform top after rotatory, can be when being not suitable for this experiment platform, protects experiment platform.
2. The shape of the back plate behind the cover plate of the device is in a convex shape, the cover plate can be placed to be overturned to exceed the limit when the device is erected, three quarters of the area of the back plate part of the cover plate is provided with the wind blades, and the wind blades are of a shutter structure, so that the device can ventilate and can resist dust after being closed.
Drawings
The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:
fig. 1 is a schematic structural view of the present invention;
fig. 2 is a schematic side view of the present invention;
fig. 3 is a schematic view of the cover plate structure of the present invention.
In the figure: 1. an experimental platform; 2. a support bar; 3. a connecting shaft; 4. a cover plate; 5. wind slices; 6. a slide bar; 7. a sliding mechanism; 8. a gear; 9. a hinge; 10. an electric motor.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Example 1
Referring to fig. 1-3, the present invention provides the following technical solutions: an electromechanical integrated combined type experiment platform comprises an experiment platform 1, a support rod 2, a connecting shaft 3, a cover plate 4, a wind vane 5, a sliding rod 6, a sliding machine 7, a gear 8, a hinge 9 and a motor 10, wherein the support rod 2 is installed above a table board of the experiment platform 1, the connecting shaft 3 is inserted into one end of the support rod 2, and the cover plate 4 is inserted into one end, close to the support rod 2, of the connecting shaft 3;
the utility model discloses a test platform, including apron 4, bracing piece 2, backplate internal fixation of apron 4 has wind piece 5, the inboard that apron 4 is close to wind piece 5 is fixed with slide bar 6, through connection has slip machinery 7 between the slide bar 6, one of them one end of bracing piece 2 is connected with gear 8 through connecting axle 3, the outside meshing of gear 8 has hinge 9, hinge 9 one end is connected with motor 10, the side at experiment platform 1 is fixed to motor 10.
Specifically, a rotating structure is formed between the support rod 2 and the cover plate 4, and the rotating angle range of the cover plate 4 is 0-90 degrees.
In this embodiment: the shape of the cover plate 4 can enable the cover plate 4 to cover the experiment platform 1 after rotating, and the effect of protecting the experiment platform 1 is achieved.
Specifically, two connecting shafts 3 are arranged, the two connecting shafts 3 are respectively fixed at the connecting positions of the two support rods 2 and the cover plate 4, and the axis of one connecting shaft 3 is in through connection with the axis of the gear 8.
In this embodiment: the connecting shaft 3 connects the support rod 2 and the cover plate 4, and is also an indirect pivot for driving the cover plate 4 to rotate through the motor 10.
Specifically, the back plate of the cover plate 4 is in a shape of a convex.
In this embodiment: the shape of the back plate of the cover plate 4 can ensure that the part of the cover plate 4 which grows out can be supported on the back plate of the supporting rod 2 when the cover plate is erected, and the cover plate is not overturned beyond the limit.
Specifically, the wind blades 5 are arranged in a shutter structure, and the wind blades 5 cover three quarters of the area of the back plate of the cover plate 4.
In this embodiment: the louver structure of the wind blades 5 ensures that the cover plate 4 is not in a shape compared with the traditional plate, and can play two purposes of ventilation and dust prevention by utilizing the shape of the wind blades 5.
Specifically, the sliding rod 6 and the sliding mechanism 7 form a sliding connection, and the maximum sliding distance of the sliding mechanism 7 is smaller than the length of the sliding rod 6.
In this embodiment: the sliding mechanism 7 slides on the sliding rod 6 and is limited inside the cover plate 4, and the movement of the sliding mechanism 7 is not affected by the rotation of the cover plate 4.
The utility model discloses a theory of operation and use flow: when the electromechanical integrated combined type experiment platform is used, firstly, a simple understanding needs to be carried out on the electromechanical integrated combined type experiment platform, when the experiment platform 1 is normally operated, the wind pieces 5 can be shifted according to requirements and can be adjusted to be in a ventilation state, but before the experiment platform 1 is not used, the wind pieces 5 are required to be closed to play a role of closing and dust prevention, when the experiment platform 1 is not used, all electromechanical operations are suspended, the starting motor 10 drives the hinge 9 to rotate, the hinge 9 is meshed with the gear 8, so that the connecting shaft 3 connected with the axis of the gear 8 can drive the cover plate 4 to rotate under the clamping support of the supporting rod 2, the cover plate 4 is covered above the experiment platform 1 after being turned over, electromechanical equipment in the experiment platform 1 is protected, and the normal space occupation of the sliding rod 6 and the sliding machinery 7 cannot be influenced when the cover plate is covered due to a certain length of the top plate of the cover plate 4, the motor 10 is just turned over to open the cover plate 4, which is the working flow of the device.
Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.
Claims (6)
1. The utility model provides an electromechanical integration combination formula experiment platform, includes experiment platform (1), its characterized in that: a support rod (2) is arranged above the table top of the experiment platform (1), a connecting shaft (3) is inserted into one end of the support rod (2), and a cover plate (4) is inserted into one end, close to the support rod (2), of the connecting shaft (3), wherein the cover plate is connected with the connecting shaft;
apron (4) clamp is between bracing piece (2), the backplate internal fixation of apron (4) has wind piece (5), inboard that apron (4) are close to wind piece (5) is fixed with slide bar (6), through connection has slip machinery (7) between slide bar (6), the wherein one end of bracing piece (2) is connected with gear (8) through connecting axle (3), the outside meshing of gear (8) has hinge (9), hinge (9) one end is connected with motor (10), the side at experiment platform (1) is fixed in motor (10).
2. The mechatronic combined experimental platform of claim 1, wherein: a rotating structure is formed between the supporting rod (2) and the cover plate (4), and the rotating angle range of the cover plate (4) is 0-90 degrees.
3. The mechatronic combined experimental platform of claim 1, wherein: the two connecting shafts (3) are respectively fixed at the connecting positions of the two support rods (2) and the cover plate (4), and the axis of one connecting shaft (3) is in through connection with the axis of the gear (8).
4. The mechatronic combined experimental platform of claim 1, wherein: the back plate of the cover plate (4) is in a convex shape.
5. The mechatronic combined experimental platform of claim 1, wherein: the wind blades (5) are of a shutter structure, and the wind blades (5) cover three quarters of the area of the back plate of the cover plate (4).
6. The mechatronic combined experimental platform of claim 1, wherein: the sliding rod (6) and the sliding machine (7) form sliding connection, and the maximum sliding distance of the sliding machine (7) is smaller than the length of the sliding rod (6).
Priority Applications (1)
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CN201922079913.8U CN210777303U (en) | 2019-11-27 | 2019-11-27 | Electromechanical integrated combined experimental platform |
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CN201922079913.8U CN210777303U (en) | 2019-11-27 | 2019-11-27 | Electromechanical integrated combined experimental platform |
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CN210777303U true CN210777303U (en) | 2020-06-16 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111696393A (en) * | 2020-06-22 | 2020-09-22 | 深圳市铭禹泰实业有限公司 | Education informatization special teaching experiment platform |
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2019
- 2019-11-27 CN CN201922079913.8U patent/CN210777303U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111696393A (en) * | 2020-06-22 | 2020-09-22 | 深圳市铭禹泰实业有限公司 | Education informatization special teaching experiment platform |
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