CN215942811U - Micro-electromechanical separator for electromechanical integration - Google Patents

Abstract

The utility model discloses a micro-electromechanical separator for electromechanical integration, which comprises a base, wherein a plurality of supporting columns are fixedly connected to the bottom side wall of the base, a first rotating mechanism is arranged on the upper side wall of the base, a fixed column is fixedly connected to the upper side wall of the base, a containing mechanism is arranged on the side wall of the fixed column, and a movable groove is formed in the side wall of the fixed column. According to the utility model, the second telescopic rod is pushed to slide in the inner wall of the telescopic groove, the reachable length of the magnifier can be prolonged when the second telescopic rod slides outwards, the reachable length of the magnifier can be shortened when the second telescopic rod slides towards the inner wall of the telescopic groove, the reachable length of the magnifier can be adjusted through the sliding of the second telescopic rod in the inner wall of the telescopic groove, the position of the magnifier is adjusted, and the position to be separated is amplified, so that the magnifier is more convenient to disassemble, the disassembling speed and the maintenance efficiency are improved, and the disassembling difficulty is reduced.

Description

Micro-electromechanical separator for electromechanical integration

Technical Field

The utility model relates to the technical field of electromechanical separation, in particular to a micro-electromechanical separator for electromechanical integration.

Background

Nowadays, electromechanics are widely used, because people use electromechanics more and more frequently, some large-scale electromechanics are more and more inconvenient to use, people have higher and higher requirements on the volume and the power of the electromechanics, so that small-scale electromechanical equipment and electromechanical integrated equipment are more and more, and with the rise of the electromechanics, the corresponding maintenance industry is rapidly rising.

However, in the prior art, the micro motor has a small volume and small installed parts, and when the shell needs to be disassembled and separated during maintenance, the difficulty of disassembly is increased due to the small volume of the parts by maintenance personnel, so that the disassembly by the maintenance personnel is inconvenient, the disassembly speed is slow, and the maintenance efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a micro-electromechanical separator for electromechanical integration, which solves the problems in the prior art.

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

the utility model provides a micro-electromechanical separator for mechatronics, includes the base, fixedly connected with a plurality of support columns on the bottom lateral wall of base, be equipped with first slewing mechanism on the last lateral wall of base, fixedly connected with fixed column on the last lateral wall of base, be equipped with receiving mechanism on the lateral wall of fixed column, seted up the activity groove on the lateral wall of fixed column, the inner wall of activity groove is equipped with second slewing mechanism.

As a further improvement scheme of the technical scheme: first rotation mechanism includes first rotation groove, first rotation groove is seted up on the last lateral wall of base, the inner wall of first rotation groove rotates and is connected with the pivot, the upper end fixedly connected with operation panel of pivot, be equipped with fixed establishment on the last lateral wall of operation panel.

As a further improvement scheme of the technical scheme: the fixing mechanism comprises two fixing rods, the fixing rods are fixedly connected to the upper side wall of the operating platform, each fixing rod is fixedly connected to a limiting disc and an extrusion rod on the outer side wall of each fixing rod, each fixing rod is fixedly connected to a reset spring between the extrusion rod and the limiting disc, each reset spring is sleeved on the outer side wall of each fixing rod, and each extrusion pad is fixedly connected to the side wall of the extrusion rod.

As a further improvement scheme of the technical scheme: the accommodating mechanism comprises a placing groove, the placing groove is formed in the fixing column, an open groove is formed in the upper end of the placing groove, a traction rope is fixedly connected to the upper side wall of the open groove, and a screwdriver is fixedly connected to one end of the traction rope.

As a further improvement scheme of the technical scheme: the second rotating mechanism comprises a connecting rod, the connecting rod is fixedly connected between the inner walls of the movable grooves, a first telescopic rod is rotatably connected to the outer side wall of the connecting rod, and a telescopic mechanism is arranged inside the first telescopic rod.

As a further improvement scheme of the technical scheme: telescopic machanism is including flexible groove, flexible groove is seted up in the inside of first telescopic link, the inner wall sliding connection in flexible groove has the second telescopic link, the equal fixedly connected with stopper of both sides wall of second telescopic link, the lateral wall of second telescopic link is equipped with third slewing mechanism.

As a further improvement scheme of the technical scheme: the third slewing mechanism includes that the second rotates the groove, the second rotates the groove and sets up on the lateral wall of second telescopic link, the inner wall rotation in second rotation groove is connected with the connecting block, the one end fixedly connected with dwang of connecting block, the one end fixedly connected with magnifying glass of dwang.

As a further improvement scheme of the technical scheme: the shape of operation panel is circular setting, fixedly connected with friction pad on the bottom side wall of operation panel, the shape and the operation panel phase-match of friction pad.

Compared with the prior art, the utility model has the beneficial effects that:

by pushing the first telescopic rod, the first telescopic rod is stressed to rotate, the first telescopic rod rotates to drive the second telescopic rod to rotate, the second telescopic rod rotates to drive the rotating rod to rotate, the rotating rod rotates to drive the magnifier to rotate, and the magnifier rotates to enlarge the visual range of the magnifier; promote the second telescopic link and slide in the inner wall in flexible groove, when the second telescopic link outwards slides, can prolong the length that the magnifying glass can reach, when the second telescopic link slides in to the inner wall in flexible groove, can shorten the length that the magnifying glass can reach, can adjust the length that the magnifying glass can reach through the slip of second telescopic link in flexible inslot wall, adjust the position of magnifying glass, the position to needs separation is enlarged, it is more convenient when making to dismantle, improve the speed of dismantling and the efficiency of maintenance, reduce the degree of difficulty of dismantling.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings. The detailed description of the present invention is given in detail by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the utility model and together with the description serve to explain the utility model without limiting the utility model. In the drawings:

FIG. 1 is a schematic perspective view of a MEMS separator for mechatronics according to the present invention;

FIG. 2 is a schematic cross-sectional front view of a MEMS separator for mechatronics according to the present invention;

FIG. 3 is an enlarged schematic view of the structure at A in FIG. 2;

fig. 4 is a schematic top view of a mems separator for mechatronics according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a base; 2. a support pillar; 3. a first rotating groove; 4. a rotating shaft; 5. an operation table; 6. a friction pad; 7. fixing the rod; 8. an extrusion stem; 9. a limiting disc; 10. a return spring; 11. pressing the cushion; 12. fixing a column; 13. a placement groove; 14. opening the groove; 15. a hauling rope; 16. a screwdriver; 17. a movable groove; 18. a connecting rod; 19. a first telescopic rod; 20. a telescopic groove; 21. a second telescopic rod; 22. a limiting block; 23. a second rotating groove; 24. connecting blocks; 25. rotating the rod; 26. a magnifying glass.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the utility model. The utility model is described in more detail in the following paragraphs by way of example with reference to the accompanying drawings. Advantages and features of the present invention will become apparent from the following description and from the claims. It is to be noted that the drawings are in a very simplified form and are not to precise scale, which is merely for the purpose of facilitating and distinctly claiming the embodiments of the present invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When a component is referred to as being "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When a component is referred to as being "disposed on" another component, it can be directly on the other component or intervening components may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 4, in an embodiment of the present invention, a micro-electromechanical separator for electromechanical integration includes a base 1, a plurality of support pillars 2 are fixedly connected to a bottom side wall of the base 1, a first rotating mechanism is disposed on an upper side wall of the base 1, a fixed column 12 is fixedly connected to the upper side wall of the base 1, a receiving mechanism is disposed on a side wall of the fixed column 12, a movable groove 17 is disposed on a side wall of the fixed column 12, and a second rotating mechanism is disposed on an inner wall of the movable groove 17.

Referring to fig. 2, the first rotating mechanism includes a first rotating groove 3, the first rotating groove 3 is formed in an upper side wall of the base 1, an inner wall of the first rotating groove 3 is rotatably connected with a rotating shaft 4, an operating platform 5 is fixedly connected to an upper end of the rotating shaft 4, and a fixing mechanism is arranged on the upper side wall of the operating platform 5.

Referring to fig. 2, the fixing mechanism includes two fixing rods 7, the two fixing rods 7 are fixedly connected to the upper sidewall of the operating table 5, the upper end of each fixing rod 7 is fixedly connected with a limiting disc 9, the outer sidewall of each fixing rod 7 is slidably connected with an extrusion rod 8, a return spring 10 is fixedly connected between each extrusion rod 8 and the limiting disc 9, each return spring 10 is sleeved on the outer sidewall of the fixing rod 7, a extrusion pad 11 is fixedly connected to the sidewall of each extrusion rod 8 to push the extrusion rod 8 upwards, the extrusion rod 8 slides upwards on the sidewall of the fixing rod 7 and pushes the return spring 10, the electromechanical device to be fixed is placed on the top of the operating table 5, when the machine potential is below the extrusion pad 11, the extrusion rod 8 is not pushed any more, under the elastic force of the return spring 10, the return spring 10 pushes the extrusion rod 8 to slide downwards on the outer sidewall of the fixing rod 7, fix electromechanical, prevent that electromechanical in the in-process of separation from taking place to rock, lead to dismantling work to go on, after the separation is accomplished, upwards promote the extrusion stem 8 once more, extrusion stem 8 upwards slides and extrudees reset spring 10 on the lateral wall of dead lever 7, will fix the electromechanical taking out in extrusion pad 11 below, no longer fixed.

Referring to fig. 2, the accommodating mechanism includes a placing groove 13, the placing groove 13 is formed inside the fixing column 12, an open groove 14 is formed in the upper end of the placing groove 13, a pulling rope 15 is fixedly connected to the upper side wall of the open groove 14, a screwdriver 16 is fixedly connected to one end of the pulling rope 15, after the electromechanical fixation is completed, the screwdriver 16 is taken out of the placing groove 13, the screwdriver 16 is used for unscrewing the screw on the electromechanical shell, the screwdriver 16 is placed inside the placing groove 13 again after the electromechanical fixation is completed, the pulling rope 15 is arranged at the upper end of the screwdriver 16, the screwdriver 16 can be prevented from being lost, the screwdriver 16 cannot be found when the electromechanical shell is used, redundant time is consumed, and the electromechanical shell is troublesome.

Please refer to fig. 2, the second rotating mechanism includes a connecting rod 18, the connecting rod 18 is fixedly connected between the inner walls of the movable groove 17, the outer side wall of the connecting rod 18 is connected with a first telescopic rod 19 in a rotating manner, the inside of the first telescopic rod 19 is provided with a telescopic mechanism, during separation, the first telescopic rod 19 can be pushed, the first telescopic rod 19 is forced to rotate, the first telescopic rod 19 rotates to drive the second telescopic rod 21 to rotate, the second telescopic rod 21 rotates to drive the rotating rod 25 to rotate, the rotating rod 25 rotates to drive the magnifier 26 to rotate, the magnifier 26 rotates to enlarge the visual range of the magnifier 26, the speed of electromechanical separation is improved, and the difficulty of separation is reduced.

Referring to fig. 3, the telescopic mechanism includes a telescopic slot 20, the telescopic slot 20 is disposed inside the first telescopic rod 19, the inner wall of the telescopic slot 20 is slidably connected to a second telescopic rod 21, both side walls of the second telescopic rod 21 are fixedly connected to limit blocks 22, the side wall of the second telescopic rod 21 is provided with a third rotating mechanism for pushing the second telescopic rod 21 to slide in the inner wall of the telescopic slot 20, when the second telescopic rod 21 slides outwards, the length that the magnifier 26 can reach can be prolonged, when the second telescopic rod 21 slides into the inner wall of the telescopic slot 20, the length of the magnifier 26 can be shortened, the length of the magnifier 26 can be adjusted by sliding the second telescopic rod 21 in the inner wall of the telescopic groove 20, so that the separation is more convenient, the limiting block 22 has the limiting function, the second telescopic rod 21 can be prevented from falling off from the inside of the telescopic slot 20 when sliding in the inner wall of the telescopic slot 20.

Please refer to fig. 3, the third slewing mechanism includes the second rotation groove 23, the second rotation groove 23 is seted up on the lateral wall of second telescopic link 21, the inner wall rotation of second rotation groove 23 is connected with connecting block 24, the one end fixedly connected with dwang 25 of connecting block 24, the one end fixedly connected with magnifying glass 26 of dwang 25, rotate dwang 25, dwang 25 rotates and drives magnifying glass 26 and rotate, can adjust the angle of magnifying glass 26, because the model of small motor is less, the dismantlement degree of difficulty to it is higher, can enlarge the part through the setting of magnifying glass 26, make the separation department clearer, it is more swift to dismantle, connecting block 24's setting can have a limiting effect to dwang 25, prevent that dwang 25 from the magnifying glass 26 is inside to drop.

Referring to fig. 1, the operating table 5 is circular, the bottom side wall of the operating table 5 is fixedly connected with the friction pad 6, the friction pad 6 is matched with the operating table 5 in shape, the operating table 5 is more convenient to rotate due to the circular arrangement, the friction force between the operating table 5 and the base 1 can be increased due to the arrangement of the friction pad 6, the operating table is not easy to rotate when the separating machine is electromechanical, and the separating efficiency is improved.

The working principle of the utility model is as follows:

the extrusion rod 8 is pushed upwards, the extrusion rod 8 slides upwards on the side wall of the fixed rod 7 and extrudes the reset spring 10, the electromechanical device to be fixed is placed at the top of the operating platform 5, when the machine voltage is below the extrusion pad 11, the extrusion rod 8 is not pushed any more, under the elastic force action of the reset spring 10, the reset spring 10 pushes the extrusion rod 8 to slide downwards on the outer side wall of the fixed rod 7, the electromechanical device is fixed, and the electromechanical angle placed on the operating platform 5 is adjusted by rotating the operating platform 5;

by pushing the first telescopic rod 19, the first telescopic rod 19 is forced to rotate, the first telescopic rod 19 rotates to drive the second telescopic rod 21 to rotate, the second telescopic rod 21 rotates to drive the rotating rod 25 to rotate, the rotating rod 25 rotates to drive the magnifier 26 to rotate, and the magnifier 26 rotates to enlarge the visual range of the magnifier 26; the second telescopic rod 21 is pushed to slide in the inner wall of the telescopic groove 20, when the second telescopic rod 21 slides outwards, the reachable length of the magnifying glass 26 can be prolonged, when the second telescopic rod 21 slides in the inner wall of the telescopic groove 20, the reachable length of the magnifying glass 26 can be shortened, the reachable length of the magnifying glass 26 can be adjusted through the sliding of the second telescopic rod 21 in the inner wall of the telescopic groove 20, after the position of the magnifying glass 26 is adjusted, the screwdriver 16 is taken out of the placing groove 13, the screwdriver 16 is used for screwing down a screw on the electromechanical shell, after the completion, the screwdriver 16 is placed in the placing groove 13 again, the upper end of the screwdriver 16 is provided with the traction rope 15, the screwdriver 16 can be prevented from being lost, and the screwdriver 16 cannot be found when in use;

after the separation is completed, the extrusion rod 8 is pushed upwards again, the extrusion rod 8 slides upwards on the side wall of the fixed rod 7 and extrudes the return spring 10, and the electromechanical device fixed below the extrusion pad 11 is taken out and is not fixed any more.

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 various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.

Claims (8)

1. The micro-electromechanical separator for the electromechanical integration comprises a base and is characterized in that a plurality of supporting columns are fixedly connected to the bottom side wall of the base, a first rotating mechanism is arranged on the upper side wall of the base, a fixed column is fixedly connected to the upper side wall of the base, a containing mechanism is arranged on the side wall of the fixed column, a movable groove is formed in the side wall of the fixed column, and a second rotating mechanism is arranged on the inner wall of the movable groove.

2. The separator of claim 1, wherein the first rotating mechanism comprises a first rotating groove, the first rotating groove is formed in the upper side wall of the base, a rotating shaft is rotatably connected to the inner wall of the first rotating groove, the upper end of the rotating shaft is fixedly connected with the operating platform, and a fixing mechanism is arranged on the upper side wall of the operating platform.

3. The separator of claim 2, wherein the fixing mechanism comprises two fixing rods, the two fixing rods are fixedly connected to the upper sidewall of the operating platform, a limiting disc is fixedly connected to the upper end of each fixing rod, a pressing rod is slidably connected to the outer sidewall of each fixing rod, a return spring is fixedly connected between each pressing rod and the limiting disc, each return spring is sleeved on the outer sidewall of the fixing rod, and a pressing pad is fixedly connected to the sidewall of each pressing rod.

4. The separator of claim 1, wherein the accommodating mechanism comprises a placement groove, the placement groove is formed inside the fixing column, an open groove is formed at an upper end of the placement groove, a pulling rope is fixedly connected to an upper side wall of the open groove, and a screwdriver is fixedly connected to one end of the pulling rope.

5. The separator of claim 1, wherein the second rotating mechanism comprises a connecting rod, the connecting rod is fixedly connected between the inner walls of the movable tank, a first telescopic rod is rotatably connected to the outer side wall of the connecting rod, and a telescopic mechanism is arranged inside the first telescopic rod.

6. The separator of claim 5, wherein the telescopic mechanism comprises a telescopic slot, the telescopic slot is opened inside the first telescopic rod, a second telescopic rod is slidably connected to an inner wall of the telescopic slot, both side walls of the second telescopic rod are fixedly connected with limit blocks, and a third rotating mechanism is arranged on a side wall of the second telescopic rod.

7. The micro-electromechanical separator for mechatronics according to claim 6, characterized in that the third rotation mechanism comprises a second rotation groove, the second rotation groove is opened on the side wall of the second telescopic rod, the inner wall of the second rotation groove is rotatably connected with a connecting block, one end of the connecting block is fixedly connected with a rotation rod, and one end of the rotation rod is fixedly connected with a magnifying lens.

8. The micro-electromechanical separator for mechatronics according to claim 2, wherein the operating platform is circular in shape, and a friction pad is fixedly connected to the bottom side wall of the operating platform, and the shape of the friction pad matches that of the operating platform.

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