CN218956702U - Intelligent electric quantity transmitting device - Google Patents

Abstract

The utility model relates to the field of electric energy detection, in particular to an intelligent electric quantity transmitting device which comprises a transmitter main body and sliding rails, wherein the bottom end of the transmitter main body is provided with a groove, the sliding rails are arranged in the groove in a penetrating mode and are in sliding connection with the transmitter main body, and fixing mechanisms enabling the sliding rails to be detachably connected with the transmitter main body are arranged on groove surfaces on two sides of the groove.

Description

Intelligent electric quantity transmitting device

Technical Field

The application relates to the technical field of electric energy detection, in particular to an intelligent electric quantity transmitting device.

Background

The electric quantity transmitting device is widely applied to electric measurement, itinerant detection, automatic control, scheduling and the like in the industrial field. The intelligent electric quantity transmitting device can convert signals such as current, voltage, power, frequency, power factor and the like into direct current, direct voltage and the like.

When the electric quantity transmitting device is installed and used, the electric quantity transmitting device can be installed on the guide rail, and the electric quantity transmitting device can be directly fixed on the upper wall body through bolts; however, the electric quantity transmitting device is fixed on the guide rail, and can slide on the guide rail without stable fixation; when the electric quantity transmitting device is fixed by bolts, the electric quantity transmitting device can be fixed at the same position, and when the position of the electric quantity transmitting device needs to be changed, holes are additionally punched, so that time and labor are wasted.

Disclosure of Invention

This application provides an electric quantity intelligent transmitter in order to promote electric quantity intelligent transmitter and change the convenience of position.

The technical aim of the application is achieved through the following technical scheme:

the utility model provides an electric quantity intelligent transmission device, includes transmitter main part and slide rail, transmitter main part bottom is provided with the recess, and the slide rail wears to establish inside the recess and with transmitter main part sliding connection, is provided with the fixed establishment who makes slide rail and transmitter main part realization detachable connection at recess both sides groove surface.

Through above-mentioned technical scheme, fixed establishment forms the slide rail with the changer and is connected to when the position of slide rail and changer needs to change, fixed establishment relaxes the fixed to slide rail and changer, makes the changer can slide along the slide rail, and when electric quantity intelligence transmitter reached the default position, fixed establishment tightly pressed the changer main part on the slide rail body, changed the position through fixed establishment. When the sliding rail and the transmitter need to be disassembled, the fixing mechanism is completely in contact with the sliding rail and the transmitter to be fixed, so that the sliding rail is completely separated from the transmitter, and the sliding rail and the transmitter can be disassembled.

Preferably: the fixing mechanism comprises a sliding sleeve plate and a spring; the sliding sleeve plates are arranged in two, the two sliding sleeve plates are arranged on two sides of the sliding rail respectively, one end, far away from the sliding rail, of the sliding sleeve plate extends into the transmitter main body and is in sliding connection with the transmitter main body, the spring is arranged between the sliding sleeve plate and the transmitter main body, and the spring can drive the sliding sleeve plate to abut against the side face of the sliding rail.

Through above-mentioned technical scheme, when fixed establishment forms to slide rail and changer and is connected, the spring is in compression state, the one end fixed connection of spring is on the slip bushing board, consequently, the slip bushing board pushes up on the slide rail through the elasticity of spring, the one end of slip bushing board is in the changer main part, the other end is tightly in the slide rail body, when electric quantity transmission device needs to change the position, make and continue compression spring, the slip bushing board slides to the changer main part in, the slip bushing board is in the clearance with the slide rail this moment, the changer main part can slide to the position of predetermineeing along the slide rail. When the transmitter main body is required to be separated from the sliding rail, the spring is continuously compressed, the sliding sleeve plate continuously slides along the direction far away from the sliding rail, the sliding sleeve plate continuously slides towards the transmitter main body, and when the spring is compressed to a fully compressed state, the fixing mechanism is completely separated from the sliding rail, and the transmitter main body is taken out from the sliding rail.

Preferably: the side that is close to the slide rail at the slip cap plate is provided with the plastic slab of U-shaped, and the open opening of plastic slab deviates from with the slide rail mutually, the distance of plastic slab two sides is greater than the width of changer main part, and is provided with the buckle on plastic slab two sides.

Through the technical scheme, when the fixing mechanism needs to stretch out and draw back, the plastic plate can be pulled back by the buckle hand arranged on the plastic plate directly, the fixing mechanism is driven to retract, and the potential safety hazard that the hand is clamped by the sliding sleeve plate and the sliding rail of the fixing mechanism when the fixing mechanism is directly retracted by the hand is avoided.

Preferably: the side surfaces of the plastic plates, which are parallel to the sliding rails, are arranged to be cambered surfaces, and the extension parts of the top ends of the sliding rails are also arranged to be smooth cambered surfaces.

Through above-mentioned technical scheme, during installation of electric quantity intelligent transmitter, push down the changer main part on to the slide rail, the changer main part is close to each other with the slide rail, and when the cambered surface of smooth cambered surface of plastic slab and slide rail contacted each other, two cambered surfaces played the guide effect each other, made the plastic slab remove along the orbit of cambered surface, finally installs on the slide rail.

Preferably: the transmitter main body is provided with a threaded hole penetrating through the transmitter main body, the threaded hole is formed in one side, close to the groove opening, of the sliding sleeve plate, and the central axis of the threaded hole is horizontal and perpendicular to the length direction of the sliding rail.

Through above-mentioned technical scheme, screw rod accessible and threaded connection, with electric quantity intelligent transmitter top on the slide rail body, play the more firm effect of being connected to transmitter main part and slide rail, when needs change the position, the screw rod is screwed out, and electric quantity intelligent transmitter slides to the position of change on the slide rail, and reuse screw rod is with transmitter main part top fastening on the slide rail.

Preferably: a sleeve column can be arranged on the side face of the groove, and the spring is sleeved on the sleeve column.

Through the technical scheme, the sleeve column plays a supporting role on the spring, so that the spring stretches and contracts by taking the sleeve column as a support, and the problem that a sliding sleeve plate connected with the spring is inclined along with the bending of the spring due to the bending of the spring when the spring is overlong is avoided.

Preferably: the sliding sleeve plate is characterized in that fixing blocks are arranged on the side faces of the grooves, sliding ways are arranged on the two side faces of the fixing blocks, the inside of the sliding sleeve plate is hollow, the side faces far away from the sliding rails are completely opened, sliding grooves are formed in the inner walls of the cavities of the sliding sleeve plate, and the sliding sleeve plate and the fixing blocks are in sliding connection.

Through above-mentioned technical scheme, when the slip cap plate slides to the outside of changer main part, the slip cap plate can rely on the fixed block to be the support, slides along the slide of fixed block simultaneously, and the direct of slip cap plate when having avoided the slip cap plate to the caulking groove outside drops and leads to fixed establishment unable work.

In summary, the present application has the following technical effects:

1. set up fixed establishment in this application and played the spacing effect of support to the slide rail, when electric quantity intelligent transmitter slides on the slide rail and reaches the position of predetermineeing, utilize the screw rod to insert in the screw hole soon, with electric quantity intelligent transmitter top on the slide rail, play and step up fixed action, when needs change the position, the screw rod is screwed out, and electric quantity intelligent transmitter slides to the position of changing on the slide rail, carries out the screw rod again and pushes up tightly fixedly, reaches the purpose of stable fixation when making electric quantity intelligent transmitter be convenient for change the position like this again.

Drawings

FIG. 1 is an overall block diagram of an intelligent power transmission device in an embodiment of the present application;

FIG. 2 is an overall block diagram of another angle of the intelligent power transmitter in an embodiment of the present application;

FIG. 3 is a front half cross-sectional view of an embodiment of the present application;

FIG. 4 is a side cross-sectional view of an embodiment of the present application;

fig. 5 is a partial enlarged view at a in fig. 3.

In the figure: 1. a transmitter body; 2. a slide rail; 11. a groove; 3. a fixing mechanism; 31. a sliding sleeve plate; 32. a sleeve column; 33. a spring; 34. a fixed block; 35. a caulking groove; 36. a chute; 37. a slideway; 4. a plastic plate; 41. a handle is buckled; 5. and (3) a screw.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1-3, an intelligent electric quantity transmitting device comprises a transmitter main body 1, a sliding rail 2 and a fixing mechanism 3, wherein a groove 11 is formed in the transmitter main body 1, the transmitter main body 1 can form sliding connection with the sliding rail 2 through the groove 11, so that the transmitter main body 1 can slide to a preset position on the sliding rail 2 at will, and the fixing mechanism 3 is arranged on the transmitter main body 1 and can fix the transmitter main body 1 on the sliding rail 2; when the main body 1 needs to be changed in position, the fixing mechanism 3 releases the fixing of the position of the transmitter main body 1, and the transmitter main body 1 slides to a required position along the sliding rail 2.

Referring to fig. 2 to 4, the fixing mechanism 3 includes a screw 5, a fixing block 34, a socket 32, a sliding socket plate 31, a spring 33, and a caulking groove 35. The two fixed blocks 34 are arranged, the two fixed blocks 34 are respectively and fixedly connected to two side surfaces of the groove 11, which are close to the sliding rail 2, the two side surfaces of the fixed blocks 34 are provided with slide ways 37, the interior of the sliding sleeve plate 31 is hollow and the end surface, which is far away from the sliding rail 2, of the sliding sleeve plate 31 is completely opened, the inner wall of the sliding sleeve plate 31 is provided with a sliding groove 36, and the sliding sleeve plate 31 is sleeved on the fixed blocks 34 and is in sliding connection with the fixed blocks 34; a caulking groove 35 which is in clearance fit with the sliding sleeve plate 31 is formed on the side wall of the bottom end of the transmitter main body 1, and the transmitter main body 1 slides in the caulking groove 35.

One end of the spring 33 is fixedly connected to the fixed block 34, and the other end is fixed to the bottom wall of the sliding sleeve plate 31. The sleeve column 32 is fixed on the side surface of the fixed block 34 far away from the side wall of the groove 11, the central axis of the sleeve column 32 is horizontal and vertical to the side surface of the fixed block 34, the spring 33 is sleeved on the sleeve column 32, the sleeve column 32 plays a supporting role on the spring 33, the spring 33 stretches and contracts by taking the sleeve column 32 as a support, and the problem that the sliding sleeve plate 31 connected with the spring 33 is inclined along with the bending of the spring due to the bending of the spring 33 when the spring 33 is overlong is avoided. A threaded hole penetrating through the transmitter body 1 is formed in the transmitter body, the threaded hole is formed in one side, close to the notch of the groove 11, of the sliding sleeve plate 31, and the central axis of the threaded hole is horizontal and perpendicular to the length direction of the sliding rail 2. The screw rods 5 are arranged in two, the two screw rods 5 are respectively screwed in the threaded holes, one end of each screw rod 5 is tightly propped against the rail body of the sliding rail 2, and one end far away from the sliding rail 2 penetrates out of the transmitter main body 1.

The side surface of the sliding sleeve plate 31, which is close to the sliding rail 2, is provided with a U-shaped plastic plate 4, an opening of the plastic plate 4 is far away from the sliding rail 2, the distance between the two side surfaces of the plastic plate 4 is larger than the width of the transmitter main body 1, and the two side surfaces of the plastic plate 4 are provided with buckles 41. The side surface of the plastic plate 4 parallel to the sliding rail 2 is set to be an arc surface, and the top extension part of the sliding rail 2 is also set to be a smooth arc surface. When the intelligent electric quantity transmitting device is installed, the transmitter main body 1 is pressed on the sliding rail 2, the transmitter main body 1 and the sliding rail 2 are close to each other, when the smooth cambered surface of the plastic plate 4 and the cambered surface of the sliding rail 2 are in contact with each other, the two cambered surfaces mutually play a role in guiding, so that the plastic plate 4 moves along the track of the cambered surface, and finally the intelligent electric quantity transmitting device is installed on the sliding rail 2. When the spring 33 is in a compressed state, the sliding sleeve plate 31 is tightly propped against the sliding rail 2 through the elasticity of the spring 33, then the screw 5 is connected with the threaded hole, the screw 5 is tightly propped against the sliding rail 2, the reinforcement and fixation effects on the transmitter main body 1 and the sliding rail 2 are achieved, and the fixing mechanism 3 is used for completely connecting the sliding rail 2 with the transmitter main body 1. When the transmitter main body 1 needs to be separated from the slide rail 2, the buckle 41 on the plastic plate 4 is pulled in a direction away from the slide rail 2, the sliding sleeve plate 31 slides in a direction away from the slide rail 2, the spring 33 connected to the sliding sleeve plate 31 and the fixed block 34 is compressed, the sliding sleeve plate 31 slides into the caulking groove 35, the spring 33 is compressed to be in a fully compressed state when the spring 33 is compressed to be equal to the length of the sleeve post 32, and at the moment, the sliding sleeve plate 31 is fully separated from the slide rail 2, and the transmitter main body 1 is taken out from the slide rail 2.

When the whole electric quantity intelligent transmitting device works, firstly, the transmitter main body 1 is installed on the sliding rail 2, when the sliding sleeve plate 31 is installed, the sliding sleeve plate 31 is retracted to drive the spring 33 to retract, when the sliding rail 2 is clamped at one end of the sliding sleeve plate 31 far away from the notch of the groove 11, the spring 33 is reset to drive the sliding sleeve plate 31 to slide towards the direction close to the sliding rail 2, at the moment, the transmitter main body 1 and the sliding rail 2 form sliding connection through the elastic fixing mechanism 3, when the transmitter main body 1 slides to a preset position, the transmitter main body 1 is propped against the sliding rail 2 through the screw 5, when the position of the transmitter main body 1 is needed, the screw 5 is unscrewed, the buckle 41 on the plastic plate 4 is pulled towards the direction far away from the sliding rail 2, the sliding sleeve plate 31 slides along the direction far away from the sliding rail 2, the spring 33 connected to the sliding sleeve plate 31 and the fixing block 34 is compressed, the sliding sleeve plate 31 slides into the embedded groove 35, the transmitter main body 1 slides to a designated position along the sliding rail 2, the buckle 41 is loosened, and the spring 33 is reset to drive the sliding sleeve plate 31 to prop against the sliding sleeve plate 2 on the rail 2, and the screw 5 is propped against the sliding rail 2.

Through the above embodiment, the position is changed while the stable fixation is performed between the transmitter body 1 and the slide rail 2.

Spatially relative terms, such as "upper," "lower," "left," "right," and the like, may be used in the embodiments for ease of description to describe one element or feature's relationship to another element or feature's illustrated in the figures. It will be understood that the spatial terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "under" other elements or features would then be oriented "over" the other elements or features. Thus, the exemplary term "lower" may encompass both an upper and lower orientation. The device may be otherwise positioned (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Moreover, relational terms such as "first" and "second", and the like, may be used solely to distinguish one element from another element having the same name, without necessarily requiring or implying any actual such relationship or order between such elements.

The present embodiment is merely illustrative of the present application and is not intended to be limiting, and those skilled in the art, after having read the present specification, may make modifications to the present embodiment without creative contribution as required, but is protected by patent laws within the scope of the claims of the present application.

Claims (7)

1. The utility model provides an electric quantity intelligence transmission device, includes changer main part (1) and slide rail (2), its characterized in that: the transmitter is characterized in that a groove (11) is formed in the bottom end of the transmitter main body (1), the sliding rail (2) is arranged inside the groove (11) in a penetrating mode and is in sliding connection with the transmitter main body (1), and fixing mechanisms (3) enabling the sliding rail (2) to be detachably connected with the transmitter main body (1) are arranged on groove surfaces on two sides of the groove (11).

2. The intelligent power transmission device according to claim 1, wherein: the fixing mechanism (3) comprises a sliding sleeve plate (31) and a spring (33); the sliding sleeve plates (31) are arranged in two, the two sliding sleeve plates (31) are respectively arranged on two sides of the sliding rail (2), one end of the sliding sleeve plate (31) away from the sliding rail (2) extends to the inside of the transmitter main body (1) and is in sliding connection with the transmitter main body (1), the spring (33) is arranged between the sliding sleeve plate (31) and the transmitter main body (1), and the spring (33) can drive the sliding sleeve plate (31) to abut against the side face of the sliding rail (2).

3. The intelligent power transmission device according to claim 2, wherein: the side that is close to slide rail (2) at slip cover board (31) is provided with plastic slab (4) of U-shaped, and open opening of plastic slab (4) deviates from with slide rail (2), the distance of two sides of plastic slab (4) is greater than the width of changer main part (1), and is provided with on two sides of plastic slab (4) handle (41).

4. The intelligent power transmission device according to claim 3, wherein: the side surface of the plastic plate (4) parallel to the sliding rail (2) is set to be a cambered surface, and the top extension part of the sliding rail (2) is also set to be a smooth cambered surface.

5. The intelligent power transmission device according to claim 1, wherein: a threaded hole penetrating through the transmitter body (1) is formed in the transmitter body, the threaded hole is formed in one side, close to a notch of the groove (11), of the sliding sleeve plate (31), and the central axis of the threaded hole is horizontal and perpendicular to the length direction of the sliding rail (2).

6. The intelligent power transmission device according to claim 2, wherein: a sleeve column (32) is arranged on the side face of the groove (11), and the spring (33) is sleeved on the sleeve column (32).

7. The intelligent power transmission device according to claim 6, wherein: the side of the groove (11) is provided with a fixed block (34), both sides of the fixed block (34) are provided with slide ways (37), the inner part of the sliding sleeve plate (31) is hollow, the side far away from the slide rail (2) is completely opened, the inner wall of the cavity of the sliding sleeve plate (31) is provided with a slide groove (36), and the sliding sleeve plate (31) is in sliding connection with the fixed block (34).

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