CN209739751U - Network transformer skeleton delivery board structure - Google Patents

Abstract

A framework conveying plate structure of a network transformer comprises an inclined plate body arranged on a base through a supporting mechanism; the inclined plate body is provided with baffle strips which are attached to the surface of the inclined plate body at intervals, the baffle strips are provided with strip-shaped through holes which are parallel to the middle inclined section, and flat plates are detachably arranged in the strip-shaped through holes; the top surface of shelves strip is seted up a pair of bolt hole perpendicularly downwards, has seted up on the flat board with bolt hole and screw corresponding matched's hole respectively, and the flat board assembly back is through inserting the bolt in the bolt hole in order to spacing to the flat board, through insert and revolve twist the bolt in the screw in order to adjust the flat height. Not only can realize stable, the transport of batchization, direction uniformity, can be applicable to moreover and can both carry out effectual spacing to the skeleton of co-altitude not, whole mechanism can also carry out necessary lift in order to satisfy more actual operation demands when needing simultaneously, and the practicality is strong.

Description

network transformer skeleton delivery board structure

Technical Field

The utility model relates to a network transformer skeleton processing especially relates to a transport plate structure in network transformer skeleton processing.

background

The network transformer is widely applied to the electronic industry as an important electrical isolation element, in particular to digital equipment and the like. Network transformers typically include an injection molded bobbin with pins and a core encapsulated within the bobbin. In the processing or preparation of the network transformer, the core body and the framework are required to be prepared respectively and independently, and then the core body and the framework are packaged and assembled effectively and reasonably to form a network transformer product. In the preparation of network transformer skeleton, involve the transport to the article, no matter be the skeleton finished product, still treat the injection moulding spare that the base was handled further, all need accomplish the accepting of front and back process through modes such as transport, transportation, propelling movement to improve the production efficiency of production line. In the existing conveying modes, on one hand, a mode capable of simultaneously carrying out batch and tidy conveying is lacked, and most of the conveying modes are single-line or single-row conveying or batch and disorderly stacking conveying; on the other hand, if stable and effective conveying is ensured, the problem to be solved is also urgently needed, the consistency of the direction is ensured in the conveying process, and the tilting possibly generated in the conveying or pushing process is avoided.

SUMMERY OF THE UTILITY MODEL

The utility model provides a network transformer skeleton transport plate structure to solve above-mentioned problem, as the transfer passage of process around accepting in the production technology of skeleton, not only can realize stable, the transport of batchization, direction uniformity, can be applicable to moreover and can both carry out effectual spacing to the skeleton of co-altitude, whole mechanism can also carry out necessary lift in order to satisfy more actual operation demands when needing simultaneously, and the practicality is strong.

In order to realize the purpose of the utility model, the following technologies are adopted:

The utility model provides a network transformer skeleton transport plate structure, includes the slope plate body of locating on the base through supporting mechanism, its characterized in that:

The inclined plate body comprises a middle inclined section, an upper horizontal bearing part and a lower horizontal bearing part, wherein the upper horizontal bearing part and the lower horizontal bearing part are respectively connected to the upper end and the lower end of the middle inclined section;

The inclined plate body is provided with baffle strips which are attached to the surface of the inclined plate body at intervals, the baffle strips are provided with strip-shaped through holes which are parallel to the middle inclined section, and flat plates are detachably arranged in the strip-shaped through holes;

The top surface of the stop bar is vertically provided with a pair of bolt holes downwards, and the bolt holes penetrate through the bottom surface of the strip-shaped through hole and continue to extend along the vertical direction; the top surface of the blocking strip is vertically downwards provided with a screw hole, and the screw hole penetrates through the bottom surface of the strip-shaped through hole and continues to extend along the vertical direction; the flat plate is provided with holes which are respectively matched with the bolt holes and the screw holes in a corresponding mode, after the flat plate is assembled, the bolt is inserted into the bolt holes to limit the flat plate, and the bolt is inserted into the screw holes and screwed to adjust the height of the flat plate.

Furthermore, the supporting rod and the lifting mechanism form a supporting mechanism.

Further, the lifting mechanism is a hydraulic lifting cylinder.

Furthermore, there is a group of hydraulic lift cylinders located below the lower horizontal receiving portion, and a group of hydraulic lift cylinders located below the support rod.

Furthermore, the bottom surface of the support rod is flush with the bottom surface of the lower horizontal bearing part.

Furthermore, a conveying channel is formed between the adjacent stop bars.

The technical scheme has the advantages that:

The utility model relates to a transfer passage in order to accept front and back process in the production technology of skeleton not only can realize stable, the transport of batchization, direction uniformity, can be applicable to moreover and can both carry out effectual spacing to the skeleton of co-altitude, ensure the stability of carrying, can not produce around pushing and perk etc. whole mechanism can also carry out necessary lift when needing simultaneously to satisfy more actual operation demands, the practicality is strong.

drawings

Fig. 1 shows the overall structure of the present invention in a perspective view.

fig. 2 shows the overall structure side view of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-2, a framework conveying plate structure of a network transformer comprises an inclined plate body 2 arranged on a base 1 through a supporting mechanism.

the inclined plate body 2 comprises a middle inclined section, an upper horizontal receiving part 201 and a lower horizontal receiving part 202 which are respectively connected to the upper end and the lower end of the middle inclined section, the lower horizontal receiving part 202 is arranged on the lifting mechanism 11, the upper horizontal receiving part 201 is arranged on the lifting mechanism 11 through a supporting rod 12, and the lifting mechanism is arranged on the base 1. Wherein, the supporting rod 12 and the lifting mechanism 11 form a supporting mechanism. The bottom surface of the supporting rod 12 is flush with the bottom surface of the lower horizontal bearing part 202, so that the lifting or retracting consistency of the lifting mechanisms 11 can be ensured, and the upper end and the lower end of the inclined plate body 2 can be lifted and lowered at the consistent height.

Specifically, the lifting mechanism 11 is a hydraulic lifting cylinder. There is one hydraulic lift cylinder set below the lower horizontal receiving portion 202 and one hydraulic lift cylinder set below the support rod 12, which facilitates stable and efficient lifting.

The inclined plate body 2 is provided with stop bars 21 which are attached to the surface of the inclined plate body 2 at intervals, and a conveying channel 22 is formed between the adjacent stop bars 21.

The stop strip 21 is provided with a strip-shaped through hole 23 parallel to the middle inclined section, and a flat plate 24 is detachably mounted in the strip-shaped through hole 23 and used for limiting the height of the framework 3 conveyed in the conveying channel 22.

The top surface of the stop bar 21 is vertically downwards provided with a pair of bolt holes 25, and the bolt holes 25 penetrate through the bottom surface of the long strip-shaped through hole 23 and continue to extend along the vertical direction; the top surface of the stop bar 21 is vertically downwards provided with a screw hole 26, and the screw hole 26 penetrates through the bottom surface of the strip-shaped through hole 23 and continues to extend along the vertical direction; the flat plate 24 is provided with holes respectively corresponding to the bolt holes 25 and the screw holes 26, after the flat plate 24 is assembled, the flat plate 24 is limited by inserting the bolts 27 into the bolt holes 25, and the height of the flat plate 24 is adjusted by inserting and screwing the bolts 28 into the screw holes 26.

When the device is used, the processed framework 3 or the framework 3 needing to continue processing pins and the like is received on the structure of the conveying plate from the previous process, and respectively enters the conveying channel 22 from the upper horizontal receiving part 201, slides downwards along the conveying channel 22 under the inclined state by means of gravity and subsequent pushing action, and is conveyed to the next process from the lower horizontal receiving part 202, so that the batch conveying/pushing of the framework 3 is realized, meanwhile, the directionality of the conveying/pushing can be adjusted to be consistent, and the device is favorable for the next process to perform batch operation by utilizing the regular and tidy arrangement.

When the plate 24 is used, the plate is mounted in the elongated through hole 23 as required to be limited so as to improve the conveying stability and effectiveness. Specifically, the plate 24 may be selectively opened at the middle portion, and after the plate is mounted, the two sides of the plate 24 can be respectively limited to the conveying passages 22 at the two sides. According to the size of the framework 3 to be conveyed, the installation height of the flat plate 24 is adjusted, specifically, the flat plate 24 is lifted along the limited bolt by screwing the bolt 28, so that the distance between the bottom surface of the flat plate 24 and the surface of the middle inclined section can be well matched with the height of the framework 3 to be conveyed.

During the application, when need accept this structure in the condition of difference, can utilize elevating system 11 to go up and down according to the application demand of actual height, satisfy more application demands. During specific implementation or design construction, the inclination rate of the inclined plate body 2 can be reasonably considered and designed according to specific application scene requirements, so that the inclined plate body can be matched with different scenes of specific practical application.

The utility model relates to a transfer passage in order to accept front and back process in the production technology of skeleton, not only can realize stable, the batchization, the transport of direction uniformity, make the skeleton after the transport relatively neat, the arrangement of regularization, also can directly match with the subsequent handling of the orderly operation of batchization, and can be applicable to and can both carry out effectual spacing to the skeleton of co-altitude, ensure the stability of carrying, push forward and push and perk etc. around can not producing, whole mechanism can also carry out necessary lift when needing simultaneously, in order to satisfy more actual operation demands, therefore, the clothes hanger is strong in practicability.

Claims (6)

1. The utility model provides a network transformer skeleton transport plate structure, includes slope plate body (2) of locating on base (1) through supporting mechanism, its characterized in that:

The inclined plate body (2) comprises a middle inclined section, an upper horizontal bearing part (201) and a lower horizontal bearing part (202) which are respectively connected to the upper end and the lower end of the middle inclined section, the lower horizontal bearing part (202) is arranged on the lifting mechanism (11), the upper horizontal bearing part (201) is arranged on the lifting mechanism (11) through a support rod (12), and the lifting mechanism is arranged on the base (1);

The inclined plate body (2) is provided with stop bars (21) which are attached to the surface of the inclined plate body (2) at intervals, the stop bars (21) are provided with strip-shaped through holes (23) which are parallel to the middle inclined section, and flat plates (24) are detachably arranged in the strip-shaped through holes (23);

a pair of bolt holes (25) are vertically formed downwards in the top surface of the stop bar (21), and the bolt holes (25) penetrate through the bottom surface of the strip-shaped through hole (23) and continue to extend in the vertical direction; the top surface of the stop bar (21) is vertically provided with a screw hole (26) downwards, and the screw hole (26) penetrates through the bottom surface of the strip-shaped through hole (23) and continues to extend along the vertical direction; the flat plate (24) is provided with holes which are correspondingly matched with the bolt holes (25) and the screw holes (26) respectively, after the flat plate (24) is assembled, the bolt (27) is inserted into the bolt holes (25) to limit the flat plate (24), and the bolt (28) is inserted into the screw holes (26) and screwed to adjust the height of the flat plate (24).

2. The network transformer framework conveyor plate structure according to claim 1, characterized in that the supporting means are formed by the supporting rods (12) and the lifting mechanism (11).

3. The network transformer framework conveyor plate structure of claim 1, characterized in that the lifting mechanism (11) is a hydraulic lifting cylinder.

4. the network transformer skeleton transporting plate structure of claim 3, wherein there is a group of hydraulic lifting cylinders under the lower horizontal receiving part (202), and there is a group of hydraulic lifting cylinders under the supporting rod (12).

5. The network transformer backbone transport plate structure of claim 1, wherein the bottom surface of the post (12) is flush with the bottom surface of the lower horizontal shelf (202).

6. The network transformer framework conveyor plate structure according to claim 1, characterized in that a conveyor channel (22) is formed between adjacent stop bars (21).