CN218218040U - Debugging platform and combination formula intelligence debugging platform - Google Patents

Abstract

The utility model discloses a debugging table, which comprises at least two side frame assemblies arranged side by side, at least one bearing piece and at least one bearing plate; each side frame assembly comprises a first vertical rod, a second vertical rod and a bearing rod, wherein a plurality of groups of first clamping blocks are arranged on two sides of one side surface of each bearing piece, and the first clamping blocks are clamped in first connecting holes formed in the first vertical rods; the debugging device is arranged in an installation cavity arranged in the bearing piece, and the side surface of the bearing piece far away from the first clamping block is provided with a plurality of quick connectors connected with the debugging device; according to the scheme, the first clamping blocks are clamped in the first connecting holes, so that the bearing piece can be bridged between two adjacent side frame assemblies; the debugging table can be rapidly expanded left and right according to requirements, the debugging number of the debugging table is increased, the debugging table is simple in structure, locking and positioning are not needed in assembling of the debugging table, and the debugging table has the advantages of being modular in expansion and convenient to assemble.

Description

Debugging platform and combination formula intelligence debugging platform

Technical Field

The utility model relates to a technical field of hardware equipment debugging specifically is a debugging platform and combination formula intelligence debugging platform.

Background

The intelligent integration terminal is edge equipment of an intelligent Internet of things system, has the functions of information acquisition, internet of things agent and edge calculation, is installed on the power supply side of a distribution transformer of a distribution station area, and achieves online management and remote operation and maintenance of various kinds of edge Internet of things agent and intelligent terminals.

The traditional debugging tables correspond to one product and are of an integrated structure; the debugging platform can not meet the use requirement for aging debugging of the intelligent fusion terminal, the mass requirement of the intelligent fusion terminal becomes a trend at present according to the market requirement, and the mass production of the intelligent fusion terminal also brings the requirements for mass aging and mass debugging of the production; therefore, the utility model provides a but debugging platform of multiple product of nimble extension, debugging simultaneously.

Disclosure of Invention

In the prior art, the utility model aims to provide a debugging table of simple to operate, rational in infrastructure.

In order to achieve the above object, the utility model provides a following technical scheme:

a debugging table comprises at least two side frame assemblies, at least one bearing piece and at least one bearing plate, wherein the side frame assemblies are arranged side by side;

each side frame assembly comprises a first vertical rod, a second vertical rod and a bearing rod, the first vertical rod and the second vertical rod are respectively vertically arranged at two ends of the bearing rod, a plurality of first connecting holes are formed in the side face, close to the second vertical rod, of the first vertical rod along the length direction of the first vertical rod, a plurality of first connecting holes are formed in the side face, far away from the first vertical rod, of the second vertical rod along the length direction of the second vertical rod, and every two first connecting holes are arranged side by side; the top surface of the bearing rod is provided with a second connecting hole;

a plurality of groups of first clamping blocks are arranged on two sides of one side surface of the bearing piece, and the first clamping blocks are clamped in first connecting holes formed in the first vertical rods; the top surface of the bearing piece is an inclined surface, a plurality of limiting blocks are arranged on the inclined surface, and the limiting blocks are arranged in a U shape; an installation cavity is arranged in the bearing piece, a debugging device is arranged in the installation cavity, and a plurality of quick connectors connected with the debugging device are arranged on the side surface of the bearing piece, which is far away from the first clamping block;

the two sides of the lower end surface of the bearing plate are respectively provided with a connecting block matched with the second connecting hole, and the connecting blocks are clamped in the second connecting holes on the bearing rod;

furthermore, the side frame component is J-shaped, and the length of the first vertical rod is more than 3 times of that of the second vertical rod.

Furthermore, two connecting rods which are arranged in parallel are bridged between every two side frame assemblies, and the two connecting rods are connected to two ends of the first vertical rod respectively.

Furthermore, connecting plates are bridged between every two side frame assemblies; the both ends of connecting plate all are provided with a plurality of second joint pieces, and this second joint piece joint is in the third connecting hole that sets up on the carrier bar, and the third connecting hole is located the carrier bar is kept away from on the terminal surface of first pole setting.

Furthermore, the bottom end of the side frame component is provided with a supporting foot for supporting the side frame component.

Furthermore, the device also comprises a main control device, wherein the main control device is arranged on the bearing plate and is connected with the second vertical rod through first clamping blocks arranged at two ends of the main control device; the main control device is electrically connected with each debugging device.

Furthermore, the debugging platform comprises a top plate and two side plates, wherein first clamping blocks are arranged on the side faces of the top plate and the side plates, the top plate is bridged between every two side frame assemblies through the first clamping blocks, and the two side plates are vertically clamped on first vertical rods at two ends of the debugging platform.

Further, the length of the bearing part is smaller than the distance between two adjacent side frame assemblies.

On the other hand, the utility model provides a combination formula intelligence debugging platform, including the aforesaid debugging platform.

Adopt foretell technical scheme, compared with the prior art, the utility model, its beneficial effect who has is:

according to the scheme, the first clamping blocks are clamped in the first connecting holes, so that the bearing piece can be bridged between two adjacent side frame assemblies; the debugging table can be rapidly expanded left and right according to requirements, the debugging number of the debugging table is increased, the debugging table is simple in structure, locking and positioning are not needed in assembling of the debugging table, and the debugging table has the advantages of being modular in expansion and convenient to assemble.

The debugging table has a simple structure and ingenious design, meets the production requirements, is convenient to install and maintain and convenient to test, improves the production efficiency of enterprises, and reduces the complexity of assembly; meanwhile, assembling a bearing piece for debugging the intelligent fusion terminal with the corresponding model on a debugging table according to the specific debugging requirement; meanwhile, according to specific debugging requirements, the left and right width of the debugging table is greatly expanded, and the debugging convenience and flexibility of the debugging table are further improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the whole debugging table of the present invention.

Fig. 2 is a schematic diagram of the whole debugging table of the present invention.

Fig. 3 is a third schematic diagram of the whole debugging table of the present invention.

Fig. 4 is a first schematic structural diagram of the carrier of the present invention.

Fig. 5 is a schematic structural diagram of the carrier of the present invention.

Fig. 6 is a schematic structural view of the side frame assembly of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

As shown in one of fig. 1 to fig. 6, the present disclosure provides a debugging table, in which the debugging table 1 includes at least two side frame assemblies 2 arranged side by side, at least one bearing member 3, and at least one bearing plate 55; in addition, the side surfaces of the top plate 52 and the side plates 51 are respectively provided with a first clamping block 35, the top plate 52 is bridged between every two side frame assemblies 2 through the first clamping blocks 35, and the two side plates 51 are vertically clamped on the first vertical rods 21 at the two ends of the debugging table;

referring to fig. 1-3, in the present embodiment, the debugging platform 1 includes three side frame assemblies 2 arranged side by side, six bearing members 3, and two bearing plates 55;

referring to fig. 3 and 6, in order to provide the debugging table 1 with the characteristic of expansibility; the three side frame assemblies 2 are arranged side by side from left to right, each side frame assembly 2 comprises a first vertical rod 21, a second vertical rod 23 and a bearing rod 22, the first vertical rod 21 and the second vertical rod 23 are respectively vertically arranged at two ends of the bearing rod 22, a plurality of first connecting holes 24 are formed in the side surface, close to the second vertical rod 23, of the first vertical rod 21 along the length direction of the first vertical rod, a plurality of first connecting holes 24 are formed in the side surface, far away from the first vertical rod 21, of the second vertical rod 23 along the length direction of the second vertical rod, and every two first connecting holes 24 are arranged side by side; the top surface of the bearing rod 22 is provided with a second connecting hole 25; the side frame assembly 2 is J-shaped, supporting feet 26 for supporting the side frame assembly 2 are arranged at the bottom end of the side frame assembly 2, and the length of the first vertical rod 21 is 3 times larger than that of the second vertical rod 23;

wherein, both sides of one side of the bearing member 3 are provided with a plurality of sets of first clamping blocks 35, the first clamping blocks 35 are clamped in the first connecting holes 24 arranged on the first upright rods 21, and the first clamping blocks 35 are L-shaped and are matched with the first connecting holes 24; the first upright stanchion 21 is provided with two rows of first connecting holes 24 arranged in the length direction of the first upright stanchion 21, and every two first connecting holes 24 are arranged side by side; the first clamping blocks 35 are clamped in the first connecting holes 24, so that the bearing piece 3 can be bridged between two adjacent first vertical rods 21; meanwhile, the distance between two adjacent side frame assemblies 2 is larger than the length of the bearing parts 3, so that the two adjacent bearing parts 3 cannot interfere with each other; thus, the bearing parts 3 can be connected to the two ends of the debugging table 1 in a left-right assembly mode through the side frame assemblies 2, so that the width of the debugging table 1 is adjusted, and the expansion variability of the debugging table 1 is further increased.

Referring to fig. 3-6, in order to enable the debugging platform 1 to simultaneously detect a plurality of intelligent fusion terminals of different models; the first clamping blocks 35 are clamped in the first connecting holes 24, so that the bearing piece 3 can be clamped on the side frame assembly 2, the bearing piece 3 can be freely and flexibly installed on the debugging table 1, intelligent fusion terminals according to different models are realized, and the debugging table 1 can be replaced with the bearing piece 3 bearing the corresponding model;

the top surface of the bearing piece 3 is an inclined surface 31, a plurality of limiting blocks 32 are arranged on the inclined surface 31, and the limiting blocks 32 are arranged in a U shape; the limiting block 32 is used for limiting the intelligent fusion terminal placed on the inclined surface 31 and preventing the intelligent fusion terminal from sliding off; the position of stopper 32 and the specification size looks adaptation of intelligent integration terminal.

In addition, an installation cavity 36 is arranged in the bearing piece 3, a debugging device 34 is arranged in the installation cavity 36, a plurality of quick connectors 33 connected with the debugging device 34 are arranged on the side surface of the bearing piece 3 away from the first clamping block 35, and the main control device 4 is electrically connected with each debugging device 34; the patch cord is connected with the intelligent fusion terminal, so that the debugging device 34 can be electrically connected with the intelligent fusion terminal and automatically debugs, ages and detects the intelligent fusion terminal; meanwhile, the debugging device 34 sends the detection result of the intelligent convergence terminal to the main control device 4, so that the operator can centrally inquire the detection result of each intelligent convergence terminal.

Referring to fig. 3, in order to enhance the structural strength of the debugging table 1, two connecting rods 53 arranged in parallel are bridged between each two side frame assemblies 2, and the two connecting rods 53 are respectively connected to two ends of the first vertical rod 21; meanwhile, connecting plates 54 are bridged between every two side frame assemblies 2; both ends of connecting plate 54 all are provided with a plurality of second joint pieces, and this second joint piece joint is in the third connecting hole 27 that sets up on carrier bar 22, and third connecting hole 27 is located carrier bar 22 and keeps away from the terminal surface of first pole setting 21. The debugging table 1 utilizes the mutual cooperation of the connecting rods 53 and the connecting plates 54, so that the connecting strength between every two side frame assemblies 2 is enhanced, and the debugging table 1 is prevented from shaking in the use process.

Referring to fig. 1 and 2, the two sides of the lower end surface of the bearing plate 55 are respectively provided with a connecting block adapted to the second connecting hole 25, and the connecting blocks are clamped in the second connecting holes 25 on the bearing rod 22; the main control device 4 is arranged on the bearing plate 55, and the main control device 4 is connected with the second vertical rod 23 through the first clamping blocks 35 arranged at the two ends of the main control device; the first clamping block 35 is clamped in the first connecting hole 24, so that the main control device 4 can be fixed on the second vertical rod 23;

in conclusion, the debugging table 1 is simple in structure, ingenious in concept, convenient to install and maintain, convenient to test, capable of meeting production requirements, capable of improving production efficiency of enterprises and reducing assembly complexity; meanwhile, according to specific debugging requirements, assembling a bearing piece 3 for debugging the intelligent fusion terminal with the corresponding model on a debugging table 1; meanwhile, according to specific debugging requirements, the left and right width of the debugging table 1 is greatly expanded, and the debugging convenience and flexibility of the debugging table 1 are further improved.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (9)

1. A debugging table, its characterized in that: the debugging table (1) comprises at least two side frame assemblies (2) arranged side by side, at least one bearing piece (3) and at least one bearing plate (55);

each side frame assembly (2) comprises a first vertical rod (21), a second vertical rod (23) and a bearing rod (22), the first vertical rod (21) and the second vertical rod (23) are respectively and vertically arranged at two ends of the bearing rod (22), a plurality of first connecting holes (24) are formed in the side face, close to the second vertical rod (23), of the first vertical rod (21) along the length direction of the first vertical rod, a plurality of first connecting holes (24) are formed in the side face, far away from the first vertical rod (21), of the second vertical rod (23) along the length direction of the second vertical rod, and every two first connecting holes (24) are arranged side by side; the top surface of the bearing rod (22) is provided with a second connecting hole (25);

a plurality of groups of first clamping blocks (35) are arranged on two sides of one side surface of the bearing piece (3), and the first clamping blocks (35) are clamped in first connecting holes (24) formed in the first vertical rods (21); the top surface of the bearing piece (3) is an inclined surface (31), a plurality of limiting blocks (32) are arranged on the inclined surface (31), and the limiting blocks (32) are arranged in a U shape; an installation cavity (36) is arranged in the bearing piece (3), a debugging device (34) is arranged in the installation cavity (36), and a plurality of quick connectors (33) connected with the debugging device (34) are arranged on the side surface, far away from the first clamping block (35), of the bearing piece (3);

the both sides of its lower terminal surface of loading board (55) all are equipped with the connecting block with second connecting hole (25) looks adaptation, and this connecting block joint is in second connecting hole (25) on carrier bar (22).

2. A debugging station according to claim 1, characterized in that: the side frame assembly (2) is J-shaped, and the length of the first vertical rod (21) is 3 times larger than that of the second vertical rod (23).

3. A debugging station according to claim 2, characterized in that: two connecting rods (53) which are arranged in parallel are bridged between every two side frame assemblies (2), and the two connecting rods (53) are respectively connected to two ends of the first vertical rod (21).

4. A debugging station according to claim 3, characterized in that: connecting plates (54) are bridged between every two side frame assemblies (2); the both ends of connecting plate (54) all are provided with a plurality of second joint pieces, and this second joint piece joint is in third connecting hole (27) that set up on carrier bar (22), and third connecting hole (27) are located carrier bar (22) is kept away from on the terminal surface of first pole setting (21).

5. A debugging table according to claim 1, characterized in that: and supporting feet (26) for supporting the side frame assembly (2) are arranged at the bottom end of the side frame assembly (2).

6. A debugging station according to claim 1, characterized in that: the device is characterized by further comprising a main control device (4), wherein the main control device (4) is arranged on the bearing plate (55), and the main control device (4) is connected with the second vertical rod (23) through first clamping blocks (35) arranged at two ends of the main control device; the main control device (4) is electrically connected with each debugging device (34).

7. A debugging station according to claim 1, characterized in that: the debugging platform is characterized by further comprising a top plate (52) and two side plates (51), wherein first clamping blocks (35) are arranged on the side faces of the top plate (52) and the side plates (51), the top plate (52) is bridged between every two side frame assemblies (2) through the first clamping blocks (35), and the two side plates (51) are vertically clamped on first vertical rods (21) at two ends of the debugging platform.

8. A debugging station according to claim 1, characterized in that: the length of the bearing piece (3) is smaller than the distance between two adjacent side frame assemblies (2).

9. Modular intelligence debugging platform, its characterized in that: comprising at least one debugging station (1) according to any one of claims 1-8.

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