CN216698892U - Big data terminal - Google Patents

Abstract

The utility model discloses a big data terminal, in particular to the technical field of big data, which comprises a shell, wherein a plurality of connector lugs are embedded and fixed in front of the shell; the utility model has the beneficial effects that: when two bottoms of vertical retort insert in the opening of below, and the horizontal bar is not blocked the back by vertical retort one, alright resilience through spring two resets, vertical retort top can be near with the horizontal bar top once more, can carry on spacingly from this to the mullion, the mullion is by spacing back, the card line also can be spacing in the lump, consequently all patchcords all can be spacing in the card wire casing, it is convenient to fix in batches all patchcords, the patchcord can be fixed in the lump simultaneously, utilize the patchcord can consolidate the end of a thread position of all patchcords, make the end of patchcord position be difficult for damaging because of buckling, whole practicality is better, in order to solve current big data terminal be not convenient for consolidate in batches the patchcord and need install in addition the problem that the end of a thread part of protective part to the patchcord protects.

Description

Big data terminal

Technical Field

The utility model relates to the technical field of big data, in particular to a big data terminal.

Background

A big data terminal is an end device or end system in a data communication system, and may be a data source (data producer), a data sink (data recipient), or both.

When the existing big data terminal is connected with a patch cord, in order to prevent the patch cord from being easy to loose after being connected, the patch cord needs to be reinforced during wiring, but because the number of the patch cords to be connected is large, the reinforcing one by one is time-consuming, and the mass reinforcing is inconvenient; in addition, even if the patch cord is reinforced, in order to prevent the terminal member of the patch cord from being damaged by repeated bending, a protection member must be additionally installed to protect the terminal portion of the patch cord, and a protection member must be additionally installed to protect the terminal member of the patch cord.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a big data terminal, which aims to solve the problems that the existing big data terminal is inconvenient to strengthen plug wires in batch and needs to be additionally provided with a protection component to protect a wire head component of the plug wires.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a big data terminal comprises a shell, wherein a plurality of connector lugs are embedded and fixed in front of the shell, and the big data terminal also comprises a wire clamping assembly used for fixing plug wires connected into the connector lugs, and the wire clamping assembly is positioned in front of the shell;

both ends all are fixed with the side board about the shell, the notch has all been seted up in side board the place ahead, both sides have all been opened to the notch inner wall about, the top the opening all link up to the side board top, the top all run through in the opening have a vertical retort one, a vertical retort outside all cup joint be fixed with the fixed spring one of opening, the side board top all is fixed with the square frame, all peg graft in the square frame has the horizontal bar, the horizontal bar rear end all is fixed with the spring two fixed with the square frame.

Furthermore, the card line subassembly includes card lines, cutting, mullion two and spring three, card lines is located shell the place ahead, just card lines left end is run through there is the socket, the cutting runs through in the socket.

Further, the mullion is equipped with two and rotates respectively through the pivot and connects in the card lines left and right sides, mullion two is equipped with two and sets up respectively in two among the mullion, spring three is equipped with two and cup joints respectively and is fixed in two outside, two of mullion spring three is respectively with two the mullion is fixed.

Furthermore, a plurality of wire clamping grooves corresponding to the positions of the connector lugs are formed in the top ends of the wire clamping strips, the wire clamping grooves are communicated with the sockets, and the wire clamping strips penetrate through all the wire clamping grooves.

Furthermore, the two vertical frames correspond to and are matched with the two notches respectively, and the first vertical bar is matched with the vertical frame.

Further, the initial state of the first spring is an expansion state.

Furthermore, the two transverse bars respectively shield the tops of the two openings above the opening, and the top ends of the two vertical bars are respectively abutted against the tops of the two transverse bars.

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

when two bottoms of vertical retort insert in the opening of below, and the horizontal bar is not blocked the back by vertical retort one, alright resilience through spring two resets, vertical retort top can be near with the horizontal bar top once more, can carry on spacingly from this to the mullion, the mullion is by spacing back, the card line also can be spacing in the lump, consequently all patchcords all can be spacing in the card wire casing, it is convenient to fix in batches all patchcords, the patchcord can be fixed in the lump simultaneously, utilize the patchcord can consolidate the end of a thread position of all patchcords, make the end of patchcord position be difficult for damaging because of buckling, whole practicality is better, in order to solve current big data terminal be not convenient for consolidate in batches the patchcord and need install in addition the problem that the end of a thread part of protective part to the patchcord protects.

Drawings

FIG. 1 is an overall schematic view of the present invention;

FIG. 2 is a side cross-sectional view of the side panel of the present invention;

FIG. 3 is a partial schematic view of a card line of the present invention;

FIG. 4 is a schematic elevational sectional view of a mullion of the present invention;

fig. 5 is an overall assembly schematic of the present invention.

In the figure: 1-shell, 101-side plate, 102-notch, 103-opening, 104-vertical bar I, 105-spring I, 106-square frame, 107-spring II, 108-cross bar, 109-connector lug, 2-clip bar, 201-socket, 202-plug bar, 203-clip groove, 204-vertical frame, 205-vertical bar II and 206-spring III.

Detailed Description

Referring to fig. 1-5, the present invention provides a technical solution: a big data terminal comprises a shell 1, wherein a plurality of connector lugs 109 are embedded and fixed in front of the shell 1, and the big data terminal also comprises a wire clamping assembly used for fixing plug wires connected into the connector lugs 109, and the wire clamping assembly is positioned in front of the shell 1;

side plates 101 are fixed at the left end and the right end of the shell 1, notches 102 are formed in the front of the side plates 101, openings 103 are formed in the upper side and the lower side of the inner wall of each notch 102, the openings 103 above the upper side penetrate through the top of the side plates 101, vertical bars 104 penetrate through the openings 103 above the upper side, springs 105 fixed with the openings 103 are sleeved and fixed outside the vertical bars 104, frames 106 are fixed at the tops of the side plates 101, cross bars 108 are inserted into the frames 106, and springs 107 fixed with the frames 106 are fixed at the rear ends of the cross bars 108;

the card line assembly comprises a card line 2, an insertion strip 202, a vertical frame 204, a second vertical strip 205 and a third spring 206, wherein the card line 2 is positioned in front of the shell 1, a socket 201 penetrates through the left end of the card line 2, and the insertion strip 202 penetrates through the socket 201;

the two vertical frames 204 are respectively and rotatably connected to the left side and the right side of the clamping line 2 through rotating shafts, the two vertical bars 205 are respectively and rotatably arranged in the two vertical frames 204, the two springs 206 are respectively and fixedly sleeved outside the two vertical bars 205, and the two springs 206 are respectively and fixedly connected with the two vertical frames 204;

the top end of the card line 2 is provided with a plurality of card line slots 203 corresponding to the positions of the connector lugs 109, the card line slots 203 are communicated with the sockets 201, and the card line 2 penetrates through all the card line slots 203;

when the patch cord is connected, the patch cord and the connector lug 109 can be correspondingly spliced, and the vertical frame 204 on one side can be rotated immediately, so that the socket 201 is not blocked by the vertical frame 204, therefore, the plug strip 202 can be drawn out from the socket 201 and the card slot 203, the patch cord is sequentially clamped into the card slot 203, then the plug strip 202 is inserted into the socket 201 and sequentially penetrates through all the card slots 203, and the plug strip 202 is positioned above the patch cord;

the two cross bars 108 respectively shield the top of the opening of the two openings 103 above, and the top ends of the two first vertical bars 104 are respectively abutted against the tops of the two cross bars 108;

the cross bar 108 is pushed backwards, the second spring 107 contracts after being stressed, when the top end of the first vertical bar 104 is not abutted to the top of the cross bar 108 any more and the initial state of the first spring 105 is an expanded state, the first vertical bar 104 can move upwards through the resilience of the first spring 105, the bottom of the first vertical bar 104 can be accommodated in the upper opening 103, the top end of the first vertical bar 104 extends out of the upper opening 103 and blocks the cross bar 108, and the cross bar 108 is difficult to reset through the resilience of the second spring 107 after being blocked;

the two mullions 204 correspond to and are matched with the two notches 102 respectively, and the first mullion 104 is matched with the mullion 204;

the initial state of the first spring 105 is an expansion state;

then, the clamping line 2 can be pushed to the front end of the shell 1, two vertical frames 204 are clamped into two notches 102 respectively, then the first vertical bar 104 is pressed downwards, the first spring 105 is expanded again after being stressed, the bottom of the first vertical bar 104 extends into the vertical frame 204 and applies force to the second vertical bar 205, the third spring 206 can be expanded after the second vertical bar 205 is stressed, the bottom end of the second vertical bar 205 is inserted into the opening 103 below, meanwhile, the transverse bar 108 can be reset through the resilience of the second spring 107 after being not blocked by the first vertical bar 104, the top end of the first vertical bar 104 can abut against the top of the transverse bar 108 again, so that the vertical frame 204 can be limited, and after the vertical frame 204 is limited, the clamping line 2 can also be limited together, so that all the insertion lines can be limited in the clamping groove 203, and batch fixation of all the insertion lines is facilitated;

meanwhile, the inserting strips 202 can be fixed together, and the end portions of all the inserting wires can be reinforced by the inserting strips 202, so that the end portions of the inserting wires are not easy to damage due to bending, and the whole practicability is good.

The working principle is as follows: firstly, a plug wire and a connector lug 109 can be correspondingly plugged, meanwhile, a vertical frame 204 on one side is rotated, when the socket 201 is not blocked by the vertical frame 204, the plug strip 202 can be drawn out from the socket 201 and the card slot 203, the plug wire is sequentially clamped into the card slot 203, then the plug strip 202 is inserted into the socket 201 and sequentially penetrates through all the card slots 203, and the plug strip 202 is positioned above the plug wire; then the cross bar 108 is pushed backwards, the second spring 107 is contracted after being stressed, when the top end of the first vertical bar 104 is not abutted against the top of the cross bar 108 any more, the first vertical bar 104 can move upwards through the resilience of the first spring 105, the bottom of the first vertical bar 104 can be accommodated in the upper opening 103, the top end of the first vertical bar 104 extends out of the upper opening 103 and blocks the cross bar 108, and the cross bar 108 is blocked and is difficult to reset through the resilience of the second spring 107; then, the clip line 2 can be pushed to the front end of the housing 1, and the two vertical frames 204 are respectively clipped into the two notches 102, then the first vertical bar 104 is pressed downwards, the first spring 105 is stressed and then expanded again, the bottom of the first vertical bar 104 extends into the vertical frame 204 and applies force to the second vertical bar 205, the third spring 206 can be expanded after the second vertical bar 205 is stressed, the bottom end of the second vertical bar 205 is inserted into the opening 103 below, meanwhile, the transverse bar 108 can be reset through the resilience of the second spring 107 after being not blocked by the first vertical bar 104, the top end of the first vertical bar 104 can be abutted against the top of the transverse bar 108 again, so that the vertical frame 204 can be limited, the clip line 2 can be limited together after the vertical bar 204 is limited, meanwhile, the inserting bar 202 can be fixed together, the line head parts of all inserting lines can be reinforced by the inserting bar 202, and the line head parts of the inserting lines are not easy to be bent and damaged, whole practicality is better, and all patchcords all can be spacing in card wire casing 203 simultaneously, and the convenience is fixed in batches all patchcords.

Claims (6)

1. A big data terminal comprises a shell (1), wherein a plurality of connector lugs (109) are embedded and fixed in front of the shell (1), and the big data terminal is characterized in that: the wire clamping component is used for fixing a plug wire connected into the connector lug (109), and is positioned in front of the shell (1);

both ends all are fixed with side board (101) about shell (1), notch (102) have all been seted up in side board (101) the place ahead, opening (103) have all been opened to both sides about notch (102) inner wall, the top opening (103) all link up to side board (101) top, the top all run through in opening (103) vertical bar (104), vertical bar (104) outside all cup joint be fixed with opening (103) fixed spring one (105), side board (101) top all is fixed with square frame (106), all peg graft in square frame (106) and have horizontal bar (108), horizontal bar (108) rear end all is fixed with spring two (107) fixed with square frame (106).

2. The big data terminal of claim 1, wherein: the card line subassembly includes card lines (2), cutting bar (202), mullion (204), mullion two (205) and spring three (206), card lines (2) are located shell (1) the place ahead, just card lines (2) left end has run through socket (201), cutting bar (202) run through in socket (201).

3. The big data terminal of claim 2, wherein: mullion (204) are equipped with two and rotate respectively through the pivot and connect in card lines (2) left and right sides, mullion two (205) are equipped with two and set up in two respectively in mullion (204), spring three (206) are equipped with two and cup joint respectively and are fixed in two mullion two (205) are outside, two spring three (206) respectively with two mullion (204) are fixed.

4. The big data terminal of claim 2, wherein: the wire clamping groove is characterized in that a plurality of wire clamping grooves (203) corresponding to the positions of the connector lugs (109) are formed in the top ends of the wire clamping strips (2), the wire clamping grooves (203) are communicated with the sockets (201), and the wire clamping strips (2) penetrate through all the wire clamping grooves (203).

5. The big data terminal as in claim 3, wherein: the two vertical frames (204) correspond to and are matched with the two notches (102) respectively, and the first vertical bar (104) is matched with the vertical frame (204).

6. The big data terminal of claim 1, wherein: the two transverse bars (108) respectively shield the top of the opening of the two upper openings (103), and the top ends of the two first vertical bars (104) are respectively abutted against the top of the two transverse bars (108).

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