CN213633719U - High-precision digital circuit debugging device - Google Patents

Abstract

The utility model discloses a high accuracy digital circuit debugging device, its structure is including the debugging ware body, the display screen, the button, the display banks, interface row group, the spliced pole, the power cord, radiator-grid and adjusting device, the utility model discloses a debugging ware body lower extreme has set up adjusting device, passes through drive mechanism by the motor and drives the double-screw bolt rotation, and the double-screw bolt drives T shape strip and reciprocates, and then has realized the effect of going up and down, and T shape strip drives the lifter plate and removes the strip and slides from top to bottom, has realized that the drive debugging ware body is placed on different heights, has promoted the convenience of device and the efficiency of work, has shortened operating time, and simultaneously, T shape strip is at slide rail and the outside slidable mounting of first traveller, and then has promoted the stability of device.

Description

High-precision digital circuit debugging device

Technical Field

The utility model relates to a circuit debugging technical field, concretely relates to high accuracy digital circuit debugging device.

Background

The circuit debugging device is one of main devices for high-precision digital circuit debugging, the era of high-speed development of economy and science and technology is nowadays, the debugging device is widely applied to various industries, the digitization of the debugging device becomes a witnessed trend, and the debugger technology is a brand new stage from the circuit debugging device in the traditional application to the high-precision digital circuit debugging which is widely applied to the circuit debugging device nowadays.

When the circuit debugging device is used, the circuit debugging device is required to be placed at different heights according to different tested circuits, so that the circuit debugging device is conveniently connected with the tested device on the detection platform, the operation time of the circuit debugging device is prolonged, and the working efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome the defects of the prior art, a high-precision digital circuit debugging device is provided, and the problems that when the circuit debugging device is used, the circuit debugging device needs to be placed at different heights according to different tested circuits, the circuit debugging device is conveniently connected with the tested device on a detection platform, the operation time of the circuit debugging device is prolonged, and the working efficiency is reduced are solved.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a high accuracy digital circuit debugging device, including the debugging ware body and adjusting device, debugging ware body upper end front side is inlayed and is had the display screen, adjusting device is located debugging ware body lower extreme, adjusting device includes auxiliary frame, bottom plate, support frame, motor, drive mechanism, double-screw bolt, T shape strip, first traveller and slide rail, the auxiliary frame lower extreme is fastened in the bottom plate, the bottom plate right-hand member is connected with the support frame, support frame left end middle part is provided with the motor, the motor upper end is pegged graft with drive mechanism, drive mechanism right-hand member middle part is pegged graft with the double-screw bolt upper end, double-screw bolt outside and T shape strip interference fit, T shape strip and first traveller outside slidable mounting, first traveller upper end is fastened in the support frame, slide rail rear end and T shape strip front end slidable mounting.

Further, debugging ware body lower extreme front side and interface row group peg graft, display screen lower extreme 4cm is provided with the button, button right-hand member 3cm is provided with the display banks, debugging ware body lower extreme is provided with the spliced pole to the spliced pole is provided with six groups, debugging ware body rear end is provided with the power cord, debugging ware body rear end middle part is provided with the radiator-grid.

Furthermore, the auxiliary frame comprises a portal frame, a second sliding column, a moving strip and a lifting plate, the lower end of the portal frame is fastened on the upper side of the left end of the bottom plate, the upper end of the second sliding column is fixedly attached to the top end inside the portal frame, the inside of the moving strip and the outside of the second sliding column are slidably mounted, the left end of the lifting plate is fastened on the right end of the moving strip, and the upper end of the moving strip is fixedly attached to the lower end of the debugging device body.

Furthermore, the second sliding columns are provided with two groups and are in central symmetry.

Furthermore, the right end of the lifting plate is attached and fixed with the left end of the T-shaped strip, and the thickness of the lifting plate is 2 cm.

Furthermore, the lower end of the bottom plate is provided with four groups of supporting legs.

Further, drive mechanism comprises first belt pulley, belt and second belt pulley, first belt pulley middle part is pegged graft with the motor to first belt pulley outside is through belt and the outside roll connection of second belt pulley, second belt pulley middle part is pegged graft with the double-screw bolt upper end.

Furthermore, the lower end of the stud is provided with a bearing, and the lower end face of the bearing is fastened at the right end of the bottom plate.

Further, the support frame is made of stainless steel.

Further, the second spool is made of an aluminum alloy.

(III) advantageous effects

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

in order to solve the problems that when the circuit debugging device is used, the circuit debugging device needs to be placed at different heights according to different tested circuits, the circuit debugging device is conveniently connected with the tested device on a detection platform, so that the operation time of the circuit debugging device is prolonged, and the working efficiency is reduced.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a rear view of the debugger body of the present invention;

FIG. 3 is a schematic structural view of the adjusting device of the present invention;

fig. 4 is a schematic view of the right-side structure of the adjusting device of the present invention;

fig. 5 is a schematic structural view of the auxiliary frame of the present invention.

In the figure: the device comprises a debugging device body-1, a display screen-2, a key-3, a display lamp group-4, an interface row group-5, a connecting column-6, a power line-7, a heat dissipation net-8, an adjusting device-9, an auxiliary frame-91, a bottom plate-92, a support frame-93, a motor-94, a transmission mechanism-95, a stud-96, a T-shaped strip-97, a first sliding column-98, a sliding rail-99, a portal frame-9101, a second sliding column-9102, a moving strip-9103, a lifting plate-9104, a first belt pulley-951, a belt-952, a second belt pulley-953, supporting legs-901 and a bearing-902.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Please refer to fig. 1-2, the utility model provides a high accuracy digital circuit debugging device through the improvement here, including the debugging body 1 and adjusting device 9, debugging body 1 upper end front side is inlayed and is had display screen 2, and debugging body 1 lower extreme front side is arranged 5 pegs graft with the interface, 2 lower extremes of display screen 4cm are provided with button 3, 3cm of button right-hand member are provided with display lamp group 4, debugging body 1 lower extreme is provided with spliced pole 6, and spliced pole 6 is provided with six groups, debugging body 1 rear end is provided with power cord 7, debugging body 1 rear end middle part is provided with radiator-grid 8, adjusting device 9 is located debugging body 1 lower extreme.

Referring to fig. 3-4, the present invention provides a high-precision digital circuit debugging device through an improvement, wherein the adjusting device 9 includes an auxiliary frame 91, a bottom plate 92, a supporting frame 93, a motor 94, a transmission mechanism 95, a stud 96, a T-shaped bar 97, a first sliding post 98 and a sliding rail 99, the lower end of the auxiliary frame 91 is fastened to the bottom plate 92, the right end of the bottom plate 92 is connected to the supporting frame 93, the lower end of the bottom plate 92 is provided with supporting legs 901, and the supporting legs 901 are provided with four groups, which are beneficial to supporting and realize the function of raising, the middle part of the left end of the supporting frame 93 is provided with the motor 94, the upper end of the motor 94 is connected to the transmission mechanism 95 in an inserting manner, the middle part of the right end of the transmission mechanism 95 is connected to the upper end of the stud 96 in an inserting manner, the transmission mechanism 95 is composed of a first belt pulley 951, a belt 952 and a second belt 953, the middle part, second belt pulley 953 middle part is pegged graft with double-screw bolt 96 upper end, be favorable to driving double-screw bolt 96 and rotate, the driven effect has been realized, double-screw bolt 96 outside and T shape strip 97 interference fit, the double-screw bolt 96 lower extreme is provided with bearing 902, and the terminal surface fastens in bottom plate 92 right-hand member under the bearing 902, be favorable to double-screw bolt 96 to rotate, and then hoisting device's steadiness, T shape strip 97 and the outside slidable mounting of first traveller 98, be favorable to driving lifter plate 9104 to remove, and then the effect that the drive arrangement realized going up and down, first traveller 98 upper end fastens in support frame 93, slide rail 99 rear end and T shape strip 97 front end slidable mounting, be favorable to sliding with T shape strip 97, and then the steadiness of.

Referring to fig. 5, the present invention provides a high precision digital circuit debugging device through improvement, the auxiliary frame 91 includes a portal frame 9101, a second sliding column 9102, a moving bar 9103 and a lifting plate 9104, the lower end of the portal frame 9101 is fastened on the upper side of the left end of the bottom plate 92, which is beneficial for the moving bar 9103 to move up and down in the inside of the device, thereby improving the stability of the device, the upper end of the second sliding column 9102 is fixedly attached to the top end of the inside of the portal frame 9101, two sets of the second sliding columns 9102 are provided and are both in central symmetry, which is beneficial for sliding installation, thereby improving the stability of the device in an auxiliary manner, the inside of the moving bar 9103 and the outside of the second sliding column 9102 are slidably installed, which is beneficial for driving the lifting plate 9104 to move, which assists the stability of the lifting device, the left end of the lifting plate 9104 is fastened on the right end of the moving bar 9103, and the upper end of the moving bar 9103 is fixedly attached to the lower end of the, and the thickness of the lifting plate 9104 is 2cm, which is beneficial to driving the debugger body 1 to lift.

The working principle is as follows:

firstly, before use, a user firstly installs the debugger body 1 in the adjusting device 9, then the bottom plate 92 drives the supporting legs 901 to place the device at a proper position, and then the power line 7 is connected to electrify the device;

secondly, finally, the motor 94 is started, the motor 94 drives a first belt pulley 951 in the transmission mechanism 95 to rotate at the upper end of the support frame 93, the first belt pulley 951 drives a second belt pulley 953 to rotate through a belt 952, the second belt pulley 953 drives the stud 96 to be rotatably connected inside the bearing 902, so that the T-shaped strip 97 is in interference fit with the outside of the stud 96, and meanwhile, the T-shaped strip 97 is slidably mounted outside the first sliding column 98 and the sliding rail 99, so that the lifting stability of the device is improved;

thirdly, in this time, the T-shaped strip 97 moves the debugger body 1 to a proper position through the auxiliary frame 91, that is, the T-shaped strip 97 drives the lifting plate 9104 to lift, the lifting plate 9104 drives the moving strip 9103 to slide and mount in the second sliding column 9102 and the portal frame 9101, so that the stability of the device during moving is further improved, the debugger body is driven to be placed at different heights, the convenience and the working efficiency of the device are improved, and the operation time is shortened;

fourthly, when the device is used, a user firstly connects an external circuit with the interface bank 5 and the connecting column 6 in sequence, then the display lamp bank 4 is lightened to indicate that the device is in operation, then the button 3 is used for controlling the on-off and adjustment of the test items, the debugger body 1 is debugged, and finally the result is displayed on the display screen 2, wherein the heat dissipation net 8 plays a role in heat dissipation, so that the circuit debugging work is completed.

Claims (8)

1. A high-precision digital circuit debugging device comprises a debugging device body (1), wherein a display screen (2) is embedded in the front side of the upper end of the debugging device body (1);

the method is characterized in that: the device is characterized by further comprising an adjusting device (9), the adjusting device (9) is located at the lower end of the debugging device body (1), the adjusting device (9) comprises an auxiliary frame (91), a bottom plate (92), a supporting frame (93), a motor (94), a transmission mechanism (95), a stud (96), a T-shaped strip (97), a first sliding column (98) and a sliding rail (99), the lower end of the auxiliary frame (91) is fastened on the bottom plate (92), the right end of the bottom plate (92) is connected with the supporting frame (93), the motor (94) is arranged in the middle of the left end of the supporting frame (93), the upper end of the motor (94) is connected with the transmission mechanism (95) in an inserting mode, the middle of the right end of the transmission mechanism (95) is connected with the upper end of the stud (96) in an inserting mode, the outer portion of the stud (96) is in interference fit with the T-shaped strip (97), the T-shaped strip (97) is slidably mounted, the rear end of the sliding rail (99) is slidably mounted with the front end of the T-shaped strip (97).

2. A high precision digital circuit debugging apparatus according to claim 1, wherein: debugging ware body (1) lower extreme front side is arranged group (5) with the interface and is pegged graft, display screen (2) lower extreme 4cm is provided with button (3), button (3) right-hand member 3cm is provided with display lamp group (4), debugging ware body (1) lower extreme is provided with spliced pole (6) to spliced pole (6) are provided with six groups, debugging ware body (1) rear end is provided with power cord (7), debugging ware body (1) rear end middle part is provided with radiator-grid (8).

3. A high precision digital circuit debugging apparatus according to claim 1, wherein: auxiliary frame (91) include portal frame (9101), second traveller (9102), remove strip (9103) and lifter plate (9104), portal frame (9101) lower extreme is fastened in bottom plate (92) left end upside, second traveller (9102) upper end is fixed with the laminating of portal frame (9101) inside top, remove strip (9103) inside and second traveller (9102) outside slidable mounting, lifter plate (9104) left end is fastened in removing strip (9103) right-hand member to it is fixed with the laminating of debugging ware body (1) lower extreme to remove strip (9103) upper end.

4. A high precision digital circuit debugging apparatus according to claim 3, wherein: two groups of second sliding columns (9102) are arranged and are in central symmetry.

5. A high precision digital circuit debugging apparatus according to claim 3, wherein: the right end of the lifting plate (9104) is fixedly attached to the left end of the T-shaped strip (97), and the thickness of the lifting plate (9104) is 2 cm.

6. A high precision digital circuit debugging apparatus according to claim 1, wherein: the lower end of the bottom plate (92) is provided with four groups of supporting legs (901), and the four groups of supporting legs (901) are arranged.

7. A high precision digital circuit debugging apparatus according to claim 1, wherein: drive mechanism (95) comprise first belt pulley (951), belt (952) and second belt pulley (953), first belt pulley (951) middle part is pegged graft with motor (94) to first belt pulley (951) outside is through belt (952) and the outside roll connection of second belt pulley (953), second belt pulley (953) middle part is pegged graft with double-screw bolt (96) upper end.

8. A high precision digital circuit debugging apparatus according to claim 1, wherein: the lower end of the stud (96) is provided with a bearing (902), and the lower end face of the bearing (902) is fastened at the right end of the bottom plate (92).

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