CN213180080U - A slope test bench for unmanned tower allies oneself with transfers - Google Patents

Abstract

The utility model discloses a slope test bench for unmanned tower allies oneself with transfers, including test bench body, lift control device and tilt control device, the test bench body includes the base, supports diaphragm, support column and operation panel, lift control device locates on the base, it locates on the lift control device to support the diaphragm, the support column is located and is supported on the diaphragm, the support column is equipped with four groups, four groups all be equipped with the fixing base on the support column, articulated two sets of being close to of operation panel one end on the fixing base of support column, the mounting hole has been seted up at the operation panel middle part, tilt control device locates on the support diaphragm. The utility model relates to a test detection device field specifically is a liftable adjust, have an auxiliary stay be used for unmanned tower antithetical couplet to transfer slope test bench.

Description

A slope test bench for unmanned tower allies oneself with transfers

Technical Field

The utility model relates to a test detection device field specifically is a slope test bench that is used for unmanned tower antithetical couplet to transfer.

Background

The test that unmanned tower allies oneself with transfers experiment needs the combination of laboratory bench, control cabinet and multi-parameter test system to go on, and current laboratory bench is traditional platform form mostly, does not have the function of adjustment, and the laboratory bench height can't adjust according to user's particular case, has led to the fact inconvenience to going on of experimentation.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned condition, for overcoming current technical defect, the utility model provides a liftable adjustment, have an auxiliary stay be used for unmanned tower joint debugging's slope test bench.

The utility model adopts the following technical scheme: the utility model relates to a slope test bench for unmanned tower allies oneself with transfers, including test bench body, lift control device and slope control device, the test bench body includes base, support diaphragm, support column and operation panel, lift control device locates on the base, the support diaphragm is located lift control device, the support column is located on the support diaphragm, the support column is equipped with four groups, four groups the support column upper end all is equipped with the fixing base, operation panel one end articulates locates on two groups of being close to the fixing base of support column, the operation panel middle part has been seted up the mounting hole, slope control device locates on the support diaphragm; the lifting control device comprises a motor, a fixed plate, a screw rod and a hinge assembly, wherein the fixed plate is arranged on a base, two groups of fixed plates are symmetrically arranged on the upper wall of the base, the motor is arranged on one group of the fixed plate, the screw rod is rotatably arranged on one group of the fixed plate, the other end of the screw rod penetrates through the output shaft of the other group of the fixed plate and the motor, two groups of threads are arranged on the screw rod, the hinge assembly is arranged on the base and comprises a nut block, a connecting rod, a first hinge rod and a second hinge rod, the nut block is arranged on one group of the threads through threaded connection, the connecting rod is arranged on the nut block, the first hinge rod is hinged to the upper wall of the base, the second hinge rod is hinged to a supporting transverse plate, one end of the second hinge rod is hinged to the first hinge rod, and the second hinge rod is hinged to the first hinge, two groups of the hinge assemblies are symmetrically arranged on the base, and the other group of the nut blocks is arranged on the other group of the threads; the inclination control device comprises a second motor, a support frame, a worm wheel, a driven rotating shaft, a slide plate, a sliding block and a connecting assembly, wherein the second motor is arranged on one side of the support transverse plate, the support frame is arranged on the support transverse plate, the worm is rotatably arranged on the support frame, one end of the worm is connected with an output shaft of the second motor, the slide plate is arranged on the support transverse plate, the sliding block is slidably arranged on the slide plate, one side of the sliding block is provided with a spur rack, the driven rotating shaft is rotatably arranged on the support transverse plate, the driven rotating shaft is sleeved with a straight gear, the straight gear is meshed with the straight rack, the worm wheel is arranged on the driven rotating shaft and is positioned above the straight gear, the worm wheel is meshed with the worm, the connecting assembly is arranged on the support transverse plate, the connecting assembly comprises a transmission rod, a first, the first crank is hinged to the supporting transverse plate, the second crank is hinged to the lower end of the operating plate, the second crank is hinged to one end of the first crank, and the transmission rod is hinged to the first crank.

Further, arc-shaped grooves are formed in the two groups of supporting columns close to each other.

Furthermore, two groups of fixing seats close to each other are provided with threaded through holes, and screw rods are arranged in the threaded through holes in a threaded connection mode.

Further, the arc recess is slided and is equipped with auxiliary stay subassembly, auxiliary stay subassembly includes connecting seat, auxiliary rod and lug, operation panel lower wall one side is located to the connecting seat, the auxiliary rod is articulated to be located on the connecting seat, the lug is located on the auxiliary rod one side and is slided and be located a set of in the arc recess, the last spacing hole of multiunit of having seted up of auxiliary stay, during the concrete use, the supplementary slope controlling means of auxiliary stay uses, and when the operation panel lifted, the auxiliary rod is tensile simultaneously, when adjusting to suitable angle, two sets of screw rods of rotating, to the screw rod pass spacing hole to opposite side screw thread through-hole in, can assist spacingly.

Further, be equipped with the stopper on the operation panel, be equipped with spacing arch on the stopper, the stopper symmetry is equipped with two sets ofly, two sets of be equipped with spacing diaphragm between the stopper, when the operation panel inclines to put, the part accident in the upset spacing diaphragm to spacing protruding position can prevent testing arrangement is experimental scatters.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: the utility model relates to a slope test bench for unmanned tower allies oneself with transfers compares in traditional test bench, can be according to user's specific user demand adjustment height, has the auxiliary rod cooperation to use during the slope test bench, has increased the device stability when experimental.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is the utility model relates to a slope test bench overall structure sketch map for unmanned tower allies oneself with transfers.

The test bed comprises a test bed body 1, a test bed body 2, a lifting control device 3, an inclination control device 4, a base, 5, a supporting transverse plate 6, a supporting column 7, an operating plate 8, a motor 9, a fixing plate 10, a screw rod 11, a hinge assembly 12, a nut block 13, a connecting rod 14, a first hinge rod 15, a second hinge rod 16, a second motor 17, a supporting frame 18, a worm, a 19, a worm wheel 20, a slide plate 21, a slide block 22, a connecting assembly 23, a transmission rod 24, a first crank 25, a second crank 26, an auxiliary supporting assembly 27, a connecting seat 28 and an auxiliary rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below 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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1, the technical solution adopted by the utility model is as follows: the utility model relates to a slope test bench for unmanned tower joint debugging, including test bench body 1, lift control device 2 and tilt control device 3, test bench body 1 includes base 4, support diaphragm 5, support column 6 and operation panel 7, lift control device 2 locates on base 4, support diaphragm 5 locates on lift control device 2, support column 6 locates on support diaphragm 5, support column 6 is equipped with four groups, four groups all are equipped with the fixing base in the upper end of support column 6, operation panel 7 one end is articulated to be located two groups of being close to on the fixing base of support column 6, the mounting hole has been seted up in the middle part of operation panel 7, tilt control device 3 locates on support diaphragm 5; the lifting control device 2 comprises a motor 8, a fixed plate 9, a screw rod 10 and a hinge assembly 11, the fixed plate 9 is arranged on a base 4, two groups of the fixed plate 9 are symmetrically arranged on the upper wall of the base 4, the motor 8 is arranged on one group of the fixed plate 9, the screw rod 10 is rotatably arranged on one group of the fixed plate 9, the other end of the screw rod penetrates through the other group of the fixed plate 9 and the output shaft of the motor 8, the screw rod 10 is provided with two groups of positive and negative threads, the hinge assembly 11 is arranged on the base 4, the hinge assembly 11 comprises a nut block 12, a connecting rod 13, a first hinge rod 14 and a second hinge rod 15, the nut block 12 is arranged on one group of the threads through threaded connection, the connecting rod 13 is arranged on the nut block 12, the first hinge rod 14 is hinged on the upper wall of the base 4, the second hinge rod 15 is hinged on a supporting transverse plate 5, and one end of the second, the connecting rod 13 is hinged with the first hinge rod 14 and the second hinge rod 15, two groups of hinge assemblies 11 are symmetrically arranged on the base 4, and the other group of nut blocks 12 is arranged on the other group of threads; the inclination control device 3 comprises a second motor 16, a support frame 17, a worm 18, a worm wheel 19, a driven rotating shaft, a slide plate 20, a sliding block 21 and a connecting assembly 22, the second motor 16 is arranged on one side of the support transverse plate 5, the support frame 17 is arranged on the support transverse plate 5, the worm 18 is rotatably arranged on the support frame 17 and connected with an output shaft of the second motor 16, the slide plate 20 is arranged on the support transverse plate 5, the sliding block 21 is slidably arranged on the slide plate 20, one side of the slide block 21 is provided with a spur rack, the driven rotating shaft is rotatably arranged on the support transverse plate 5, the driven rotating shaft is sleeved with a spur gear, the spur gear is meshed with the spur rack, the worm wheel 19 is arranged on the driven rotating shaft and is positioned above the spur gear, the worm wheel 19 is meshed with the worm 18, the connecting assembly 22 is arranged on the support transverse plate 5, and the connecting assembly, The driving rod 23 is hinged to the sliding block 21, the first crank 24 is hinged to the supporting transverse plate 5, the second crank 25 is hinged to the lower end of the operating plate 7, the second crank 25 is hinged to one end of the first crank 24, and the driving rod 23 is hinged to the first crank 24.

Specifically, arc-shaped grooves are formed in the two groups of support columns 6 which are close to each other. Two sets of fixing bases which are close to each other are provided with threaded through holes, and the threaded through holes are internally provided with screw rods in a threaded connection mode. The arc-shaped groove is internally provided with an auxiliary supporting component 26 in a sliding manner, the auxiliary supporting component 26 comprises a connecting seat 27, an auxiliary rod 28 and a convex block, the connecting seat 27 is arranged on one side of the lower wall of the operating plate 7, the auxiliary rod 28 is hinged to the connecting seat 27, the convex block is arranged on the auxiliary rod 28, one side of the convex block is arranged in the arc-shaped groove in a sliding manner, and a plurality of groups of limiting holes are formed in the auxiliary rod 28. The operating plate 7 is provided with limiting blocks, limiting bulges are arranged on the limiting blocks, the limiting blocks are symmetrically provided with two groups, and a limiting transverse plate is arranged between the limiting blocks.

When the test bed is used, when the test bed is required to be lifted, a switch of the motor 8 is turned on, the motor 8 drives the screw rod 10 to rotate, the screw rod 10 drives the two groups of nut blocks 12 to move close to or separate from each other through threaded connection while rotating, the two groups of connecting rods 13 are further driven to move simultaneously, the two groups of connecting rods 13 drive the two groups of first hinge rods 14 and the two groups of second hinge rods 15 to be folded or placed outwards, and therefore the purpose of controlling the test bed to be lifted is achieved; when the operation panel 7 needs to be controlled to incline, the switch of the second motor 16 is opened, the second motor 16 drives the worm 18 to rotate, the worm 18 drives the worm wheel 19, the driven rotating shaft and the spur gear to rotate, the spur gear is meshed with the spur rack and the sliding block 21 to move horizontally, the transmission rod 23 is driven to move while the sliding motion is carried out, one end of the first hinge rod 14 is hinged to one end of the second hinge rod 15, and when the transmission rod 23 pulls the first hinge rod 14, the first hinge rod 14 and the second hinge rod 15 can be folded and unfolded.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an incline test bench for unmanned tower allies oneself with transfers which characterized in that: the test bed comprises a test bed body, a lifting control device and an inclination control device, wherein the test bed body comprises a base, a supporting transverse plate, four groups of supporting columns and an operating plate, the lifting control device is arranged on the base, the supporting transverse plate is arranged on the lifting control device, the supporting columns are arranged on the supporting transverse plate, the upper ends of the four groups of supporting columns are provided with fixing seats, one end of the operating plate is hinged to the two groups of fixing seats close to the supporting columns, the middle part of the operating plate is provided with an installation hole, and the inclination control device is arranged on the supporting transverse plate; the lifting control device comprises a motor, a fixed plate, a screw rod and a hinge assembly, wherein the fixed plate is arranged on a base, two groups of fixed plates are symmetrically arranged on the upper wall of the base, the motor is arranged on one group of the fixed plate, the screw rod is rotatably arranged on one group of the fixed plate, the other end of the screw rod penetrates through the output shaft of the other group of the fixed plate and the motor, two groups of threads are arranged on the screw rod, the hinge assembly is arranged on the base and comprises a nut block, a connecting rod, a first hinge rod and a second hinge rod, the nut block is arranged on one group of the threads through threaded connection, the connecting rod is arranged on the nut block, the first hinge rod is hinged to the upper wall of the base, the second hinge rod is hinged to a supporting transverse plate, one end of the second hinge rod is hinged to the first hinge rod, and the second hinge rod is hinged to the first hinge, two groups of the hinge assemblies are symmetrically arranged on the base, and the other group of the nut blocks is arranged on the other group of the threads; the inclination control device comprises a second motor, a support frame, a worm wheel, a driven rotating shaft, a slide plate, a sliding block and a connecting assembly, wherein the second motor is arranged on one side of the support transverse plate, the support frame is arranged on the support transverse plate, the worm is rotatably arranged on the support frame, one end of the worm is connected with an output shaft of the second motor, the slide plate is arranged on the support transverse plate, the sliding block is slidably arranged on the slide plate, one side of the sliding block is provided with a spur rack, the driven rotating shaft is rotatably arranged on the support transverse plate, the driven rotating shaft is sleeved with a straight gear, the straight gear is meshed with the straight rack, the worm wheel is arranged on the driven rotating shaft and is positioned above the straight gear, the worm wheel is meshed with the worm, the connecting assembly is arranged on the support transverse plate, the connecting assembly comprises a transmission rod, a first, the first crank is hinged to the supporting transverse plate, the second crank is hinged to the lower end of the operating plate, the second crank is hinged to one end of the first crank, and the transmission rod is hinged to the first crank.

2. The tilt test stand for unmanned tower joint debugging of claim 1, wherein: two sets of support columns that are close to are all provided with arc grooves.

3. The tilt test stand for unmanned tower joint debugging of claim 1, wherein: two sets of fixing bases which are close to each other are provided with threaded through holes, and the threaded through holes are internally provided with screw rods in a threaded connection mode.

4. The tilt test stand for unmanned tower joint debugging of claim 2, wherein: the arc-shaped groove is internally provided with an auxiliary supporting assembly in a sliding mode, the auxiliary supporting assembly comprises a connecting seat, an auxiliary rod and a convex block, the connecting seat is arranged on one side of the lower wall of the operating plate, the auxiliary rod is hinged to the connecting seat, the convex block is arranged on the auxiliary rod in one side and is located in the arc-shaped groove in a sliding mode, and multiple groups of limiting holes are formed in the auxiliary rod.

5. The tilt test stand for unmanned tower joint debugging of claim 1, wherein: the operating panel is provided with a limiting block, the limiting block is provided with a limiting bulge, the limiting block is symmetrically provided with two groups, and a limiting transverse plate is arranged between the limiting blocks.

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