CN212667394U - Three-coordinate measuring, transferring and transporting device - Google Patents

Abstract

The utility model relates to a three-coordinate measurement technical field specifically discloses a transfer conveyer is measured to three-coordinate. The utility model provides a second guide rail and first guide rail in the three-coordinate measurement transfer conveyer fold and can dismantle and be connected, the tray slides and sets up on first guide rail, when the electric drive assembly that needs to be awaited measuring is placed on the test platform of three-coordinate measuring instrument, open the second guide rail, the second guide rail stretches out the dolly body outside and places in the test platform top, promote the tray to move to the second guide rail, supporting component upwards supports the tray and makes tray and second guide rail separate, remove the second guide rail and realize the transportation of electric drive assembly, use this conveyer can not damage three-coordinate measuring instrument when placing and taking off the electric drive assembly, and easy and simple to handle nimble, and improved work efficiency, this conveyer simple structure, it is practical and reliable; in addition, when the electric drive assembly is not taken and placed, the tray is locked on the trolley body through the locking assembly, and the limiting effect is achieved.

Description

Three-coordinate measuring, transferring and transporting device

Technical Field

The utility model relates to a three-coordinate measurement technical field especially relates to a three-coordinate measurement transfer conveyer.

Background

At present along with the rapid development of new energy automobile, the size detection of electric drive assembly product is especially important, and the size detection of electric drive assembly adopts bridge type three-coordinate measuring machine to measure often, electric drive assembly includes the motor, machine controller and reduction gear, weight is heavier, can't directly carry the sample piece to three-coordinate measuring machine's test platform through the people on, lifting device needs to be adopted usually, if lifting device directly hoists the sample piece to bridge type three-coordinate measuring machine's test platform, there is the risk of touching bridge type three-coordinate measuring machine and then damaging the measuring apparatu, and the laboratory of many bridge type three-coordinate measuring machines does not have lifting device at present. Therefore, it is desirable to provide a three-coordinate measuring transit device to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a three-dimensional measurement transfer conveyer can not damage the three-dimensional measuring apparatu when placing and taking off the electric drive assembly, has improved work efficiency.

To achieve the purpose, the utility model adopts the following technical proposal:

a three-coordinate measurement transit conveyance device comprising:

the trolley comprises a trolley body, wherein a first guide rail is fixedly connected to the trolley body, one end of the first guide rail is folded and detachably connected with a second guide rail, the second guide rail can be unfolded to be collinear with the first guide rail, and the second guide rail extends out of the trolley body;

the tray is used for fixing an electric drive assembly to be tested, the tray is arranged on the first guide rail in a sliding mode, when the second guide rail is opened, the tray can slide along the second guide rail, and a supporting assembly capable of enabling the tray to be separated from the second guide rail is arranged on the tray;

and the locking assembly is used for locking the tray on the trolley body.

Preferably, the locking assembly comprises a first locking member arranged on the trolley body and a second locking member arranged on the tray, and the second locking member is matched and connected with the first locking member.

Preferably, first retaining member includes the latch segment, the latch hole has been seted up on the latch segment, the second retaining member includes spring bolt, spring bolt's one end can peg graft in the latch hole.

Preferably, the second guide rail is horizontally and rotatably connected with the outer side surface of the first guide rail through a rotating shaft, and the rotating shaft is detachable.

Preferably, the inner side surface of the first guide rail is provided with a stopper for limiting the position of the second guide rail in the horizontal direction.

Preferably, a first limiting block is arranged at one end of the first guide rail opposite to the second guide rail.

Preferably, a second limiting block is arranged at one end, opposite to the first guide rail, of the second guide rail.

Preferably, the first guide rail and the second guide rail are both provided with two, the two first guide rails are parallel and arranged at intervals, and pulleys connected with the first guide rail and the second guide rail in a matched mode are arranged at the bottom of the tray.

Preferably, the supporting component comprises a plurality of adjusting bolts arranged along the circumferential direction of the tray, the adjusting bolts are in threaded connection with the tray, and the end parts of the adjusting bolts are in threaded connection with nylon cover type nuts.

Preferably, a position-adjustable clamp and a positioning column are arranged on the tray, and the clamp and the positioning column are used for positioning the electric drive assembly to be tested.

The utility model has the advantages that: the second guide rail is folded and detachably connected with the first guide rail, the tray is arranged on the first guide rail in a sliding manner, when the electric drive assembly to be tested needs to be placed on a test platform of the three-coordinate measuring instrument, the second guide rail is opened, extends out of the trolley body and is placed above the test platform, the tray is pushed to move to the second guide rail, the support component upwards supports the tray to separate the tray from the second guide rail, the electric drive assembly is transferred by removing the second guide rail, the three-coordinate measuring instrument cannot be damaged when the electric drive assembly is placed and taken down by using the transportation device, the operation is simple, convenient and flexible, the working efficiency is improved, and the transportation device is simple in structure, practical and reliable; in addition, when the electric drive assembly is not taken and placed, the tray is locked on the trolley body through the locking assembly, and the limiting effect is achieved.

Drawings

Fig. 1 is a schematic view of an overall structure of a three-coordinate measuring transfer transportation device provided in an embodiment of the present invention;

fig. 2 is a top view of the three-dimensional coordinate measurement transfer transportation device provided by the embodiment of the present invention.

In the figure:

1. a trolley body; 101. a trolley frame; 102. a universal wheel; 103. a handle;

2. a first guide rail; 3. a second guide rail; 4. a tray; 5. a clamp; 6. a positioning column;

71. adjusting the bolt; 72. a nylon cap type nut;

81. a first locking member; 811. a locking block; 812. a locking hole; 82. a second locking member; 821. a spring bolt;

9. a stopper; 10. a first stopper; 11. and a second limiting block.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solutions adopted by the present invention and the technical effects achieved by the present invention clearer, the following will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

To solve the problem that it is difficult to place the electric drive assembly on the testing platform of the bridge-type three-coordinate measuring instrument in the prior art, the embodiment provides a three-coordinate measuring transfer transportation device to solve the above problems.

As shown in fig. 1 and 2, the three-coordinate measurement transfer transportation device provided by the embodiment includes a trolley body 1, a tray 4 and a locking assembly, wherein the trolley body 1 is fixedly connected with a first guide rail 2, one end of the first guide rail 2 is folded and detachably connected with a second guide rail 3, the second guide rail 3 can be opened to be collinear with the first guide rail 2, and the second guide rail 3 extends out of the trolley body 1. Tray 4 is used for fixed electric drive assembly that awaits measuring, and tray 4 slides and sets up on first guide rail 2, and when second guide rail 3 was opened, tray 4 can slide along second guide rail 3, is equipped with the supporting component who enables tray 4 and break away from second guide rail 3 on tray 4, and locking component is used for locking tray 4 in on dolly body 1. The second guide rail 3 is connected with the first guide rail 2 in a folding and detachable mode, the tray 4 is arranged on the first guide rail 2 in a sliding mode, when an electric drive assembly to be tested needs to be placed on a test platform of the three-coordinate measuring instrument, the second guide rail 3 is opened, the second guide rail 3 extends out of the trolley body 1 and is placed above the test platform, the tray 4 is pushed to move to the second guide rail 3, the supporting component upwards supports the tray 4 to enable the tray 4 to be separated from the second guide rail 3, the electric drive assembly is transported by removing the second guide rail 3, the three-coordinate measuring instrument cannot be damaged when the electric drive assembly is placed and taken down by using the transporting device, the operation is simple, convenient and flexible, the working efficiency is improved, and the transporting device is simple in structure, practical and; in addition, when not taking and putting the electric drive assembly, the locking assembly locks the tray 4 on the trolley body 1, and the limiting effect is achieved.

In this embodiment, dolly body 1 includes dolly frame 101, and the bottom of dolly frame 101 is equipped with universal wheel 102, and is equipped with brake assembly on the universal wheel 102 to the location conveyer, first guide rail 2 is installed in the upper surface of dolly frame 101, still is equipped with handle 103 on the dolly frame 101, makes things convenient for operating personnel to hold when transporting.

In this embodiment, first guide rail 2 is equipped with two, and every first guide rail 2 is connected with a second guide rail 3 respectively, and two first guide rail 2 are parallel and the interval sets up, and the bottom of tray 4 is equipped with the pulley with first guide rail 2 and second guide rail 3 accordant connection. In order to ensure the stability of the sliding connection of the tray 4 with the first guide rail 2 and the second guide rail 3, at least two pulleys are respectively installed on the tray 4 at positions corresponding to each first guide rail 2.

In this embodiment, the second guide rail 3 is horizontally and rotatably connected with the outer side surface of the first guide rail 2 through a rotating shaft, and the rotating shaft is detachable. Specifically, be equipped with first lug at the lateral surface of first guide rail 2, the lateral surface of second guide rail 3 is equipped with the second lug, vertical connecting hole has been seted up on first lug and the second lug respectively, the connecting hole on first lug and the connecting hole on the second lug are worn to establish in proper order in the pivot, second guide rail 3 has been realized being connected with the rotation of first guide rail 2, when folding second guide rail 3, the lateral surface of second guide rail 3 and the laminating of the lateral surface of first guide rail 2, be convenient for accomodate second guide rail 3, and second guide rail 3 is not interfering with other parts receiving and releasing the in-process. The rotating shaft can be detached, and the detachment of the second guide rail 3 is realized by detaching the rotating shaft.

Further, the inner side surface of the first guide rail 2 is provided with a stopper 9, and the stopper 9 is used for limiting the position of the second guide rail 3 in the horizontal direction. When the second rail 3 is opened, the stopper 9 makes the second rail 3 collinear with the first rail 2, ensuring that the tray 4 can be smoothly moved onto the second rail 3.

In this embodiment, the first limiting block 10 is disposed at an end of the first guide rail 2 opposite to the second guide rail 3, and the first limiting block 10 is used for limiting the extreme movement position of the tray 4, so that the tray 4 is not separated from the first guide rail 2, and the safety of the transportation device in use is ensured.

The second limiting block 11 is arranged at one end, opposite to the first guide rail 2, of the second guide rail 3, and the second limiting block 11 is used for limiting the extreme movement position of the tray 4, so that the tray 4 is not separated from the second guide rail 3, and the use safety of the transportation device is ensured.

When the tray 4 is not required to move onto the second rail 3, the tray 4 needs to be locked on the carriage body 1 by a locking assembly, in this embodiment, the locking assembly comprises a first locking member 81 installed on the carriage body 1 and a second locking member 82 installed on the tray 4, and the second locking member 82 is matched and connected with the first locking member 81. When it is desired to move the tray 4, the second locking member 82 is separated from the first locking member 81 to effect unlocking. The first locking piece 81 and the second locking piece 82 are arranged, so that the transportation device cannot move in the driving process, and the use safety of the transportation device is improved.

Further, first retaining member 81 includes latch segment 811, has seted up locking hole 812 on the latch segment 811, and second retaining member 82 includes spring bolt 821, and spring bolt 821's one end can be pegged graft in locking hole 812, lifts spring bolt 821 and can realize with the separation of locking hole 812, simple structure, the operation of being convenient for. In other embodiments, the first locking member 81 and the second locking member 82 may have other structures, and are not limited herein.

In this embodiment, the tray 4 is provided with a position-adjustable clamp 5 and a positioning column 6, and the clamp 5 and the positioning column 6 are used for positioning the electric drive assembly to be tested. Specifically, a plurality of screw holes have been seted up on tray 4, and a plurality of screw holes distribute with the form of array, can spiro union reference column 6 in the screw, and anchor clamps 5 can be dismantled with the screw and be connected, are convenient for adjust anchor clamps 5 and reference column 6's position, and simple structure. Through the position of adjustment anchor clamps 5 and reference column 6, can adjust the mounted position of electric drive assembly on tray 4, adapt to the installation of different electric drive assemblies, use the flexibility good. In this embodiment, the fixture 5 is preferably a flexible fixture, which facilitates positioning of the electric drive assembly, and the structure of the flexible fixture is not described in detail herein since it is prior art.

The support assembly is mounted on the tray 4 for separating the tray 4 from the second guide rail 3. In this embodiment, the support assembly includes a plurality of adjusting bolts 71 disposed along the circumferential direction of the tray 4, the adjusting bolts 71 are screwed with the tray 4, and the end portions of the adjusting bolts 71 are screwed with nylon cap type nuts 72. When the tray 4 is transported to above the test platform of the coordinate measuring machine, the adjusting bolt 71 is screwed so that the nylon cap nut 72 on the adjusting bolt 71 abuts against the test platform, the tray 4 is supported, and the tray 4 is separated from the second rail 3. The end part of the adjusting bolt 71 is in threaded connection with the nylon cover type nut 72, so that the test platform of the three-coordinate measuring instrument is effectively protected from being scratched.

Since the tray 4 is a rectangular tray, four adjusting bolts 71 are preferably provided on the tray 4, and the four adjusting bolts 71 are distributed at four corners of the tray 4 so as to provide a uniform supporting force to the tray 4. In other embodiments, the support assembly may have other structures, and is not limited herein.

When using the conveyer that this embodiment provided, hang the electric drive assembly to the tray 4 of conveyer through lifting device outside the laboratory bench earlier, tray 4 locks on dolly body 1, fixes the electric drive assembly on tray 4 through reference column 6 and anchor clamps 5. Then, the transportation device is pushed into a laboratory to a position of the three-coordinate measuring instrument, the second guide rail 3 is opened to enable the second guide rail 3 to be arranged above a testing platform of the three-coordinate measuring instrument, the second locking piece 82 is separated from the first locking piece 81, the tray 4 is moved to the second guide rail 3, the supporting component is adjusted to enable the tray 4 to be separated from the second guide rail 3 and to be supported on the testing platform, finally, the second guide rail 3 is detached, the trolley body 1 is pushed away, the second guide rail 3 is taken out and then is connected with the first guide rail 2, the next use is facilitated, and meanwhile, the transportation of the electric drive assembly is also completed.

It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A three-coordinate measurement transfer transportation device, comprising:

the trolley comprises a trolley body (1), wherein a first guide rail (2) is fixedly connected to the trolley body (1), one end of the first guide rail (2) is connected with a second guide rail (3) in a folding and detachable mode, the second guide rail (3) can be unfolded to be collinear with the first guide rail (2), and the second guide rail (3) extends out of the trolley body (1);

the tray (4) is used for fixing an electric drive assembly to be tested, the tray (4) is arranged on the first guide rail (2) in a sliding mode, when the second guide rail (3) is opened, the tray (4) can slide along the second guide rail (3), and a supporting component capable of enabling the tray (4) to be separated from the second guide rail (3) is arranged on the tray (4);

the locking assembly is used for locking the tray (4) on the trolley body (1).

2. The transit transport device for three-coordinate measurement according to claim 1, wherein the locking assembly comprises a first locking member (81) installed on the carriage body (1) and a second locking member (82) installed on the pallet (4), and the second locking member (82) is in mating connection with the first locking member (81).

3. The transfer transportation device for three-coordinate measurement according to claim 2, wherein the first locking member (81) comprises a locking block (811), the locking block (811) is provided with a locking hole (812), the second locking member (82) comprises a spring bolt (821), and one end of the spring bolt (821) can be inserted into the locking hole (812).

4. The transit conveyor for three-coordinate measurement according to claim 1, wherein the second guide rail (3) is horizontally and rotatably connected with the outer side surface of the first guide rail (2) through a rotating shaft, and the rotating shaft is detachable.

5. The transit conveyor according to claim 4, characterised in that the inner side of the first guide rail (2) is provided with a stop (9), said stop (9) being used to define the position of the second guide rail (3) in the horizontal direction.

6. The transit conveyor for three-coordinate measurement according to claim 1, characterized in that a first stopper (10) is provided at an end of the first guide rail (2) opposite to the second guide rail (3).

7. The transit conveyor for three-coordinate measurement according to claim 1, characterized in that a second stopper (11) is provided at an end of the second guide rail (3) opposite to the first guide rail (2).

8. The three-coordinate measuring, transferring and transporting device of claim 1, wherein there are two first guide rails (2) and two second guide rails (3), the two first guide rails (2) are arranged in parallel and at intervals, and the bottom of the tray (4) is provided with pulleys connected with the first guide rails (2) and the second guide rails (3) in a matching way.

9. The transit conveyor for three-coordinate measurement according to claim 1, wherein the support assembly comprises a plurality of adjusting bolts (71) arranged along the circumference of the tray (4), the adjusting bolts (71) are screwed with the tray (4), and the end parts of the adjusting bolts (71) are screwed with nylon cap type nuts (72).

10. The transit conveyor for three-coordinate measurement according to claim 1, characterized in that the pallet (4) is provided with a position-adjustable clamp (5) and a positioning column (6), and the clamp (5) and the positioning column (6) are used for positioning the electric drive assembly to be measured.

Images