CN214583976U - Rolling brush equipment performance detection device - Google Patents

Abstract

The application discloses round brush equipment performance detection device includes: the device comprises a workbench, a clamping mechanism, a rotating speed detection mechanism and a power supply mechanism; the workbench is provided with a positioning structure for positioning the rolling brush equipment to be tested, and the rotating speed detection mechanism is arranged in a test area defined by the positioning structure; the rotating speed detection mechanism comprises a rotating speed meshing mechanism and a rotating speed detector; the rotating speed meshing mechanism is meshed with the rolling brush; the rotating speed detection mechanism is used for receiving rotating speed input from the rotating speed meshing mechanism and obtaining a rotating speed detection result; the clamping mechanism is used for fixing the rolling brush equipment to be tested, which is placed in the testing area. According to the device, under the condition of one-time positioning, multiple performance detections are performed on the rolling brush equipment to be detected, so that the time and cost consumption caused by item-by-item detection is avoided, and manpower and material resources are saved; the condition that the normal working state of the rolling brush equipment cannot be reflected under the condition that the rolling brush equipment to be tested is detected item by item and the condition that various performances are not consistent with the detection result in the normal working process are avoided.

Description

Rolling brush equipment performance detection device

Technical Field

The application relates to a detection device, especially relates to a round brush equipment performance detection device.

Background

As the material level of people's life increases, various rolling brush devices (such as dust collectors) continuously appear and affect the quality of life of people.

The performance detection of the rolling brush equipment is an essential link for evaluating the quality of the rolling brush equipment. In the prior art, the performance of the rolling brush equipment is often detected item by manpower to determine the quality of the rolling brush equipment, which is not only labor-intensive but also unable to face special situations, such as: after the performance of the rolling brush equipment is detected in a one-by-one detection mode, all the performances of the rolling brush equipment meet preset standards, but all the functions of the rolling brush equipment still may be uncoordinated after the rolling brush equipment works normally, so that a performance detection device for the rolling brush equipment is urgently needed in the field for performance detection of the rolling brush equipment.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the application provides a rolling brush equipment performance detection device. The rolling brush equipment performance detection device comprises: the device comprises a workbench, a clamping mechanism, a rotating speed detection mechanism and a power supply mechanism;

the workbench is provided with a positioning structure for positioning rolling brush equipment to be tested, and the rotating speed detection mechanism is arranged in a test area defined by the positioning structure; the rotating speed detection mechanism comprises a rotating speed meshing mechanism and a rotating speed detector; the rotating speed meshing mechanism is meshed with the rolling brush; the rotating speed detector is used for receiving a rotating speed input from the rotating speed meshing mechanism and obtaining a rotating speed detection result;

the clamping mechanism is used for fixing the rolling brush equipment to be tested, which is placed in the testing area.

Optionally, the rotation speed detector includes: a rotating speed encoder;

the rotating speed meshing mechanism is arranged on a rotating shaft of the rotating speed encoder.

Optionally, the rotating speed meshing mechanism is a gear.

Optionally, a blocking rotating head is arranged in the test area; when the detection is finished, the blocking rotating head contacts a roller of the rolling brush equipment to be tested, resistance is generated to the rotation of the rolling brush, and the rolling brush is assisted to stop rotating.

Optionally, a rolling brush hair length detector is further arranged in the test area surrounded by the positioning structure.

Optionally, the rolling brush hair length detector includes: the detection spring plate is embedded into the test area, and the proximity sensor is arranged at the lower part of the detection spring plate and is used for determining whether the brush contacts the detection spring plate after the to-be-tested rolling brush device is electrified and rotated.

Optionally, the clamping mechanism comprises a clamping jaw; the clamping claw comprises a clamping cylinder and a clamping head, and the clamping head can clamp or loosen the rolling brush equipment to be detected under the driving of the clamping cylinder.

Optionally, the clamping mechanism further comprises a clamping bottom plate and a first translation cylinder; the clamping claw is arranged on the clamping bottom plate; a first sliding guide structure which is matched with the clamping bottom plate is arranged between the clamping bottom plate and the workbench, and the clamping bottom plate slides on the workbench through the push-pull action of the first translation cylinder so as to be respectively positioned at a clamping station and a withdrawing station; and the clamping head clamps the rolling brush equipment to be detected when the clamping bottom plate moves to the clamping station.

Optionally, the apparatus further comprises: an appearance detection mechanism;

the appearance detection mechanism includes: the imaging device and fix the imaging device on formation of image support on the workstation.

Optionally, the power supply mechanism includes: the power supply head is connected with a power supply and combined with a power plug of the rolling brush equipment to be detected; the power supply driving mechanism is used for adjusting the position of the power supply head.

Optionally, the device further comprises a power supply bracket;

the power supply support is provided with a first sliding mechanism and a power supply installation mechanism arranged on the first sliding mechanism, and the power supply installation mechanism is used for installing the power supply mechanism;

the first sliding mechanism is provided with a second sliding guide mechanism and a second sliding cylinder which are arranged along a first direction, and the second sliding guide mechanism is used for installing the power supply installation mechanism; and the second sliding cylinder is used for pushing the power supply installation mechanism to move along the second sliding guide mechanism.

Optionally, the power supply mounting mechanism includes: a third sliding mechanism, a third sliding cylinder and a rotating mechanism;

one side of the third sliding mechanism is matched with the second sliding guide mechanism to install the power supply installation mechanism on the second sliding mechanism, and the other side of the third sliding mechanism is provided with a third sliding guide mechanism arranged along a second direction; the rotating mechanism is arranged on the third sliding guide mechanism; the third sliding cylinder is used for pushing the rotating mechanism to move along the third sliding guide rail; wherein the power supply mechanism is mounted on the rotating mechanism.

Optionally, the rotating mechanism includes: a rotary cylinder and a connecting piece;

the connecting piece is arranged on the rotating head of the rotating cylinder and is used for fixedly arranging the power supply mechanism.

Optionally, the rotating mechanism further includes: rotating the clamping head;

the rotary clamping head is fixedly arranged on the connecting piece and used for fixing the stand column of the rolling brush equipment to be tested.

Compared with the prior art, the method has the following advantages:

the application provides a round brush equipment performance detection device includes: the device comprises a workbench, a clamping mechanism, a rotating speed detection mechanism and a power supply mechanism; the workbench is provided with a positioning structure for positioning rolling brush equipment to be tested, and the rotating speed detection mechanism is arranged in a test area defined by the positioning structure; the rotating speed detection mechanism comprises a rotating speed meshing mechanism and a rotating speed detector; the rotating speed meshing mechanism is meshed with the rolling brush; the rotating speed detection mechanism is used for receiving a rotating speed input from the rotating speed meshing mechanism and obtaining a rotating speed detection result; the clamping mechanism is used for fixing the rolling brush equipment to be tested, which is placed in the testing area. The device fixes the rolling brush equipment to be tested in the testing area through a clamping mechanism so as to enable the rolling brush equipment to be tested to simulate the working condition under the normal working state after being electrified and rotated; the test can be used for detecting whether the rolling brush equipment to be tested can be normally electrified and operated or not by utilizing the power supply mechanism on one hand, and can be used for simultaneously detecting whether the rolling brush rotates normally or not on the other hand. In a further preferable scheme of the detection device, an appearance detection mechanism can be further added on the basis of the basic scheme, and the appearance of the rolling brush equipment is detected by matching the imaging equipment with image recognition; in another preferred mode, a brush roll hair length detector is provided in the test area for detecting whether the hair length and strength of the brush roll meet requirements.

The performance detection device for the rolling brush equipment can be used for detecting various performances of the rolling brush equipment to be tested under the condition of one-time positioning, so that the time and cost consumption caused by item-by-item detection is avoided, and manpower and material resources are saved; moreover, the condition that the normal working state of the rolling brush equipment cannot be reflected under the method of detecting the rolling brush equipment to be tested item by item can be avoided, and the condition that various performances of the rolling brush equipment to be tested are not consistent with the detection result in the normal working process can be avoided.

Drawings

Fig. 1 is a schematic structural diagram of a performance detection device of a roll brush apparatus according to an embodiment of the present application;

FIG. 2 is a schematic partial structural diagram of a workbench according to an embodiment of the present disclosure;

FIG. 3 is a schematic structural diagram of a clamping structure according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an appearance inspection mechanism according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a power supply bracket according to an embodiment of the present application for fixing the power supply mechanism;

Detailed Description

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiments in many different forms than those described herein and is therefore not limited to the specific embodiments disclosed below.

The present application provides a performance detection device for a roller brush device, and the structure, the working state and the application environment thereof are described in detail in the following embodiments.

Fig. 1 is a schematic structural diagram of a performance detection apparatus for a roll brush device according to an embodiment of the present disclosure.

The rolling brush equipment performance detection device comprises: a table 101, a clamping mechanism 102, a power supply mechanism 103, and a rotational speed detection mechanism.

Please refer to fig. 2, which is a schematic partial structure diagram of the worktable 101 according to an embodiment of the present application.

The test platform is characterized in that a positioning structure 201 for positioning rolling brush equipment to be tested is arranged on the workbench 101, specifically, the positioning structure 201 surrounds a test area on the workbench 101, and in the actual application process, the rolling brush equipment to be tested completes performance detection of rolling brush parts of the rolling brush equipment in the test area. The positioning structure 201 comprises a plurality of bosses fixed on the surface of the workbench 101, the inner surfaces of the bosses define a test area, and the test area is adapted to the outline of the rolling brush equipment to be detected; the test area may define a placement area of the roll brush device.

The rotating speed detection mechanism is arranged in a test area surrounded by the positioning structure 201; the rotation speed detection mechanism comprises a rotation speed engagement mechanism 202 and a rotation speed detector 203.

In the practical application process, when the roll brush equipment to be tested is placed in the test area, the rotating speed meshing mechanism 202 is meshed with the roll brush of the roll brush equipment to be tested, and when the roll brush equipment to be tested is electrified and rotates, the rotating speed meshing mechanism 202 is driven to rotate together. The rotation speed detector 203 receives a rotation speed input from the rotation speed engagement mechanism 202, and obtains a rotation speed detection result.

Specifically, the rotation speed detector 203 may be a rotation speed encoder, the rotation speed encoder is a component for measuring a rotation speed, a rotation shaft of the rotation speed encoder is connected to a rotation shaft to be measured, the rotation shaft of the rotation speed encoder is driven by the rotation shaft to be measured to rotate, and then a period of rotation of the rotation shaft is converted into a binary code or a series of pulses, so as to obtain the rotation speed.

The rotating speed meshing mechanism 202 may be a friction wheel or a gear, and in an actual application process, in order to cooperate with the rotating speed encoder to complete the rotating speed detection of the to-be-tested rolling brush device, the gear is installed on a rotating shaft of the rotating speed encoder. A friction wheel or a gear as the rotating speed meshing mechanism 202 is installed on the bottom plate of the testing area and protrudes out of the surface of the bottom plate, and the installation position needs to ensure that the rolling brush part can be meshed with the rotating speed meshing mechanism 202 when the rolling brush equipment to be detected is positioned in the testing area; the specific meshing mode can be gear meshing or friction wheel meshing according to the structure of the rolling brush; if the gear is meshed, the rotating speed meshing mechanism 202 specifically adopts a gear matched with a gear on the roller brush, and if the gear is meshed by adopting a friction wheel, the rotating speed meshing mechanism 202 adopts a friction wheel.

In order to ensure that the whole test work is completed smoothly, the clamping mechanism 102 is also used for fixing the roller brush equipment to be tested, which is placed in the test area; under the action of the clamping mechanism 102, the rolling brush part of the rolling brush equipment to be tested can be clamped in the testing area, so that the rolling brush is ensured to be engaged with the rotating speed engaging mechanism 202, the rolling brush equipment to be tested is ensured not to be loosened in the testing process, and testing errors are avoided.

Please refer to fig. 3, which is a schematic structural diagram of the clamping mechanism 102 according to an embodiment of the present application.

The clamping mechanism 102 includes: a clamping jaw 301, which comprises a clamping cylinder 305, a clamping head 306, wherein the clamping head 306 can clamp or release the roller brush equipment to be tested under the driving of the clamping cylinder 305.

In order to facilitate the placement of the device to be tested in the test area, the clamping claw 301 is not directly disposed at the test area, but is disposed in a movable manner, and after the roll brush device to be tested is placed in the test area, the roll brush device to be tested is moved to the test area to perform a clamping action. For this purpose, the clamping mechanism 102 further comprises a clamping base plate 302 and a first translation cylinder 303; the clamping claw 301 is mounted on the clamping base plate 302; a first sliding guide structure which is matched with the clamping bottom plate 302 is arranged between the clamping bottom plate 302 and the workbench, and the clamping bottom plate 302 slides on the workbench 101 through the push-pull action of the first translation cylinder 303, so that the clamping claw 301 can enter the test area and exit the test area; after the clamping head 306 of the clamping claw 301 moves to the testing area and is in place under the driving of the clamping base plate 302, the rolling brush equipment to be tested is clamped.

It should be noted that the clamping mechanism 301 may be installed in various ways, for example: as shown in fig. 1, if the first sliding guide mechanism 304 is a sliding groove, the clamping base plate 302 is mounted on the lower surface of the workbench 101, the clamping claw 301 is mounted on the clamping base plate 302 through the sliding groove, and when the rolling brush device performance detection device works normally, the first translation cylinder 303 pushes the clamping base plate 302 and drives the clamping claw 301 to move to the position of the positioning structure 201 along the sliding groove. Another example is: if the first sliding guide mechanism 304 is a guide rail disposed on the upper surface of the worktable 101, the clamping base plate 302 may be configured to be correspondingly engaged with the sliding guide rail, and the clamping claw 301 is mounted on the clamping base plate 302, and the clamping base plate 302 drives the clamping claw 301 to move along the guide rail to the position of the positioning structure 201 by being pushed by the first translation cylinder 303. It can be seen that the structure of the clamping device in the embodiment of the present application can be changed appropriately according to the structural configuration of the first sliding guide mechanism 304, and changing the structure of the clamping mechanism 102 according to actual conditions belongs to a simple change of the device in the embodiment of the present application without departing from the core of the present application.

In the process of detecting the performance of the rolling brush equipment to be tested, the brush length of the rolling brush equipment to be tested is also an important standard for evaluating the quality of the rolling brush equipment. Therefore, a rolling brush hair length detector 204 is also arranged in the test area surrounded by the positioning structure 201.

The rolling brush hair length detector 204 includes: a detection spring 206 embedded in the test area, and a proximity sensor disposed at the lower part of the detection spring 206. A proximity sensor is a device having a capability of sensing the proximity of an object, and recognizes the proximity of the object using its own sensitivity characteristics and outputs corresponding switching information. In the embodiment of the application, after the to-be-tested rolling brush device is powered on and rotates in the testing area, if the length of the brush of the to-be-tested rolling brush device is greater than the preset length, the detection elastic sheet 206 is touched, and the proximity sensor determines whether the length of the brush of the to-be-tested rolling brush device meets the quality requirement by receiving information that the rolling brush touches the detection elastic sheet 206. The rolling brush bristle length detector 204 actually detects the stiffness of the rolling brush bristles because too soft bristles cannot depress the detection spring 206.

Optionally, a rotation blocking head 205 is further arranged inside the test area, and when the test is finished, the rotation blocking head 205 contacts the rolling brush of the rolling brush device to be tested, so as to generate resistance to the rotation of the rolling brush and assist the rolling brush to stop rotating quickly.

In the process of detecting the to-be-tested rolling brush equipment, the appearance of the to-be-tested rolling brush equipment needs to be detected, for example: assuming that the roll brush device to be tested is a certain brand of dust collector, the appearance of the dust collector needs to be detected (for example, whether a trademark exists or not, whether flaws exist in the appearance or not, and the like).

Therefore, the performance detection device for the roll brush equipment according to the embodiment of the present application further includes an appearance detection mechanism 104.

Fig. 4 is a schematic structural diagram of an appearance detection mechanism according to an embodiment of the present application.

The appearance detecting mechanism 104 includes: an imaging device 401, and an imaging support 402 that fixes the imaging device 401 on the table 101. Alternatively, the imaging device may be configured as a camera, a CCD detector, or the like. In the working process, the imaging device 401 scans the to-be-tested roll-brush device to complete the appearance detection of the to-be-tested roll-brush device. The scanning imaging result can be transmitted to the background, and whether the appearance of the rolling brush equipment to be tested meets the requirement or not is judged in a manual or AI identification mode.

The power supply mechanism 103 is configured to supply power to the to-be-tested rolling brush device, and as can be understood, the power supply mechanism can also detect the energization performance of the to-be-tested rolling brush device.

Optionally, considering that some rolling brush devices are further provided with an energizing indicator lamp, the apparatus further includes a light source test sensor 105 provided on the work table 101 to detect whether the energizing indicator lamp can work normally.

A power supply bracket 106 for fixing the power supply mechanism is mounted on the worktable 101.

Fig. 5 is a schematic structural diagram of the power supply bracket according to the embodiment of the present application for fixing the power supply mechanism.

The power supply mechanism 103 comprises a power supply head 501 and a power supply driving mechanism 502, wherein the power supply head 501 is connected with a power supply and is combined with a power supply plug of the rolling brush equipment to be detected; the power supply driving mechanism 502 is used for adjusting the position of the power supply head 501.

The power supply bracket 106 is provided with a first sliding mechanism 503 and a power supply mounting mechanism 504 mounted on the first sliding mechanism 503, and the power supply mounting mechanism 504 is used for mounting the power supply mechanism 103.

Specifically, the first slide mechanism 503 is provided with a second slide guide mechanism 505 and a second slide cylinder 506 provided in the first direction.

The second sliding guide mechanism 505 is used for mounting the power supply mounting mechanism 504; the second sliding cylinder 506 is used for pushing the power supply installation mechanism 504 to move along the second sliding guide mechanism 505.

Based on the above description of the structure of the first sliding mechanism 503, the main function of the first sliding mechanism 503 is to adjust the position of the power supply mechanism 103, so as to ensure that the power supply mechanism 103 can smoothly supply power to the roll brush device to be tested, thereby completing various performance tests.

It will be appreciated that the different roller brush devices are not energised in the same manner, for example: the working conditions of some hand-held cleaner roller brush working heads are not only to electrify the cleaner, but also to require the cleaner to enter a working state. Therefore, in order for the roll brush device to be tested to simulate a normal operating state during performance testing, the power supply mounting mechanism 504 includes: a third slide mechanism 507, a third slide cylinder 508, and a rotation mechanism 509.

In order to facilitate understanding of the structural relationship and the working process among the third sliding mechanism 507, the third sliding cylinder 508 and the rotating mechanism 509, firstly, taking the dust collector as an example, the working state of the roller brush to be tested, which needs to be in a normal working state to complete energization, is described:

the dust collector mainly comprises a dust collector working head provided with a rolling brush and a dust collector upright post hinged with the dust collector working head; and the inner wall of the upright post of the dust collector is provided with a power-on head. When the dust collector is powered on, the working head of the dust collector is tightly attached to the ground, and the upright post of the dust collector deflects to a certain angle towards a user of the dust collector, the rolling brush arranged in the working head of the dust collector is powered on to normally work.

In order to simulate the above working condition, one side of the third sliding mechanism 507 is matched with the second sliding guide mechanism 505 to mount the power supply mounting mechanism on the second sliding mechanism, and the other side is provided with a third sliding guide mechanism 5010 arranged along the second direction; the rotating mechanism 509 is mounted on the third slide guide mechanism 5010; the third sliding cylinder 508 pushes the rotating mechanism 509 to move along the third sliding guide mechanism 5010; wherein the power supply mechanism 103 is mounted on the rotation mechanism.

The rotating mechanism 509 includes: a rotating cylinder 5011, a connecting piece 5012; the connector 5012 is mounted on the rotary head of the rotary cylinder 5011 for fixedly mounting the power supply mechanism 103. The rotating mechanism 509 further includes: the clamping head 5013 is rotated.

The rotary clamping head 5013 is fixedly mounted on the connecting piece 5012 and is used for fixing a stand column of the rolling brush equipment to be tested.

In order to facilitate understanding of the process of supplying power to the rolling brush device to be tested by the power supply mechanism 103 fixed on the power supply bracket 106, the following description will still take a vacuum cleaner as an example to describe the above process in detail.

After the dust collector to be tested is fixed in the performance detection area, the second sliding cylinder 506 pushes the power supply installation mechanism 504, so that the power supply mechanism 103 fixed on the power supply installation mechanism 504 is positioned right above the upright post of the dust collector to be tested. The power supply driving mechanism of the power supply mechanism 103 drives the power supply head 501, so that the power supply head 501 is connected with a power-on interface arranged in the upright column to supply power to the dust collector to be tested.

When the power is supplied to the dust collector to be tested, the rotating clamping head 5013 arranged on the rotating cylinder 5011 fixes the stand column of the dust collector to be tested, after the fixing is completed, the rotating cylinder 5011 rotates towards a specified position, and the stand column of the dust collector to be tested rotates towards the same position along with the rotating cylinder 5011 under the driving of the rotating clamping head 5013. It will be appreciated that after rotation, there must be some change in position of the power supply mechanism relative to the table 101. Therefore, in order to make the rotation process smoothly proceed, the second slide cylinder 506 and the third slide cylinder 508 control the power supply mounting mechanism to move adaptively along the second slide guide mechanism 505 and the third slide guide mechanism 5010 according to the angle of rotation and the direction of rotation.

In addition, the apparatus further comprises: a PLC controller, the PLC controller comprising: the test function of the rolling brush equipment performance detection device is processed and calculated through the control server, and meanwhile, the control console receives and displays a performance test result; optionally, the console 107 is mounted on the workbench 101.

In order to make it easier to understand the performance detection device of the roll brush equipment in the embodiments of the present application, the performance detection device will be described in detail below with reference to specific usage scenarios.

Assume that the roll-brush appliance to be tested is a hand-held vacuum cleaner. When the performance of the to-be-tested rolling brush equipment is detected, a worker places the to-be-tested rolling brush equipment in the performance detection area and controls the rolling brush equipment performance detection device to be started through a control console installed on the workbench 101. After the rolling brush equipment performance detection device is started, the first translation cylinder 303 pushes the clamping base plate 302 to enable the clamping claw 301 to move to the placing position of the handheld dust collector, and the clamping cylinder controls the clamping head to clamp the handheld dust collector.

Meanwhile, the second sliding cylinder 506 pushes the power supply installation mechanism 504 to enable the power supply mechanism 103 fixed on the power supply installation mechanism 504 to be positioned right above the upright post of the handheld dust collector, and the power supply driving mechanism 502 on the power supply mechanism 103 drives the power supply head 501, so that the power supply head 501 is connected with a power-on structure arranged in the upright post to supply power to the handheld dust collector.

When the handheld dust collector is powered on, a rotary clamping head 5013 arranged on the rotary cylinder 5011 fixes an upright post of the handheld dust collector, and the rotary cylinder 5011 drives the upright post to rotate so as to simulate the normal working state of the handheld dust collector.

After the handheld dust collector enters a normal work simulation state, a rotating speed detection mechanism arranged in the detection area determines the rotating period and the number of rotating turns of a rotating wheel of the handheld dust collector meshed with the rotating speed meshing mechanism 202 through a rotating speed detector 203 to determine the rotating speed of the handheld dust collector during work; the rolling brush hair length detector 204 determines whether the hair length of the rolling brush of the handheld dust collector touches the detection elastic sheet 206 through a proximity sensor, and further determines whether the hair length of the rolling brush meets the quality requirement; the appearance detection mechanism 104 scans the handheld vacuum cleaner through an imaging device to detect whether the appearance of the handheld vacuum cleaner is flawed or not; the light source test sensor 105 detects whether the power-on indicator lamp of the hand-held cleaner normally blinks to determine whether there is a power-on abnormality in the power-on performance of the hand-held cleaner. After the detection is finished, the rotating speed detection mechanism, the rolling brush hair length detector 204, the appearance detection mechanism 104 and the light source test sensor 105 send the data obtained by the test to the control server, and the control server calculates and analyzes the test data to obtain a test result and sends the test result to the console for display.

It can be seen from the above description of the structure, the working state and the application environment of the device for detecting the performance of the rolling brush equipment provided by the embodiment of the application, the device provided by the application enables the rolling brush equipment to be tested to be fixed in the testing area through the clamping mechanism, so that the normal working state is simulated after the rolling brush equipment to be tested is electrified and rotated. The power supply mechanism is utilized to electrify the rolling brush equipment to be tested and detect whether the rolling brush equipment to be tested can be normally electrified or not, in addition, the rotating speed detection device is utilized to test the rotating speed of the rolling brush equipment to be tested, the rolling brush equipment performance detection device is utilized to carry out performance detection on the rolling brush equipment to be tested, the performance detection of the rolling brush equipment to be tested is avoided item by item, manpower and material resources are saved, and meanwhile, the condition that various performances of the rolling brush equipment to be tested are inconsistent with detection results in the normal working process is avoided after the rolling brush equipment to be tested is detected item by item.

Although the present application has been described with reference to the preferred embodiments, it is not intended to limit the present application, and those skilled in the art can make variations and modifications without departing from the spirit and scope of the present application, therefore, the scope of the present application should be determined by the claims that follow.

Claims (14)

1. A rolling brush equipment performance detection device, characterized by, includes: the device comprises a workbench, a clamping mechanism, a rotating speed detection mechanism and a power supply mechanism;

the workbench is provided with a positioning structure for positioning rolling brush equipment to be tested, and the rotating speed detection mechanism is arranged in a test area defined by the positioning structure; the rotating speed detection mechanism comprises a rotating speed meshing mechanism and a rotating speed detector; the rotating speed meshing mechanism is meshed with the rolling brush; the rotating speed detector is used for receiving a rotating speed input from the rotating speed meshing mechanism and obtaining a rotating speed detection result;

the clamping mechanism is used for fixing the rolling brush equipment to be tested, which is placed in the testing area.

2. The apparatus according to claim 1, wherein the rotation speed detector comprises: a rotating speed encoder;

the rotating speed meshing mechanism is arranged on a rotating shaft of the rotating speed encoder.

3. The apparatus of claim 2, wherein the rotational speed engagement mechanism is a gear.

4. The rolling brush equipment performance detection device of claim 1, wherein a blocking head is arranged inside the test area; when the detection is finished, the blocking rotating head contacts a roller of the rolling brush equipment to be tested, resistance is generated to the rotation of the rolling brush, and the rolling brush is assisted to stop rotating.

5. The apparatus for detecting performance of a roller brush device according to claim 1, wherein a brush hair length detector is further disposed in the test area surrounded by the positioning structure.

6. The apparatus for detecting performance of a roll brush device according to claim 5, wherein the roll brush hair length detector includes: the detection spring plate is embedded into the test area, and the proximity sensor is arranged at the lower part of the detection spring plate and is used for determining whether the brush contacts the detection spring plate after the to-be-tested rolling brush device is electrified and rotated.

7. The apparatus according to claim 1, wherein the clamping mechanism comprises a clamping jaw; the clamping claw comprises a clamping cylinder and a clamping head, and the clamping head can clamp or release the roller brush equipment to be tested under the driving of the clamping cylinder.

8. The apparatus according to claim 7, wherein the clamping mechanism further comprises a clamping base plate and a first translation cylinder; the clamping claw is arranged on the clamping bottom plate; a first sliding guide structure which is matched with the clamping bottom plate is arranged between the clamping bottom plate and the workbench, and the clamping bottom plate slides on the workbench through the push-pull action of the first translation cylinder, so that the clamping claw can enter the test area and exit the test area; the clamping head is driven by the clamping bottom plate to move to the testing area to clamp the rolling brush equipment to be tested.

9. The apparatus of claim 1, further comprising: an appearance detection mechanism;

the appearance detection mechanism includes: the imaging device and fix the imaging device on formation of image support on the workstation.

10. The apparatus of claim 1, wherein the power supply mechanism comprises: the power supply head is connected with a power supply and combined with a power supply plug of the rolling brush equipment to be tested; the power supply driving mechanism is used for adjusting the position of the power supply head.

11. The apparatus of claim 1, further comprising a power supply bracket;

the power supply support is provided with a first sliding mechanism and a power supply installation mechanism arranged on the first sliding mechanism, and the power supply installation mechanism is used for installing the power supply mechanism;

the first sliding mechanism is provided with a second sliding guide mechanism and a second sliding cylinder which are arranged along a first direction, and the second sliding guide mechanism is used for installing the power supply installation mechanism; and the second sliding cylinder is used for pushing the power supply installation mechanism to move along the second sliding guide mechanism.

12. The apparatus of claim 11, wherein the power supply mounting mechanism comprises: a third sliding mechanism, a third sliding cylinder and a rotating mechanism;

one side of the third sliding mechanism is matched with the second sliding guide mechanism to install the power supply installation mechanism on the second sliding mechanism, and the other side of the third sliding mechanism is provided with a third sliding guide mechanism arranged along a second direction; the rotating mechanism is arranged on the third sliding guide mechanism; the third sliding cylinder is used for pushing the rotating mechanism to move along a third sliding guide mechanism; wherein the power supply mechanism is mounted on the rotating mechanism.

13. The apparatus according to claim 12, wherein the rotating mechanism comprises: a rotary cylinder and a connecting piece;

the connecting piece is arranged on the rotating head of the rotating cylinder and is used for fixedly arranging the power supply mechanism.

14. The apparatus according to claim 13, wherein the rotating mechanism further comprises: rotating the clamping head;

the rotary clamping head is fixedly arranged on the connecting piece and used for fixing the stand column of the rolling brush equipment to be tested.

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