CN215827129U - Code printing device for automobile radar test - Google Patents

Abstract

The utility model relates to a code printing device for automobile radar test, which comprises: a frame body; the workbench is arranged on the frame body and used for placing a product to be tested; the packaging mechanism comprises a scanning unit arranged on the frame body and a packaging unit arranged on one side of the scanning unit, wherein the scanning unit scans products to be tested and sets numbers corresponding to the products to be tested, and the packaging unit packages the products to be tested in target quantity. Through setting up scanning unit and packing unit, scanning unit can scan the product that awaits measuring and set for the serial number that corresponds with the product that awaits measuring, and the packing unit packs the product that awaits measuring of target quantity to make things convenient for the staff in follow-up seeking. Through being provided with the printing unit, this printing unit can print the total information of the product that awaits measuring after the packing, and total information includes the serial number of every product that awaits measuring to make the staff when seeking the product, can seek required product fast through total information, convenient and fast saves time.

Description

Code printing device for automobile radar test

Technical Field

The utility model relates to a code printing device for automobile radar test.

Background

The automobile radar is used for being installed on an automobile, and various automobile radars have different functions. Such as speed radar, collision radar, etc. Before the radar is mounted in an automobile, it is necessary to detect the performance and the like of the radar so as to prevent the performance and the like of the radar from being affected by a bad product. In the prior art, generally, qualified products are packed, when workers need to search for the products subsequently, a great deal of time and energy are needed to search for the products in a packing box, and the required searched products cannot be searched even due to a large number of the products, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a code printing device for automobile radar test, which can pack and number qualified products, is convenient for subsequent search, saves time and has high efficiency.

In order to achieve the purpose, the utility model provides the following technical scheme: an automobile radar test code printing device comprises:

a frame body;

the workbench is arranged on the frame body and used for placing a product to be tested;

the packaging mechanism comprises a scanning unit arranged on the frame body and a packaging unit arranged on one side of the scanning unit, wherein the scanning unit scans the products to be tested and sets the serial numbers corresponding to the products to be tested, and the packaging unit packages the products to be tested according to the target quantity.

Further, the packaging mechanism further comprises a printing unit arranged on the frame body, the printing unit is used for printing the packaged total information of the products to be tested, and the total information comprises each serial number of the products to be tested.

Furthermore, the code printing device further comprises a detection mechanism arranged on the frame body, and the detection mechanism is used for detecting the electrical parameters of the product to be detected.

Furthermore, the code printing device further comprises an image acquisition mechanism arranged on one side of the detection mechanism, and the image acquisition mechanism is used for acquiring the image information of the product to be detected.

Furthermore, the workbench is provided with a first position and a second position, and when the workbench is located at the first position, the detection mechanism detects the electrical parameters of the product to be detected on the workbench; and when the workbench is positioned at the second position, the image acquisition mechanism acquires the image information of the product to be detected on the workbench.

Further, the coding device further comprises a guide mechanism, and the guide mechanism enables the workbench to move between the first position and the second position.

Further, the guide mechanism comprises a guide groove arranged on the frame body and a guide piece arranged below the workbench, and the guide piece is matched with the guide groove so that the workbench moves between the first position and the second position.

Furthermore, the code printing device further comprises a driving mechanism arranged on one side of the workbench, and the driving mechanism is used for driving the workbench to switch between the first position and the second position.

Furthermore, the code printing device further comprises a containing box installed on the frame body, and the containing box is used for containing unqualified products passing through the image acquisition mechanism.

Further, the containing box comprises a placing rack and a sensor arranged below the placing rack, and the sensor is used for detecting the number of the products to be detected in the placing rack.

The utility model has the beneficial effects that: through setting up scanning unit and packing unit, scanning unit can scan the product that awaits measuring and set for the serial number that corresponds with the product that awaits measuring, and the packing unit packs the product that awaits measuring of target quantity to make things convenient for the staff in follow-up seeking.

Through being provided with the printing unit, this printing unit can print the total information of the product that awaits measuring after the packing, and total information includes the serial number of every product that awaits measuring to make the staff when seeking the product, can seek required product fast through total information, convenient and fast saves time.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the code printing device for radar test of an automobile according to the present invention;

FIG. 2 is a schematic structural diagram of the vehicle radar test coding device shown in FIG. 1 in another direction;

FIG. 3 is a schematic view of a part of the structure of the code printing device for radar test of the vehicle shown in FIG. 1;

FIG. 4 is an enlarged schematic view of a part of the structure of the code printing device for radar test of the vehicle shown in FIG. 3;

fig. 5 is another enlarged schematic structural diagram of a part of the automobile radar test coding device shown in fig. 3.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

Referring to fig. 1-4, an automotive radar test code printing device 100 according to a preferred embodiment of the present invention is used for detecting the performance of a product to be detected. In this embodiment, the product to be measured is the radar, and this radar is installed on the car, and in other embodiments, the product to be measured still can be other, and perhaps, the radar can also be applied to other equipment.

The code printing device 100 for automobile radar testing comprises a frame body 1, a workbench 2 arranged on the frame body 1, a detection mechanism 3 arranged on one side of the workbench 2, an image acquisition mechanism 4 arranged on one side of the workbench 2, and a display panel (not shown) arranged on the frame body 1 and connected with the image acquisition mechanism 1 in a data mode. Wherein, workstation 2 is used for placing the radar that awaits measuring, and detection mechanism 3 is used for detecting the electricity parameter of the radar that awaits measuring on workstation 2, and image acquisition mechanism 4 is used for acquireing the information of the radar that awaits measuring on workstation 2. It should be noted that, in this embodiment, the determination of whether the product is qualified in the display panel can be implemented by the existing logic circuit or program circuit, and all of them are conventional circuits, which are not described herein again.

Specifically, the radar to be measured has a first socket (not shown) for mounting on the vehicle, and a plug connector (not shown) is provided in the first socket, and communicates with the mounting portion of the vehicle through the plug connector so that the radar operates. The radar to be detected is placed on the workbench 2, the detection mechanism 3 is in butt joint with the radar to be detected so as to detect the electrical parameters of the radar to be detected, and after the detection mechanism 3 detects the electrical parameters of the connector clip, the image acquisition mechanism 4 acquires the information of the connector clip. In this embodiment, the image obtaining mechanism 4 includes a camera 41, and the camera 41 can photograph the plug connector and transmit the obtained information of the plug connector to the display panel, so that the staff can determine whether the radar to be detected meets the standard. It should be noted that the electrical parameter may be a current value or a voltage value passing through the plug.

In this embodiment, the code printing device 100 further includes a first printing part 5 disposed on one side of the workbench 2 and a scanning part 6 disposed on one side of the workbench 2, the first printing part 5 can form barcodes with different information, each barcode can be used as a plurality of first identification parts (not shown) with different information, a worker attaches the plurality of first identification parts with different information to the radar to be detected, the scanning part 6 scans the first identification part information on the radar to be detected, and stores the electrical parameter value of the radar to be detected corresponding to the first identification part in the external device. And each first identification piece and the corresponding electrical parameter value are stored in the external equipment in a one-to-one correspondence manner. When the worker needs to know the electrical parameter value of the product, the corresponding electrical parameter value can be obtained directly through different first identification piece information.

Be provided with recess 21 on workstation 2, this recess 21 and the radar phase-match that awaits measuring to make the radar that awaits measuring can be better fixed with workstation 2, thereby improve detection mechanism 3 and image acquisition mechanism 4 to the precision of the testing result of the radar that awaits measuring.

The detection mechanism 3 comprises a detection piece 31 arranged on one side of the workbench 2, the detection piece 31 is provided with a second interface (not shown) butted with the first interface, and under the action of external force, the detection piece 31 can move relative to the radar to be detected, so that the first interface is butted with or separated from the second interface, and the electrical parameters of the radar connector to be detected are detected.

In order to further improve the stability of the radar to be detected and the workbench 2 and further improve the accuracy of the detection part 31 for detecting the electrical parameters of the plug connector, the code printing device 100 further comprises a fastening part 7 for locking or releasing the radar to be detected and the workbench 2. Specifically, the fastening member 7 includes a connecting portion 71 and a bending portion 72 connected to the connecting portion 71, a clamping groove 73 is formed between the connecting portion 71 and the bending portion 72, when the detecting member 31 detects the radar to be detected, the clamping groove 73 clamps the radar to be detected, and the bending portion 72 applies a downward acting force to the radar to be detected, so as to reinforce the radar to be detected and the workbench 2.

The code printing device 100 further comprises a marking member (not shown) arranged on one side of the workbench 2, wherein the marking member is used for forming a mark on a radar to be detected placed on the workbench 2 under the action of external force so as to prevent repeated detection or missing detection of workers and the like, and therefore the working efficiency of the workers is improved. In the embodiment, the marking piece is set to be conical metal, so that marks formed on the radar to be measured by the marking piece are clearer.

The coding device 100 further comprises a driving mechanism 9, the driving mechanism 9 comprises a first driving part 91 connected with the detection part 31, the first driving part 91 drives the detection part 31 to move relative to a product to be detected, so that the detection part 31 is driven to move close to or far away from a plug connector in a radar to be detected, a second plug interface on the detection part 31 is in butt joint with the first plug interface, and therefore electrical parameters passing through the plug connector are detected.

The drive mechanism 9 further comprises a second drive member 92 connected to the fastener 7. The connecting portion 71 of the fastener 7 is connected with the second driving member 92, so that the second driving member 92 drives the fastener 7 to move relative to the workbench 2, and the clamping groove 73 locks or releases the radar to be tested with the workbench 2. In this embodiment, the second driving members 92 are provided with two, and the two second driving members 92 are respectively disposed on two sides of the workbench 2, so as to further enhance the stability of the radar to be detected and the workbench 2. In other embodiments, the fastening member 7 may also be locked or released with the workbench 2 without connecting a driving member, for example, the connecting portion 71 of the fastening member 7 and the workbench 2 are set to be rotationally connected, and a pressing portion is disposed above the bending portion 72 and applies an external force to the pressing portion, so that the clamping groove 73 locks the radar to be detected and the workbench 2. When the next radar to be measured needs to be replaced, a force opposite to the acting force is applied, so that the bending part 72 releases the radar to be measured and the workbench 2, and the effect can be achieved.

The driving mechanism 9 further includes a third driving member 93 connected to the marking member, and the third driving member 93 is used for driving the marking member to move relative to the worktable 2, so that the marking member forms a marking point on the radar to be measured.

In order to enable the camera 41 to better acquire the information of the plug-in unit, in the embodiment, the coding device 100 further includes an adjusting mechanism 10 connected to the camera 41, and the position of the camera 41 relative to the workbench 2 is adjusted by adjusting the position of the adjusting mechanism 10, so that the camera 41 can acquire the image information of the plug-in unit when being located at the optimal angular position.

Specifically, the adjusting mechanism 10 includes a first bracket 101 mounted on the frame body 1 and a second bracket 102 connected to the first bracket 101. In the height direction of the coding device 100, at least a part of the first support 101 can move in the height direction relative to the frame body 1 to adjust the position of the camera 41 in the height direction; at least a part of the second support 102 is movable in a horizontal direction with respect to the frame body 1 to adjust the position of the camera 41 in the horizontal direction.

More specifically, the first bracket 101 includes a first support rod 1011 and a connection member 1012 mounted on the frame body 1. The second bracket 102 includes a second supporting rod, the connecting member 1012 is provided with a first through hole 1014 and a second through hole 1015, the first supporting rod 1011 passes through the first through hole 1014, the second supporting rod passes through the second through hole 1015, and the central axis of the first supporting rod 1011 is perpendicular to the central axis of the second supporting rod.

In this embodiment, the first frame 101 further comprises a locking member 1013 disposed at an end of the first support rod 1011 remote from the connecting member 1012, the first support rod 1011 is movable relative to the frame body 1 and drives the second frame 102 to move in the height direction, and the locking member 1013 is used to lock or release the first support rod 1011. The locker 1013 has a locking state and a releasing state, and when the locker 1013 is in the releasing state, the first support pole 1011 moves relative to the frame body 1 and moves the second support 102 in the height direction until the second support 102 is at the optimal position in the height direction, the locker 1013 is transformed from the releasing state to the locking state to lock and fix the first support pole 1011.

In other embodiments, it can be configured that the first supporting rod 1011 is fixedly connected to the frame body 1, and the connecting member 1012 is movable relative to the first supporting rod 1011, and in this case, the first frame 101 further includes a fixing member for locking or releasing the first supporting rod 1011 and the connecting member 1012. Specifically, connecting member 1012 is deformable by an external force. When the connecting piece 1012 moves to an optimal position in the height direction relative to the first supporting rod 1011, the fixing piece causes the connecting piece 1012 to deform under the action of external force so as to lock the first supporting rod 1011 and the connecting piece 1012; when the connecting member 1012 needs to be adjusted, a force is applied to the fixing member, so that the connecting member 1012 drives the second bracket 102 to move in the height direction relative to the first bracket 101.

The second frame 102 includes a second supporting rod 1021 connected to the connecting member 1012 and a sliding unit 1022 connected to the second supporting rod 1012, wherein at least a portion of the sliding unit 1022 is movable relative to the second supporting rod 1021 to move the camera 41 in the horizontal direction.

Specifically, the sliding unit 1022 includes a first slider 1023 connected to the second support rod and a second slider 1024 movable in a horizontal direction with respect to the first slider 1023. Wherein a mounting portion is provided below the second slider 1024 on which the camera 41 is mounted. One of the first and second sliding members 1023 and 1024 is provided with a slide groove 1026, and the other of the first and second sliding members 1023 and 1024 is provided with a slide block engaged with the slide groove 1026, so that the second sliding member 1024 can move relative to the first sliding member 1023 by an external force. In this embodiment, the sliding block is disposed on the first sliding member 1023, and the sliding slot 1026 is disposed on the second sliding member 1024. In other embodiments, the sliding block may be disposed on the second sliding member 1024, and the sliding slot 1026 may be disposed on the first sliding member 1023, which is not limited in this embodiment.

The second bracket 102 further includes an adjusting member 1029, one side of the first sliding member 1023 extends outward to form a first extending portion 1027, a second extending portion 1028 cooperating with the first extending portion 1027 is formed on the second sliding member 1024, adjusting holes are formed on the first extending portion 1027 and the second extending portion 1028, and the adjusting member 1029 passes through the adjusting holes to enable the second sliding member 1024 to move relative to the first sliding member 1023. It should be noted that the first extending portion 1027 and the second extending portion 1028 are on the same horizontal line, and are disposed parallel to the central longitudinal axis of the first sliding member 1023 and the second sliding member 1024, so that the worker can adjust the first extending portion and the second extending portion by the adjusting member 1029 more easily. In this embodiment, the adjusting holes of the first and second extending portions 1027 and 1028 are provided with internal threads, the adjusting element 1029 has external threads matching with the internal threads, and the worker rotates the adjusting element 1029 clockwise or counterclockwise to move the second sliding member 1024 relative to the first sliding member 1023.

The image capturing mechanism 4 further includes a support 42 moving relative to the frame body 1, and the support 42 is configured to support an end of the camera 41 close to the table 2 to prevent the camera 41 from falling due to unstable gravity and the like.

In order to enable the camera 41 to more clearly shoot the plug connector of the first socket of the radar to be measured, in this embodiment, the image acquisition mechanism 4 further includes a light source 43 disposed between the workbench 2 and the support member 42, and the light source 43 is in a circular ring shape, so that the plug connector in the first socket can be covered by the light source 43, and the determination error is reduced.

Since the image capturing mechanism 4 is disposed on one side of the detecting mechanism 3, in order to enable the camera 41 to capture the information of the plug-in unit at the optimal position, in the present embodiment, the table 2 has a first position and a second position, that is, the first position of the table 2, the second position of the table 2, and the position of the detecting mechanism 3 and the position of the image capturing mechanism 4 are disposed in a rectangular shape. When the workbench 2 and the radar to be detected are located at the first position, the detection piece 31 detects the electrical parameters of the plug connector of the radar to be detected on the workbench 2; when the workbench 2 and the radar to be detected are located at the second position, the camera 41 adjusted to the optimal position and angle photographs the plug connector of the radar to be detected on the workbench 2 located at the second position, so that the staff can judge whether the radar to be detected is qualified.

The coding device 100 further comprises a guide mechanism 11, and the driving mechanism 9 drives the workbench 2 to move between the first position and the second position through the guide mechanism 11. Specifically, the guide mechanism 11 includes a guide groove 111 disposed on the frame body 1 and a guide member (not shown) disposed below the worktable 2, and the guide member and the guide groove 111 cooperate under an external force to move the worktable 2 between the first position and the second position, which is convenient and fast.

In this embodiment, the coding device 100 further includes a packing mechanism 1313 disposed on the frame body 1 and a storage box 1212 installed on the frame body 1. Wherein, the packing mechanism 1313 is used for packing the qualified product that passes through detection mechanism 3 and image acquisition mechanism 4 to the packing case to carry out next step's operation, and the containing box 1212 is used for placing the unqualified product that passes through detection mechanism 3 and image acquisition mechanism 4 and detects the back.

Specifically, the packing mechanism 1313 includes a scanning unit 131 provided on the frame body 1, and a packing unit provided at one side of the scanning unit 131. Wherein, each product is provided with a second identification piece (not shown), the scanning unit 131 scans the second identification piece on the product to be tested and sets a number corresponding to the second identification piece, and the packaging unit packages the target number of products required by the customer so as to facilitate the operation of the next process by the staff.

The packing mechanism 1313 further includes the printing unit 132 that sets up on support body 1, and this printing unit 132 is used for printing the total information of the good product of packing, and this information includes the serial number of the incasement product of packing to make the staff when subsequently seeking a certain product, whether there is the product that needs to seek in this packing incasement can be clear directly through the total information outside the packing case, convenient and fast.

The containing box 1212 comprises a placing rack (not numbered) and a first sensor (not shown) arranged below the placing rack, the first sensor is used for detecting the number of unqualified products in the placing rack, when the number of the unqualified products in the placing rack is too much, the first sensor can remind a worker to clean the unqualified products in the placing cavity, and the structure and the principle are conventional technologies and are not repeated herein.

In this embodiment, in order to improve the safety of the staff, the coding device 100 further includes a second sensor 14 and an emergency button 15 disposed on the frame body 1.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides a car radar test coding device which characterized in that includes:

a frame body;

the workbench is arranged on the frame body and used for placing a product to be tested;

the packaging mechanism comprises a scanning unit arranged on the frame body and a packaging unit arranged on one side of the scanning unit, wherein the scanning unit scans the products to be tested and sets the serial numbers corresponding to the products to be tested, and the packaging unit packages the products to be tested according to the target quantity.

2. The automotive radar test code printing device according to claim 1, wherein the packaging mechanism further comprises a printing unit disposed on the frame body, the printing unit is configured to print the packaged total information of the products to be tested, and the total information includes the serial number of each product to be tested.

3. The automotive radar test coding device according to claim 1, wherein the coding device further comprises a detection mechanism disposed on the frame body, and the detection mechanism is used for detecting an electrical parameter of the product to be detected.

4. The automotive radar test coding device according to claim 3, wherein the coding device further comprises an image acquisition mechanism disposed at a side of the detection mechanism, the image acquisition mechanism being configured to acquire image information of the product to be tested.

5. The automotive radar test coding device according to claim 4, wherein the workbench has a first position and a second position, and when the workbench is located at the first position, the detection mechanism detects electrical parameters of a product to be tested on the workbench; and when the workbench is positioned at the second position, the image acquisition mechanism acquires the image information of the product to be detected on the workbench.

6. The automotive radar test coding device of claim 5, further comprising a guide mechanism that moves the table between the first position and the second position.

7. The automotive radar test coding device of claim 6, wherein the guide mechanism comprises a guide groove provided on the frame body and a guide member provided under the table, the guide member cooperating with the guide groove to move the table between the first position and the second position.

8. The automotive radar test coding device of claim 7, further comprising a driving mechanism disposed on a side of the table, the driving mechanism configured to drive the table between the first position and the second position.

9. The automotive radar test coding device of claim 4, further comprising a receiving box mounted on the frame body, the receiving box being configured to receive the defective product after passing through the image capturing mechanism.

10. The automotive radar test code printing device as claimed in claim 9, wherein the storage box comprises a placing rack and a sensor arranged below the placing rack, and the sensor is used for detecting the number of the products to be tested in the placing rack.

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