CN220982178U - Copper-clad plate flatness detection device - Google Patents

Abstract

The utility model discloses a copper-clad plate flatness detection device which comprises two detection mechanisms which are symmetrically distributed and used for conveying a copper-clad plate and detecting flatness, wherein a turn-over mechanism used for turning over the copper-clad plate is arranged between the detection mechanisms, the detection mechanism comprises a support frame, a plurality of material conveying rollers are uniformly arranged at the top of the support frame, a first motor is arranged at one end of each material conveying roller, the first motor is connected to the support frame through bolts, and a detector is arranged above each material conveying roller. According to the utility model, the driving gear drives the rotary drum to rotate 180 degrees, the copper-clad plate on the transmission belt turns under the constraint of the limiting plate, finally slides out under the friction and inertia effects of the transmission belt, the two sides of the copper-clad plate are detected in the process, manual operation turning is not needed, and meanwhile, the spray nozzle is arranged at the concave-convex part of the copper-clad plate to be used as a mark, so that subsequent finishing is facilitated, labor is saved, and the detection efficiency is higher.

Description

Copper-clad plate flatness detection device

Technical Field

The utility model relates to the technical field of flatness detection, in particular to a copper-clad plate flatness detection device.

Background

Flatness detection refers to the process of measuring and evaluating flatness of or between surfaces of objects. It is commonly used in the fields of industrial manufacture, construction, road paving, etc. to ensure that the product meets the prescribed flatness criteria. Flatness detection may be performed using various methods and instruments, including using optical instruments, flatbed instruments, laser gauges, etc., which measure surface height differences or flatness indicators, such as Ra values, rz values, etc. The measurement results can be used to determine whether the quality of the product, the design is reasonable and whether further adjustments or repairs are needed.

Through searching, the patent publication No. CN 217155360U is a copper-clad plate surface flatness detection device, which comprises a frame, wherein a rotatable conveyor belt is arranged on the frame, an operation plate is transversely arranged in the frame, the upper surface of the operation plate is attached to the inner surface of the upper half part of the conveyor belt, a dust removing mechanism and a detection mechanism are sequentially arranged on the frame according to the advancing direction of the copper-clad plate, the dust removing mechanism is used for removing dust on the surface of the copper-clad plate, and the detection mechanism is used for detecting the surface flatness of the copper-clad plate; two swager constructs the setting in detection mechanism both sides, and every swager specifically includes swager frame liftable ground setting in the conveyer belt top corresponding with the operation panel, and its below is provided with rotatable swager roller, and elevating system is connected with swager frame for drive swager frame goes up and down.

The technical characteristics have the following defects: the copper-clad plate needs to be turned over manually, detection can not be completed on two sides of the copper-clad plate in the process, manpower resources are wasted, and detection efficiency is low.

Disclosure of utility model

The utility model aims to provide a copper-clad plate flatness detection device for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The utility model provides a copper-clad plate flatness detection device, includes two symmetrical distribution and is used for transferring the copper-clad plate and carries out the detection mechanism that flatness detected, be provided with the turn-over mechanism that is used for turning over the copper-clad plate between the detection mechanism.

Further: the detection mechanism comprises a supporting frame, a plurality of material conveying rollers are uniformly arranged at the top of the supporting frame, a first motor is arranged at one end of each material conveying roller, the first motor is connected to the supporting frame through a bolt, a detector is arranged above each material conveying roller, a threaded rod is arranged on one side of the detector, a sliding rod is arranged below the threaded rod, a moving block is arranged between the threaded rod and the sliding rod, a spray head is arranged on one side of the moving block, a second motor is arranged at one end of the threaded rod, and the second motor is connected to the supporting frame through a bolt.

Further: the turnover mechanism comprises a mounting frame, two driving gears are symmetrically arranged in the middle of the mounting frame in a rotating mode, a third motor is arranged at one end of each driving gear, the third motor is connected to the mounting frame through a bolt, a rotary drum is arranged above each driving gear, an outer ring of the rotary drum is provided with tooth grooves matched with the driving gears, two rotating shafts are symmetrically arranged in the middle of each rotary drum in a rotating mode, a driving belt is arranged between the rotating shafts, two limiting plates are arranged above the driving belt, a fourth motor is arranged at one end of each rotating shaft, and the fourth motor is connected to the rotary drum through a bolt.

Further: the support frame adopts Q235 steel material, the fortune material roller passes through the bearing and connects on the support frame.

Further: the threaded rod is connected with the support frame bearing, and the slide bar is fixedly connected with the support frame.

Further: the cross section of the limiting plate is L-shaped and symmetrically arranged on the rotary drum.

Compared with the prior art, the utility model has the beneficial effects that:

According to the utility model, the driving gear drives the rotary drum to rotate 180 degrees, the copper-clad plate on the transmission belt turns under the constraint of the limiting plate, finally slides out under the friction and inertia effects of the transmission belt, the two sides of the copper-clad plate can be detected in the completion process, manual operation turning is not needed, and meanwhile, the spray nozzle is arranged at the concave-convex part of the copper-clad plate to be used as a mark, so that subsequent finishing is facilitated, labor is saved, and the detection efficiency is higher.

Drawings

Fig. 1 is a perspective view of a copper-clad plate flatness detection device according to the present utility model;

fig. 2 is another perspective view of a copper-clad plate flatness detection device according to the present utility model;

fig. 3 is a front view of a copper-clad plate flatness detection device according to the present utility model;

fig. 4 is a top view of the flatness detection apparatus for copper-clad plate according to the present utility model.

In the reference numerals: 1. a detection mechanism; 101. a support frame; 102. a material conveying roller; 103. a spray head; 104. a first motor; 105. a detector; 106. a threaded rod; 107. a slide bar; 108. a second motor; 109. a moving block; 2. a turn-over mechanism; 201. a mounting frame; 202. a drive gear; 203. a third motor; 204. a rotating drum; 205. a rotating shaft; 206. a transmission belt; 207. a fourth motor; 208. tooth slots; 209. and a limiting plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, a copper-clad plate flatness detection device includes two symmetrically distributed detection mechanisms 1 for transferring a copper-clad plate and detecting flatness, and a turn-over mechanism 2 for turning over the copper-clad plate is arranged between the detection mechanisms 1.

In this embodiment: the detection mechanism 1 comprises a support frame 101, the support frame 101 is made of Q235 steel, a plurality of material conveying rollers 102 are uniformly arranged at the top of the support frame 101, the material conveying rollers 102 are connected to the support frame 101 through bearings, a first motor 104 is arranged at one end of each material conveying roller 102, the first motor 104 is connected to the support frame 101 through bolts, a detector 105 is arranged above each material conveying roller 102, a threaded rod 106 is arranged on one side of each detector 105, a sliding rod 107 is arranged below each threaded rod 106, each threaded rod 106 is connected with the support frame 101 through bearings, the sliding rods 107 are fixedly connected with the support frame 101, a moving block 109 is arranged between each threaded rod 106 and each sliding rod 107, a spray head 103 is arranged on one side of each moving block 109, a second motor 108 is arranged at one end of each threaded rod 106, the second motor 108 is connected to the support frame 101 through bolts, when the copper-clad plate to be detected is placed on the material conveying roller 102 close to one end of the detector 105, the first motor 104 drives the copper-clad plate 102 to move to the lower side of the detector 105, after the copper-clad plate is scanned, the threaded rod 108 is started to drive the second motor 106 to rotate so as to drive the moving block 109 to slide along the sliding rods 107, the moving block 109 is arranged above the bearing 103, the spray paint on the subsequent spray heads, the spray heads are convenient to finish the spray paint.

In this embodiment: the turnover mechanism 2 comprises a mounting frame 201, two driving gears 202 are symmetrically arranged in the middle of the mounting frame 201 in a rotating mode, a third motor 203 is arranged at one end of each driving gear 202, the third motor 203 is connected to the mounting frame 201 through bolts, a rotary drum 204 is arranged above each driving gear 202, tooth grooves 208 matched with the driving gears 202 are formed in the outer ring of each rotary drum 204, two rotating shafts 205 are symmetrically arranged in the middle of each rotary drum 204 in a rotating mode, a driving belt 206 is arranged between the rotating shafts 205, two limiting plates 209 are arranged above the driving belts 206, the cross sections of the limiting plates 209 are L-shaped and are symmetrically arranged on the rotary drum 204, a fourth motor 207 is arranged at one end of each rotating shaft 205, the fourth motor 207 is connected to the rotary drum 204 through bolts, when the copper-clad plates move to the inside of the rotary drum 204, the fourth motor 207 is started to drive the rotary shafts 205 to drive the driving belts 206 to rotate, the third motor 203 is started to drive the rotary fit the tooth grooves 208 to enable the rotary drum 204 to rotate 180 degrees, and finally the copper-clad plates slide out to finish turnover under the constraint of the limiting plates 206, and finally the friction force of the driving belts 206 and the inertia effect are not needed to slide out to detect the other side of the copper-clad plates in the completion of the two-clad plates.

Working principle: when the device is used, firstly, a copper-clad plate to be detected is placed on a material conveying roller 102 close to one end of a detector 105, a first motor 104 drives the material conveying roller 102 to drive the copper-clad plate to move to the lower side of the detector 105, after the copper-clad plate is scanned, a second motor 108 is started to drive a threaded rod 106 to rotate so as to drive a moving block 109 to slide along a sliding rod 107, after the moving block 109 moves to the upper part of the concave-convex position of the copper-clad plate, a spray nozzle 103 sprays paint on the concave-convex part of the copper-clad plate, subsequent trimming is facilitated, when the copper-clad plate moves to the inside of a rotary drum 204, a fourth motor 207 is started to drive a rotary shaft 205 to drive a driving belt 206 to rotate, a third motor 203 is started to drive a gear 202 to rotate to be matched with a tooth groove 208 to enable the rotary drum 204 to rotate 180 degrees, the copper-clad plate is driven to finish overturning under the constraint of a limiting plate 209, and finally, the copper-clad plate slides out to carry out flatness detection on the other side under the friction force and inertia of the driving belt 206.

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

Claims (5)

1. The utility model provides a copper-clad plate flatness detection device, is used for transferring the copper-clad plate including two symmetric distributions and carries out detection mechanism (1) that flatness detected, its characterized in that: a turnover mechanism (2) for turnover of the copper-clad plate is arranged between the detection mechanisms (1);

The turnover mechanism (2) comprises a mounting frame (201), two driving gears (202) are symmetrically arranged in the middle of the mounting frame (201), a third motor (203) is arranged at one end of each driving gear (202), the third motor (203) is connected to the mounting frame (201) through bolts, a rotary drum (204) is arranged above each driving gear (202), an outer ring of each rotary drum (204) is provided with tooth grooves (208) matched with the driving gears (202), two rotary shafts (205) are symmetrically arranged in the middle of each rotary drum (204) in a rotating mode, a driving belt (206) is arranged between the rotary shafts (205), two limiting plates (209) are arranged above the driving belt (206), a fourth motor (207) is arranged at one end of each rotary shaft (205), and the fourth motor (207) is connected to the rotary drum (204) through bolts.

2. The copper-clad plate flatness detection apparatus according to claim 1, characterized in that: detection mechanism (1) is including support frame (101), support frame (101) top evenly is provided with a plurality of fortune material roller (102), first motor (104) are installed to fortune material roller (102) one end, first motor (104) are in through bolted connection on support frame (101), fortune material roller (102) top is provided with detector (105), detector (105) one side is provided with threaded rod (106), threaded rod (106) below is provided with slide bar (107), threaded rod (106) with be provided with movable block (109) between slide bar (107), shower nozzle (103) are installed to movable block (109) one side, second motor (108) are installed to threaded rod (106) one end, second motor (108) are in through bolted connection on support frame (101).

3. The copper-clad plate flatness detection apparatus according to claim 2, characterized in that: the support frame (101) is made of Q235 steel, and the material conveying roller (102) is connected to the support frame (101) through a bearing.

4. The copper-clad plate flatness detection apparatus according to claim 2, characterized in that: the threaded rod (106) is in bearing connection with the support frame (101), and the sliding rod (107) is fixedly connected with the support frame (101).

5. The copper-clad plate flatness detection apparatus according to claim 1, characterized in that: the cross section of the limiting plate (209) is L-shaped and symmetrically arranged on the rotary drum (204).