CN219233159U - Utilize part dead weight to examine device entirely - Google Patents

Abstract

The utility model relates to the technical field of detection devices, and discloses a full detection device utilizing the dead weight of a part, which is structurally characterized in that the full detection device utilizes the combination of components such as a first height limiting strip, a second height limiting strip, an outer diameter upper limit clearance gauge, an outer diameter lower limit clearance gauge and the like, the part passes through a slot of the first height limiting strip, the part passes through the second height limiting strip if the height of the part is lower than the height of the slot of the second height limiting strip, the part slides out of the slot of the second height limiting strip and enters a second stop plate, the qualified part passes through the slot of the second height limiting strip, the outer diameter upper limit clearance gauge is contacted with the V-shaped chute through the V-shaped chute, the qualified part passes through the V-shaped chute and the outer diameter lower limit clearance gauge, and the part which does not pass through the outer diameter lower limit clearance gauge is qualified, so that the problem that a large amount of manual or mechanical equipment is required to be used for detecting the part and resources is solved.

Description

Utilize part dead weight to examine device entirely

Technical Field

The utility model relates to the technical field of detection devices, in particular to a full detection device utilizing dead weight of a part.

Background

The parts are basic parts which can be assembled into machines, meters and various devices, and the parts are required to be very precise for a plurality of devices, so that the sizes of all parts of the parts are required to be strictly manufactured according to the specified sizes in the manufacturing process of the parts, and the sizes of the parts are required to be detected after the parts are manufactured.

The automatic detection device for the defect view angle of the automobile nut welding part comprises a conveying belt driven by a motor, wherein a finished frame is arranged at the tail end of the conveying belt, a defective frame is arranged on one side of the middle part of the conveying belt, and a manipulator for pushing the part into the defective frame is arranged on the other side of the conveying belt; a visual detection device positioned between the manipulator and the defective frame is arranged above the conveying belt, which is capable of automatically screening out unacceptable butt-welded components.

Based on the above, the device needs to use a motor, a manipulator and visual detection equipment in the process of detecting the parts, the parts are detected under the mutual cooperation of the equipment, and a large amount of resources are consumed by using the equipment with the large number in the process of detecting the parts, so that the income is reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a full detection device utilizing the dead weight of a part, which can replace manual work or detect the part by using a large number of mechanical equipment, monitor the height of the part through structural characteristics, remove unqualified parts and solve the problems that the detection of the part is needed to be carried out by using a large number of manual or mechanical equipment and resources are consumed.

In order to achieve the functional purposes, the utility model provides the following technical scheme: the utility model provides an utilize part dead weight total inspection device, includes the workstation, is fixed in support under the workstation, be fixed in the first fixing base of workstation one side, install in the pan feeding group of first fixing base, the cooperation in the first detection group of pan feeding group, be fixed in the second fixing base of first detection group, the cooperation in the second detection group of first detection group, be fixed in the third fixing base of second detection group, the pan feeding group including be fixed in the tripod of first fixing base, be fixed in the glass slide of tripod, be fixed in the fender strip of glass slide, locate fender strip one end and with the fixed first limit height strip of glass slide, locate on the first limit height strip and with the fixed second limit height strip of glass slide, be fixed in the second fender strip of second limit height strip, locate on one side of second limit height strip and with the fixed plate of glass slide, be connected in the third fixing base of second limit height strip, fixed plate one end is with the fixed plate, be fixed in the first limit height strip and the first limit strip and the groove of glass slide, the first limit height strip is the groove, and the groove is formed in the upper channel is formed in order to pass through the first limit height strip, and the groove is the upper limit groove, and is the part is used for the upper limit groove.

As optimization, a slot is arranged on one surface of the second height limiting strip, which is close to the glass slide plate, the slot on the second height limiting strip is used for detecting whether the height of a part is qualified or not, if the height of the part is too low, the part can slide out of the slot on the second height limiting strip and enter the second material blocking strip, and the slot height of the second height limiting strip is smaller than that of the first height limiting strip.

As an optimization, the first detection group comprises a support column fixed on the second fixing seat, a V chute type fixed on the support column, a first rotating link arranged on the V chute type and matched with the connecting pipe, an outer diameter upper limit clearance gauge fixed on one end of the V chute type, and a second connecting pipe communicated with the outer diameter upper limit clearance gauge, wherein the parts enter the first rotating link through the connecting pipe, enter the V chute type from the first rotating link, reach the outer diameter upper limit clearance gauge through the V chute type parts, and detect the outer diameter of the parts by the outer diameter upper limit clearance gauge if the outer diameter of the parts is too large, and are blocked by the outer diameter upper limit clearance gauge if the parts are qualified and enter the second connecting pipe through the outer diameter upper limit clearance gauge.

As an optimization, the second detection group comprises a supporting rod fixed on the third fixing seat, a V-shaped chute fixed on the supporting rod, a second rotating link connected with the V-shaped chute and matched with the second connecting pipe, and an outer diameter lower limit clearance gauge fixed on the V-shaped chute, wherein the parts enter the second rotating link through the second connecting pipe, the second rotating link conveys the parts into the V-shaped chute, the parts slide down in the V-shaped chute until contacting with the outer diameter lower limit clearance gauge, if the outer diameter of the parts is smaller than the outer diameter lower limit clearance gauge, the parts are unqualified, if the outer diameter of the parts is larger than the outer diameter lower limit clearance gauge, the parts are qualified.

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

according to the device for fully detecting the self weight of the parts, through the arrangement of the first height limiting strip, the second height limiting strip, the outer diameter upper limit clearance gauge and the outer diameter lower limit clearance gauge, the parts pass through the grooves of the first height limiting strip, if the parts are higher than the height of the first height limiting strip, the parts do not pass through the grooves, otherwise, pass through the second height limiting strip, if the height of the parts is smaller than the groove height under the second height limiting strip, the parts slide out of the grooves of the second height limiting strip and enter the second baffle plate, the qualified parts pass through the grooves and enter the V chute type, the parts pass through the V chute type and contact the outer diameter upper limit clearance gauge, if the size of the parts is larger than the outer diameter upper limit clearance gauge, the qualified parts are left in the V chute type, otherwise, the parts pass through the outer diameter lower limit clearance gauge, if the outer diameter of the parts is smaller than the outer diameter lower limit clearance gauge, the parts pass through the outer diameter lower limit clearance gauge, namely, the qualified parts do not pass through the V chute type clearance gauge, and the manual equipment is used for detecting the qualified parts, and the required quantity of the machine resources is overcome.

Drawings

FIG. 1 is a schematic diagram of a full inspection device utilizing the dead weight of a part according to the present utility model;

FIG. 2 is a schematic view of another construction of the device of the present utility model;

FIG. 3 is a schematic view of the feeding set according to the present utility model;

FIG. 4 is a schematic structural diagram of a first detection set according to the present utility model;

FIG. 5 is a schematic diagram of the structure of a second detection set according to the present utility model;

fig. 6 is a schematic structural diagram of the feeding set, the first detecting set and the second detecting set according to the present utility model.

Reference numerals in the drawings: the device comprises a workbench (1), a bracket (2), a first fixing seat (3), a feeding group (4), a first detection group (5), a second fixing seat (6), a third fixing seat (7), a second detection group (8), a glass slide plate (41), a tripod (42), a material blocking strip (43), a first height limiting strip (44), a second height limiting strip (45), a second material blocking strip (46), a fixing plate (47), a connecting pipe (48), a first rotating link (51), a supporting column (52), a V-chute type (53), an outer diameter upper limit clearance gauge (54), a second connecting pipe (55), a second rotating link (81), a supporting rod (82), a V-chute type (83) and an outer diameter lower limit clearance gauge (84).

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.

An embodiment of the present utility model is shown in fig. 1-6, and is specifically as follows:

the utility model provides a utilize part dead weight total inspection device, which comprises a workbench 1, a support 2, first fixing base 3, pan feeding group 4, first detection group 5, second fixing base 6, third fixing base 7, second detection group 8, be fixed with support 2 under the workbench 1, one side of workstation 1 is fixed with first fixing base 3, install pan feeding group 4 on the first fixing base 3, the one end of pan feeding group 4 cooperates with first detection group 5, be fixed with second fixing base 6 under the first detection group 5, the one end of first detection group 5 cooperates with second detection group 8, the below of second detection group 8 is fixed with third fixing base 7, pan feeding group 4 includes glass slide 41, tripod 42, stop strip 43, first limit height strip 44, second limit height strip 45, second stop strip 46, fixed plate 47, connecting pipe 48, tripod 42 is fixed in first fixing base 3, a glass slide plate 41 is fixed on the tripod 42, a material blocking strip 43 is fixed on the glass slide plate 41, a first height limiting strip 44 fixed with the glass slide plate 41 is arranged at one end of the material blocking strip 43, a second height limiting strip 45 fixed with the glass slide plate 41 is arranged on the first height limiting strip 44, a second material blocking strip 46 is fixed at one end of the second height limiting strip 45, a fixing plate 47 fixed with the glass slide plate 41 is arranged at one side of the second height limiting strip 45, a connecting pipe 48 is connected with the same end of the second height limiting strip 45 and the fixing plate 47, a groove is arranged at the bottom of the first height limiting strip 44 and used for measuring the upper limit height of a part through the groove, if the part is higher than the groove, the part does not pass through the groove, the second material blocking strip 46 is an arc-shaped plate, a channel allowing the part to slide is arranged between the second height limiting strip 45 and the fixing plate 47, the part enters the channel through the slot of the first height limiting strip.

In this embodiment, a slot is formed on a surface of the second height-limiting strip 45 near the glass slide 41, and the slot on the second height-limiting strip 45 is used to detect whether the height of the part is acceptable, if the height of the part is too low, the part will slide out of the slot on the second height-limiting strip 45 and enter the second material blocking strip 46, and the slot height of the second height-limiting strip 45 is smaller than the slot height of the first height-limiting strip 44.

In this embodiment, the first detecting set 5 includes a first rotating link 51, a supporting column 52, a V-chute 53, an upper outer diameter limit gauge 54, and a second connecting pipe 55, one end of the supporting column 52 is fixed to the second fixing seat 6, the other end of the supporting column 52 is fixed to the V-chute 53, the V-chute 53 is provided with the first rotating link 51 that mates with the connecting pipe 48, one end of the V-chute 53 is fixed to the upper outer diameter limit gauge 54, the upper outer diameter limit gauge 54 is communicated with the second connecting pipe 55, the above-mentioned component enters the first rotating link 51 through the connecting pipe 48, the component enters the V-chute 53 from the first rotating link 51, the component reaches the upper outer diameter limit gauge 54 through the V-chute 53, the upper outer diameter limit gauge 54 detects the outer diameter of the component, if the outer diameter of the component is too large, the component is blocked by the upper outer diameter limit gauge 54, if the component is qualified, and the component enters the second connecting pipe 55 through the upper outer diameter limit gauge 54.

In this embodiment, the second detection set 8 includes a second rotating link 81, a supporting rod 82, a V-shaped chute 83, and an outer diameter lower limit clearance gauge 84, one end of the supporting rod 82 is fixed with the third fixing seat 7, the other end of the supporting rod 82 is fixed with the V-shaped chute 83, the V-shaped chute 83 is connected with the second rotating link 81 matched with the second connecting pipe 55, one end of the V-shaped chute 83 is fixed with the outer diameter lower limit clearance gauge 84, the above-mentioned parts enter the second rotating link 81 from the second connecting pipe 55, the second rotating link 81 conveys the parts into the V-shaped chute 83, the parts slide down in the V-shaped chute 83 until contacting the outer diameter lower limit clearance gauge 84, if the outer diameter of the parts is smaller than the outer diameter lower limit clearance gauge 84, the parts are failed, if the outer diameter of the parts is larger than the outer diameter lower limit clearance gauge 84, the parts are qualified.

The working principle of the above embodiment is described as follows:

the first height limiting strip 44 is provided with a slot which is communicated with a channel between the second height limiting strip 45 and the fixed plate 47, the channel is communicated with the connecting pipe 48, the part enters the channel between the second height limiting strip 45 and the fixed plate 47 through the slot of the first height limiting strip 44, the slot of the first height limiting strip 44 is used for detecting whether the height of the part exceeds the limit height, if the height exceeds the limit height, the part does not pass through, otherwise, the part passes through, the second height limiting strip 45 is also provided with a slot which is used for detecting the lower limit height of the part, if the height of the part is smaller than the height of the changed slot, the part slides out of the slot of the second height limiting strip 45 and enters the second stop strip 46, otherwise, the part enters the connecting pipe 48, the part enters the first rotating link 51 through the connecting pipe 48, the part enters the V chute type 53 through the connecting pipe 51, the part reaches the outer diameter upper limit 54 through the V chute type 53, the outer diameter upper limit 54 detects the outer diameter of the part to be large, if the outer diameter of the part passes through the large upper limit rule, if the outer diameter of the part passes through the large limit rule is larger than the V chute type 54, the outer diameter of the part is not passing through the second chute type 84, namely, the part passes through the second outer diameter is not smaller than the outer diameter of the connecting pipe 84, and the outer diameter is equal to the outer diameter of the second limit part is equal to the outer diameter of the second passing through the connecting pipe, and the second limit of the part is 81, namely, the outside diameter is equal to the outside diameter and the outside diameter is 81.

The above examples merely represent a few embodiments of the present utility model, which are described in more detail and are not to be construed as limiting the scope of the present utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of the utility model should be assessed as that of the appended claims.

Claims (4)

1. Utilize part dead weight total inspection device, including workstation (1), be fixed in support (2) under workstation (1), be fixed in first fixing base (3) of workstation (1) one side, install in pan feeding group (4) of first fixing base (3), cooperate in first detection group (5) of pan feeding group (4), be fixed in second fixing base (6) of first detection group (5), cooperate in second detection group (8) of first detection group (5), be fixed in third fixing base (7) of second detection group (8), its characterized in that: the feeding group (4) comprises a tripod (42) fixed on the first fixing seat (3), a glass sliding plate (41) fixed on the tripod (42), a material blocking strip (43) fixed on the glass sliding plate (41), a first height limiting strip (44) arranged at one end of the material blocking strip (43) and fixed with the glass sliding plate (41), a second height limiting strip (45) arranged on the first height limiting strip (44) and fixed with the glass sliding plate (41), a second material blocking strip (46) fixed on one side of the second height limiting strip (45) and fixed with the glass sliding plate (41), and a connecting pipe (48) connected to the same end of the second height limiting strip (45) and the same end of the fixing plate (47).

2. The full inspection device utilizing the dead weight of the part according to claim 1, wherein: one side of the second height limiting strip (45) close to the glass sliding plate (41) is provided with a slot.

3. The full inspection device utilizing the dead weight of the part according to claim 1, wherein: the first detection group (5) comprises a support column (52) fixed on the second fixing seat (6), a V chute type (53) fixed on the support column (52), a first rotating link (51) arranged on the V chute type (53) and matched with the connecting pipe (48), an outer diameter upper limit through gauge (54) fixed on one end of the V chute type (53) and a second connecting pipe (55) communicated with the outer diameter upper limit through gauge (54).

4. The full inspection device utilizing the dead weight of the part according to claim 1, wherein: the second detection group (8) comprises a supporting rod (82) fixed on the third fixing seat (7), a V-shaped chute (83) fixed on the supporting rod (82), a second rotating link (81) connected with the V-shaped chute (83) and matched with the second connecting pipe (55), and an outer diameter lower limit clearance gauge (84) fixed on the V-shaped chute (83).

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