CN211717503U - Intelligent socket test machine - Google Patents

Abstract

The utility model discloses an intelligent socket testing machine, which comprises a feeding device, a first detection device and a second detection device, wherein the feeding device is provided with a feeding track, and the feeding track extends in a first direction; the first detection device comprises a first detection assembly and a second detection assembly, the first detection assembly and the second detection assembly are symmetrically arranged on the upper side and the lower side of the feeding track and can move relatively, the direction of the relative movement of the first detection assembly and the second detection assembly is a second direction, and the second direction is perpendicular to the first direction; the second detection device is erected above the feeding track and located on one side of the first detection assembly, and the second detection device can move in the second direction. So, first detection component and second detection component can carry out first position detection to waiting to detect the socket on the feeding track in the same position, and second detection device can carry out the detection of second position to waiting to detect the socket on the feeding track in the second position, once accomplishes multinomial detection, improves detection efficiency.

Description

Intelligent socket test machine

Technical Field

The utility model relates to a socket test field especially relates to an intelligent socket test machine.

Background

The socket is one of electrical equipment essential in daily life, and in the production process of the socket, the socket which is assembled needs to be tested, such as on-off test, inter-electrode short circuit test, neglected loading copper part detection, protective door validity detection and the like. The integration level of the existing socket test equipment is not high enough, multiple tests cannot be completed at one time, all tests need to be completed step by step, and the detection efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an embodiment provides an intelligent socket test machine to solve current socket test equipment integrated level not high enough, can't once only accomplish multinomial detection, detection efficiency problem on the low side.

In order to solve the technical problem, the utility model provides an intelligent socket testing machine, which comprises a feeding device, a first detection device and a second detection device; the feeding device is provided with a feeding track, and the feeding track extends in a first direction; the first detection device comprises a first detection assembly and a second detection assembly, the first detection assembly and the second detection assembly are symmetrically arranged on the upper side and the lower side of the feeding track and can move relatively to detect the first position of a socket to be detected on the feeding track, the direction of the relative movement of the first detection assembly and the second detection assembly is a second direction, and the second direction is perpendicular to the first direction; the second detection device is erected above the feeding track and located on one side of the first detection assembly, and can move in the second direction to perform second position detection on the socket to be detected on the feeding track.

According to the utility model discloses an embodiment still includes the frame, and the frame includes base and support, and the support setting is on the base, and the feeding track sets up on the base to extend the support, first determine module and second detection device set up respectively in the relative both sides of support and lie in feeding track's top, and the second determine module setting is in the base and relative with first determine module.

According to the utility model discloses an embodiment, above-mentioned first determine module includes first detection driver and first detection piece, and first detection driver sets up in the support, and first detection piece is connected with the output of first detection driver.

According to the utility model discloses an embodiment, above-mentioned first detection piece includes that two insert and detect the piece and three insert and detect the piece, and first detection subassembly is still including detecting the regulation track, detects the regulation track and is connected with the first output that detects the driver to extend on feeding orbital width direction, two insert and detect the piece and insert with three and detect the piece cunning and establish on detecting the regulation track.

According to the utility model discloses an embodiment, above-mentioned second determine module includes that the second detects driver and second and detects the piece, and the second detects the driver setting in the base, and its output is connected with the second detection piece.

According to the utility model discloses an embodiment, above-mentioned second detection device includes that the third detects driver and third and detects the piece, and the third detects the driver and sets up in the support one side relative with first detection driver, and the third detects the piece and is connected with the output that the third detected the driver.

According to the utility model discloses an embodiment, above-mentioned second detection device still includes first mounting panel, second mounting panel and point contact switch, and first mounting panel is connected with the output that the third detected the driver, and the second mounting panel is connected with first mounting panel to and leave the space between the first mounting panel, point contact switch is located the space, and be fixed in first mounting panel, the second mounting panel is worn to locate by the third detection piece, and can remove in the second direction for the second mounting panel, be close to/keep away from point contact switch.

According to the utility model discloses an embodiment, above-mentioned feed arrangement still includes that first subassembly and the second that blocks block the subassembly, and first subassembly and the second that blocks block the subassembly and set up respectively in the base to be located feeding track's below.

According to an embodiment of the present invention, the first blocking assembly includes a first blocking driver and a first blocking member, the first blocking driver is disposed on the base, and an output end of the first blocking driver is connected to the first blocking member for driving the first blocking member to move in the second direction, the second blocking assembly includes a second blocking driver and a second blocking member, the second blocking driver is disposed on the base, and an output end of the second blocking member is connected to the second blocking member for driving the second blocking member to move in the second direction.

According to an embodiment of the present invention, the first direction is not parallel to the horizontal direction.

The utility model discloses an among the embodiment, the first detection device and the second detection device that have first determine module and second determine module are through setting up on the feeding track to the smart jack test machine, can wait to detect the socket and accomplish multinomial test in proper order on the feeding track, improve detection efficiency by a wide margin.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the invention and explain the same, and do not constitute an undue limitation on the invention. In the drawings:

fig. 1 is a schematic diagram of an intelligent socket testing machine according to the present invention;

fig. 2 is a partially disassembled schematic view of the smart socket testing machine of the present invention;

fig. 3 is a schematic diagram of a first blocking assembly of the smart socket testing machine of the present invention;

fig. 4 is a schematic diagram of a first detection assembly of the smart socket testing machine of the present invention;

fig. 5 is a schematic diagram of a second detecting component of the smart socket testing machine of the present invention;

fig. 6 is a schematic diagram of a second detection device of the smart socket testing machine of the present invention;

fig. 7 is a schematic diagram of the frame and the feeding device of the smart socket testing machine of the present invention.

Detailed Description

The technical solution of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present embodiment, and it is obvious that the described embodiment is an embodiment of the present invention, not all embodiments. Based on this embodiment in the present invention, all other embodiments obtained by the ordinary skilled person in the art without creative work all belong to the protection scope of the present invention.

Please refer to fig. 1, fig. 2 and fig. 3, which are schematic diagrams of the smart socket testing machine and a part of the smart socket testing machine disassembled, and a schematic diagram of the first blocking assembly according to the present invention. As shown in the drawings, in the present embodiment, the smart socket tester 1 includes a rack 10, a feeding device 11, a first detecting device 12, and a second detecting device 13; the rack 10 comprises a base 101 and a bracket 102 arranged on the base 101, wherein the bracket 102 is a portal frame; the feeding device 11 has a feeding track 110, the feeding track 110 is disposed on the base 101 and extends in a first direction to pass through the bracket 102, and the socket to be detected moves below the bracket 102 through the feeding track 110; the first detecting device 12 includes a first detecting component 120 and a second detecting component 121, the first detecting component 120 and the second detecting component 121 are symmetrically located at the upper side and the lower side of the feeding track 110, the first detecting component 120 is specifically arranged on one side surface of the bracket 102, the second detecting component 121 is arranged in the base 101, the first detecting component 120 and the second detecting component 121 can move relatively and approach to/away from each other, and perform first position detection on a socket to be detected on the feeding track 110, wherein the direction of the relative movement of the first detecting component 120 and the second detecting component 121 is a second direction, and the second direction is perpendicular to the first direction; the second detecting device 13 is disposed on the other side surface of the bracket 102 and located above the feeding track 110, and the second detecting device 13 can also move in the second direction to perform the second position detection on the socket to be detected on the feeding track 110.

In the smart socket testing machine 1 of the present embodiment, the feeding rail 110 is extended obliquely on the base 101, in other words, the surface of the base 101 away from the ground is inclined, the first direction is intersecting with and not parallel to the horizontal direction, and the second direction is perpendicular to the inclined surface of the base 101. When the intelligent socket testing machine 1 is used, a socket to be tested is arranged in the feeding track 110, the socket to be tested can slide along the feeding track 110 under the action of gravity to move to the lower side of the support 102, so that the first detection component 120, the second detection component 121 and the second detection device 13 can sequentially complete various tests on the socket to be tested, the test on the socket to be tested is rapidly completed, and the detection efficiency is improved.

Specifically, the feeding device 11 of the present embodiment further includes a first blocking component 111 and a second blocking component 112, the first blocking component 111 and the second blocking component 112 are respectively disposed in the base 101 and located below the feeding track 110, and are sequentially arranged in the first direction with the second detecting component 121, so as to intercept the socket to be detected on the feeding track 110, and facilitate detection.

The first blocking assembly 111 includes a first blocking driver 1110 and a first blocking member 1111, the first blocking driver 1110 is disposed on the base 101, and an output end of the first blocking driver 1110 is connected to the first blocking member 1111, the first blocking driver 1110 drives the first blocking member 1111 to move in the second direction, and is close to or far away from the feeding track 110, so that the first blocking member 1111 can move into the feeding track 110 to block the to-be-detected sockets sliding in the feeding track 110, and at this time, the to-be-detected sockets are located in the moving direction of the first detecting assembly 120 and the second detecting assembly 121.

The structure of the second blocking assembly 112 is the same as that of the first blocking assembly 111, that is, the second blocking assembly includes a second blocking driver and a second blocking piece, the second blocking driver is disposed on the base 101, and the output end of the second blocking driver is connected to the second blocking piece, the second blocking driver drives the second blocking piece to move in the second direction, and the second blocking piece is close to or away from the feeding track 110, so that the second blocking piece can move into the feeding track 110 to block the socket to be detected sliding in the feeding track 110, and at this time, the socket to be detected is located in the moving direction of the second detecting device 13.

The structure of the smart socket testing machine according to the present embodiment is described in detail below, and reference is made to fig. 4, which is a schematic diagram of the first detection assembly of the smart socket testing machine according to the present invention. As shown in the drawings, in the present embodiment, the first detecting assembly 120 includes a first detecting driver 1200 and a first detecting member 1201, the first detecting driver 1200 is disposed on one side surface of the bracket 102, and an output end of the first detecting driver is connected to the first detecting member 1201, so that the first detecting driver 1200 can drive the first detecting driver 1201 to move relative to the feeding rail 110 in the second direction, and perform a contact test on the socket to be detected on the feeding rail 110 from above the socket to be detected.

Specifically, the first detecting assembly 120 further includes a detecting adjusting rail 1202 and a rail mounting block 1203, the detecting adjusting rail 1202 is connected to the output end of the first detecting driver 1200 through the rail mounting block 1203 and extends in the width direction of the feeding rail 110, and the first detecting member 1201 is slidably disposed on the detecting adjusting rail 1202. In other words, the rail mounting block 1203 is connected to the output end of the first detecting driver 1200 and has a gap, the detecting and adjusting rail 1202 is disposed in the gap, and a space is left between the detecting and adjusting rail 1203 and the rail mounting block 1203, so that the first detecting member 1201 disposed on the detecting and adjusting rail 1202 slides in the second direction, and a position is quickly adjusted, so as to accurately perform a contact test on the socket to be detected on the feeding rail 110. Thus, even if a product of a different model is replaced for testing, the smart socket tester 1 of the present embodiment can be compatible.

Preferably, the first detecting member 1201 of the present embodiment includes two insertion detecting blocks 1201a and three insertion detecting blocks 1201b, and the two insertion detecting blocks 1201a and the three insertion detecting blocks 1201b are slidably disposed on the detecting adjustment track 1202, respectively. In this way, the smart socket tester 1 of the present embodiment can simultaneously perform a one-time test on a socket integrating two-plug and three-plug.

Preferably, the first detecting assembly 120 further includes an installation slider 1204, an installation rod 1205 and a buffer 1206, the installation slider 1204 is slidably disposed in the detection adjusting track 1202, the installation rod 1205 penetrates through the installation slider 1204 along the second direction and can move in the second direction relative to the installation slider 1204, the first detecting element 1201 is connected to one end of the installation rod 1205 close to the feeding track 110, and the buffer 1206 is sleeved on the installation rod 1205 and located between the installation slider 1204 and the first detecting element 1201 for buffering contact between the first detecting element 1201 and a socket to be detected. The buffer 1206 may be made of spring, rubber, etc. Corresponding to the two-insertion detecting block 1201a and the three-insertion detecting block 1201b, the number of the mounting slider 1204, the mounting rod 1205 and the buffer 1206 may be plural, so as to ensure balance and stability of the two-insertion detecting block 1201a and the three-insertion detecting block 1201 b.

Referring to fig. 5, it is a schematic diagram of the second detecting component of the intelligent socket testing machine of the present invention. As shown in the drawings, in the present embodiment, the second detecting assembly 121 includes a first detecting driver 1210 and a second detecting member 1211, the second detecting driver 1210 is disposed in the base 101 and located below the feeding track 110, and the second detecting member 1211 is connected to an output end of the second detecting driver 1210, so that the second detecting driver 1210 drives the second detecting member 1211 to move in the second direction relative to the feeding track 110, so that the second detecting member 1211 performs contact detection on the socket to be detected from below the socket to be detected. In this embodiment, the second detecting member 1211 is a probe,

referring to fig. 6, it is a schematic diagram of the second detecting device of the intelligent socket testing machine of the present invention. As shown in the figure, in the present embodiment, the second detecting device 13 includes a third detecting driver 130 and a third detecting member 131, the third detecting driver 130 is disposed on the other surface of the bracket 102, and the output end of the third detecting driver is connected to the third detecting member 131, so that the third detecting driver 130 can drive the third detecting member 131 to move along the second direction relative to the feeding track 110, so that the third detecting member 131 can perform contact detection on the socket to be detected from above the socket to be detected.

Specifically, the second detection device 13 further includes a first mounting plate 132, a second mounting plate 133, and a point contact switch 134; the first mounting plate 132 is connected with the output end of the third detection driver 130, and the second mounting plate 133 is connected with the first mounting plate 132 through a connecting column, so that a space is reserved between the first mounting plate 132 and the second mounting plate 133; the point contact switch 134 is located in the space, and has one end fixed to a surface of the first mounting plate 132 facing the second mounting plate 133 and the other end extending in a second direction toward the second mounting plate 133; the third detecting member 131 is movably disposed through the second mounting plate 133 and extends in the direction of the point contact switch 134; in other words, the third detection member 131 is on the same straight line as the point contact switch 134 and is movable in the second direction relative to the second mounting plate 133 to approach/separate from the point contact switch 134.

In this embodiment, the third detecting element 131 is a probe for detecting the protection door of the socket to be detected. When the third detection driver 130 drives the first mounting plate 132, the second mounting plate 133, the point contact switch 134 and the third detection member 131 to move continuously toward the feeding track 110, if the third detection member 131 contacts the socket to be detected, the third detection member 131 moves relative to the second mounting plate 133, and one end of the third detection member, which is close to the point contact switch 134, can finally contact the point contact switch 134, so that the third detection member 131 can extend into the jack to detect, and determine whether the protection door is neglected for installation. The positions of the third detecting element 131 on the second mounting plate 133, the point contact switch 13 on the first mounting plate 132, and the number of the two can be flexibly set according to actual needs.

In the present embodiment, the first detection driver 1200, the second detection driver 1210, the third detection driver 130, the first blocking driver 1110 and the second blocking driver 1120 are preferably air cylinders. The first detecting component 120 and the second detecting component 121 are used for detecting the power-on/short-circuit test of the socket to be detected, and of course, can be used for other tests which can be realized by contact, and the positions of the first detecting device 12 and the second detecting device 13 in the first direction can also be interchanged. This embodiment is merely an embodiment of the smart socket testing machine 1 of the present invention, and should not be limited thereto.

Referring to fig. 1, fig. 2 and fig. 7 together, the drawings are schematic views of a frame and a feeding device of the intelligent socket testing machine of the present invention. As shown in the figures, in this embodiment, the rack 10 further includes two baffles 103, the two baffles 103 are respectively disposed on the base 101 and respectively located at two sides of the feeding track 110, so as to prevent the socket to be detected from shifting during the moving process, and ensure that the socket to be detected can be accurately detected.

Further, the frame 10 further includes two stoppers 104, the number of the stoppers 104 is two, and the two stoppers 104 are respectively disposed on the surfaces of the two baffles 103 opposite to each other and above the feeding rail 110. When the first detecting component 120 is close to the feeding rail 110, the two limiting blocks 104 are in the moving direction of the rail mounting block 1203 and are used for limiting the moving distance of the rail mounting block 1203, so that the socket to be detected is prevented from being damaged in the downward moving process of the first detecting member 1201.

Preferably, in this embodiment, the limiting block 104 is fixed on the baffle 103 by a locking screw, and the height of the limiting block 104 can be flexibly adjusted by tightening or loosening the locking screw, so as to adapt to different types of products.

Furthermore, the smart socket testing machine 1 of the present embodiment further includes a control system 14, wherein the control system 14 is disposed on the base 101 and electrically connected to the alarm 144, the first detecting device 12, the second detecting device 13, the first blocking element 111 and the second blocking element 112 to control the operations thereof. When the first detection device 12 and/or the second detection device 13 detect and judge that the socket to be detected is unqualified, the control system 14 controls the first blocking component 111 or the second blocking component 112 to keep a state of blocking the socket to be detected so as to indicate that the socket to be detected is unqualified.

Preferably, the control system 14 is also used for human-computer interaction, which may be of any known technology.

Preferably, the smart socket testing machine 1 further includes an alarm 15 and a reset controller 16, and the alarm 15 and the reset controller 16 are respectively disposed on the base 101 and electrically connected to the control system 14. When the control system 14 controls the first blocking assembly 111 or the second blocking assembly 112 to block the socket to be detected, the control system 14 controls the alarm 15 to alarm. The reset controller 16 can control the first blocking component 111 or the second blocking component 112 to reset, and the unqualified socket to be detected flows out.

To sum up, the utility model provides a pair of intelligent socket test machine, it sets up first detection device and second detection device through the route of waiting to detect the socket along feed arrangement transport, can accomplish the test that the multiple item was treated and is detected the socket in order, improves detection efficiency by a wide margin.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The embodiments of the present invention have been described with reference to the accompanying drawings, but the present invention is not limited to the above-mentioned embodiments, which are only illustrative and not restrictive, and those skilled in the art can make many forms without departing from the spirit and scope of the present invention.

Claims (10)

1. An intelligent socket testing machine, comprising:

a feeding device having a feeding track extending in a first direction;

the first detection device comprises a first detection assembly and a second detection assembly, the first detection assembly and the second detection assembly are symmetrically arranged on the upper side and the lower side of the feeding track and can move relatively to detect a first position of a socket to be detected on the feeding track, the direction of relative movement of the first detection assembly and the second detection assembly is a second direction, and the second direction is perpendicular to the first direction;

the second detection device is erected above the feeding track and located on one side of the first detection assembly, and can move in the second direction to perform second position detection on the socket to be detected on the feeding track.

2. The smart socket testing machine as recited in claim 1, further comprising a rack including a base and a support, the support being disposed on the base, the feed rail being disposed on the base and extending through the support, the first detection assembly and the second detection device being disposed on opposite sides of the support above the feed rail, respectively, the second detection assembly being disposed within the base opposite the first detection assembly.

3. The smart socket tester as claimed in claim 2, wherein the first testing component comprises a first testing driver and a first testing member, the first testing driver is disposed on the bracket, and the first testing member is connected to an output end of the first testing driver.

4. The smart socket testing machine as claimed in claim 3, wherein the first testing member includes two insertion testing blocks and three insertion testing blocks, the first testing assembly further includes a testing adjustment rail connected to the output end of the first testing driver and extending in the width direction of the feeding rail, and the two insertion testing blocks and the three insertion testing blocks are slidably disposed on the testing adjustment rail.

5. The smart socket tester as claimed in claim 3, wherein the second testing assembly comprises a second testing driver and a second testing member, the second testing driver is disposed in the base, and an output end of the second testing driver is connected to the second testing member.

6. The smart socket tester as claimed in claim 2, wherein the second testing device comprises a third testing driver and a third testing member, the third testing driver is disposed on the opposite side of the support from the first testing driver, and the third testing member is connected to an output end of the third testing driver.

7. The smart jack tester as claimed in claim 6, wherein the second tester further comprises a first mounting plate connected to the output of the third tester driver, a second mounting plate connected to the first mounting plate and leaving a space with the first mounting plate, and a point contact switch located in the space and fixed to the first mounting plate, the third tester being inserted through the second mounting plate and being movable in the second direction relative to the second mounting plate toward/away from the point contact switch.

8. The smart socket testing machine as claimed in claim 2, wherein the feeding device further comprises a first blocking component and a second blocking component, the first blocking component and the second blocking component are respectively disposed on the base and located below the feeding track.

9. The smart socket testing machine as claimed in claim 8, wherein the first blocking assembly includes a first blocking driver and a first blocking member, the first blocking driver is disposed on the base and has an output connected to the first blocking member for driving the first blocking member to move in the second direction, the second blocking assembly includes a second blocking driver and a second blocking member, the second blocking driver is disposed on the base and has an output connected to the second blocking member for driving the second blocking member to move in the second direction.

10. The smart jack tester of claim 1, wherein the first direction intersects and is non-parallel to a horizontal direction.

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