CN211236179U - Response lamp removes testing arrangement - Google Patents

Abstract

A movable test device for an induction lamp comprises a workbench surface, a top frame, a bottom frame, a temperature control moving device arranged at one end of the top frame, a lifting device and a lamp placing plate. The temperature control moving device comprises a temperature control device support, a conveying device and a heating device. The heating device can reciprocate along the extending direction of the conveying device. Each lifting device comprises a screw rod lifting device and a lifting driving device arranged on one side of the screw rod lifting device. The screw rod lifting device comprises a screw rod lifting device main body and a screw rod arranged on the screw rod lifting device main body. The extending direction of the lamp placing plate is the same as the transmission direction of the conveying device, so that when the conveying device drives the heating device to move, the heating device corresponds to the lamp placing plate in the transmission process. The induction lamp moving testing device reduces manual operation, saves labor cost and improves detection efficiency.

Description

Response lamp removes testing arrangement

Technical Field

The utility model belongs to the technical field of the response lamp detection device, especially a response lamp removes testing arrangement.

Background

The induction lamp is a novel intelligent lighting product which automatically controls the light source to be lightened through the induction module. The induction lamp is used as an intermittent illumination light source which is frequently switched on and off, is undoubtedly the most ideal choice compared with incandescent lamps and various fluorescent lamps, and has the characteristics of long switching service life, high response speed, high lighting effect, small volume and easiness in control.

At present, the person stands by outside 3 meters away from the product and walks around and detect when detecting the induction lamp, the labor intensity of detection personnel is strong, time and labor are consumed very much, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a can improve detection efficiency's response lamp mobile test device to satisfy the industrial demand.

The utility model provides an induction lamp removes testing arrangement, its includes a workstation mesa, a setting is in the roof-rack of workstation mesa one side, and a setting is in the chassis of workstation mesa opposite side, a setting is in the control by temperature change mobile device of roof-rack one end, two symmetries respectively set up the elevating gear of control by temperature change mobile device both sides, and one sets up lamp placing tray on the workstation mesa. The temperature control moving device comprises a temperature control device support arranged at one end of the top frame far away from the workbench surface, a conveying device fixedly connected to the temperature control device support, and a heating device connected with the conveying device. The heating device can reciprocate along the extending direction of the conveying device. Each lifting device comprises a screw rod lifting device and a lifting driving device arranged on one side of the screw rod lifting device. The screw rod lifting device comprises a screw rod lifting device main body and a screw rod arranged on the screw rod lifting device main body. One end of the screw rod is connected with the temperature control device bracket. The position of the conveying device corresponds to the position of the lamp placing plate. The extending direction of the lamp placing plate is the same as the transmission direction of the conveying device, so that when the conveying device drives the heating device to move, the heating device corresponds to the lamp placing plate in the transmission process.

Furthermore, the lifting device further comprises a guide device, the guide device comprises four guide rods fixedly connected to the temperature control device support respectively and four guide pieces arranged on the top frame respectively, and each guide rod is inserted into one guide piece.

Further, the length of each guide rod is smaller than the distance between the workbench surface and the temperature control device support.

Furthermore, the induction lamp moving test device further comprises a lamp trigger device arranged on the workbench surface, and the lamp placing plate is clamped between the lamp trigger device and the workbench surface.

Furthermore, the lamp triggering device comprises two symmetrically arranged supports, a rotating device arranged on the supports, and two first air cylinders, wherein the two first air cylinders are respectively connected to the two supports.

Furthermore, the rotating device comprises two rotating shafts arranged on the support at intervals, a plurality of L-shaped trigger rods arranged on one side of each rotating shaft, two gears arranged on the rotating shafts, a rack arranged on one side of each gear, and a second cylinder connected with the rack, wherein one end of each rotating shaft is provided with one gear, the two gears are mutually abutted, the rack is arranged on one side, far away from the other gear, of each gear, the gear is abutted to the rack, and the two L-shaped trigger rods arranged on the rotating shafts are mutually symmetrical.

Furthermore, the screw rod lifting device also comprises a through hole arranged on the table top of the workbench, and the central axes of the through holes are respectively superposed with the central axis of the screw rod.

Further, the lifting driving device is a servo motor.

Compared with the prior art, the utility model provides an induction lamp removes testing arrangement passes through control by temperature change mobile device with elevating gear detects on the dish is placed to lamps and lanterns. The conveying device of the temperature control moving device can drive the heating device to reciprocate. The two lifting devices are respectively connected to two sides of the temperature control device support, one end of the lead screw in the lead screw lifting device is fixedly connected with the temperature control device support, and the lifting driving device drives the lead screw lifting device main body to drive the lead screw to ascend or descend so as to drive the temperature control moving device to ascend or descend, so that the distance between the temperature control moving device and the lamp placing plate is adjusted and detected. The position of the conveying device corresponds to the position of the lamp placing plate. And the extending direction of the lamp placing plate is the same as the transmission direction of the conveying device, so that when the conveying device drives the heating device to move, the heating device corresponds to the position of the lamp placing plate in the transmission process, and the induction lamps on the lamp placing plate can all sense the heating device, so that the induction lamps on the lamp placing plate are detected. Therefore, the induction lamp moving testing device reduces manual operation, saves labor cost and improves detection efficiency.

Drawings

Fig. 1 is the utility model provides an induction lamp removes testing arrangement's schematic structure view.

Fig. 2 is a schematic structural diagram of a lamp triggering device in the induction lamp movement testing device of fig. 1.

Fig. 3 is a partially enlarged structural schematic view of the lamp triggering device of fig. 2 at a point a.

Detailed Description

Specific examples of the present invention will be described in further detail below. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

As shown in fig. 1 to fig. 3, it is a schematic structural diagram of the induction lamp mobile testing device provided by the present invention. The induction lamp moving test device comprises a workbench table top 1, a top frame 2 arranged on one side of the workbench table top 1, a bottom frame 3 arranged on the other side of the workbench table top 1, a temperature control moving device 10 arranged at one end of the top frame 2, two lifting devices 20 symmetrically arranged on two sides of the temperature control moving device 10, a lamp placing disc 30 arranged on the workbench table top 1, and a lamp triggering device 40 arranged on the workbench table top 1. The induction lamp movement testing device further includes other functional modules, such as assembling components, electrical connecting components, etc., which should be known to those skilled in the art, and will not be described in detail herein.

The roof rack 2, and the chassis 3 all with workstation mesa 1 links together, the chassis 3 will workstation mesa 1 supports, roof rack 2 is used for supporting control by temperature change mobile device 10 and elevating gear 20, workstation mesa 1 roof rack 2, and chassis 3 all is a prior art, and it is no longer repeated.

The temperature control moving device 10 comprises a temperature control device support 11 arranged at one end of the top frame 2 far away from the workbench surface 1, a conveying device 12 fixedly connected to the temperature control device support 11, and a heating device 13 connected with the conveying device 12.

Temperature control device support 11 is a rectangular frame, just temperature control device support 11 erect in on the roof-rack 2, conveyor 12 set up in two on temperature control device support 11 elevating gear 20 connects the both sides of temperature control device support 11, in order to drive whole temperature control mobile device 10 goes up and down.

The conveying device 12 is a drag chain type conveyor, and the heating device 13 is fixedly connected with a drag chain of the conveying device 12, so that the conveying device 12 drives the heating device 13 to reciprocate. The conveyor 12 is a prior art and will not be described in detail herein.

The heating device 13 is capable of reciprocating along the extending direction of the conveying device 12, that is, the conveying device 12 is capable of driving the heating device 13 to reciprocate. The heating device 13 heats the temperature of the simulated human body to make the induction lamp light, which is a prior art and is not described herein again.

Each of the lifting devices 20 includes a screw lifting device 21, a lifting driving device 22 provided at one side of the screw lifting device 21, and a guide device 23. The two lifting devices 20 operate synchronously during operation to prevent the temperature-controlled mobile device 10 from jamming or cutting during movement.

The lead screw lifting device 21 includes a lead screw lifting device body 211, a lead screw 212 provided on the lead screw lifting device body 211, and a through hole 213 provided on the table top 1. The screw lifting device 21 converts a rotary motion into a linear motion, which is a prior art. One end of the screw rod 212 is connected to the temperature control device bracket 11, so that when the screw rod lifting device main body 211 drives the screw rod 212 to move, the screw rod 212 drives the temperature control moving device 10 to ascend or descend, thereby adjusting the distance between the temperature control moving device 10 and the lamp placing tray 30, and further enabling the temperature control moving device 10 to detect the induction lamps on the lamp placing tray 30 at different distances. The central axes of the through holes 213 coincide with the central axes of the lead screws 212, respectively, so as to facilitate the lifting of the lead screws 212.

The lifting driving device 22 is a servo motor, and the lifting driving device 22 is connected to the lead screw lifting device main body 211 and drives the lead screw lifting device main body 211, so as to drive the lead screw 212 to ascend or descend, and further drive the temperature control moving device 10 to ascend or descend.

The guiding device 23 comprises four guiding rods 321 fixedly connected to the temperature control device bracket 11, and four guiding members 322 respectively arranged on the top frame 2. The four guide rods 321 are respectively arranged at four vertex angles of the temperature control device bracket 11, and the four guide members 322 are respectively arranged on four rods of the top frame 2. Each of the guide rods 321 is inserted into one of the guide members 322, so that the temperature control moving device 10 is guided by the guide rod 321, and the lifting process of the temperature control moving device 10 is stable. And the length of each guide rod 321 is smaller than the distance between the worktable surface 1 and the temperature control device bracket 11, so that the temperature control device bracket 11 is abutted against the top frame 2.

The lamp placing tray 30 is used for placing induction lamps. The position of the conveyor 12 corresponds to the position of the lamp placement tray 30, it being conceivable for the conveyor 12 to be on top of the lamp placement tray 30. The extending direction of the lamp placing tray 30 is the same as the transmission direction of the conveying device 12, so that when the conveying device 12 drives the heating device 13 to move, the heating device 13 corresponds to the position of the lamp placing tray 30 in the transmission process, and therefore the induction lamps on the lamp placing tray 30 can all sense the heating device 13, and further the induction lamps on the lamp placing tray 30 are detected.

The lamp activating device 40 includes two symmetrically disposed brackets 41, a rotating device 42 disposed between the two brackets 41, and two first cylinders 43.

The two brackets 41 are used for fixing the rotating device 42 and connecting the rotating device 42 and the first cylinder 43 together.

The rotating device 42 includes two rotating shafts 421 spaced apart from each other on the bracket 41, a plurality of "L" shaped trigger levers 422 disposed on one side of the rotating shafts 421, two gears 423 disposed on the rotating shafts 421, a rack 424 disposed on one side of the gears 423, and a second cylinder 425 connected to the rack 424. The L-shaped trigger bars 422 of the two rotating shafts 421 are symmetrical to each other. In addition, one gear 423 is disposed at one end of each of the rotating shafts 421, and the two gears 423 are abutted against each other, and it is conceivable that the two gears 423 are disposed at the same end of the two rotating shafts 421 respectively. The rack 424 is disposed on one side of one of the gears 423 away from the other gear 423, and the gear 423 abuts against the rack 424, so that when the second cylinder 425 drives the rack 424 to move, the two rotating shafts 421 rotate, and then the two L-shaped trigger rods 422 disposed on the two rotating shafts 421 are driven to rotate symmetrically, and the two L-shaped trigger rods 422 on the rotating shafts are always guaranteed to be symmetrical to each other. When the L-shaped trigger rods 422 are inserted into the induction lamps, one end of each L-shaped trigger rod 422 faces the table top 1 of the workbench, and when the L-shaped trigger rods 422 on the two rotating shafts 421 are inserted into the induction lamp trigger switches, the L-shaped trigger rods 422 on the two rotating shafts 421 rotate towards two sides under the driving of the second air cylinder 425, so that the induction lamps emit light, and the trigger switches of the induction lamps are detected.

The two first air cylinders 43 are respectively connected to the two brackets 41, and the two first air cylinders 43 elevate the brackets 41 and the rotating device 42, so that the induction lamp can be conveniently installed in the lamp placing tray 30. In operation, the two first air cylinders 43 are lifted and lowered synchronously, so as to prevent the lamp trigger device 40 from being stuck or inclined.

Compared with the prior art, the utility model provides an induction lamp removes testing arrangement passes through control by temperature change mobile device 10 with elevating gear 20 detects on the dish 30 is placed to lamps and lanterns. The conveying device 12 of the temperature control moving device 10 can drive the heating device 13 to reciprocate. The two lifting devices 20 are respectively connected to two sides of the temperature control device support 11, one end of the lead screw 212 in the lead screw lifting device 21 is fixedly connected with the temperature control device support 11, and the lifting driving device 22 drives the lead screw lifting device main body 211 to drive the lead screw 212 to ascend or descend, so as to drive the temperature control moving device 10 to ascend or descend, so as to adjust the distance between the temperature control moving device 10 and the lamp placing disc 30 and detect the distance. The position of the conveying device 12 corresponds to the position of the lamp placing tray 30. And the extending direction of the lamp placing tray 30 is the same as the transmission direction of the conveying device 12, so that when the conveying device 12 drives the heating device 13 to move, the heating device 13 corresponds to the position of the lamp placing tray 30 in the transmission process, and thus the induction lamps on the lamp placing tray 30 can all sense the heating device 13, and further the induction lamps on the lamp placing tray 30 are detected. Therefore, the induction lamp moving testing device reduces manual operation, saves labor cost and improves detection efficiency.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims (8)

1. The utility model provides an induction lamp removes testing arrangement, includes a workstation mesa, a setting is in the roof-rack of workstation mesa one side, and a setting is in the chassis of workstation mesa opposite side, its characterized in that: the induction lamp moving test device comprises a temperature control moving device arranged at one end of the top frame, two lifting devices respectively and symmetrically arranged at two sides of the temperature control moving device, and a lamp placing disc arranged on the workbench surface, wherein the temperature control moving device comprises a temperature control device support arranged at one end of the top frame far away from the workbench surface, a conveying device fixedly connected on the temperature control device support, and a heating device connected with the conveying device, the heating device can reciprocate along the extending direction of the conveying device, each lifting device comprises a lead screw lifting device and a lifting driving device arranged at one side of the lead screw lifting device, the lead screw lifting device comprises a lead screw lifting device main body and a lead screw arranged on the lead screw lifting device main body, one end of the screw rod is connected with the temperature control device support, the position of the conveying device corresponds to the position of the lamp placing disc, the extending direction of the lamp placing disc is the same as the conveying direction of the conveying device, so that when the conveying device drives the heating device to move, the heating device corresponds to the position of the lamp placing disc in the conveying process.

2. The induction lamp movement testing apparatus of claim 1, wherein: the lifting device further comprises a guide device, the guide device comprises four guide rods fixedly connected to the temperature control device support respectively and four guide pieces arranged on the top frame respectively, and each guide rod is inserted into one guide piece.

3. The induction lamp movement testing apparatus of claim 2, wherein: the length of each guide rod is smaller than the distance between the workbench surface and the temperature control device support.

4. The induction lamp movement testing apparatus of claim 1, wherein: the induction lamp moving test device further comprises a lamp trigger device arranged on the workbench surface, and the lamp placing disc is clamped between the lamp trigger device and the workbench surface.

5. The induction lamp movement testing apparatus of claim 4, wherein: the lamp triggering device comprises two symmetrically arranged supports, a rotating device arranged on the supports and two first air cylinders, wherein the two first air cylinders are respectively connected to the two supports.

6. The induction lamp movement testing apparatus of claim 5, wherein: rotating device includes that two intervals set up pivot on the support, a plurality of settings are in "L" type trigger lever of pivot one side, two settings change epaxial gear, one sets up the rack of gear one side, and one with be connected second cylinder on the rack, every wherein one end of pivot sets up one the gear, and two the mutual butt of gear, the rack sets up one the gear is kept away from another one side of gear, and this gear with the rack butt, two it is changeing epaxial "L" type trigger lever mutual symmetry.

7. The induction lamp movement testing apparatus of claim 1, wherein: the screw rod lifting device further comprises a through hole arranged on the table top of the workbench, and the central axes of the through hole are respectively superposed with the central axis of the screw rod.

8. The induction lamp movement testing apparatus of claim 1, wherein: the lifting driving device is a servo motor.

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