CN221019571U - Press mounting equipment for lamp shell - Google Patents

Abstract

The utility model relates to press mounting equipment for a lamp shell, which comprises a bottom plate, a speed reduction motor module arranged at the top of the bottom plate, a tray transversely and concentrically fixed on an output shaft of the speed reduction motor module, an upper cover feeding assembly and a lower cover feeding press mounting assembly which are arranged at the top of the bottom plate and respectively positioned at the left side and the right side of the tray, a positioning assembly and a material taking assembly, wherein a material receiving box is further arranged at the top of the bottom plate and is arranged in front of the material taking assembly; according to the utility model, the feeding of the lamp upper cover assembly, the feeding and pressing of the lamp lower cover assembly and the automatic taking and placing of the assembled shell into the receiving box are respectively realized by means of the upper cover feeding assembly, the lower cover feeding and pressing assembly and the material taking assembly, and manual operation of workers is not needed in the whole process, so that the operation process is simplified to achieve the effects of time and labor saving, the working efficiency is improved, and the labor cost is reduced.

Description

Press mounting equipment for lamp shell

Technical Field

The utility model relates to a press-fitting device for a lamp shell.

Background

The clapping lamp is a touch induction type lamp with smaller volume, is convenient, practical and saves electricity, so that the lamp is popular in recent years; the lamp is provided with a shell and a light-emitting module arranged in the shell, and the shell is mini in shape and is assembled by an upper cover and a lower cover; at present, most manufacturers are manually operated by workers when assembling the shell of the shooting lamp, namely, an upper cover and a lower cover for forming the shell are sequentially and manually taken by the workers, then are manually assembled and finally are manually placed into a turnover box, the operation process is complex, time and labor are wasted, the working efficiency is low, the labor cost is high, and further improvement is needed.

Disclosure of utility model

The present utility model is directed to a press-fitting device for a lamp housing, which simplifies the operation process to achieve the effects of time and labor saving, thereby improving the working efficiency and reducing the labor cost.

The technical scheme adopted for solving the technical problems is as follows: the press mounting equipment for the lamp shell comprises a bottom plate, a gear motor module arranged at the top of the bottom plate, and a tray transversely and concentrically fixed on an output shaft of the gear motor module, and is characterized by further comprising an upper cover feeding assembly and a lower cover feeding press mounting assembly which are arranged at the top of the bottom plate and respectively positioned at the left side and the right side of the tray, wherein the lower cover feeding press mounting assembly comprises a cushion block transversely fixed at the top of the bottom plate, a door-shaped frame fixed at the top of the cushion block, a press mounting cylinder which is fixed at the top of the door-shaped frame and can adjust the fixed height, a pressing block transversely fixed on the telescopic end of the press mounting cylinder and positioned above the right side edge of the tray, a first vibrating tray guide seat which is fixed at the top of the cushion block and positioned at the right side edge of the door-shaped frame, a material moving unit which is arranged between the first vibrating tray guide seat and the material moving unit, and a material pushing unit which is arranged on the cushion block and is mutually matched with the material feeding unit, and the telescopic end of the press mounting cylinder is vertically arranged downwards; the feeding unit comprises a bottom block fixed at the top of the cushion block, a feeding cylinder fixed at the top of the bottom block, a lifting block arranged above the feeding cylinder, a top block arranged above the lifting plate, two guide posts vertically penetrating through the lifting block and respectively positioned at the front side and the rear side of the feeding cylinder, and a feeding column vertically penetrating through the top block and arranged between the two guide posts, wherein the telescopic end of the feeding cylinder is vertically upwards arranged and fixed on the lifting block, the upper end and the lower end of each guide post are respectively fixed on the top block and the bottom block, and the lower end of the feeding column is fixed on the lifting block; the material moving unit comprises a moving block, a material moving cylinder, a movable supporting block and a fixed supporting block, wherein the moving block is movably connected to the top of a cushion block and has a front-back translation function, the material moving cylinder is fixed to the top of the cushion block and is positioned in front of the moving block, the movable supporting block is vertically fixed to the left side of the moving block, the fixed supporting block is used for fixing the top of the cushion block and is positioned between the moving block and the movable supporting block, the telescopic end of the material moving cylinder is transversely and backwards arranged and fixed on the moving block, a first open slot matched with a feeding channel at the top of a first vibration disc material guiding seat is formed in the top of the fixed supporting block, and a second open slot matched with the first open slot is formed in the top of the movable supporting block; the pushing unit comprises a first vertical frame fixed at the top of the cushion block, a pushing cylinder fixed on the first vertical frame, and a pushing strip transversely fixed on the telescopic end of the pushing cylinder and matched with the second open slot, wherein the telescopic end of the pushing cylinder is transversely arranged leftwards; the top of tray still is fixed with a plurality of locating seats that evenly set up along circumferencial direction equiangular degree, correspondingly, set up the loading hole of same quantity in the tray, every the below of a locating seat that corresponds is all located to the loading hole, first guide way has been seted up at the top of locating seat, set up the spacing hole mutually supporting with the loading hole on the bottom surface of first guide way.

Preferably, the upper cover feeding component comprises a second vibration disc material guiding table fixed at the top of the bottom plate, a vertical plate vertically fixed at the top of the bottom plate, a limiting block fixed at the upper end of the supporting block and positioned between the top of the second vibration disc material guiding seat and the tray, a second vertical frame fixed at the top of the bottom plate and positioned behind the second vibration disc material guiding seat, a first back plate vertically and movably connected to the front side of the second vertical frame so as to have a left-right translation function, a first movable cylinder fixed on the first vertical frame and positioned on the right of the first back plate, an L bracket movably connected to the front side of the first back plate so as to have an up-down vertical movement function, a first guide rod cylinder fixed on the front side of the first back plate and positioned above the L bracket, a first pneumatic finger fixed on the L bracket, and two first clamping blocks respectively fixed on the two clamping jaws, wherein the telescopic ends of the first movable cylinder are transversely arranged right and detachably fixed on the first back plate, and the telescopic ends of the first guide rod are vertically arranged downwards and detachably fixed on the L bracket and are respectively distributed on the two pneumatic fingers vertically and downwards.

Preferably, the positioning assembly comprises a third vertical frame fixed at the top of the bottom plate, a second guide rod cylinder fixed on the third vertical frame and a clamping block fixed on the telescopic end of the second guide rod cylinder, the telescopic end of the second guide rod cylinder is transversely arranged towards the circle center of the tray, a triangular protruding block is outwards formed on the outer side of the clamping block, correspondingly, a plurality of V-shaped notches uniformly distributed along the circumferential direction in an equal angle are formed on the outer circumferential surface of the tray, and the triangular protruding block is matched with each V-shaped notch.

Preferably, the device further comprises a material taking assembly, the material taking assembly comprises a fourth vertical frame fixed at the top of the bottom plate, a beam plate vertically fixed on the fourth vertical frame, a second back plate vertically and movably connected to the front side of the beam plate so as to have a left-right translation function, a second movable cylinder fixed on the fourth vertical frame and positioned on the left side of the second back plate, a third back plate vertically and movably connected to the front side of the second back plate so as to have an up-down vertical movement function, a second guide rod cylinder fixed on the front side of the second back plate and positioned above the third back plate, a second pneumatic finger fixed on the third back plate, and two second clamping blocks respectively fixed on two clamping jaws of the second pneumatic finger, the telescopic ends of the second movable cylinder are transversely arranged right and detachably fixed on the second back plate, the telescopic ends of the second guide rod cylinder are vertically downwards arranged and detachably fixed on the third back plate, and the two clamping jaws of the second pneumatic finger are vertically downwards arranged and respectively distributed left and right.

Preferably, the top of door type frame still is fixed with the third guide arm cylinder, the flexible end of third guide arm cylinder sets up vertically downwards, still be fixed with the dog on the flexible end of third guide arm cylinder, the top of deciding the supporting shoe is located to the dog, the tip of dog is formed with two fork pieces that set up around downwards, correspondingly, two constant head tanks have still been seted up at the top of deciding the supporting shoe, two the constant head tanks are located the front and back both sides of first open slot respectively symmetrically and are mutually supported with two fork pieces respectively.

Preferably, the top of moving the supporting shoe still is fixed with first seat of rectifying, the top of second open slot is located to first seat of rectifying, the top of kicking block still is fixed with the second seat of rectifying that mutually supports and lie in the charging post right with first seat of rectifying, the top of kicking block still is fixed with the locating piece, the left side of charging post is located to the locating piece.

Preferably, a second guide groove running back and forth is formed in the top of the limiting block, and a third open groove matched with the feeding channel at the top of the second vibration disc guide seat is formed in the left inner wall of the second guide groove.

Preferably, a receiving box is further arranged at the top of the bottom plate, and the receiving box is arranged in front of the material taking assembly.

Compared with the prior art, the utility model has the advantages that: according to the utility model, the feeding of the lamp upper cover assembly, the feeding and pressing of the lamp lower cover assembly and the automatic taking and placing of the assembled shell into the receiving box are respectively realized by means of the upper cover feeding assembly, the lower cover feeding and pressing assembly and the material taking assembly, and manual operation of workers is not needed in the whole process, so that the operation process is simplified to achieve the effects of time and labor saving, the working efficiency is improved, and the labor cost is reduced.

Drawings

FIG. 1 is a left front side block diagram of the present utility model;

FIG. 2 is a right rear side block diagram of the present utility model;

FIG. 3 is a right rear side block diagram of the lower cover feed press assembly of the present utility model;

Fig. 4 is a front left side structural view of the lower cap feed press-fitting assembly of the present utility model.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

In order to keep the following description of the embodiments of the present utility model clear and concise, the detailed description of known functions and known components thereof have been omitted.

As shown in fig. 1 to 4, the press-mounting device for the lamp housing comprises a bottom plate 1, a gear motor module 3 arranged at the top of the bottom plate 1, a tray 2 transversely and concentrically fixed on the output shaft of the gear motor module 3, an upper cover feeding assembly 4 and a lower cover feeding press-mounting assembly 5 which are arranged at the top of the bottom plate 1 and respectively positioned at the left side and the right side of the tray 2, wherein the lower cover feeding press-mounting assembly 5 comprises a cushion block 516 transversely fixed at the top of the bottom plate 1, a door-shaped frame 51 fixed at the top of the cushion block 516, a press-mounting cylinder 52 fixed at the top of the door-shaped frame 51 and capable of adjusting the fixed height, a pressing block 53 transversely fixed at the telescopic end of the press-mounting cylinder 52 and positioned above the right side edge of the tray 2, The first vibration disc material guide seat 54 is fixed at the top of the cushion block 516 and positioned on the right side of the door-shaped frame 51, the feeding unit is arranged on the left side of the door-shaped frame 51 and positioned below the right side edge of the tray 2, the material moving unit is arranged between the first vibration disc material guide seat 54 and the feeding unit, and the material pushing unit is arranged on the cushion block 516 and is mutually matched with the feeding unit and the material moving unit, and the telescopic end of the press-fit cylinder 52 is vertically arranged downwards; the feeding unit comprises a bottom block 518 fixed at the top of a cushion block 516, a feeding cylinder 513 fixed at the top of the bottom block 518, a lifting block 514 arranged above the feeding cylinder 513, a top block 512 arranged above the lifting plate 514, two guide posts 515 vertically penetrating and arranged in the lifting block 514 and respectively positioned at the front side and the rear side of the feeding cylinder 513, and a feeding column 517 vertically penetrating and arranged in the top block 512 and between the two guide posts 515, wherein the telescopic end of the feeding cylinder 513 is vertically upwards arranged and fixed on the lifting block 514, the upper end and the lower end of each guide post 515 are respectively fixed on the top block 512 and the bottom block 518, the lower end of the feeding column 517 is fixed on the lifting block 514; the material moving unit comprises a moving block 55 movably connected to the top of a cushion block 516 and having a forward-backward translation function, a material moving cylinder 56 fixed to the top of the cushion block 516 and positioned in front of the moving block 55, a movable supporting block 57 vertically fixed to the left side of the moving block 55, and a fixed supporting block 58 fixed to the top of the cushion block 516 and positioned between the moving block 55 and the movable supporting block 57, wherein the telescopic end of the material moving cylinder 56 is transversely and backwards arranged and fixed on the moving block 55, a first open slot 581 matched with a feeding channel at the top of the first vibration plate material guiding seat 54 is formed in the top of the fixed supporting block 58, and a second open slot 571 matched with the first open slot 581 is formed in the top of the movable supporting block 57; the pushing unit comprises a first vertical frame 59 fixed at the top of the cushion block 516, a pushing cylinder 510 fixed on the first vertical frame 59, and a pushing strip 511 transversely fixed on the telescopic end of the pushing cylinder 510 and matched with the second open slot 571, wherein the telescopic end of the pushing cylinder 510 is transversely arranged leftwards; the top of tray 2 still is fixed with a plurality of evenly setting up positioning seat 7 along circumferencial direction equi-angle, correspondingly, has offered the loading hole 201 of same quantity in the tray 2, and the below of a corresponding positioning seat 7 is all located to every loading hole 201, and first guide way 71 has been seted up at the top of positioning seat 7, has seted up on the bottom surface of first guide way 71 with the spacing hole 72 of loading hole 201 mutually supporting.

The upper cover feeding assembly 4 comprises a second vibration disc material guiding table 41 fixed at the top of the bottom plate 1, a vertical plate 42 vertically fixed at the top of the bottom plate 1, a limiting block 43 fixed at the upper end of the supporting block 42 and positioned between the top of the second vibration disc material guiding seat 41 and the tray 2, a second vertical frame 44 fixed at the top of the bottom plate 1 and positioned behind the second vibration disc material guiding seat 41, a first backboard 45 vertically and movably connected at the front side of the second vertical frame 44 so as to have a left-right translation function, a first movable cylinder 46 fixed on the first vertical frame 44 and positioned at the right side of the first backboard 45, an L bracket 48 movably connected at the front side of the first backboard 45 so as to have an up-down vertical movement function, a first pneumatic finger 49 fixed on the L bracket 48, and two first clamping blocks 410 respectively fixed on the two clamping jaws of the first pneumatic finger 49, the telescopic ends of the first movable cylinder 46 are transversely arranged right and detachably fixed on the first backboard 45, and the telescopic ends of the first pneumatic finger 49 are respectively arranged at the front ends of the first vertical support 48 and can be vertically arranged downward.

The press-fitting equipment of the lamp shell further comprises a positioning component 8, the positioning component 8 comprises a third vertical frame 81 fixed at the top of the bottom plate 1, a second guide rod cylinder 82 fixed on the third vertical frame 81 and a clamping block 83 fixed on the telescopic end of the second guide rod cylinder 82, the telescopic end of the second guide rod cylinder 82 is transversely arranged towards the circle center of the tray 2, triangular projections 831 are outwards formed on the outer side of the clamping block 83, correspondingly, a plurality of V-shaped notches 202 uniformly distributed along the circumferential direction in an equal angle are formed on the outer circumferential surface of the tray 2, and the triangular projections 831 are matched with each V-shaped notch 202.

The press fitting equipment of the lamp housing further comprises a material taking assembly 6, wherein the material taking assembly 6 comprises a fourth vertical frame 61 fixed at the top of the bottom plate 1, a beam plate 68 vertically fixed on the fourth vertical frame 61, a second back plate 62 vertically and movably connected to the front side of the beam plate 68 so as to have a left-right translation function, a second movable cylinder 63 fixed on the fourth vertical frame 61 and positioned at the left side of the second back plate 62, a third back plate 64 vertically and movably connected to the front side of the second back plate 62 so as to have an up-down vertical movement function, a second guide rod cylinder 65 fixed on the front side of the second back plate 62 and positioned above the third back plate 64, a second pneumatic finger 66 fixed on the third back plate 64, and two second clamping blocks 67 respectively fixed on two clamping jaws of the second pneumatic finger 66, the telescopic end of the second movable cylinder 63 is transversely arranged right and detachably fixed on the second back plate 62, the telescopic end of the second guide rod cylinder 65 is vertically and detachably fixed on the third back plate 64, and the two clamping jaws of the second pneumatic finger 66 are vertically arranged and respectively distributed right and left.

The top of the door-shaped frame 51 is also fixed with a third guide rod cylinder 519, the telescopic end of the third guide rod cylinder 519 is vertically and downwardly arranged, the telescopic end of the third guide rod cylinder 519 is also fixed with a stop block 520, the stop block 520 is arranged above the fixed support block 58, the end part of the stop block 520 is downwardly formed with two fork blocks 5201 which are arranged front and back, correspondingly, the top of the fixed support block 58 is also provided with two positioning grooves 582, and the two positioning grooves 582 are symmetrically arranged on the front side and the back side of the first opening groove 581 and are mutually matched with the two fork blocks 5201 respectively.

The right side of the moving block 55 is provided with a limit groove 551, and the fixed support block 58 is arranged in the limit groove 551.

The top of movable supporting block 57 is still fixed with first deviation correcting seat 521, and first deviation correcting seat 521 locates the top of second open slot 571, and the top of kicking block 512 still is fixed with the second deviation correcting seat 522 that mutually support and lie in the right side of material loading post 517 with first deviation correcting seat 521, and the top of kicking block 512 still is fixed with locating piece 523, and the locating piece 523 locates the left side of material loading post 517.

The top of the limiting block 43 is provided with a second guide groove 431 running back and forth, and the left inner wall of the second guide groove 431 is provided with a third open groove 432 matched with the feeding channel at the top of the second vibration disc guide seat 41.

The top of the bottom plate 1 is also provided with a receiving box 8, and the receiving box 8 is arranged in front of the material taking assembly 6.

Working principle:

The method comprises the steps of connecting a discharge hole of a vibration disc containing a lamp upper cover assembly into a top feeding channel of a second vibration disc guide seat 41, enabling the lamp upper cover assembly to enter a second guide groove 431 through a third opening groove 432 on a limiting block 43, then driving the telescopic ends of a first movable air cylinder 46 to extend outwards to drive a first backboard 45 to move rightwards, further driving a first movable finger 49 and two first clamping blocks 410 to move rightwards through a first guide rod air cylinder 47 and an L bracket 48, simultaneously driving two clamping jaws of the first movable finger 49 to separate from each other until the two first clamping blocks 410 are located right above the second guide groove 431, driving telescopic ends of the first guide rod air cylinder 47 to extend downwards to drive the first movable finger 49 and the two first clamping blocks 410 to extend downwards through the L bracket 48 until the end parts of the two first clamping blocks 410 extend into the second guide groove 431 and are located on the front and rear sides of the lamp upper cover assembly respectively, then driving the two clamping jaws of the first movable finger 49 to extend upwards with the telescopic ends of the first clamping blocks 410 to drive the lamp upper cover assembly to extend rightwards through the L bracket 48, and driving the telescopic ends of the first clamping blocks to extend upwards to drive the lamp upper cover assembly to extend upwards according to the first clamping blocks 46; in the process, the gear motor module 3 is started to rotate the output shaft of the gear motor module, so that the tray 2 is driven to rotate clockwise until one of the positioning seats 7 rotates to the right of the upper cover feeding assembly 4, and then the telescopic end of the second guide rod cylinder 82 in the positioning assembly 8 is driven to extend outwards to drive the clamping block 83 to move towards the direction of the tray 2 until the triangular protruding block 831 on the clamping block 83 is inserted into a nearby V-shaped notch 202, so that the tray 2 can be prevented from loosening; when the lamp upper cover assembly moves to be positioned above the nearest positioning seat 7, the telescopic end of the first guide rod air cylinder 47 is driven to extend outwards so as to drive the lamp upper cover assembly to move downwards in the same way, and when the lamp upper cover assembly is positioned above the limiting hole 72 of the positioning seat 7, the two clamping jaws of the first pneumatic finger 49 are driven to be separated from each other so as to loosen the lamp upper cover assembly, and then the lamp upper cover assembly falls into the limiting hole 72; then, the telescopic end of the second guide rod cylinder 82 is driven to retract inwards to drive the triangular protrusion 831 to leave the V-shaped notch 202, then the gear motor module 3 is started to drive the tray 2 to rotate clockwise, the telescopic end of the first guide rod cylinder 47 is retracted inwards to drive the two first clamping blocks 410 to move upwards in the same way, and the telescopic end of the first moving cylinder 46 is driven to retract inwards to drive the two first clamping blocks 410 to move leftwards in the same way until the two first clamping blocks 410 move right above the second guide groove 431 again, and the next lamp upper cover assembly just moves into the second guide groove 431, so that the next lamp upper cover assembly can be grabbed in the same way.

When the first lamp upper cover assembly rotates to the left side of the feeding unit, the tray 2 is locked again by the positioning component 8, in the process, the discharge port of the vibration plate containing the lamp lower cover assembly is connected to the top feeding channel of the first vibration plate material guide seat 54, the lamp lower cover assembly is further led to enter the first opening groove 581, then the telescopic end of the material moving cylinder 56 is driven to extend outwards to drive the moving block 55 and the movable supporting block 57 to move backwards, when the second opening groove 571 on the movable supporting block 57 moves to the right of the first opening groove 581, the lamp lower cover assembly positioned in the first opening groove 581 enters the second opening groove 571, then the telescopic end of the material moving cylinder 56 is driven to retract inwards to drive the lamp lower cover assembly to move forwards in the same way until the lamp lower cover assembly is positioned on the right of the material pushing bar 511, then the telescopic end of the material pushing cylinder 510 is driven to extend outwards to drive the material pushing bar 511 to move rightwards, and the lamp lower cover assembly positioned in the second opening groove 571 passes through the position correcting block 517 and the upper pillar 522 positioned on the upper pillar 522; then, the telescopic end of the press-fit cylinder 52 is driven to extend outwards to drive the pressing block 53 to move downwards until the pressing block 53 is pressed on the top of the lamp upper cover assembly, and finally the telescopic end of the feeding cylinder 513 is driven to extend outwards to drive the feeding column 517 to move upwards by means of the lifting block 514, so that the lamp lower cover assembly passes through the nearby feeding hole 201 and enters the limiting hole 72 on the corresponding positioning seat 7 and slowly approaches the lamp upper cover assembly until the lamp lower cover assembly and the lamp upper cover assembly are mutually pressed together to form a shell; after the press fitting is completed, the telescopic end of the feeding cylinder 513 is driven to retract inwards to drive the feeding column 517 to move downwards until the upper end of the feeding column 517 leaves the feeding hole 201, and then the tray 2 is unlocked by means of the positioning assembly 8 and the tray 2 is driven to rotate continuously clockwise.

When the pressed shell rotates to the rear of the material taking assembly 6, the tray 2 is locked again by the positioning assembly 8, the telescopic ends of the second moving air cylinders 63 in the material taking assembly 6 are driven to extend outwards to drive the second back plate 62, the second guide rod air cylinders 65, the third back plate 64, the second pneumatic fingers 66 and the two second clamping blocks 67 to move rightwards, the two clamping jaws of the second pneumatic fingers 66 are driven to be separated from each other until the two second clamping blocks 67 are positioned right above the first guide grooves 71 on the rear positioning seat 7 and positioned on the left side and the right side of the shell respectively, the telescopic ends of the second guide rod air cylinders 65 are driven to extend outwards to drive the third back plate 64 to move downwards, and then drive two second clamp blocks 67 to extend into the first guide groove 71, then drive two clamping jaws of the second pneumatic finger 66 to close to each other to clamp the shell by means of the two second clamp blocks 67, then drive the telescopic end of the second guide rod cylinder 65 to shrink inwards to drive the shell to move upwards in the same way, then drive the telescopic end of the second moving cylinder 63 to shrink inwards to drive the shell to move leftwards in the same way until the shell is positioned above the top opening of the receiving box 8, finally drive the telescopic end of the second guide rod cylinder 65 to extend outwards to the bottom, and then drive the two clamping jaws of the second pneumatic finger 66 to separate from each other to loosen the shell, and then enable the shell to fall into the receiving box 8 to be collected so as to form a cycle.

After the lamp lower cover assembly enters the first opening groove 581, the telescopic end of the third guide rod cylinder 519 can be driven to extend outwards to drive the stop block 520 to move downwards, and further drive the two fork blocks 5201 to be respectively inserted into the two positioning grooves 582, so that the lamp lower cover assembly can be flattened downwards by means of the structure between the two fork blocks 5201 on the stop block 520, and the height of the lamp lower cover assembly meets the requirement.

According to the utility model, the feeding of the lamp upper cover assembly, the feeding and pressing of the lamp lower cover assembly and the automatic taking-out and automatic putting of the assembled shell into the receiving box 8 are respectively realized by means of the upper cover feeding assembly 4, the lower cover feeding and pressing assembly 5 and the material taking assembly 6, and manual operation is not needed in the whole process, so that the operation process is simplified to achieve the effects of time and labor saving, the working efficiency is improved, and the labor cost is reduced.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; while the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art will appreciate that modifications may be made to the techniques described in the foregoing embodiments, or that certain features may be substituted for those illustrated therein; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (8)

1. The press mounting equipment for the lamp shell comprises a bottom plate, a gear motor module arranged at the top of the bottom plate, and a tray transversely and concentrically fixed on an output shaft of the gear motor module, and is characterized by further comprising an upper cover feeding assembly and a lower cover feeding press mounting assembly which are arranged at the top of the bottom plate and respectively positioned at the left side and the right side of the tray, wherein the lower cover feeding press mounting assembly comprises a cushion block transversely fixed at the top of the bottom plate, a door-shaped frame fixed at the top of the cushion block, a press mounting cylinder which is fixed at the top of the door-shaped frame and can adjust the fixed height, a pressing block transversely fixed on the telescopic end of the press mounting cylinder and positioned above the right side edge of the tray, a first vibrating tray guide seat which is fixed at the top of the cushion block and positioned at the right side edge of the door-shaped frame, a material moving unit which is arranged between the first vibrating tray guide seat and the material moving unit, and a material pushing unit which is arranged on the cushion block and is mutually matched with the material feeding unit, and the telescopic end of the press mounting cylinder is vertically arranged downwards; the feeding unit comprises a bottom block fixed at the top of the cushion block, a feeding cylinder fixed at the top of the bottom block, a lifting block arranged above the feeding cylinder, a top block arranged above the lifting plate, two guide posts vertically penetrating through the lifting block and respectively positioned at the front side and the rear side of the feeding cylinder, and a feeding column vertically penetrating through the top block and arranged between the two guide posts, wherein the telescopic end of the feeding cylinder is vertically upwards arranged and fixed on the lifting block, the upper end and the lower end of each guide post are respectively fixed on the top block and the bottom block, and the lower end of the feeding column is fixed on the lifting block; the material moving unit comprises a moving block, a material moving cylinder, a movable supporting block and a fixed supporting block, wherein the moving block is movably connected to the top of a cushion block and has a front-back translation function, the material moving cylinder is fixed to the top of the cushion block and is positioned in front of the moving block, the movable supporting block is vertically fixed to the left side of the moving block, the fixed supporting block is used for fixing the top of the cushion block and is positioned between the moving block and the movable supporting block, the telescopic end of the material moving cylinder is transversely and backwards arranged and fixed on the moving block, a first open slot matched with a feeding channel at the top of a first vibration disc material guiding seat is formed in the top of the fixed supporting block, and a second open slot matched with the first open slot is formed in the top of the movable supporting block; the pushing unit comprises a first vertical frame fixed at the top of the cushion block, a pushing cylinder fixed on the first vertical frame, and a pushing strip transversely fixed on the telescopic end of the pushing cylinder and matched with the second open slot, wherein the telescopic end of the pushing cylinder is transversely arranged leftwards; the top of tray still is fixed with a plurality of locating seats that evenly set up along circumferencial direction equiangular degree, correspondingly, set up the loading hole of same quantity in the tray, every the below of a locating seat that corresponds is all located to the loading hole, first guide way has been seted up at the top of locating seat, set up the spacing hole mutually supporting with the loading hole on the bottom surface of first guide way.

2. The press-fitting equipment of a lamp housing according to claim 1, wherein the upper cover feeding component comprises a second vibration disc material guiding table fixed at the top of the bottom plate, a vertical plate vertically fixed at the top of the bottom plate, a limiting block fixed at the upper end of the supporting block and positioned between the top of the second vibration disc material guiding seat and the tray, a second vertical frame fixed at the top of the bottom plate and positioned behind the second vibration disc material guiding seat, a first back plate vertically and movably connected at the front side of the second vertical frame so as to have a left-right translation function, a first movable cylinder fixed on the first vertical frame and positioned at the right side of the first back plate, an L-shaped support movably connected at the front side of the first back plate so as to have an up-down vertical movement function, a first pneumatic finger fixed on the L-shaped support, and two first clamping blocks respectively fixed on the two clamping jaws of the first pneumatic finger, the telescopic ends of the first movable cylinder are transversely arranged right and detachably fixed on the first back plate, and the first pneumatic finger cylinders are respectively arranged at the front ends of the first back plate and can be vertically arranged at the front ends of the first clamping jaw.

3. The press-fitting equipment of a lamp housing according to claim 2, further comprising a positioning assembly, wherein the positioning assembly comprises a third vertical frame fixed at the top of the bottom plate, a second guide rod cylinder fixed on the third vertical frame, and a clamping block fixed on the telescopic end of the second guide rod cylinder, the telescopic end of the second guide rod cylinder is transversely arranged towards the center of the tray, triangular protruding blocks are outwards formed on the outer side of the clamping block, correspondingly, a plurality of V-shaped notches uniformly distributed along the circumferential direction and with equal angles are formed on the outer circumferential surface of the tray, and the triangular protruding blocks are mutually matched with each V-shaped notch.

4. The press-fitting equipment of a lamp housing according to claim 3, further comprising a material taking assembly, wherein the material taking assembly comprises a fourth vertical frame fixed at the top of the bottom plate, a beam plate vertically fixed on the fourth vertical frame, a second back plate vertically and movably connected to the front side of the beam plate so as to have a left-right translation function, a second movable cylinder fixed on the fourth vertical frame and positioned on the left side of the second back plate, a third back plate vertically and movably connected to the front side of the second back plate so as to have an up-down vertical movement function, a second guide rod cylinder fixed on the front side of the second back plate and positioned above the third back plate, second pneumatic fingers fixed on the third back plate, and two second clamping blocks respectively fixed on two clamping jaws of the second pneumatic fingers, the telescopic ends of the second movable cylinder are transversely arranged right and detachably fixed on the second back plate, the telescopic ends of the second guide rod cylinder are vertically arranged downwards and detachably fixed on the third back plate, and the two clamping jaws of the second pneumatic fingers are vertically arranged right and left and respectively distributed downwards.

5. The press-fitting equipment for the lamp housing according to claim 4, wherein a third guide rod cylinder is further fixed at the top of the door-shaped frame, the telescopic end of the third guide rod cylinder is vertically and downwardly arranged, a stop block is further fixed on the telescopic end of the third guide rod cylinder, the stop block is arranged above the fixed supporting block, two fork blocks which are arranged front and back are downwards formed at the end part of the stop block, correspondingly, two positioning grooves are further formed at the top of the fixed supporting block, and the two positioning grooves are symmetrically arranged on the front side and the rear side of the first opening groove respectively and are mutually matched with the two fork blocks respectively.

6. The press-fit equipment for the lamp housing according to claim 5, wherein a first deviation rectifying seat is further fixed at the top of the movable supporting block, the first deviation rectifying seat is arranged above the second open slot, a second deviation rectifying seat which is mutually matched with the first deviation rectifying seat and is positioned on the right of the feeding column is further fixed at the top of the top block, and a positioning block is further fixed at the top of the top block and is arranged on the left of the feeding column.

7. The press-fitting device of a lamp housing according to claim 6, wherein a second guiding groove running back and forth is formed in the top of the limiting block, and a third open groove matched with the feeding channel at the top of the second vibration disc material guiding seat is formed in the left inner wall of the second guiding groove.

8. The press-fit device of claim 7, wherein the top of the base plate is further provided with a receiving box, and the receiving box is arranged in front of the material taking assembly.