CN214558939U - Linear automatic assembly equipment for horseshoe-shaped buzzer - Google Patents

Abstract

The utility model relates to a hoof-shaped buzzer linear automatic assembly device, which relates to the technical field of buzzer assembly devices and comprises a box body support, an electrical control system, a touch display screen connected with the electrical control system and a plurality of support mounting platforms which are arranged on the upper side of the box body support and locked by bolts, wherein the upper side of the box body support is provided with a linear workbench which is arranged on the box body support by the support mounting platforms, a shell horizontal cover pushing mechanism is arranged to linearly displace and push a buzzer shell which is arranged on a linear placing chute, the stations of each buzzer processing mechanism are all arranged on the linear placing chute of the linear workbench, and the buzzer shell which is conveyed by the shell horizontal cover pushing mechanism is sequentially processed and assembled in a linear flow manner by each processing mechanism from left to right under the automatic control of the electrical control system, the labor input cost is greatly reduced, the working efficiency is improved, and the occupied area is small.

Description

Linear automatic assembly equipment for horseshoe-shaped buzzer

Technical Field

The utility model relates to a shape of a hoof bee calling organ orthoscopic automatic assembly equipment relates to bee calling organ rigging equipment technical field.

Background

The hoof-shaped buzzer electronic beeper has the characteristics of small volume, high sensitivity, power consumption saving, good reliability, low cost and good frequency characteristic, so the hoof-shaped buzzer electronic beeper is widely applied to the alarming of various electrical products, the hoof-shaped buzzer is assembled by corresponding mechanism equipment such as conveying, gluing, assembling of a buzzer piece, inserting pins, soldering and the like in the production and assembly, the existing common hoof-shaped buzzer is assembled by putting buzzer parts into a processing equipment station groove of each procedure one by one manually, and the prior common hoof-shaped buzzer is processed and assembled one by one, so the time and labor are wasted, the labor cost is high, the working efficiency is low, and the hoof-shaped buzzer linear automatic assembling equipment is necessary to be provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a hoof shape bee calling organ orthoscopic automatic assembly equipment to solve the problem of mentioning in the above-mentioned background art.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the device comprises a box body support, an electrical control system, a touch display screen connected with the electrical control system, and a plurality of support mounting platforms which are mounted on the upper side of the box body support and locked by bolts, wherein a linear workbench is arranged on the upper side of the box body support, the linear workbench is mounted on the box body support through the support mounting platforms, a plurality of movable buzzer shells are arranged on the upper side of the linear workbench, a linear placing chute for placing the buzzer shells is arranged on the upper side of the linear workbench, a shell horizontal cover pushing mechanism which can push the buzzer shells to advance linearly is horizontally arranged on the front side of the linear workbench, and the bottom of the shell horizontal cover pushing mechanism is connected to the box body support through the support mounting platforms;

the horizontal cover pushing mechanism comprises a longitudinal displacement plate, a longitudinal sliding groove slide block, a longitudinal telescopic cylinder, a transverse displacement plate and a transverse sliding groove slide block, the bottom of the longitudinal displacement plate is connected with a plurality of support mounting platforms in a sliding way through a plurality of longitudinal sliding groove sliding blocks, the telescopic end of the longitudinal telescopic cylinder is connected with one side of the longitudinal displacement plate, the longitudinal telescopic cylinder is arranged on one of the support mounting platforms, the upper side of the longitudinal displacement plate is movably connected with a transverse displacement plate, the transverse sliding chute slide block is connected between the upper side of the longitudinal displacement plate and the lower side of the transverse displacement plate to realize transverse sliding connection, the upper side of the transverse displacement plate is fixedly provided with a plurality of pulling and inserting push pieces corresponding to the upper buzzer shell through screws, and the front end of each pulling and inserting push piece is provided with a U-shaped limiting groove used for clamping each buzzer shell.

Further, box support upside is installed vibration dish casing feeding mechanism in proper order from left to right, is beaten gluey mechanism, buzzer piece feeding mechanism, the first assembly mechanism of participating in, second participate in assembly mechanism, stitch flattening mechanism, soldering tin mechanism and rubberizing mechanism, each beat gluey mechanism, buzzer piece feeding mechanism, the first processing station of participating in assembly mechanism, second participate in assembly mechanism, stitch flattening mechanism, soldering tin mechanism and rubberizing mechanism and all be located the straight line and place the spout, and respectively the spaced corresponding to on the buzzer casing position, linear workbench one side is located to vibration dish casing feeding mechanism, and above-mentioned each mechanism is current production and processing equipment to the buzzer piece, and is connected with the electrical control system electricity.

Furthermore, a plurality of photoelectric sensors are arranged on the linear workbench, and each photoelectric sensor is respectively arranged above the buzzer shell on the next station corresponding to the station of the feeding mechanism, the gluing mechanism, the buzzer piece feeding mechanism and the second pin assembling mechanism and used for detecting the corresponding process machining state.

Further, vibration dish casing feeding mechanism is used for loading a plurality of bee calling organ casing, vibration dish casing feeding mechanism is including the pay-off mouth, and its pay-off mouth is placed spout one end with the straight line and is connected and be used for carrying the bee calling organ casing to the straight line and place the spout on.

Further, the other end of the straight line placing chute is respectively provided with a finished product discharge channel and a defective product discharge channel in an inclined downward manner.

Further, a discharging telescopic push rod for pushing the buzzer shell into a finished product discharging channel is installed on one side of the linear workbench, the discharging telescopic push rod is electrically connected with an electrical control system, the discharging telescopic push rod is installed on the linear workbench, the top end of the defective product discharging channel is arranged at the tail end of the linear workbench, the finished product discharging channel and the defective product discharging channel are distributed in a staggered mode, and the finished product discharging channel and the discharging telescopic push rod are correspondingly distributed on two sides of the linear workbench.

Further, a finished product conveying belt is further installed on the upper side of the box body support, the other end of the finished product discharging channel is arranged above one side of the finished product conveying belt, and a plurality of drying machines electrically connected with the electrical control system are installed on the other side of the finished product conveying belt.

Compared with the prior art, the utility model: the buzzer shell placed on the linear placing chute can be linearly displaced and pushed mainly through the arranged shell horizontal pushing mechanism, stations of all buzzer processing mechanisms are all arranged on the linear placing chute of the linear workbench, and the buzzer shell conveyed by the shell horizontal pushing mechanism is sequentially subjected to linear flow processing and assembly under the automatic control of an electric control system by the left processing mechanism and the right processing mechanism, so that the combination of processing procedures can be realized, and a photoelectric sensor is arranged for detecting the buzzer shell;

in addition, the discharging channel of substandard product discharging channel and the ejection of compact of finished product discharging channel can be followed to bee calling organ casing, and finished product conveyer belt one side of its finished product discharging channel one end is equipped with the drying-machine, is favorable to the stoving to bee calling organ casing after the rubberizing, therefore whole equipment automatic conveying assembly reduces artifical input cost greatly, improves work efficiency, and area is little, more has positive profitable result of use than prior art.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of a partial structure of the present invention;

FIG. 3 is a schematic view of the connection structure of the linear worktable of the present invention;

FIG. 4 is a schematic structural view of the plug-pull blade of the present invention;

in the figure: the device comprises a box body support 1, a touch display screen 2, a buzzer shell 21, a finished product discharge channel 22, a defective product discharge channel 23, a linear workbench 3, a linear placing chute 31, a supporting installation platform 32, a shell horizontal cover pushing mechanism 4, a longitudinal displacement plate 41, a longitudinal chute sliding block 42, a longitudinal telescopic cylinder 43, a transverse telescopic cylinder 44, a transverse displacement plate 45, a pulling and inserting push sheet 46, a U-shaped limiting groove 461, a transverse chute sliding block 47, a vibrating disc shell feeding mechanism 5, a gluing mechanism 6, a buzzer feeding mechanism 7, a first pin assembling mechanism 8, a second pin assembling mechanism 9, a pin flattening mechanism 10, a soldering tin mechanism 11, a gluing mechanism 12, a discharging telescopic push rod 13, a photoelectric sensor 14, a finished product conveying belt 15 and a dryer 151.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-4, the present invention provides a technical solution of a linear automatic assembling apparatus for a horseshoe-shaped buzzer: including box body support 1, electrical control system, with electrical control system connection's touch display screen 2 and install in 1 upside of box body support through the inherent a plurality of support mount table 32 of bolt lock, 1 upside of box body support is equipped with sharp workstation 3, sharp workstation 3 is installed on box body support 1 through support mount table 32, 3 upsides of sharp workstation are equipped with the mobilizable bee calling organ casing 21 of a plurality of, 3 upsides of sharp workstation are provided with the straight line that is used for placing bee calling organ casing 21 and place spout 31, 3 front sides levels of sharp workstation are provided with and probably push away lid mechanism 4 enough to promote the casing level that bee calling organ casing 21 straight line progresses forward, casing level pushes away lid mechanism 4 bottom and connects on box body support 1 through support mount table 32, level pushes away lid mechanism 4 and includes longitudinal displacement board 41, longitudinal sliding block 42, The buzzer comprises a longitudinal telescopic cylinder 43, a transverse telescopic cylinder 44, a transverse displacement plate 45 and a transverse sliding chute slide block 47, wherein the bottom of the longitudinal displacement plate 41 is connected with a plurality of support mounting platforms 32 in a sliding manner through a plurality of longitudinal sliding chute slide blocks 42, the telescopic end of the longitudinal telescopic cylinder 43 is connected with one side of the longitudinal displacement plate 41, the longitudinal telescopic cylinder 43 is mounted on one support mounting platform 32, the transverse displacement plate 45 is movably connected to the upper side of the longitudinal displacement plate 41, the transverse sliding chute slide block 47 is connected between the upper side of the longitudinal displacement plate 41 and the lower side of the transverse displacement plate 45 to realize transverse sliding connection, a plurality of plugging push pieces 46 corresponding to the upper buzzer shell 21 are fixedly locked on the upper side of the transverse displacement plate 45 through screws, the front ends of the plugging push pieces 46 are respectively provided with a U-shaped limit groove 461 for clamping each buzzer shell 21, the upper side of the box body support 1 is sequentially provided with a vibration disc shell feeding mechanism 5, a gluing mechanism 6, a buzzer feeding mechanism 7, a first pin assembling mechanism 8, a second pin assembling mechanism 9, a pin flattening mechanism 10, a soldering mechanism 11 and a gluing mechanism 12 from left to right, the gluing mechanism 6, the buzzer feeding mechanism 7, the first pin assembling mechanism 8, the second pin assembling mechanism 9, the pin flattening mechanism 10, the soldering mechanism 11 and the gluing mechanism 12 are all positioned on a straight line placing chute 31 and respectively correspond to the buzzer shell 21 at intervals, the vibration disc shell feeding mechanism 5 is arranged on one side of a straight line workbench 3, each mechanism is the existing production and processing equipment for the buzzer and is electrically connected with an electrical control system, a plurality of photoelectric sensors 14 are arranged on the straight line workbench 3, each photoelectric sensor 14 is respectively arranged above a buzzer shell 21 on the next station corresponding to the stations of the feeding mechanism 5, the gluing mechanism 6, the buzzer piece feeding mechanism 7 and the second pin assembling mechanism 9 and used for detecting the corresponding working procedure processing state, the vibration disc shell feeding mechanism 5 is used for loading a plurality of buzzer shells 21, the vibration disc shell feeding mechanism 5 comprises a feeding port which is connected with one end of a linear placing chute 31 and used for conveying the buzzer shells 21 to the linear placing chute 31, the other end of the linear placing chute 31 is respectively provided with a finished product discharging channel 22 and a defective product discharging channel 23 in an inclined and downward manner, one side of the linear working table 3 is provided with a discharging telescopic push rod 13 for pushing the buzzer shells 21 into the finished product discharging channel 22, and the discharging telescopic push rod 13 is electrically connected with an electrical control system, the discharging telescopic push rod 13 is installed on the linear workbench 3, the top end of the defective product discharging channel 23 is arranged at the tail end of the linear workbench 3, the finished product discharging channels 22 and the defective product discharging channels 23 are distributed in a staggered mode, the finished product discharging channels 22 and the discharging telescopic push rod 13 are distributed on two sides of the linear workbench 3 correspondingly, a finished product conveying belt 15 is further installed on the upper side of the box body support 1, the other end of the finished product discharging channel 22 is arranged above one side of the finished product conveying belt 15, and a plurality of drying machines 151 electrically connected with an electrical control system are installed on the other side of the finished product conveying belt 15.

The working principle is as follows: the utility model mainly uses the shell horizontal pushing cover mechanism 4 to carry out linear displacement and pushing on the buzzer shell 21 placed on the linear placing chute 31, the feeding port of the vibrating disk shell feeding mechanism 5 is connected with one end of the linear placing chute 31 and is used for conveying the buzzer shell 21 to the linear placing chute 31, the buzzer shell 21 is arranged at the front side and the rear side of the linear placing chute 31 to be limited, because the longitudinal displacement plate 41 of the shell horizontal pushing cover mechanism 4 is connected with the supporting installation platform 32 by the longitudinal chute slider 42 in a sliding way, the longitudinal displacement plate 41 can longitudinally displace under the action of the longitudinal telescopic cylinder 43, therefore, the transverse displacement plate 45 and the pulling and inserting push piece 46 connected at the upper side of the longitudinal displacement plate 41 can longitudinally move forward, so that the U-shaped limiting groove 461 of the pulling and inserting push piece 46 is clamped with the outer side of the buzzer shell 21, and the transverse displacement plate 45 is connected with the longitudinal displacement plate 41 by the transverse chute slider 47 in a sliding way, therefore, the transverse displacement plate 45 can also horizontally and transversely displace rightwards under the action of the transverse telescopic cylinder 44, the pulling and inserting push sheet 46 clamped outside the buzzer shell 21 transversely displaces rightwards, so that after the buzzer shell 21 is pushed rightwards to a station by the straight-line placing chute 31, the longitudinal telescopic cylinder 43 and the transverse telescopic cylinder 44 sequentially retract again, the longitudinal displacement plate 41 and the transverse displacement plate 45 return, and the buzzer shell 21 on the station of the transverse chute slide block 47 sequentially and sequentially can be pushed forwards by one step repeatedly, and the gluing mechanism 6, the buzzer sheet feeding mechanism 7, the first pin assembling mechanism 8, the second pin assembling mechanism 9, the pin flattening mechanism 10, the soldering tin mechanism 11 and the gluing mechanism 12 are arranged from left to right to sequentially finish gluing, feeding the buzzer shell 21, inserting the pins and inserting the pins under the automatic control of an electric control system, The operation of tin soldering and gluing realizes the automatic processing and assembly of linear flow;

and the next station corresponding to the stations of the vibrating disc shell feeding mechanism 5, the gluing mechanism 6, the buzzer feeding mechanism 7, the second pin assembling mechanism 9 and the gluing mechanism 12 arranged from left to right is provided with a photoelectric sensor 14 for detecting whether shell feeding is finished, whether gluing is finished, whether a buzzer is finished, whether pin inserting is finished and whether the gluing mechanism 12 is finished, so that the processing condition can be effectively detected in real time, a finished product is completely finished, one defective product is not a defective product, and the finished product is respectively discharged from the defective product discharging channel 23 and the finished product discharging channel 22, the finished product is pushed to the finished product discharging channel 22 through the telescopic end of the material telescopic push rod 13 on the opposite side of the finished product discharging channel 22, falls into one side of the conveying belt 15 through the finished product discharging channel 22, the other side of the conveying belt 15 is provided with a dryer 151 for drying the undried glue of the buzzer shell 21, therefore, the automatic conveying detection assembly is realized, the labor input cost is reduced, the working efficiency is greatly improved, the occupied area is small, and the requirement of an enterprise on a production workshop is reduced.

The vibration dish casing feeding mechanism 5, the mechanism of gluing 6, the buzzer piece feeding mechanism 7, the first mechanism of participating in assembly 8, the second mechanism of participating in assembly 9, the stitch mechanism of flattening 10, soldering tin mechanism 11 and rubberizing mechanism 12 that the specification mentions are the mechanism of prior art to buzzer processing assembly, and its station homogeneous phase is located on the straight line is placed spout 31 correspondingly.

It should be noted that, mainly the above structure is improved, and other functions, components and structures not mentioned above may be implemented by using components and structures capable of implementing corresponding functions in the prior art, if necessary.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a hoof shape bee calling organ orthoscopic automatic assembly equipment, includes box support, electrical control system, the touch display screen who is connected with electrical control system and installs in the box support upside and pass through the support mount table of the inherent a plurality of bolt lock, its characterized in that: the upper side of the box body support is provided with a linear workbench, the linear workbench is installed on the box body support through a supporting installation platform, the upper side of the linear workbench is provided with a plurality of movable buzzer shells, a linear placing chute for placing the buzzer shells is arranged on the upper side of the linear workbench, a shell horizontal cover pushing mechanism capable of pushing the buzzer shells to advance linearly is horizontally arranged on the front side of the linear workbench, and the bottom of the shell horizontal cover pushing mechanism is connected to the box body support through the supporting installation platform;

the horizontal cover pushing mechanism comprises a longitudinal displacement plate, a longitudinal sliding groove slide block, a longitudinal telescopic cylinder, a transverse displacement plate and a transverse sliding groove slide block, the bottom of the longitudinal displacement plate is connected with a plurality of support mounting platforms in a sliding way through a plurality of longitudinal sliding groove sliding blocks, the telescopic end of the longitudinal telescopic cylinder is connected with one side of the longitudinal displacement plate, the longitudinal telescopic cylinder is arranged on one of the support mounting platforms, the upper side of the longitudinal displacement plate is movably connected with a transverse displacement plate, the transverse sliding chute slide block is connected between the upper side of the longitudinal displacement plate and the lower side of the transverse displacement plate to realize transverse sliding connection, the upper side of the transverse displacement plate is fixedly provided with a plurality of pulling and inserting push pieces corresponding to the upper buzzer shell through screws, and the front end of each pulling and inserting push piece is provided with a U-shaped limiting groove used for clamping each buzzer shell.

2. The linear automatic assembly device of a horseshoe buzzer according to claim 1, characterized in that: the box support upside is installed vibration dish casing feeding mechanism in proper order from left to right, is beaten gluey mechanism, buzzer piece feeding mechanism, the first assembly devices of participating in, second participate in assembly devices, stitch flattening mechanism, soldering tin mechanism and rubberizing mechanism, each beat gluey mechanism, buzzer piece feeding mechanism, the first processing station of participating in assembly devices, second participate in assembly devices, stitch flattening mechanism, soldering tin mechanism and rubberizing mechanism and all be located the straight line and place the spout on, and respectively the spaced correspond to on the buzzer casing position, vibration dish casing feeding mechanism locates sharp workstation one side, and above-mentioned each mechanism all is connected with the electric control system electricity.

3. The linear automatic assembly device of a horseshoe buzzer according to claim 2, characterized in that: the linear workbench is provided with a plurality of photoelectric sensors, and each photoelectric sensor is arranged above the buzzer shell on the next station corresponding to the station of the feeding mechanism, the gluing mechanism, the buzzer piece feeding mechanism and the second pin assembling mechanism respectively and used for detecting the corresponding process machining state.

4. The linear automatic assembly device of a horseshoe buzzer according to claim 3, characterized in that: the vibration disc shell feeding mechanism is used for loading a plurality of buzzer shells and comprises a feeding port, and one end of the feeding port and one end of the linear placing chute are connected and used for conveying the buzzer shells to the linear placing chute.

5. The linear automatic assembly device of a horseshoe buzzer according to claim 1, characterized in that: and the other end of the linear placing chute is respectively provided with a finished product discharge channel and a defective product discharge channel in an inclined downward manner.

6. The linear automatic assembly device of a horseshoe buzzer according to claim 5, characterized in that: the automatic feeding device is characterized in that a discharging telescopic push rod for pushing the buzzer shell into a finished product discharging channel is installed on one side of the linear workbench, the discharging telescopic push rod is electrically connected with an electrical control system, the discharging telescopic push rod is installed on the linear workbench, the top end of the defective product discharging channel is arranged at the tail end of the linear workbench, the finished product discharging channel and the defective product discharging channel are distributed in a staggered mode relatively, and the finished product discharging channel and the discharging telescopic push rod are distributed on two sides of the linear workbench correspondingly.

7. The linear automatic assembly device of a horseshoe buzzer according to claim 6, characterized in that: the drying machine is characterized in that a finished product conveying belt is further mounted on the upper side of the box body support, the other end of the finished product discharging channel is arranged above one side of the finished product conveying belt, and a plurality of drying machines electrically connected with an electrical control system are mounted on the other side of the finished product conveying belt.

Images