CN216126793U

CN216126793U - Capping machine

Info

Publication number: CN216126793U
Application number: CN202121902592.8U
Authority: CN
Inventors: 黎志林; 颜天宝
Original assignee: Chuandong Magnetic Electronic Co Ltd
Current assignee: Chuandong Magnetic Electronic Co Ltd
Priority date: 2021-08-15
Filing date: 2021-08-15
Publication date: 2022-03-25
Anticipated expiration: 2031-08-15

Abstract

The utility model discloses a capping machine which comprises a rack, a die carrying mechanism, a pressing plate mechanism and an adsorption mechanism, wherein the rack comprises a bottom plate and pulleys, the die carrying mechanism comprises a divider, a turntable, a die carrying workpiece and a motor, the pressing plate mechanism is arranged at the rear end of the die carrying mechanism, and the adsorption mechanism is arranged at the right end of the die carrying mechanism. The material arranging plate is driven to rotate clockwise by the rotating motor and is positioned on the same vertical line with the center of a circle of the pressing die head and the center of a circle of the die ejector block through the rotating cylinder, so that the capping machine with a compact structure, accurate pressing, accurate adsorption and movement and high automation degree is provided for users.

Description

Capping machine

Technical Field

The utility model relates to the field of production equipment of electric cooker sensors, in particular to a capping machine.

Background

Electric cookers are also known as electric cookers and electric rice cookers. The electric energy is converted into internal energy, the cooker is convenient to use, clean and sanitary, and has various operation functions of steaming, boiling, stewing and the like. Common electric rice cookers are classified into automatic heat-preservation type, timing heat-preservation type and novel microcomputer control type. The control switch of the electric cooker generally has a lever type, a press type, etc., wherein, the electric cooker which adopts the lever type key to heat and control and select is easy to be damaged rapidly and reduce the sensitivity due to repeated mechanical rotation, and therefore, the use of the electric cooker is influenced. A magnetic proximity switch is one type of proximity switch, one of many types in the sensor family, which is a position sensor made by advanced processes using the electromagnetic working principle. It can convert non-electric quantity or electromagnetic quantity into desired electric signal by means of the change of position relation between sensor and object so as to attain the goal of control or measurement. The top of the existing magnetic proximity switch is provided with a metal heat conduction cover for temperature sensing heat conduction and protecting internal elements, so that in order to better produce a magnetic sensor for an electric cooker, equipment capable of quickly and accurately pressing the heat conduction cover is needed to be provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a capping machine which is compact in structure, accurate in pressing, accurate in adsorption and movement and high in automation degree.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a capping machine comprising:

the belt conveyor comprises a rack, a belt conveying device and a conveying device, wherein the rack comprises a bottom plate and pulleys, the bottom plate is arranged at the top of the rack and comprises belt through holes formed in the surface end, and the pulleys are respectively arranged at the bottom of the rack;

the die carrying mechanism comprises a divider, a rotary table, die carrying workpieces and a motor, wherein the motor is arranged at the bottom of the bottom plate, the rotary table and the divider are arranged at the top of the bottom plate from top to bottom, and the die carrying workpieces are respectively arranged outside the rotary table in a surrounding manner;

the pressing plate mechanism is arranged at the rear end of the die carrying mechanism and comprises a pressing plate fixing frame, a PLC (programmable logic controller) all-in-one machine, a pressing plate cylinder, a lower pressing plate, a pressing plate guide pillar and a die ejector block, the PLC all-in-one machine is arranged at the top of the pressing plate fixing frame, the pressing plate cylinder is arranged at the left end of the PLC all-in-one machine, the lower pressing plate is arranged in the pressing plate fixing frame through the pressing plate guide pillar, and the die ejector block is arranged at the bottom of the pressing plate fixing frame;

the adsorption mechanism is arranged at the right end of the mold loading mechanism and comprises a lifting cylinder, a rotary cylinder swing arm, a rotary motor and a material arranging plate, the rotary cylinder swing arm, the rotary cylinder and the lifting cylinder are arranged at the left end of the rotary motor from top to bottom, and the material arranging plate is arranged at the right end of the rotary motor.

Further, the decollator is including locating the right-hand member from the driving wheel, the motor includes action wheel and motor fixed plate, the motor passes through motor fixed plate fixed connection in the bottom plate bottom, the motor right-hand member is located to the action wheel, and is connected from the driving wheel through conveyer, the decollator is driven by the motor through following driving wheel and action wheel, the carousel is rotated by the decollator drive.

Further, the mould-loading workpiece comprises a mould-loading fixing plate, a slide block, a mould-loading plate and a mould, the mould-loading fixing plate comprises a slide block limiting connecting groove arranged at the surface end, the slide block is arranged in the slide block limiting connecting groove and comprises a mould carrying connecting block which is respectively arranged at the outer side, the mould carrying plates are respectively arranged at the outer side of the slide block and comprise a reinforcing inclined rib and a mould carrying connecting block groove which are arranged from the outside to the inside, the slide block limiting connecting groove is respectively matched with the slide block, the height of the slide block limiting connecting groove is greater than that of the slide block, the mold loading connecting block grooves are respectively matched with the mold loading connecting block, the height of the mould-loading connecting block groove is greater than that of the mould-loading connecting block, the cross section of the reinforced diagonal rib is triangular, the mould carries locates respectively and carries the template top, carries the die orifice including the bearing of opening respectively in the top, the die orifice is carried in the bearing from the top down to the leanin and the cross-section presents isosceles trapezoid.

Further, the clamp plate mount is including locating the left PNP proximity switch in front end, PNP proximity switch is used for detecting the mould that carries the mould top, the holding down plate is including the die head of pressing that locates bottom central authorities department, the clamp plate guide pillar is located the left and right both ends of holding down plate respectively, the clamp plate guide pillar is controlled both ends clamp plate guide pillar and is led down by clamp plate cylinder vertical direction upper and lower drive, press the centre of a circle of die head and the centre of a circle of mould kicking block on same vertical line, PLC all-in-one input is connected with PNP proximity switch, PLC all-in-one output is connected with clamp plate cylinder, motor, rotating electrical machines, revolving cylinder and lift cylinder respectively.

Further, the lift cylinder includes lift cylinder mounting panel, the lift cylinder passes through lift cylinder mounting panel and is connected with the bottom plate, revolving cylinder reciprocates by lift cylinder drive perpendicular to the vertical direction, revolving cylinder sways the arm and just anti-180 rotations by revolving cylinder drive, revolving cylinder sways the arm and includes the adsorption head of locating both ends end bottom respectively, the reason charging tray is rotated by the clockwise drive of rotating electrical machines, and places the hole including opening respectively in inside mould.

The utility model has the beneficial effects that:

the material arranging plate is driven to rotate clockwise by the rotating motor and is positioned on the same vertical line with the center of a circle of the pressing die head and the center of a circle of the die ejector block through the rotating cylinder, so that the capping machine with a compact structure, accurate pressing, accurate adsorption and movement and high automation degree is provided for users.

Drawings

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

FIG. 2 is a second schematic structural diagram of the present invention;

FIG. 3 is a third schematic structural diagram of the present invention;

FIG. 4 is a schematic structural view of a mold loading mechanism and a platen mechanism according to the present invention;

FIG. 5 is a schematic view of a mold loading workpiece according to the present invention;

FIG. 6 is a second schematic view of the mold loading workpiece according to the present invention.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

According to the description of fig. 1-6:

a capping machine comprising:

the belt conveyor comprises a rack 1 and a conveying mechanism, wherein the rack 1 comprises a bottom plate 11 and pulleys 12, the bottom plate 11 is arranged at the top of the rack 1 and comprises belt through holes 111 formed in the surface end, and the pulleys 12 are respectively arranged at the bottom of the rack 1;

the die carrying mechanism 2 comprises a divider 21, a rotary table 22, a die carrying workpiece 23 and a motor 24, wherein the motor 24 is arranged at the bottom of the bottom plate 11, the rotary table 22 and the divider 21 are arranged at the top of the bottom plate 11 from top to bottom, and the die carrying workpiece 23 is respectively arranged outside the rotary table 22 in a surrounding manner;

the pressing plate mechanism 3 is arranged at the rear end of the die carrying mechanism 2 and comprises a pressing plate fixing frame 31, a PLC (programmable logic controller) integrated machine 32, a pressing plate cylinder 33, a lower pressing plate 34, a pressing plate guide post 35 and a die ejector block 36, wherein the PLC integrated machine 32 is arranged at the top of the pressing plate fixing frame 31, the pressing plate cylinder 33 is arranged at the left end of the PLC integrated machine 32, the lower pressing plate 34 is arranged in the pressing plate fixing frame 31 through the pressing plate guide post 35, and the die ejector block 36 is arranged at the bottom of the pressing plate fixing frame 31;

adsorption equipment 4 locates the 2 right-hand members of mould loading mechanism, including lift cylinder 41, revolving cylinder 42, revolving cylinder swing arm 43, rotating electrical machines 44 and reason charging tray 45, revolving cylinder swing arm 43, revolving cylinder 42 and lift cylinder 41 from the top down are equipped with the rotating electrical machines 44 left end, the reason charging tray 45 is located the rotating electrical machines 44 right-hand member.

Because the divider 21 comprises the driven wheel 211 arranged at the right end, the motor 24 comprises the driving wheel 241 and the motor fixing plate 242, the motor 24 is fixedly connected to the bottom of the bottom plate 11 through the motor fixing plate 242, the driving wheel 241 is arranged at the right end of the motor 24 and is connected with the driven wheel 211 through the conveying belt, the divider 21 is driven by the motor 24 through the driven wheel 211 and the driving wheel 241, and the turntable 22 is driven to rotate by the divider 21, when a user uses the utility model, the divider 21 is driven to rotate through the driving of the motor 24 under the driving of the conveying belt, so that the turntable 22 also rotates, and the die-carrying workpiece 23 also rotates through the rotation of the turntable 22, so as to drive the die arranged at the top of the die-carrying workpiece 23 to rotate.

Because the mold-loading workpiece 23 includes the mold-loading fixing plate 231, the slider 232, the mold-loading plate 233 and the mold 234, the mold-loading fixing plate 231 includes the slider-limiting connecting groove 2311 opened at the face end, the slider 232 is disposed in the slider-limiting connecting groove 2311 and includes the mold-loading connecting blocks 2321 respectively disposed at the outer sides, the mold-loading plate 233 is respectively disposed at the outer side of the slider 232 and includes the reinforcing diagonal rib 2331 and the mold-loading connecting block groove 2332 disposed from the outside to the inside, the slider-limiting connecting grooves 2311 are respectively matched with the slider 232, the height of the slider-limiting connecting grooves 2311 is greater than that of the slider 232, the mold-loading connecting block grooves 2331 are respectively matched with the mold-loading connecting blocks 2321, the height of the mold-loading connecting block grooves 2331 is greater than that of the mold-loading connecting blocks 2321, the cross section of the reinforcing diagonal rib 2331 is triangular, the mold 234 is respectively disposed at the top of the mold-loading plate 233 and includes the mold-loading port 2341 opened at the top, the supporting die-carrying port 2341 is inclined inwards from top to bottom, the cross section of the supporting die-carrying port is isosceles trapezoid, when a user uses the supporting die-carrying port, the stability of the die-carrying plate 233 can be enhanced by using the reinforcing inclined ribs 2331, the sliding block 232 can move up and down in the sliding block limiting connecting groove 2311 through the height difference setting, after the required setting position is determined, the height setting of the sliding block 232 can be adjusted through the locking bolts, then the required position is determined through the up and down movement of the die-carrying plate 233 by taking the die-carrying connecting block 2321 as a guide block, the setting of the whole height of the die-carrying plate 233 is determined through the locking bolts, so that the setting of the height position of the die-carrying 234 arranged at the top of the die-carrying port can meet the requirement of the die with different height sizes and types for the gland processing of the utility model, and when the sliding block 232 moves up and down in the sliding block limiting connecting groove 2311, the limiting of the connecting groove can be obtained, and the phenomena of position shaking and deviation can not occur, therefore, the accuracy of position installation is determined, and when the carrier template 233 moves up and down by taking the carrier module 2321 as a guide bar, the guide of the carrier module 2321 can be obtained, so that the phenomena of position jitter and deviation are avoided, and the accuracy of position installation is determined.

Because the pressing plate fixing frame 31 comprises the PNP proximity switch 311 arranged on the left side of the front end, the PNP proximity switch 311 is used for detecting a mold on the top of the loading mold 234, the lower pressing plate 34 comprises the pressing die head 341 arranged at the center of the bottom, the pressing plate guide pillars 35 are respectively arranged at the left and right ends of the lower pressing plate 34, the pressing plate guide pillars 35 are guided by the pressing plate cylinder 33 at the left and right ends and driven up and down in the vertical direction, the circle center of the pressing die head 341 and the circle center of the mold top block 36 are on the same vertical line, the input end of the PLC integrated machine 32 is connected with the PNP proximity switch 311, the output end of the PLC integrated machine 32 is respectively connected with the pressing plate cylinder 33, the motor 24, the rotating motor 44, the rotating cylinder 42 and the lifting cylinder 41, when a user uses the present invention, the mold top block 36 and the pressing die head 341 are arranged by the vertical line of the circle center, when the pressing die head 341 presses a mold part moving to the top of the mold top block 36, before the PLC all-in-one machine 32 is driven by a user to use the utility model, corresponding program parameters are set, then the motor 24 is driven to rotate the turntable 22 through the driving of the transmission belt, so as to drive the die-carrying workpiece 23 arranged at the top of the turntable to rotate towards the inner end of the pressing plate mechanism 3, the PNP proximity switch 311 is used for sensing and detecting a die arranged at the top of the die-carrying workpiece 23 in real time, after the PNP proximity switch 311 detects the die, the die-carrying workpiece 23 corresponding to a detection point continues to move towards the inner end of the pressing plate mechanism 3, then according to the program setting, after the die-carrying workpiece 23 with the die rotates to the bottom of the pressing die head 341 according to the program setting, the pressing cylinder 33 outputs air pressure, then the pressing die head 341 moves under the guiding of the pressing guide posts 35 at the two ends of the pressing plate, so as to press the die, and after the pressing is finished, the mold-carrying workpiece 23 is driven to be carried away, when the PNP proximity switch 311 does not detect that the mold is arranged on the top of the mold-carrying workpiece 23, no signal is fed back to the PLC integrated machine 32, so that the PLC integrated machine 32 does not drive the platen cylinder 33 to output air pressure for performing a press-fitting motion, only when the mold is detected, the platen cylinder 33 outputs air pressure for performing a press-fitting work after the motor 24 rotates a corresponding number of times according to a corresponding program, similarly, when the mold is detected to be pressed, the motor 24 rotates a corresponding number of times according to a program setting, and the number of times of rotation reaches a set value, at this time, the mold is arranged at the bottom of the adsorption head 431, the real-time lifting cylinder 41 is driven to move the rotary cylinder swing arm 43 downwards through the rotary cylinder 42, then the adsorption head 431 adsorbs the pressed mold, and then rotates 180 degrees forwards to move the adsorbed mold into the mold placing hole 451, then the rotating motor 44 rotates, the molds are driven to rotate and move downwards through the rotation of the material arranging plate 45, so that the molds fall into an external collecting part, when the molds are arranged between adjacent mold carrying workpieces 23, after the rotating cylinder swing arm 43 rotates forward 180 degrees by the rotating cylinder 42 to adsorb the molds and move into the mold placing hole 451, after the rotating motor 44 drives the material arranging plate 45 to rotate, an empty mold placing hole 451 is parallel and corresponding to the rotating cylinder swing arm 43, at this time, the adsorption head 431 at the other end can move downwards to adsorb the molds, then the rotation is driven by 180 degrees, so that the molds can move into the material arranging plate 45, and the adsorption head at the rotating end moves downwards to adsorb the empty molds while moving downwards, and the process is repeated, so that the molds can be adsorbed and guided out without interruption.

The lifting cylinder 41 comprises a lifting cylinder support plate 411, the lifting cylinder 41 is connected with the bottom plate 11 through the lifting cylinder support plate 411, the rotating cylinder 42 is driven by the lifting cylinder 41 to move up and down in the vertical direction, the rotating cylinder swing arm 43 is driven by the rotating cylinder 42 to rotate for 180 degrees in the positive and negative directions, the rotating cylinder swing arm 43 comprises adsorption heads 431 respectively arranged at the bottoms of the end heads at the two ends, the material arranging plate 45 is driven by the rotating motor 44 to rotate clockwise and comprises mould placing holes 451 respectively formed in the inner part.

When the user uses the utility model, the set position of the utility model can be quickly moved by the arrangement of the pulley 12, thereby meeting the use requirements of the user.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of protection is still within the scope of the utility model.

Claims

1. A capping machine, comprising:

2. The capping machine as claimed in claim 1, wherein the divider includes a driven wheel disposed at a right end, the motor includes a driving wheel and a motor fixing plate, the motor is fixedly connected to the bottom of the bottom plate through the motor fixing plate, the driving wheel is disposed at the right end of the motor and is connected to the driven wheel through a transmission belt, the divider is driven by the motor through the driven wheel and the driving wheel, and the turntable is driven by the divider to rotate.

3. The capping machine of claim 1 wherein the die-loading tooling comprises a die-loading fixing plate, a slide block, a die-loading plate and a die-loading, the mould-loading fixing plate comprises a slide block limiting connecting groove arranged at the surface end, the slide block is arranged in the slide block limiting connecting groove and comprises mould-loading connecting blocks respectively arranged at the outer sides, the loading templates are respectively arranged at the outer sides of the sliding blocks and comprise reinforcing inclined ribs and loading template connecting block grooves which are arranged from outside to inside, the limiting connecting grooves of the sliding blocks are respectively matched with the sliding blocks, the height of the slide block limiting connecting groove is greater than that of the slide block, the mold loading connecting block grooves are respectively matched with the mold loading connecting block, the height of the mould-loading connecting block groove is greater than that of the mould-loading connecting block, the cross section of the reinforced diagonal rib is triangular, the mould carries locates respectively and carries the template top, carries the die orifice including the bearing of opening respectively in the top, the die orifice is carried in the bearing from the top down to the leanin and the cross-section presents isosceles trapezoid.

4. The capping machine of claim 1, wherein the platen holder comprises a PNP proximity switch disposed on the left side of the front end, the PNP proximity switch is used for detecting a mold on the top of the mold, the lower platen comprises a pressing die head disposed at the center of the bottom, the platen guide posts are respectively disposed on the left and right ends of the lower platen, the platen guide posts are guided by the platen guide posts on the left and right ends to be driven up and down in the vertical direction of the platen cylinder, the center of the pressing die head is on the same vertical line as the center of the mold top block, the input end of the PLC integrated machine is connected with the PNP proximity switch, and the output end of the PLC integrated machine is respectively connected with the platen cylinder, the motor, the rotating cylinder and the lifting cylinder.

5. The capping machine of claim 1, wherein the lifting cylinder comprises a lifting cylinder support plate, the lifting cylinder is connected with the bottom plate through the lifting cylinder support plate, the rotating cylinder is driven by the lifting cylinder to move up and down in the vertical direction, the rotating cylinder swing arm is driven by the rotating cylinder to rotate for 180 degrees in the positive and negative directions, the rotating cylinder swing arm comprises adsorption heads respectively arranged at the bottoms of the two end heads, the material arranging plate is driven by a rotating motor to rotate clockwise, and the capping machine comprises mold placing holes respectively arranged in the inner parts.