CN207858176U - Intelligent feeder equipment for transmitting porcelain knob - Google Patents

Abstract

The utility model is related to the intelligent feeder equipments for transmitting porcelain knob of automation equipment field,Including feeding machanism,Material receiving mechanism and feed mechanism,Feeding machanism includes bin component,Lifting cylinder and feed bin backplate,Feed bin backplate surrounds the rectangular chamber formed for accommodating Automatic-feeding component,The identical Automatic-feeding component of four groups or more structures is provided in rectangular cavity room altogether,Material receiving mechanism includes splicing holder and the splicing plate being set on splicing holder,Planar movement platform is equipped between splicing holder and splicing plate,Feed mechanism includes stock support and the swivel feeding component being set on stock support,Swivel feeding component includes rotary cylinder and feeding disk,Feeding machanism is for storing and supplying porcelain knob,Material receiving mechanism is for accepting the porcelain knob supplied by feeding machanism,And accurately it is sent to feed mechanism,Feed mechanism is used to porcelain knob being sent to automatic assembling process,Each mechanism corresponds and entirety is connected,To complete accurate feeding.

Description

Intelligent feeder equipment for transmitting porcelain knob

Technical field

The utility model is related to automation equipment fields, and in particular to automatic feeder equipment is more particularly to used to transmit porcelain The intelligent feeder equipment of column.

Background technology

Sensor is a kind of detection device, can experience measured information, and the information that can will be experienced, by a set pattern Rule is for conversion into the information output of electric signal or other required forms, to meet the transmission of information, processing, storage, display, record With control etc. requirements.

Ceramic sensor element refers to using ceramic material for experiencing sensing device of the measuring signal for converting output, pottery Porcelain be a kind of generally acknowledged high resiliency, anticorrosive, wear-resistant, shock resistance and vibration material, and there is excellent thermal stability, and High-performance, low price ceramic sensor element by be pressure sensor developing direction.Have comprehensively in American-European countries's ceramic sensor element The trend for substituting other type sensors also has more and more users to use replacement diffusion silicon pressure sensor in China.Always It, as the development of electronic technology and Auto Electronic Controlled System are applied increasingly extensive, the automobile sensor market demand will protect Rapid growth is held, high stability, high-precision, long-life, wireless penetration, integrated and networking sensor will gradually replace tradition Sensor, become the mainstream of automobile sensor.

Ceramics are used as essential material in ceramic sensor element, and according to the structural requirement of different sensors, ceramics can A variety of different shapes are made, porcelain knob is the structure performance of one of which bar shape, and in the assembling process of ceramic sensor element, The installation of porcelain knob is even more important, and therefore, existing sensor is all made of automation equipment and is assembled, to improve whole assembly essence Degree and efficiency of assembling.

In existing sensor automatic assembly equipment, the assembly process of porcelain knob is relatively simple, first passes through automatic feeder equipment Porcelain knob is sent to corresponding station, after then directly carrying out feeding by manipulator, is resent to corresponding station into luggage Match, the existing automatic feeder equipment for transmitting porcelain knob has the following defects：1）Since the sensor of different parameters is wanted The porcelain knob using different size is sought, and same set of automatic feeder equipment is merely able to that a kind of porcelain knob of specification is sent alone, transmission is not Need replacing corresponding different jig when the porcelain knob of same specification, whole bad adaptability needs to purchase sending for several groups of different sizes more Expect equipment, increases input cost；2）Due to porcelain knob small volume, more porcelain knobs often are transmitted simultaneously in transmit process, no Every porcelain knob can be accurately transmitted, the assembly process of subsequent porcelain knob is influenced；3）Feeding is carried out by the way of transmission, transmits precision Low, feeding efficiency is low, high failure rate, and feed is unstable, influences the efficiency of assembling of porcelain knob；4）The structure for being driven feeding is more multiple Miscellaneous, occupancy place is larger, and porcelain knob transmit process is unstable.

Utility model content

The purpose of this utility model is to solve disadvantages described above, provides the intelligent feeder equipment for transmitting porcelain knob, not only It can be achieved to automatically deliver porcelain knob, and the porcelain knob of multigroup different size can be transmitted simultaneously.

The purpose of this utility model is achieved in the following ways：

Intelligent feeder equipment for transmitting porcelain knob, including feeding machanism, material receiving mechanism and feed mechanism, the feeding machine Structure is located at the top of material receiving mechanism, and feed mechanism is located at the rear of material receiving mechanism, and feeding machanism connects for storing and supplying porcelain knob Material mechanism is accurately sent to feed mechanism for accepting the porcelain knob supplied by feeding machanism, and feed mechanism is for passing porcelain knob It send to automatic assembling process, the feeding machanism includes bin component, for driving bin component to carry out the liter of elevating movement Sending down abnormally ascending cylinder and feed bin backplate, lifting cylinder combine to form one group of Automatic-feeding component with bin component, and feed bin backplate is surrounded and formed Rectangular chamber for accommodating Automatic-feeding component is provided with the identical automatic confession of four groups or more structures in the rectangular cavity room altogether Expect that component, the bottom of the rectangular chamber are equipped with upper sensor stand and steel pipe clamping plate, upper sensor stand is set to steel pipe folder The bottom of plate, upper sensor stand are equipped with the upper sensor matched with the quantity of Automatic-feeding component and position and upper pore, Steel pipe clamping plate is equipped with the steel pipe folder hole matched with the quantity of Automatic-feeding component and position, the position of steel pipe folder hole and upper pore It matches, elastic slot is cut on the steel pipe clamping plate, the outside of steel pipe clamping plate is made to form elastic fixture block, steel pipe folder hole is located at elastic On slot, and lower support is equipped with equipped with the lock screw for locking elastic slot, the lower section of the rectangular chamber on elastic fixture block The top surface of plate, lower supporting plate is equipped with lower sensor holder, and lower sensor holder is equipped with matches with the quantity of upper sensor and position To lower sensor and lower pore, lead between upper pore and lower pore and be attached for transmitting the feeder sleeve of porcelain knob；It is described Bin component includes hollow tube, feed bin lid and goes out funnel, and for storing porcelain knob, feed bin lid is removably pacified for the inside of hollow tube Mounted in the top of hollow tube, go out the bottom that funnel is mounted on hollow tube, the periphery of hollow tube is equipped with for fixing hollow tube Grip sleeve, the side of grip sleeve are equipped with more than two hollow holes convenient for porcelain knob in observation hollow tube, and the one of grip sleeve Side is equipped with the positioning region for being fixedly connected with lifting cylinder, when lifting cylinder acts, to drive bin component Lifting is synchronized, the inside for going out funnel is connected with the inside of hollow tube, and the bottom for going out funnel is funnel hole, and equipped with use The discharging steel pipe of funnel hole is penetrated in pairing, discharging steel pipe can carry out telescopic movable, the mating bottom for the steel pipe that discharges along funnel hole It is inserted and fixed on steel pipe folder hole, bottom and the feeder sleeve of the steel pipe that discharges carry out conducting and connect, and the top for the steel pipe that discharges is to use In the feeding end for being sent into porcelain knob, the bottom for the steel pipe that discharges is the discharge end for sending out porcelain knob, and the feeding end for the steel pipe that discharges is upward The inner bottom for extending to hollow tube makes funnel hole be carried out along the surface of discharging steel pipe when bin component carries out elevating movement Up and down, when the downward activity of funnel hole is to lower limit, the feeding end for the steel pipe that discharges carries out activity relatively upward, in drive Porcelain knob in blank pipe enters along the feeding end of discharging steel pipe, and is sent to feeder sleeve from the discharge end of discharging steel pipe, with complete to Lower feed；The material receiving mechanism includes splicing holder and the splicing plate being set on splicing holder, the rear end of splicing plate be for The mounting portion of location and installation, is equipped with planar movement platform between the splicing holder and splicing plate, planar movement platform is moved by X-axis Dynamic component and Y-axis moving assembly are constituted, and X-axis moving assembly is fixedly mounted on the top surface of splicing holder, and Y-axis moving assembly is set to The top of X-axis moving assembly is driven by X-axis moving assembly and carries out X-direction movement, and the mounting portion of splicing plate is set to Y-axis shifting On dynamic component, driven by Y-axis moving assembly and carry out Y direction movement, the front end of splicing plate be parallel to horizontal plane splicing it is flat Plate, the middle part of splicing tablet are equipped with the splicing open-work for penetrating porcelain knob, and splicing open-work is located at the lower section of feeder sleeve, and by flat Splicing open-work is moved to below the feeder sleeve in requisition for feed, making porcelain knob that can be fed through splicing from feeder sleeve by face mobile platform In open-work；The feed mechanism includes stock support and the swivel feeding component being set on stock support, swivel feeding component Including rotary cylinder and feeding disk, rotary cylinder is transversely mounted on stock support, and the top surface of rotary cylinder is rotary shaft, feeding Disk is laterally fixedly mounted on the rotary shaft, and the front end and rear end of feeding disk are equipped with the identical feeding open-work of structure, feeding For open-work for penetrating porcelain knob, the feeding open-work of feeding disk front end is located at the underface of splicing open-work, and opposite with splicing open-work It answers, makes porcelain knob that can be directly downwardly into feeding open-work from splicing open-work, when rotary cylinder acts, rotary shaft rotates 180 degree, To drive feeding disk rotational 180 degree to carry out feeding.

In above description, as a preferred option, the inner bottom of the hollow tube is equipped with current divider, the top of current divider For the storage bin for storing porcelain knob, the lower section of current divider is the feed bin that enters for being sent into porcelain knob, and the periphery of current divider is equipped with three Diversion channel more than item, diversion channel respectively with storage bin and enter feed bin and be connected, diversion channel is used to shunt the porcelain knob of storage bin, discharging The feeding end of steel pipe is extended upwardly into feed bin.

In above description, as a preferred option, it is connected at the top of the current divider and takes out current divider convenient for auxiliary Handle is spirally connected at the top of the bottom of handle and current divider, the upper end of hollow tube is extended vertically up at the top of handle.

In above description, as a preferred option, the lifting cylinder include one piece of lifter plate and two pieces of mounting plates, two pieces Mounting plate is located at lifter plate over and under, and two pieces of mounting plates fix peace for lifting cylinder, mounting plate to be fixedly mounted It mounted in the medial surface of rectangular chamber, is attached by guide post between lifter plate and mounting plate, when lifting cylinder acts, makes lifting Plate carries out lifting activity along guide post, and positioning region and the lifter plate of grip sleeve are fixedly connected.

In above description, as a preferred option, the feed bin backplate includes apron plate, rear backplate and side guard plate, rear shield The bottom of plate extends downwardly, and lower supporting plate is mounted on the bottom of rear backplate.

In above description, as a preferred option, the feeding end for the steel pipe that discharges offers three or more separation troughs, three Feeding end is separated into three or more auxiliary pan feeding sides by above separation trough, and the auxiliary outside bending in pan feeding side is formed elastic folding Crimp forms the elastic feeding mouth for assist being sent into porcelain knob between adjacent two elastic bending edges, when discharging steel pipe relatively to When upper activity is to upper limit, elastic bending edges are in nature bending state, and elastic feeding mouth plays a part of to capture porcelain knob, porcelain knob edge Elastic feeding mouth enters, and when activity is to lower limit downwards for the steel pipe that discharges, elastic bending edges are collapsed by the extruding of funnel hole, from And it assists that porcelain knob is driven smoothly to be sent into discharging steel pipe.

In above description, as a preferred option, the identical automatic confession of ten groups of structures is provided in the rectangular cavity room altogether Expect component, ten groups of Automatic-feeding components point are two rows of to carry out proper alignment.

In above description, it is equipped with plane as a preferred option, between the stock support and swivel feeding component and finely tunes Platform, plane fine adjustment stage are made of X-axis trimming assembly and Y-axis trimming assembly, and X-axis trimming assembly includes X-axis slide rail, X-axis cunning Block and X-axis trimming part, X-axis slide rail are fixedly mounted on the top surface of stock support, and X-axis slide block is set to the top of X-axis slide rail, and X-direction can be carried out along X-axis slide rail to move, X-axis trimming part is mounted on an end of X-axis slide rail, and with X-axis slide block is connected It connects, when adjustment X-axis trimming part is flexible, to drive X-axis slide block to carry out X-direction movement；Y-axis trimming assembly includes Y-axis Sliding rail, Y-axis sliding block and Y-axis trimming part, Y-axis sliding rail are fixedly mounted on the top surface of X-axis slide block, and Y-axis sliding block is set to Y-axis sliding rail Top, and Y direction can be carried out along Y-axis sliding rail and be moved, Y-axis trimming part is mounted on an end of Y-axis sliding rail, and and Y-axis Sliding block is attached, when adjustment Y-axis trimming part is flexible, to drive Y-axis sliding block to carry out Y direction movement.

In above description, as a preferred option, the stock support includes cross-brace plate and longitudinal supporting plate, transverse direction Support plate combines to form L-shaped structure with longitudinal supporting plate, and the middle part of cross-brace plate and longitudinal supporting plate is equipped with reinforcing rib.

In above description, as a preferred option, the lateral surface of the longitudinal supporting plate is equipped with Z axis trimming assembly, and Z axis is micro- It includes Z axis slide rail, Z axis sliding block and Z axis trimming part to adjust component, and Z axis slide rail is set to the lateral surface of longitudinal supporting plate, and Z axis is slided Block is stuck in Z axis slide rail, and can be carried out Z-direction along Z axis slide rail and be moved, and Z axis trimming part is mounted on the bottom end of Z axis slide rail, And be attached with Z axis sliding block, when adjustment Z axis trimming part is flexible, to drive Z axis sliding block to carry out Z-direction movement.

In above description, as a preferred option, the bottom of the feeding open-work is equipped with supplied materials detection device, supplied materials inspection It includes the pneumatic tube and pressure sensor being connected and sealed with feeding open-work to survey device, and air pressure is detected by pressure sensor Pressure in pipe, so as to judge whether supplied materials.

In above description, as a preferred option, the bottom of the funnel hole is additionally provided with pairing and fills in connecing in funnel hole The center of head, connector is equipped with for matching the central bore for penetrating discharging steel pipe, and discharging steel pipe can stretch along central bore Activity, the top periphery of connector are equipped with the lower inclined plane tilted down, have additional connector, and the top periphery of connector is equipped with oblique Face, lower inclined plane can reduce porcelain knob to the pressure caused by the feeding end of steel pipe that discharges, to avoid the feeding end production of discharging steel pipe Change shape, it is ensured that the feeding end for the steel pipe that discharges can be normally carried out pan feeding, and connector is detachable structure, can be after direct dismounting joint The porcelain knob that can be convenient to clean out in funnel.

In above description, as a preferred option, the top center of connector is equipped with inner groovy, can be excluded after inner groovy is arranged Go out porcelain knob particle in funnel, porcelain knob particle can be excluded in the gap between the inner wall and discharging steel pipe of central bore.

In above description, as a preferred option, the feeder sleeve is made of transparent hose.

In above description, as a preferred option, the hollow tube is made of organic glass.

It is had the beneficial effect that caused by the utility model：

1）Full-automatic material-feeding equipment is for transmitting porcelain knob, including feeding machanism, material receiving mechanism and feed mechanism, feeding machanism For storing and supplying porcelain knob, material receiving mechanism is accurately sent to feed mechanism for accepting the porcelain knob supplied by feeding machanism, Feed mechanism is used to porcelain knob being sent to automatic assembling process, and each mechanism corresponds and entirety is connected, to complete precisely to send Material；

2）The identical Automatic-feeding component of four groups or more structures is provided in the rectangular cavity room of feeding machanism altogether, every group automatic Supply assembly is respectively used to the porcelain knob of supply different size, and the porcelain knob of different size is passed by corresponding feeder sleeve respectively It send, and transmission efficiency is high, transmission is accurate, mutually unaffected；

3）Sensor and lower sensor are provided on feeding machanism, lower sensor is conveyed into feeder sleeve bottom for incuding The porcelain knob in portion, such as induction then control lifting cylinder action less than porcelain knob, and to realize that automatic blanking acts, upper sensor is used for Induction is conveyed into the porcelain knob at the top of feeder sleeve, such as senses porcelain knob, then lifting cylinder stopping action being controlled, to be automatically stopped Blanking, overall intelligence degree is high, and controls precisely, and failure rate is low；

4）The bottom for going out funnel in feeding machanism is funnel hole, and equipped with for matching the discharging steel for penetrating funnel hole Pipe, discharging steel pipe can carry out telescopic movable along funnel hole, and the steel pipe that discharges is fixed structure, and bin component is driven by lifting cylinder Carry out lifting activity, when lifting cylinder drive bin component carry out lifting activity when, make funnel hole along discharging steel pipe surface into Row is up and down, and when the downward activity of funnel hole is to lower limit, the feeding end for the steel pipe that discharges carries out activity relatively upward, to drive Porcelain knob in hollow tube enters along the feeding end of discharging steel pipe, and is sent to feeder sleeve from the discharge end of discharging steel pipe, to complete Feed downwards, when lifting cylinder drives bin component to carry out a lifting action every time, the feeding end for the steel pipe that discharges will be fed into one Grain porcelain knob, to form regular lifting pulsed feeding structure, whole pan feeding and feed are stablized, and pan feeding and feed essence Standard realizes intelligent control, to improve the working efficiency of whole pan feeding and feed；

5）Planar movement platform is equipped between the splicing holder and splicing plate of material receiving mechanism, the front end of splicing plate is to be parallel to The splicing tablet of horizontal plane, the middle part of splicing tablet is equipped with the splicing open-work for penetrating porcelain knob, when planar movement platform acts Splicing tablet will be driven to carry out in-plane movement, to which the position for driving splicing open-work to be moved to corresponding feeder sleeve is connect Material, splicing open-work is designed as to carry out the structure of planar movement, make to be movable to when splicing plate work different positions with The position of feeder sleeve is corresponding, to accept the porcelain knob for being located at various different sizes in different feeder sleeves, but also can improve porcelain The splicing of column and transmission efficiency, it is ensured that the porcelain knob of various different sizes can be accepted and be transmitted to same group of material receiving mechanism, so as to The input for reducing miscellaneous equipment, reduces the cost of manufacture of product；

6）The top surface of the rotary cylinder of feed mechanism is rotary shaft, and feeding disk is laterally fixedly mounted on the rotary shaft, send Expect that the front end of disk and rear end are equipped with the identical feeding open-work of structure, feeding open-work is for penetrating porcelain knob, feeding disk front end Feeding open-work be located at the underface of splicing open-work, and it is corresponding with splicing open-work, keep porcelain knob directly downward from splicing open-work Into in feeding open-work, when rotary cylinder acts, rotary shaft rotates 180 degree, to drive feeding disk rotational 180 degree, most The porcelain knob in the feeding open-work of feeding disk rear end is taken out to corresponding assembly process, swivel feeding by external manipulator afterwards Stable structure, porcelain knob is conveyed into from material receiving mechanism can carry out stable carry out swivel feeding in feeding open-work, whole to revolve Turn feeding process stabilization, and feeding is accurate, the compact structure of feeding disk and rotary cylinder, it is minimum to occupy place.

Description of the drawings

Fig. 1 is the dimensional structure diagram of the utility model embodiment；

Fig. 2 is the dimensional structure diagram of another angle of the utility model embodiment；

Fig. 3 is the dimensional structure diagram of feeding machanism in the utility model embodiment；

Fig. 4 is the dimensional structure diagram of another angle of feeding machanism in the utility model embodiment；

Fig. 5 is the structural decomposition diagram of feeding machanism in the utility model embodiment；

Fig. 6 is the sectional view of Automatic-feeding component in the utility model embodiment；

Fig. 7 is the close-up schematic view of Fig. 6；

Fig. 8 is the dimensional structure diagram of discharging steel pipe in the utility model embodiment；

Fig. 9 is the dimensional structure diagram of material receiving mechanism in the utility model embodiment；

Figure 10 is the dimensional structure diagram of feed mechanism in the utility model embodiment；

In figure, 1 is bin component, and 101 be hollow tube, and 102 be feed bin lid, and 103 be funnel, and 104 be grip sleeve, 105 be current divider, and 106 be diversion channel, and 107 be handle, and 108 be discharging steel pipe, and 109 be separation trough, and 110 be auxiliary pan feeding side, 111 be connector, and 112 be lower inclined plane, and 2 be lifting cylinder, and 201 be mounting plate, and 202 be lifter plate, and 3 be apron plate, 4 be after protect Plate, 5 be side guard plate, and 6 be upper sensor stand, and 7 be steel pipe clamping plate, and 8 be steel pipe folder hole, and 9 be elastic slot, and 10 be upper sensor, 11 be upper pore, and 12 be lower sensor holder, and 13 be lower sensor, and 14 be lower pore, and 15 be lower supporting plate, and 16 be feeder sleeve, 17 be material receiving mechanism, and 1701 be splicing holder, and 1702 be splicing plate, and 1703 be X-axis moving assembly, and 1704 be Y-axis moving assembly, 1705 be splicing open-work, and 18 be feed mechanism, and 1801 be cross-brace plate, and 1802 be longitudinal supporting plate, and 1803 be reinforcing rib, 1804 be X-axis trimming assembly, and 1805 be Y-axis trimming assembly, and 1806 be Z axis trimming assembly, and 1807 be rotary cylinder, and 1808 be to send Expect disk, 1809 be feeding open-work.

Specific implementation mode

The utility model is described in further detail with specific implementation mode below in conjunction with the accompanying drawings.

The present embodiment ,-Figure 10, the intelligent feeder equipment for transmitting porcelain knob of specific implementation include being fed referring to Fig.1 Mechanism, material receiving mechanism 17 and feed mechanism 18, as depicted in figs. 1 and 2, feeding machanism are located at the top of material receiving mechanism 17, feeding Mechanism 18 is located at the rear of material receiving mechanism 17, and feeding machanism is for storing and supplying porcelain knob, and material receiving mechanism 17 is for accepting by supplying Expect the porcelain knob of mechanism supply, and be accurately sent to feed mechanism 18, feed mechanism 18 is used to porcelain knob being sent to automatic assembling work In sequence.

As shown in figures 3-8, feeding machanism includes bin component 1, for driving bin component 1 to carry out the lifting of elevating movement Cylinder 2 and feed bin backplate, lifting cylinder 2 is combined with bin component 1 forms one group of Automatic-feeding component, and feed bin backplate is surrounded and formed Rectangular chamber for accommodating Automatic-feeding component, in the present embodiment, be provided with altogether in rectangular cavity room ten groups of structures it is identical from Dynamic supply assembly, ten groups of Automatic-feeding components point are two rows of to carry out proper alignment, and the bottom of rectangular chamber is equipped with upper sensor 10 Frame 6 and steel pipe clamping plate 7,10 holder 6 of upper sensor are set to the bottom of steel pipe clamping plate 7, and 10 holder 6 of upper sensor is equipped with and oneself The quantity of dynamic supply assembly and the upper sensor 10 and upper pore 11 of position pairing, steel pipe clamping plate 7 are equipped with and Automatic-feeding group The quantity of part and the steel pipe folder hole 8 of position pairing, steel pipe folder hole 8 and the position of upper pore 11 are matched, and are cut on steel pipe clamping plate 7 Elastic slot 9 makes the outside of steel pipe clamping plate 7 form elastic fixture block, and steel pipe folder hole is located on elastic slot 9, and is set on elastic fixture block It is useful for locking the lock screw of elastic slot 9, the lower section of the rectangular chamber is equipped with lower supporting plate 15, the top surface of lower supporting plate 15 Equipped with 13 holder 12 of lower sensor, 13 holder 12 of lower sensor is equipped with the biography down matched with the quantity of upper sensor 10 and position Sensor 13 and lower pore 14 lead between upper pore 11 and lower pore 14 and are attached for transmitting the feeder sleeve 16 of porcelain knob, material Bin-protecting plate includes apron plate 3, rear backplate 4 and side guard plate 5, and the bottom of rear backplate 4 extends downwardly, and lower supporting plate 15 protects after being mounted on The bottom of plate 4.

Bin component 1 includes hollow tube 101, feed bin lid 102 and goes out funnel 103, and the inside of hollow tube 101 is for storing Porcelain knob, feed bin lid 102 are removably mounted on the top of hollow tube 101, go out the bottom that funnel 103 is mounted on hollow tube 101, The periphery of hollow tube 101 is equipped with the grip sleeve 104 for fixing hollow tube 101, and the one side of grip sleeve 104, which is equipped with, to be used for The positioning region being fixedly connected with lifting cylinder 2, lifting cylinder 2 include one piece of lifter plate 202 and two pieces of mounting plates 201, two Block mounting plate 201 is located at lifter plate 202 over and under, and two pieces of mounting plates 201 are used to that lifting cylinder 2 to be fixedly mounted, Mounting plate 201 is fixedly mounted on the medial surface of rectangular chamber, is attached by guide post between lifter plate 202 and mounting plate 201, When lifting cylinder 2 acts, lifter plate 202 is made to carry out lifting activity, positioning region and the lifter plate 202 of grip sleeve 104 along guide post It is fixedly connected.

When lifting cylinder 2 acts, to drive bin component 1 to synchronize lifting, go out the inside of funnel 103 in The inside of blank pipe 101 is connected, and the bottom for going out funnel 103 is funnel hole, and equipped with for matching the discharging steel for penetrating funnel hole Pipe 108, discharging steel pipe 108 can carry out telescopic movable along funnel hole, and the mating bottom of discharging steel pipe 108 is inserted and fixed into steel pipe On folder hole 8, the bottom of discharging steel pipe 108 carries out conducting with feeder sleeve 16 and connect, and the top of discharging steel pipe 108 is for being sent into porcelain The feeding end of column, the bottom of discharging steel pipe 108 are the discharge end for sending out porcelain knob, and the feeding end of discharging steel pipe 108 prolongs upwards The inner bottom for extending to hollow tube 101 makes funnel hole along the surface of discharging steel pipe 108 when bin component 1 carries out elevating movement Carry out up and down, funnel hole is when activity is to lower limit downwards, and it is movable relatively upward that the feeding end of discharging steel pipe 108 carries out, from And the porcelain knob in hollow tube 101 is driven to enter along the feeding end of discharging steel pipe 108, and sent out from the discharge end of discharging steel pipe 108 To feeder sleeve 16, to complete feed downwards.

As shown in fig. 6, the inner bottom of hollow tube 101 is equipped with current divider 105, the top of current divider 105 is for storing The storage bin of porcelain knob, the lower section of current divider 105 are the feed bin that enters for being sent into porcelain knob, the periphery of current divider 105 be equipped with three with On diversion channel 106, diversion channel 106 respectively with storage bin and enter feed bin and be connected, diversion channel 106 is used to shunt the porcelain of storage bin The feeding end of column, discharging steel pipe 108 is extended upwardly into feed bin.The top of current divider 105 is connected with takes out shunting convenient for auxiliary The handle 107 of device 105, the bottom and the top of current divider 105 of handle 107 are spirally connected, and the top of handle 107 is prolonged vertically upward Extend to the upper end of hollow tube 101.

As shown in Figure 7 and Figure 8, the feeding end of discharging steel pipe 108 offers six separation troughs 109, and six separation troughs 109 will Feeding end is separated into six roots of sensation auxiliary pan feeding side 110, and the 110 outside bending of auxiliary pan feeding side is formed elastic bending edges, adjacent two The elastic feeding mouth for assisting being sent into porcelain knob is formed between elastic bending edges, when discharging steel pipe 108 is movable supreme relatively upward When limit, elastic bending edges are in nature bending state, and elastic feeding mouth plays a part of to capture porcelain knob, and porcelain knob is along elastic feeding mouth Into when activity is to lower limit downwards for the steel pipe 108 that discharges, elastic bending edges are collapsed by the extruding of funnel hole, to assist Porcelain knob is driven smoothly to be sent into discharging steel pipe 108.

As shown in Figure 6 and Figure 7, the bottom of funnel hole is additionally provided with the connector 111 that pairing is filled in funnel hole, connector 111 Center is equipped with for matching the central bore for penetrating discharging steel pipe 108, and discharging steel pipe 108 can carry out flexible work along central bore Dynamic, the top periphery of connector 111 is equipped with the lower inclined plane 112 tilted down, has additional connector 111, and the top periphery of connector 111 Equipped with lower inclined plane 112, lower inclined plane 112 can reduce porcelain knob to the pressure caused by the feeding end of steel pipe 108 that discharges, to avoid out The feeding end of material steel pipe 108 is deformed, it is ensured that the feeding end of discharging steel pipe 108 can be normally carried out pan feeding, and connector 111 is removable Structure is unloaded, the porcelain knob that can directly can be convenient to clean out after dismounting joint 111 in funnel 103, the top center of connector 111 is set Have an inner groovy, porcelain knob particle in funnel 103 can be excluded by being arranged after inner groovy, porcelain knob particle can along central bore inner wall with It is excluded in gap between discharging steel pipe 108.

As shown in figure 9, material receiving mechanism 17 includes splicing holder 1701 and the splicing plate being set on splicing holder 1701 1702, the rear end of splicing plate 1702 is the mounting portion for location and installation, is equipped between splicing holder 1701 and splicing plate 1702 Planar movement platform, planar movement platform are made of X-axis moving assembly 1703 and Y-axis moving assembly 1704, X-axis moving assembly 1703 are fixedly mounted on the top surface of splicing holder 1701, and Y-axis moving assembly 1704 is set to the top of X-axis moving assembly 1703, It is driven by X-axis moving assembly 1703 and carries out X-direction movement, the mounting portion of splicing plate 1702 is set to Y-axis moving assembly 1704 On, it is driven by Y-axis moving assembly 1704 and carries out Y direction movement, the front end of splicing plate 1702 is the splicing for being parallel to horizontal plane Tablet, the middle part of splicing tablet are equipped with the splicing open-work 1705 for penetrating porcelain knob, and splicing open-work 1705 is located at feeder sleeve 16 Lower section, and splicing open-work 1705 is moved to in requisition for 16 lower section of feeder sleeve of feed, making porcelain knob by planar movement platform It can be fed through in splicing open-work 1705 from feeder sleeve 16.

As shown in Figure 10, feed mechanism 18 includes stock support and the swivel feeding component being set on stock support, rotation It includes rotary cylinder 1807 and feeding disk 1808 to turn feeding material component, and rotary cylinder 1807 is transversely mounted on stock support, rotation The top surface of cylinder 1807 is rotary shaft, and feeding disk 1808 is laterally fixedly mounted on the rotary shaft, the front end of feeding disk 1808 And rear end is equipped with the identical feeding open-work 1809 of structure, feeding open-work 1809 is for penetrating porcelain knob, 1808 front end of feeding disk Feeding open-work 1809 be located at the underface of splicing open-work 1705, and it is corresponding with splicing open-work 1705, make porcelain knob can directly from Splicing open-work 1705 is downwardly into feeding open-work 1809, and when rotary cylinder 1807 acts, rotary shaft rotates 180 degree, to It drives feeding disk 1808 to rotate 180 degree and carries out feeding.

Plane fine adjustment stage is equipped between stock support and swivel feeding component, plane fine adjustment stage is by X-axis trimming assembly 1804 and Y-axis trimming assembly 1805 constitute, X-axis trimming assembly 1804 include X-axis slide rail, X-axis slide block and X-axis trimming part, X-axis Sliding rail is fixedly mounted on the top surface of stock support, and X-axis slide block is set to the top of X-axis slide rail, and can carry out X-axis along X-axis slide rail Direction is moved, and X-axis trimming part is mounted on an end of X-axis slide rail, and is attached with X-axis slide block, when adjustment X-axis trimming part When part stretches, to drive X-axis slide block to carry out X-direction movement；Y-axis trimming assembly 1805 includes Y-axis sliding rail, Y-axis sliding block and Y Axis trimming part, Y-axis sliding rail are fixedly mounted on the top surface of X-axis slide block, and Y-axis sliding block is set to the top of Y-axis sliding rail, and can be along Y Axis sliding rail carries out Y direction movement, and Y-axis trimming part is mounted on an end of Y-axis sliding rail, and is attached with Y-axis sliding block, when When adjustment Y-axis trimming part is flexible, to drive Y-axis sliding block to carry out Y direction movement.

Stock support includes cross-brace plate 1801 and longitudinal supporting plate 1802, cross-brace plate 1801 and longitudinal supporting plate 1802 combinations form L-shaped structure, and cross-brace plate 1801 and the middle part of longitudinal supporting plate 1802 are equipped with reinforcing rib 1803, Zong Xiangzhi The lateral surface of fagging 1802 is equipped with Z axis trimming assembly 1806, and Z axis trimming assembly 1806 includes that Z axis slide rail, Z axis sliding block and Z axis are micro- Component, Z axis slide rail is adjusted to be set to the lateral surface of longitudinal supporting plate 1802, Z axis sliding block is stuck in Z axis slide rail, and can be along Z axis slide rail Z-direction movement is carried out, Z axis trimming part is mounted on the bottom end of Z axis slide rail, and is attached with Z axis sliding block, when adjustment Z axis When trimming part stretches, to drive Z axis sliding block to carry out Z-direction movement.

The bottom of feeding open-work 1809 is equipped with supplied materials detection device（It is not shown）, which includes saturating with feeding The pneumatic tube and pressure sensor that hole 1809 is connected and sealed detect the pressure in pneumatic tube by pressure sensor, from And can determine whether out whether supplied materials.

The above content is specific preferred embodiment further detailed description of the utility model is combined, cannot recognize The specific implementation for determining the utility model is confined to these explanations.For the ordinary skill people of the utility model technical field For member, without departing from the concept of the premise utility, a number of simple deductions or replacements can also be made, is regarded as this The protection domain of utility model.

Claims (8)

1. the intelligent feeder equipment for transmitting porcelain knob, including feeding machanism, material receiving mechanism and feed mechanism, the feeding machanism Positioned at the top of material receiving mechanism, feed mechanism is located at the rear of material receiving mechanism, and feeding machanism is for storing and supplying porcelain knob, splicing Mechanism is accurately sent to feed mechanism for accepting the porcelain knob supplied by feeding machanism, and feed mechanism is for transmitting porcelain knob To automatic assembling process, it is characterised in that：The feeding machanism includes bin component, for driving bin component to be lifted The lifting cylinder and feed bin backplate of movement, lifting cylinder combine to form one group of Automatic-feeding component, feed bin backplate with bin component It is identical that it is provided with four groups or more structures altogether around the rectangular chamber formed for accommodating Automatic-feeding component, in the rectangular cavity room Automatic-feeding component, the bottom of the rectangular chamber is equipped with upper sensor stand and steel pipe clamping plate, upper sensor stand setting In the bottom of steel pipe clamping plate, upper sensor stand be equipped with the upper sensor matched with the quantity of Automatic-feeding component and position and Upper pore, steel pipe clamping plate are equipped with the steel pipe folder hole matched with the quantity of Automatic-feeding component and position, steel pipe folder hole and upper tube The position in hole is matched, and elastic slot is cut on the steel pipe clamping plate, and the outside of steel pipe clamping plate is made to form elastic fixture block, steel pipe folder hole On elastic slot, and it is equipped with lock screw for locking elastic slot on elastic fixture block, is set below the rectangular chamber There are lower supporting plate, the top surface of lower supporting plate to be equipped with lower sensor holder, lower sensor holder is equipped with the quantity with upper sensor And lower sensor and the lower pore of position pairing, lead between upper pore and lower pore and is connected for transmitting the feeder sleeve of porcelain knob It connects；The bin component includes hollow tube, feed bin lid and goes out funnel, and for storing porcelain knob, feed bin lid can for the inside of hollow tube It is releasably mounted on the top of hollow tube, goes out the bottom that funnel is mounted on hollow tube, the periphery of hollow tube is equipped with for fixing The side of the grip sleeve of hollow tube, grip sleeve is equipped with more than two hollow holes convenient for porcelain knob in observation hollow tube, clamping The one side of casing is equipped with the positioning region for being fixedly connected with lifting cylinder, when lifting cylinder acts, to drive Bin component synchronizes lifting, and the inside for going out funnel is connected with the inside of hollow tube, and the bottom for going out funnel is funnel hole, And equipped with for matching the discharging steel pipe for penetrating funnel hole, discharging steel pipe can carry out telescopic movable along funnel hole, and discharge steel pipe Mating bottom is inserted and fixed on steel pipe folder hole, and bottom and the feeder sleeve of the steel pipe that discharges carry out conducting and connect, and discharge steel pipe Top is the feeding end for being sent into porcelain knob, and the bottom for the steel pipe that discharges is the discharge end for sending out porcelain knob, and the steel pipe that discharges enters Material end extends upwardly to the inner bottom of hollow tube, when bin component carries out elevating movement, makes funnel hole along discharging steel pipe Surface progress is up and down, and when the downward activity of funnel hole is to lower limit, the feeding end for the steel pipe that discharges carries out activity relatively upward, from And the porcelain knob in hollow tube is driven to enter along the feeding end of discharging steel pipe, and it is sent to feeder sleeve from the discharge end of discharging steel pipe, To complete feed downwards；The material receiving mechanism includes splicing holder and the splicing plate being set on splicing holder, after splicing plate End is the mounting portion for location and installation, and planar movement platform is equipped between the splicing holder and splicing plate, and planar movement is flat Platform is made of X-axis moving assembly and Y-axis moving assembly, and X-axis moving assembly is fixedly mounted on the top surface of splicing holder, Y-axis movement Component is set to the top of X-axis moving assembly, is driven by X-axis moving assembly and carries out X-direction movement, and the mounting portion of splicing plate is set It is placed on Y-axis moving assembly, is driven by Y-axis moving assembly and carry out Y direction movement, the front end of splicing plate is to be parallel to horizontal plane Splicing tablet, the middle part of splicing tablet is equipped with the splicing open-work for penetrating porcelain knob, and splicing open-work is located at the lower section of feeder sleeve, And splicing open-work is moved to below the feeder sleeve in requisition for feed, making porcelain knob that can be sent from feeder sleeve by planar movement platform Enter to splicing open-work；The feed mechanism includes stock support and the swivel feeding component being set on stock support, rotation Feeding material component includes rotary cylinder and feeding disk, and rotary cylinder is transversely mounted on stock support, and the top surface of rotary cylinder is rotation Shaft, feeding disk are laterally fixedly mounted on the rotary shaft, and the front end and rear end of feeding disk are equipped with the identical feeding of structure Open-work, for feeding open-work for penetrating porcelain knob, the feeding open-work of feeding disk front end is located at the underface of splicing open-work, and and splicing Open-work is corresponding, makes porcelain knob that can be directly downwardly into feeding open-work from splicing open-work, when rotary cylinder acts, rotates shaft rotation Dynamic 180 degree, to drive feeding disk rotational 180 degree to carry out feeding.

2. being used to transmit the intelligent feeder equipment of porcelain knob according to claim 1, it is characterised in that：The feed bin backplate includes The bottom of apron plate, rear backplate and side guard plate, rear backplate extends downwardly, and lower supporting plate is mounted on the bottom of rear backplate.

3. being used to transmit the intelligent feeder equipment of porcelain knob according to claim 1, it is characterised in that：In the rectangular cavity room altogether It is provided with the identical Automatic-feeding component of ten groups of structures, ten groups of Automatic-feeding components point are two rows of to carry out proper alignment.

4. being used to transmit the intelligent feeder equipment of porcelain knob according to claim 1, it is characterised in that：The stock support and rotation Turn to be equipped with plane fine adjustment stage between feeding material component, plane fine adjustment stage is made of X-axis trimming assembly and Y-axis trimming assembly, X-axis Trimming assembly includes X-axis slide rail, X-axis slide block and X-axis trimming part, and X-axis slide rail is fixedly mounted on the top surface of stock support, X-axis Sliding block is set to the top of X-axis slide rail, and can carry out X-direction along X-axis slide rail and move, and X-axis trimming part is mounted on X-axis slide rail An end, and be attached with X-axis slide block, when adjust X-axis trimming part it is flexible when, to drive X-axis slide block to carry out X-axis side To movement；Y-axis trimming assembly includes Y-axis sliding rail, Y-axis sliding block and Y-axis trimming part, and Y-axis sliding rail is fixedly mounted on X-axis slide block Top surface, Y-axis sliding block is set to the top of Y-axis sliding rail, and can carry out Y direction along Y-axis sliding rail and move, the installation of Y-axis trimming part It is attached in an end of Y-axis sliding rail, and with Y-axis sliding block, when adjustment Y-axis trimming part is flexible, to drive Y-axis sliding block Carry out Y direction movement.

5. being used to transmit the intelligent feeder equipment of porcelain knob according to claim 1, it is characterised in that：The stock support includes Cross-brace plate and longitudinal supporting plate, cross-brace plate combine to form L-shaped structure with longitudinal supporting plate, cross-brace plate and longitudinal direction The middle part of support plate is equipped with reinforcing rib.

6. being used to transmit the intelligent feeder equipment of porcelain knob according to claim 5, it is characterised in that：The longitudinal supporting plate Lateral surface is equipped with Z axis trimming assembly, and Z axis trimming assembly includes Z axis slide rail, Z axis sliding block and Z axis trimming part, Z axis slide rail setting In the lateral surface of longitudinal supporting plate, Z axis sliding block is stuck in Z axis slide rail, and can be carried out Z-direction along Z axis slide rail and be moved, and Z axis is micro- It adjusts component to be mounted on the bottom end of Z axis slide rail, and is attached with Z axis sliding block, when adjustment Z axis trimming part is flexible, to band Dynamic Z axis sliding block carries out Z-direction movement.

7. being used to transmit the intelligent feeder equipment of porcelain knob according to claim 1, it is characterised in that：The feeder sleeve is by transparent Hose is constituted.

8. being used to transmit the intelligent feeder equipment of porcelain knob according to claim 1, it is characterised in that：The hollow tube is by organic Glass is constituted.