A kind of mechanical seal filler automatic compacting device
Technical field
The present invention relates to machinery equipment field, specially a kind of mechanical seal filler automatic compacting device.
Background technique
The existing equipment for carrying out packing seal has the disadvantage that 1. is inaccurate for the equipment positioning sealed
Really, it is easy to cause filler excessive, wastes filler, and will lead to the slight dislocation of the equipment sealed, influence equipment precision;2.
Existing packing seal equipment can not carry out quantitative offer filler, it may appear that two kinds of situations, a filler excess being to provide,
It will lead to waste of material in this way, second is that filler is very few, may result in poorly sealed, manufacture substandard products;3. existing water-tight equipment
The pressure of offer is smaller, and sealing effect is bad.
Summary of the invention
The purpose of the present invention is to provide a kind of mechanical seal filler automatic compacting devices, to solve in above-mentioned background technique
The problem of proposition.
To achieve the above object, the invention provides the following technical scheme: a kind of mechanical seal filler automatic compacting device, packet
Control cabinet, automated packing device, rotating extrusion device, extrusion die and main support column are included, the upper surface of the control cabinet is equipped with
Automated packing device and main support column;
The automated packing device includes shell, and the bottom of shell is fixedly installed filler device support frame, the shell
Middle part be equipped with shaft, the outside of shaft inside the housing is fixedly connected with sub-material piece, the armature spindle of the shaft and filler motor
It is connected by shaft coupling, the filler motor and controller are electrically connected, and the top of the shell is equipped with feed opening, the side of shell
While being provided with discharge port;
The controller is located at the inside of control cabinet, and the bottom of control cabinet, which is equipped with, squeezes motor, squeezes motor and controller
It is electrically connected, the shaft for squeezing motor is engaged by gear with the lower end of rotary drive pipe, and the outside of rotary drive pipe is logical
It crosses bearing and fixing piece rotation connects, the fixing piece is fixedly connected with the side wall of control cabinet, the inside of the rotary drive pipe
Equipped with transmission prism socket, the transmission prism receptacle interior is plugged with transmission prism, and upper end and the threaded post for being driven prism are solid
Fixed connection, the threaded post runs through the upper surface of control cabinet, and the joint of threaded post and control cabinet is equipped with internal screw thread, described
The top of threaded post is fixedly connected with rotating extrusion device;
The rotating extrusion device includes ball plate, and the upper surface of ball plate is equipped with ball grooves, is embedded with rolling in ball grooves
The outside of pearl, ball is located inside potassium steel support plate;
The upper side of potassium steel support plate and the downside of lower substrate are fixedly welded, and the downside of the lower substrate is fixed to be connected
It is connected to lower substrate connector, lower substrate connector is fixedly connected with a slide block, and sliding block is arranged in the inner orbit of lower substrate guide rail, and
And can slide, the lower substrate guide rail is fixedly connected on the side of main support column;
The top of the lower substrate is equipped with upper substrate, and the lower end surface of the upper substrate is fixedly connected with positioning column, in lower base
Plate position corresponding with positioning column is equipped with post holes, and positioning column is plugged in post holes, is equipped with and squeezes between the lower substrate and upper substrate
The upper surface of compression mould, upper substrate is fixedly connected with one end of upper substrate connector, the other end of upper substrate connector and main branch
The top of dagger is fixedly connected.
Preferably, the filler device support frame is prism structure, and the top of filler device support frame and control cabinet is mutual
It is vertically arranged, the top thickness of control cabinet is three times of sidewall thickness, the top use welding of support frame as described above and control cabinet
Mode is fixed.
Preferably, it is fixed by the way of welding between the shell and filler device support frame of the automated packing device,
The sub-material piece is equidistantly positioned at least provided with three in the outside of shaft, and the feed opening is bell shape, described
The upper end of discharge port is hollow inverted conical shape, and the lower end of discharge port is tubulose, and the position of discharge port is located at extrusion die
Centre.
Preferably, the transmission prism socket in the rotary drive pipe and transmission prism are corresponding cross, the biography
Dynamic prism is an integral molding structure with threaded post.
Preferably, the lower substrate and upper substrate are arranged in parallel, and the lower substrate, upper substrate are vertical with positioning column
The outboard end of setting, positioning column is rounded shapes, facilitates insertion into post holes and is positioned.
Preferably, there are two the extrusion die is set, it is separately connected lower substrate and upper substrate, connection type is connected using bolt
It connects, the side of the lower substrate connector and upper substrate connector is equipped with stiffening plate.
Preferably, 8051 monolithic of model of the servo motor of the model MR-J2S-1A of the filler motor, controller
Machine, the model Y80M1-2 for squeezing motor.
Compared with prior art, the beneficial effects of the present invention are: extrusion die, crawl quilt that can be stable is added in the present invention
The component of sealing, and can replace corresponding extrusion die according to different components, can adapt to various types of components,
By the way that positioning column is arranged in upper substrate, and corresponding positioning post holes is arranged in lower substrate, can carry out to upper substrate and lower substrate
It accurately positions, the precision of processing component is higher, and present invention adds automated packing device, the conveying for capableing of accurate quantification is filled out
Material, avoids the occurrence of waste or deficiency, by the way that transmission prism and threaded post is added, can be provided strong by squeezing motor rotation
Big extruding force makes the component better seal being extruded, and generally speaking, structure of the invention is simple, can accurately position
And bigger pressure is provided, it can be improved by the quality of sealed product, and accurately convey filler, be worth of widely use.
Detailed description of the invention
Fig. 1 is schematic structural view of the invention;
Fig. 2 is automated packing apparatus structure cross-sectional view;
Fig. 3 is automated packing device side view;
Fig. 4 is transmission prism structure schematic diagram;
Fig. 5 is rotary drive pipe structural schematic diagram;
Fig. 6 is rotating extrusion device structural schematic diagram;
Fig. 7 is lower substrate guide rail structure schematic diagram.
In figure: 1 control cabinet, 2 filler device support frames, 3 shells, 4 sub-material pieces, 5 feed openings, 6 discharge ports, 7 filler motors,
8 controllers, 9 squeeze motor, 10 rotary drive pipes, 11 fixing pieces, 12 transmission prism sockets, 13 transmission prisms, 14 threaded posts, 15
Rotating extrusion device, 151 ball plates, 152 balls, 153 potassium steel support plates, 16 lower substrates, 17 lower substrate connectors, 18 lower bases
Panel guide, 19 extrusion dies, 20 upper substrates, 21 positioning columns, 22 upper substrate connectors, 23 main support columns.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Fig. 1-7 is please referred to, the present invention provides a kind of technical solution: a kind of mechanical seal filler automatic compacting device, including
Control cabinet 1, automated packing device, rotating extrusion device 15, extrusion die 19 and main support column 23, the upper surface of control cabinet 1 are set
There are automated packing device and main support column 23;
Automated packing device includes shell 3, and the bottom of shell 3 is fixedly installed filler device support frame 2, automated packing dress
It is fixed by the way of welding between the shell 3 set and filler device support frame 2, filler device support frame 2 is prism structure, is filled out
Material device support stand 2 and the top of control cabinet 1 are arranged in a mutually vertical manner, and the top thickness of control cabinet 1 is three times of sidewall thickness, branch
Support 2 and the top of control cabinet 1 are fixed by the way of welding, in this way can be firmer, and the middle part of shell 3 is equipped with shaft,
Outside of the shaft inside shell 3 is fixedly connected with sub-material piece 4, and the armature spindle of the shaft and filler motor 7 is connected by shaft coupling
It connects, filler motor 7 and controller 8 are electrically connected, and the top of shell 3 is equipped with feed opening 5, and the side of shell 3 is provided with discharge port
6;Sub-material piece 4 is equidistantly positioned at least provided with three in the outside of shaft, and feed opening 5 is bell shape, discharge port 6
Upper end be hollow inverted conical shape, the lower end of discharge port 6 is tubulose.By the way that sub-material piece 4 is arranged, can quantify
Controller 8 is located at the inside of control cabinet 1, and the bottom of control cabinet 1, which is equipped with, squeezes motor 9, squeezes motor 9 and controller
8 are electrically connected, and the shaft for squeezing motor 9 is engaged by gear with the lower end of rotary drive pipe 10, the outside of rotary drive pipe 10
It is connected by bearing and the rotation of fixing piece 11, fixing piece 11 is fixedly connected with the side wall of control cabinet 1, the inside of rotary drive pipe 10
It equipped with transmission prism socket 12, is driven inside prism socket 12 and is plugged with transmission prism 13, be driven upper end and the screw thread of prism 13
Column 14 is fixedly connected, and threaded post 14 runs through the upper surface of control cabinet 1, and the joint of threaded post 14 and control cabinet 1 is equipped with interior
The top of screw thread, threaded post 14 is fixedly connected with rotating extrusion device 15;12 He of transmission prism socket in rotary drive pipe 10
Transmission prism 13 is corresponding cross, and transmission prism 13 is an integral molding structure with threaded post 14, and integrally formed structure is strong
Du Genggao accomplishes that sealing effect is more preferable so as to provide biggish extruding force.
Rotating extrusion device 15 includes ball plate 151, and the upper surface of ball plate 151 is equipped with ball grooves, embeds in ball grooves
There is ball 152, the outside of ball 152 is located inside potassium steel support plate 153;
The upper side of potassium steel support plate 153 and the downside of lower substrate 16 are fixedly welded, and the downside of lower substrate 16 is solid
Surely it is connected with lower substrate connector 17, lower substrate connector 17 is fixedly connected with a slide block, and lower substrate guide rail 18 is arranged in sliding block
It in inner orbit, and can slide, lower substrate guide rail 18 is fixedly connected on the side of main support column 23.
The top of lower substrate 16 is equipped with upper substrate 20, and the lower end surface of upper substrate 20 is fixedly connected with positioning column 21, in lower base
The position corresponding with positioning column 21 of plate 16 is equipped with post holes, and positioning column 21 is plugged in post holes, and lower substrate 16 and upper substrate 20 are mutual
It being arranged in parallel, lower substrate 16, upper substrate 20 are vertically arranged with positioning column 21, and the outboard end of positioning column 21 is rounded shapes,
It facilitates insertion into post holes to be positioned, to accurately be squeezed, processing component is sealed.
Extrusion die 19 is equipped between lower substrate 16 and upper substrate 20, and the position of discharge port 6 is located at extrusion die 19
Centre, the upper surface of upper substrate 20 is fixedly connected with one end of upper substrate connector 22, the other end of upper substrate connector 22
It is fixedly connected with the top of main support column 23, there are two extrusion die 19 is set, is separately connected lower substrate 16 and upper substrate 20, connected
Mode is connected by screw bolts, and the side of lower substrate connector 17 and upper substrate connector 22 is equipped with stiffening plate.Filler motor 7
The servo motor of model MR-J2S-1A, controller 8 8051 single-chip microcontroller of model, squeeze the model Y80M1-2 of motor 9.
It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with
A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding
And modification, the scope of the present invention is defined by the appended.