CN205326330U - Two -way extrusion device with bearing structure - Google Patents

Abstract

The utility model relates to a paper product printing equipment technical field especially relates to a two -way extrusion device with bearing structure, including the main frame, still including set up in first motor, a pressing member, the 2nd pressing member of the upper end of main frame and set up the transfer unit on the lateral wall of establishing the main frame, a pressing member includes mounting disc, outrigger, pressing piece, first transmission shaft, receives soon, locking piece, connecting rod and squeeze roll, in the lower part of mounting disc is concave to be equipped with first inserting groove, along receive soon radially wear to be equipped with in it the locking hole, the locking piece is including location lagging and sub - insertion rod, in the concave installation annular that is equipped with in upper portion of outrigger.

Description

A kind of Bidirectional-squeezing device with supporting construction

Technical field

This utility model relates to printing by paper equipment technical field, particularly relates to a kind of Bidirectional-squeezing device with supporting construction。

Background technology

Printing by paper production process generally adopt extrusion equipment process。But, the extrusion equipment being traditionally used for producing regulates inconvenience, inconvenient operation, extrudes inefficiency, extrudes second-rate。Accordingly, it is desirable to provide a kind of easy to operate, easy to adjust, extruding efficiency is high, extrudes the measured extrusion equipment of matter。

Utility model content

The purpose of this utility model is to provide a kind of Bidirectional-squeezing device with supporting construction, solves traditional extrusion equipment and regulates inconvenience, the problem of inconvenient operation。

This utility model be the technical scheme is that by its technical problem of solution

A kind of Bidirectional-squeezing device with supporting construction, including mainframe, also include being arranged at the first motor of the upper end of described mainframe, rotation be located at described first motor end the first extruder member, be arranged at the bottom of described mainframe and be in second extruder member of downside of described first extruder member and the transfer unit being arranged on the sidewall of mainframe；

Described first extruder member includes mounting disc, be arranged at the outrigger of the upper end of described mounting disc, be arranged at the pressing piece of the upper end of described outrigger, first power transmission shaft of upper end of described pressing piece is located in rotation, rotation be located at described first power transmission shaft upper end the ball that spins, be plugged in described in spin in ball locking piece, the connecting rod of edge of lower end being arranged at described mounting disc and rotation be located at the compression roller between two described connecting rods；

Described mounting disc is discoid；Be arranged with the first inserting groove in the bottom of described mounting disc, described first inserting groove and described connecting rod adapt；Described connecting rod is arranged relative to the end slope of described mounting disc；

The described ball that spins is spherical；Radial direction along the described ball that spins is equipped with lock hole, described lock hole and described locking piece in the inner and adapts；Described locking piece includes location cage plate and revolves the sub-shank being located in the cage plate of described location；Described sub-shank is cylindric；

Described first power transmission shaft is cylindric；Be arranged with installation annular groove in the top of described outrigger, described installation annular groove and described pressing piece adapt；

It is additionally provided with supporting construction inside described mainframe, described supporting construction includes upper backup pad and lower supporting plate, described upper backup pad and lower supporting plate are rectangular structure, the width of described upper backup pad keeps consistent with the width of lower supporting plate, the height of described upper backup pad is more than the height of lower supporting plate, by glue adhesion between upper backup pad and lower supporting plate, described upper backup pad is internally provided with several bracers, described bracer is chondritic, the top and bottom of described bracer are provided with spring, described spring one end is connected with a bracer, the other end is connected with upper backup pad inwall, it is additionally provided with support column inside described upper backup pad, described support column is Collapsible structure, described support column is arranged in a crossed manner with a bracer, and keeping parallelism, it is additionally provided with elastic plate inside described lower supporting plate, described elastic plate is wave-like, and hold out against with lower supporting plate inwall and to be connected；

Wherein, described second extruder member includes fixed disk, the push rod of the upper end of described fixed disk is located in axially rotation along described fixed disk, rotation be located at described push rod upper end load bearing seat, be arranged at the outer cylinder body of the upside of described load bearing seat, interior integration member that rotation is located in described outer cylinder body, radial direction along described interior integration member are arranged in the interior compressor arm in described interior integration member and are arranged at the end of described interior compressor arm and are pressed in the liner plate on the inwall of described outer cylinder body。

Wherein, described fixed disk is discoid, is equipped with the first installing hole axially along in the inner, and described first installing hole and described push rod adapt；Described push rod is cylindric；

Be arranged with the first installation groove in the top of described load bearing seat, described first installation groove and described outer cylinder body adapt；Described interior integration member is spherical, and the radial direction along described interior integration member is equipped with interior compression pilot hole in the inner, and described interior compression pilot hole and described interior compressor arm adapt；

Inwall in described outer cylinder body is concavely provided with pressure groove, described pressure groove and described liner plate and adapts；In described liner plate, it is equipped with the first hold-down apertures, described first hold-down apertures and described interior compressor arm adapt。

The utility model has the advantage of:

The Bidirectional-squeezing device with supporting construction of the present utility model, including mainframe, also include being arranged at the first motor of the upper end of described mainframe, rotation be located at described first motor end the first extruder member, be arranged at the bottom of described mainframe and be in second extruder member of downside of described first extruder member and the transfer unit being arranged on the sidewall of mainframe；

Described first extruder member includes mounting disc, be arranged at the outrigger of the upper end of described mounting disc, be arranged at the pressing piece of the upper end of described outrigger, first power transmission shaft of upper end of described pressing piece is located in rotation, rotation be located at described first power transmission shaft upper end the ball that spins, be plugged in described in spin in ball locking piece, the connecting rod of edge of lower end being arranged at described mounting disc and rotation be located at the compression roller between two described connecting rods；

Described mounting disc is discoid；Be arranged with the first inserting groove in the bottom of described mounting disc, described first inserting groove and described connecting rod adapt；Described connecting rod is arranged relative to the end slope of described mounting disc；

The described ball that spins is spherical；Radial direction along the described ball that spins is equipped with lock hole, described lock hole and described locking piece in the inner and adapts；Described locking piece includes location cage plate and revolves the sub-shank being located in the cage plate of described location；Described sub-shank is cylindric；

Described first power transmission shaft is cylindric；Be arranged with installation annular groove in the top of described outrigger, described installation annular groove and described pressing piece adapt；The Bidirectional-squeezing device with supporting construction of the present utility model is easy to operate, easy to adjust, and extruding efficiency is high, and extruding quality is good。

Accompanying drawing explanation

Fig. 1 is the front view of the Bidirectional-squeezing device with supporting construction of the present utility model。

Fig. 2 is the front view of the first extruder member of the present utility model。

Fig. 3 is the front view of the second extruder member of the present utility model。

Fig. 4 is the structural representation of supporting construction of the present utility model。

1-mainframe；11-upper backup pad；12-lower supporting plate；13-spring；14-props up bracer；15-support column；16-elastic plate；2-the first motor；3-the first extruder member；31-locking piece；32-spins ball；33-the first power transmission shaft；34-pressing piece；35-outrigger；36-mounting disc；37-connecting rod；38-compression roller；4-the second extruder member；41-outer cylinder body；Integration member in 42-；Compressor arm in 43-；44-liner plate；45-load bearing seat；46-fixed disk；47-push rod；5-transfer unit。

Detailed description of the invention

For the technological means making this utility model realize, creation characteristic, reach purpose and effect and be easy to understand, below in conjunction with diagram and specific embodiment, this utility model is expanded on further。

In conjunction with Fig. 1 to Fig. 4, the Bidirectional-squeezing device with supporting construction of the present utility model is described in detail。

The Bidirectional-squeezing device with supporting construction of the present utility model, including mainframe 1, also include being arranged at the first motor 2 of the upper end of described mainframe 1, rotation be located at described first motor 2 end the first extruder member 3, be arranged at the bottom of described mainframe 1 and be in second extruder member 4 of downside of described first extruder member 3 and the transfer unit 5 being arranged on the sidewall of mainframe 1；

Described first extruder member 3 includes mounting disc 36, be arranged at the outrigger 35 of the upper end of described mounting disc 36, be arranged at the pressing piece 34 of the upper end of described outrigger 35, first power transmission shaft 33 of upper end of described pressing piece 34 is located in rotation, rotation be located at described first power transmission shaft 33 upper end the ball 32 that spins, be plugged in described in spin in ball 32 locking piece 31, the connecting rod 37 of edge of lower end being arranged at described mounting disc 36 and the rotation compression roller 38 of being located between two described connecting rods 37；

Described mounting disc 36 is discoid；Be arranged with the first inserting groove in the bottom of described mounting disc 36, described first inserting groove and described connecting rod 37 adapt；Described connecting rod 37 is arranged relative to the end slope of described mounting disc 36；

The described ball 32 that spins is for spherical；Radial direction along the described ball 32 that spins is equipped with lock hole, described lock hole and described locking piece 31 in the inner and adapts；Described locking piece 31 includes location cage plate and revolves the sub-shank being located in the cage plate of described location；Described sub-shank is cylindric；

Described first power transmission shaft 33 is cylindric；Be arranged with installation annular groove in the top of described outrigger 35, described installation annular groove and described pressing piece 34 adapt；

Described mainframe 1 is internal is additionally provided with supporting construction, described supporting construction includes upper backup pad 11 and lower supporting plate 12, described upper backup pad 11 is rectangular structure with lower supporting plate 12, the width of described upper backup pad 11 keeps consistent with the width of lower supporting plate 12, the height of described upper backup pad 11 is more than the height of lower supporting plate 12, by glue adhesion between upper backup pad 11 and lower supporting plate 12, described upper backup pad 11 is internally provided with several bracers 14, described bracer 14 is chondritic, the top and bottom of described bracer 14 are provided with spring 13, described spring 13 one end is connected with a bracer 14, the other end is connected with upper backup pad 11 inwall, described upper backup pad 11 is internal is additionally provided with support column 15, described support column 15 is Collapsible structure, described support column 15 is arranged in a crossed manner with a bracer 14, and keeping parallelism, described lower supporting plate 12 is internal is additionally provided with elastic plate 16, described elastic plate 16 is wave-like, and hold out against with lower supporting plate 12 inwall and to be connected。

Described second extruder member 4 includes fixed disk 46, the push rod 47 of the upper end of described fixed disk 46 is located in axially rotation along described fixed disk 46, the load bearing seat 45 of the upper end of described push rod 47 is located in rotation, it is arranged at the outer cylinder body 41 of the upside of described load bearing seat 45, the interior integration member 42 in described outer cylinder body 41 is located in rotation, radial direction along described interior integration member 42 is arranged in the interior compressor arm 43 in described interior integration member 42 and is arranged at the end of described interior compressor arm 43 and is pressed in the liner plate 44 on the inwall of described outer cylinder body 41。

Described fixed disk 46 is discoid, is equipped with the first installing hole axially along in the inner, and described first installing hole and described push rod 47 adapt；Described push rod 47 is cylindric；

Be arranged with the first installation groove in the top of described load bearing seat 45, described first installation groove and described outer cylinder body 41 adapt；Described interior integration member 42 is spherical, and the radial direction along described interior integration member 42 is equipped with interior compression pilot hole in the inner, and described interior compression pilot hole and described interior compressor arm 43 adapt；

Inwall in described outer cylinder body 41 is concavely provided with pressure groove, described pressure groove and described liner plate 44 and adapts；In described liner plate 44, it is equipped with the first hold-down apertures, described first hold-down apertures and described interior compressor arm 43 adapt。

Of the present utility model ultimate principle, principal character and of the present utility model advantage have more than been shown and described。Skilled person will appreciate that of the industry; this utility model is not restricted to the described embodiments; described in above-described embodiment and description is that principle of the present utility model is described; under the premise without departing from this utility model spirit and scope, this utility model also has various changes and modifications, and these changes and improvements both fall within the scope of claimed this utility model。This utility model claims scope and is defined by appending claims and equivalent thereof。

Claims (3)

1. a Bidirectional-squeezing device with supporting construction, including mainframe (1), it is characterised in that: also include being arranged at first motor (2) of the upper end of described mainframe (1), rotation be located at described first motor (2) end the first extruder member (3), be arranged at the bottom of described mainframe (1) and be in second extruder member (4) of downside of described first extruder member (3) and the transfer unit (5) being arranged on the sidewall of mainframe (1)；

Described first extruder member (3) includes mounting disc (36), it is arranged at the outrigger (35) of the upper end of described mounting disc (36), it is arranged at the pressing piece (34) of the upper end of described outrigger (35), first power transmission shaft (33) of the upper end of described pressing piece (34) is located in rotation, the ball that spins (32) of the upper end of described first power transmission shaft (33) is located in rotation, spin described in being plugged in the locking piece (31) in ball (32), it is arranged at the connecting rod (37) of the edge of the lower end of described mounting disc (36) and compression roller (38) that rotation is located between two described connecting rods (37)；

Described mounting disc (36) is for discoid；It is arranged with the first inserting groove, described first inserting groove and described connecting rod (37) to adapt in the bottom of described mounting disc (36)；Described connecting rod (37) is arranged relative to the end slope of described mounting disc (36)；

The described ball that spins (32) is for spherical；Radial direction along the described ball that spins (32) is equipped with lock hole, described lock hole and described locking piece (31) in the inner and adapts；Described locking piece (31) includes location cage plate and revolves the sub-shank being located in the cage plate of described location；Described sub-shank is cylindric；

Described first power transmission shaft (33) is for cylindric；It is arranged with installation annular groove, described installation annular groove and described pressing piece (34) to adapt in the top of described outrigger (35)；

Described mainframe (1) is internal is additionally provided with supporting construction, described supporting construction includes upper backup pad (11) and lower supporting plate (12), described upper backup pad (11) and lower supporting plate (12) are rectangular structure, the width of described upper backup pad (11) keeps consistent with the width of lower supporting plate (12), the height of described upper backup pad (11) is more than the height of lower supporting plate (12), by glue adhesion between upper backup pad (11) and lower supporting plate (12), described upper backup pad (11) is internally provided with several bracers (14), described bracer (14) is chondritic, the top and bottom of described bracer (14) are provided with spring (13), described spring (13) one end is connected with a bracer (14), the other end is connected with upper backup pad (11) inwall, described upper backup pad (11) is internal is additionally provided with support column (15), described support column (15) is Collapsible structure, described support column (15) is arranged in a crossed manner with a bracer (14), and keeping parallelism, described lower supporting plate (12) is internal is additionally provided with elastic plate (16), described elastic plate (16) is wave-like, and hold out against with lower supporting plate (12) inwall and to be connected。

2. a kind of Bidirectional-squeezing device with supporting construction according to claim 1, it is characterized in that: described second extruder member (4) includes fixed disk (46), the push rod (47) of the upper end of described fixed disk (46) is located in axially rotation along described fixed disk (46), the load bearing seat (45) of the upper end of described push rod (47) is located in rotation, it is arranged at the outer cylinder body (41) of the upside of described load bearing seat (45), the interior integration member (42) in described outer cylinder body (41) is located in rotation, radial direction along described interior integration member (42) is arranged in the interior compressor arm (43) in described interior integration member (42) and is arranged at the end of described interior compressor arm (43) and the liner plate (44) being pressed on the inwall of described outer cylinder body (41)。

3. a kind of Bidirectional-squeezing device with supporting construction according to claim 2, it is characterized in that: described fixed disk (46) is for discoid, it is equipped with the first installing hole, described first installing hole and described push rod (47) axially along in the inner to adapt；Described push rod (47) is for cylindric；

Be arranged with the first installation groove in the top of described load bearing seat (45), described first installation groove and described outer cylinder body (41) adapt；Described interior integration member (42) is for spherical, and the radial direction along described interior integration member (42) is equipped with interior compression pilot hole in the inner, and described interior compression pilot hole and described interior compressor arm (43) adapt；

Inwall in described outer cylinder body (41) is concavely provided with pressure groove, described pressure groove and described liner plate (44) and adapts；In described liner plate (44), it is equipped with the first hold-down apertures, described first hold-down apertures and described interior compressor arm (43) adapt。