CN202529850U

CN202529850U - Compression device for quickly forming dry ice

Info

Publication number: CN202529850U
Application number: CN2012200345569U
Authority: CN
Inventors: 陈水宣; 吴立明; 洪海泳; 王尚达
Original assignee: Xiamen University of Technology
Current assignee: Xiamen University of Technology
Priority date: 2012-02-03
Filing date: 2012-02-03
Publication date: 2012-11-14
Anticipated expiration: 2022-02-03

Abstract

The utility model discloses a compression device for quickly forming dry ice. The compression device comprises a compression mechanism, a jacking mechanism, a control device, a conveying mechanism and a pushing mechanism, wherein the compression mechanism comprises upper dies, a lower die and a first power device capable of driving the upper dies to move up and down; the upper dies have a bump shape; the lower die is provided with grooves and matched with the upper dies; the jacking mechanism comprises jacking plates and a second power device capable of driving the jacking plates to act up and down; the jacking plates are positioned below the grooves of the lower die and can stretch into the grooves; the control device is electrically connected with each power device to automatically control each power device; and all parts are arranged on a frame. The parts of the compression device can be mutually matched through the control device, the dry ice is efficiently subjected to compression forming, and the whole process can be automatically controlled.

Description

The compression set of dry ice rapid shaping

Technical field

The utility model relates to a kind of with the caked device of dry ice, specifically is meant a kind of compression set of dry ice rapid shaping.

Background technology

At present, Dry ice cleaning can be widely used in a plurality of fields such as tire, casting, mould, rubber, bakery, aviation, electric power, petrochemical industry, automotive upholstery production, for enterprise has practiced thrift a large amount of cleaning charge usefulness, for environment has brought huge benefits.Used dry ice medium was to produce solid dry ice particles through dry ice pelletizer during dry ice blasting cleaned, and these dry ice particles can be used up at once, also can be stored in the insulation can subsequent use.These particle general diameters are 3mm, and length is 2.5mm-10mm.Demand to dry ice is very big in the market; Most of dry ice need pass through transportation and just can come into operation; And dry ice is generally particulate state at the manufacturing initial stage, and surface-area is big, volatile, and diffusing shape dry ice particles is unfavorable for carrying; Also be unfavorable for the utilization of storage space, so need granular dry ice be compressed into bulk usually.Present known dry ice compressor function is all comparatively single, is total man worker's operation basically, and shaping speed is slow, and operational paradigm is low, therefore need improve.

The utility model content

In order to overcome the low excessively deficiency of efficient in the existing dry ice compression process; The utility model technical problem to be solved is to provide a kind of compression set of dry ice rapid shaping; Utilize this device can not only the dry ice particles of the shape that looses be compressed into bulk; And can realize the robotization action through electrical control, dry ice compressed moulding speed is fast, and efficient is high.

For solving the problems of the technologies described above, the technical solution of the utility model is:

A kind of compression set of dry ice rapid shaping comprises compressing mechanism, material jacking mechanism and gear; This compressing mechanism comprises mold, bed die and can drive first PWR PLT that mold moves up and down, and this mold is the projection shape, and this bed die is provided with groove and cooperates with mold; This material jacking mechanism comprises top board and can drive second PWR PLT of top board knee-action that this top board is positioned at the groove below of said bed die and can stretches in it; This gear is electrically connected with each PWR PLT to realize automatic control; Above-mentioned all parts are installed on the frame.

Said compression set further comprises a haul mechanism, and this haul mechanism comprises a pair ofly having press strip, a pair of slide rail of chute and can drive the 3rd PWR PLT that the action of said bed die is pushed into the compression zone with bed die or releases demoulding position; This slide rail is slidingly installed in the said chute and with said bed die and is fixed together; Said material jacking mechanism is positioned at the below, demoulding position that said bed die is pushed out; The 3rd PWR PLT also are electrically connected with said gear.

Said bed die heading both sides are respectively arranged with prelocalization piece and back preset pieces.

Said compression set further comprises a pusher, and this pusher comprises charging ram, guide rail and can drive the 4th PWR PLT of charging ram action; This charging ram across be pushed out at said bed die the position above, which is provided with guide groove and be slidingly installed on the said guide rail; The 4th PWR PLT also are electrically connected with said gear.

Described pusher side is provided with the chute that can make the block dry ice after the moulding skid off.

Said each PWR PLT are hydro-cylinder or pneumatic cylinder.

Said first PWR PLT are first hydro-cylinder, and this first hydro-cylinder is fixed on the upper plate, and upper plate is fixed on the column, and the expansion link of first hydro-cylinder connects in the push pedal, and this push pedal is slidingly installed on the column, and described mold then is fixed in this push pedal.

Described bed die is arranged on the pedestal bottom plate, and said column also is fixed on this pedestal bottom plate, and this pedestal bottom plate then is fixed on the support.

Said first PWR PLT are first hydro-cylinder, and this first hydro-cylinder is fixed on the upper plate, and upper plate is fixed on the column, and the expansion link of first hydro-cylinder connects in the push pedal, and this push pedal is slidingly installed on the column, and described mold then is fixed in this push pedal; Described bed die is arranged on the pedestal bottom plate, and said column also is fixed on this pedestal bottom plate, and this pedestal bottom plate then is fixed on the support; Said haul mechanism or pusher are fixed on the said pedestal bottom plate.

Described top board is arranged within the groove as the bottom surface of said groove; Perhaps top board is that stretch in the groove in the shaft-like hole that ejects from said groove floor.

Said second PWR PLT are second hydro-cylinder; This second hydro-cylinder is fixed on the lower steel plate, and this lower steel plate is fixed on the guidepost, and the expansion link of second hydro-cylinder connects one and ejects base plate, and this ejects base plate and is slidingly installed on the said guidepost, and said top board then is fixed on this and ejects on the base plate.

The groove of described mold and bed die is provided with many groups.

After adopting such scheme; Because the utility model is provided with compressing mechanism, throwing mechanism and utilizes gear to control automatically again; And many group compression moulds can be set; Can reach will loose the fast dry ice particles of shape of realization like this and be compressed into the purpose of block dry ice, dry ice compressed moulding speed is fast, and efficient is high.And again through haul mechanism and pusher are set, utilize electrical control can realize the each several part cooperative cooperating, the course of conveying of dry ice lumps can be saved manpower after the completion moulding, improves the dry ice shaping efficiency, realizes whole-course automation control.

Description of drawings

Fig. 1 is that front view is always schemed in the assembling of the utility model;

Fig. 2 is that rear view is always schemed in the assembling of the utility model;

Fig. 3 is the structural representation of the utility model compressing mechanism;

Fig. 4 is the top major parts structural map of the utility model compressing mechanism;

Fig. 5 is the structural map of the utility model compressing mechanism bottom and material jacking mechanism;

Fig. 6 is the structural representation of the utility model material jacking mechanism;

Fig. 7 is the structural representation of the utility model haul, pusher.

Embodiment

Below in conjunction with accompanying drawing and specific embodiment the utility model is done further to detail.

What the utility model disclosed is a kind of compression set of dry ice rapid shaping, to shown in Figure 7, is the preferred embodiment of the utility model like Fig. 1.Described dry ice moulding compression set comprises compressing mechanism 1, material jacking mechanism 2 and gear 3, also can further comprise haul mechanism 4 or pusher 5 and in order to the frame 6 of fixing each mechanism.Wherein:

Described compressing mechanism 1 mainly comprises mold 11, bed die 12 and can drive first PWR PLT that mold 11 moves up and down (consult Fig. 3,4, shown in 5).This mold 11 is the projection shape, and this bed die 12 is provided with groove 121 and can cooperates with protruding blocky mold 11.Described first PWR PLT can drive the device of a mechanism action for hydro-cylinder or pneumatic cylinder etc., and in the present embodiment, these first PWR PLT are first hydro-cylinder 13.First hydro-cylinder 13 drives mold 11 actions for ease; This first hydro-cylinder 13 can be fixed on the upper plate 14; Upper plate 14 is fixed on the column 15; The expansion link of first hydro-cylinder 13 connects in the push pedal 16, and this push pedal 16 is slidingly installed on the

column

15, and 11 of described molds are fixed in this push pedal 16.12 of described bed dies can be arranged on the pedestal bottom plate 17, and said column 15 also can be fixed on this

pedestal bottom plate

17, and 17 of this pedestal bottom plates are fixed on the said support 6, and said bed die 12 and column 15 also can directly be fixed on the said support 6.In addition, the groove 121 of described mold 11 and bed die can be provided with many groups, to improve the manometric efficiency of dry ice, in the present embodiment, is provided with four groups of moulds.

Described material jacking mechanism 2 mainly comprises top board 21 and can drive second PWR PLT of top board 21 knee-actions (cooperating Fig. 5 and shown in Figure 6).This top board 21 is positioned at groove 121 belows of said bed die 12 and stretches in it.The bottom surface that described top board 21 can be used as said groove 121 is arranged within the groove 121, i.e. structure for this reason embodiment illustrated in fig. 6; Also can be merely shaft-like top board and stretch in (this by way of example is not given diagram) in the groove from the hole that ejects of said groove 121 bottom surfaces.Described second PWR PLT are identical with said first PWR PLT, also can drive the device of a mechanism action for hydro-cylinder or pneumatic cylinder etc., and in the present embodiment, these second PWR PLT are second hydro-cylinder 22.Second hydro-cylinder 22 drives top board 21 actions for ease; This second hydro-cylinder 22 can be fixed on the lower steel plate 23; This lower steel plate 23 is fixed on the guidepost 24; The expansion link of second hydro-cylinder 22 connects one and ejects base plate 25, and this ejects base plate 25 and is slidingly installed on the

said guidepost

24, and 21 on said top board is fixed on this and ejects on the base plate 25.

Described gear 3 is that each hydro-cylinder is electrically connected with each above-mentioned or following PWR PLT, in order to realize automatic control.

Described haul 4 Fig. 3 that cooperate simultaneously as shown in Figure 7 of mechanism, the purpose that this mechanism further is set is: can conveniently dry ice particles be thrown in the bed die 12, and can conveniently take out being molded into blocky dry ice.Described haul mechanism 4 mainly comprises a pair of the 3rd PWR PLT that have press strip 41, a pair of slide rail 42 of chute 411 and can drive said bed die 12 actions; This press strip 41 can be fixed on the described

pedestal bottom plate

17, and 42 of this slide rails are slidingly installed in the said chute 411 and with said bed die 12 and are fixed together.Described the 3rd PWR PLT are identical with above-mentioned two PWR PLT, can be hydro-cylinder or pneumatic cylinder, and present embodiment is that the expansion link 431 of the 3rd hydro-cylinder 43, the three hydro-cylinders 43 is fixedly connected with said bed die 12.In addition, prelocalization piece 44 and back preset pieces 45 can be set respectively in said bed die 12 heading both sides, so that the position that seesaws of location bed die 12.Added after this haul mechanism 4,2 of said material jacking mechanisms are positioned at the below, position that bed die 12 is pushed out, when 17 of described pedestal bottom plates are pushed into mold 11 belows as bed die 12, the bottom surface of said groove 121.If haul mechanism 4 is not set, then described material jacking mechanism 2 is positioned at the below of whole compressor structure 1.

Continue to cooperate Fig. 3 and shown in Figure 7, described pusher 5 mainly comprises charging ram 51, guide rail 52 and can drive the 4th PWR PLT of charging ram 51 actions.This charging ram 51 across be pushed out at said bed die 12 position above, which is provided with guide groove 511 and be slidingly installed on the said guide rail 52.Described the 4th PWR PLT are identical with each above-mentioned PWR PLT; Can drive the device of a mechanism action equally for hydro-cylinder or pneumatic cylinder etc.; Present embodiment is that the expansion link of the 4th hydro-cylinder 53, the four hydro-cylinders 53 is fixedly connected with said charging ram 51.Described pusher 5 also can be fixed on the said pedestal bottom plate 17, perhaps is fixed on the support 6 of whole compression set.The effect of said pusher 5 is: can further cooperate 4 actions of haul mechanism, unnecessary dry ice particles is scraped, again the dry ice lumps after the moulding released the WS, to realize omnidistance robotization action.Can be provided with chute 7 in pusher 5 sides again, the dry ice lumps after the moulding can skid off through this chute 7, gets in the collection box (not shown), perhaps directly packs.

The principle of work of the described dry ice rapid shaping of the utility model compression set is: this equipment is initial in work, and 43 actions of described the 3rd hydro-cylinder are released the demoulding position at material jacking mechanism 2 places with said bed die 12, start working then; The dry ice particles of specified amount is poured in the groove 121 of bed die 12 into the control automatically of start-up control device 3 beginnings afterwards; 53 actions of described the 4th hydro-cylinder of gear 3 controls drive said charging ram 51, and charging ram 51 overflows groove 121 outer dry ice particles with bed die 12 and scrapes; Gear 3 is controlled 43 actions of the 3rd hydro-cylinder again, and the 3rd hydro-cylinder 43 is withdrawn into compression zone (being mold 11 belows) with bed die 12 along chute 411 to be stopped; And then control 13 actions of first hydro-cylinder, and drive mold 11 downward motions, the dry ice particles in the bottom bed die 12 is compressed into block dry ice; Control 13 actions of first hydro-cylinder afterwards once more, mold 11 is moved upward; Control the 3rd hydro-cylinder 43 again bed die 12 (include moulding after block dry ice) is released, arrive demoulding position; At this moment, described second hydro-cylinder 22 is controlled and move, and drives top board 21 from the groove 121 of bed die 12, to eject to the upper surface a little more than bed die 12 from the bottom with block dry ice; 53 actions of the 4th hydro-cylinder drive charging ram 51 the block dry ice after the moulding are pushed in the tilting chute 7, and the block dry ice after the moulding gets into collection box or next flow process, accomplishes a do action to this.

The above is merely the preferred embodiment of the utility model, is not to be used for limiting the scope that the utility model is implemented.So according to the scope and spiritual variation or the modification of being done of the utility model, all should be included within the claim of the utility model in every case.

Claims

1. the compression set of a dry ice rapid shaping is characterized in that: comprise compressing mechanism, material jacking mechanism and gear; This compressing mechanism comprises mold, bed die and can drive first PWR PLT that mold moves up and down, and this mold is the projection shape, and this bed die is provided with groove and cooperates with mold; This material jacking mechanism comprises top board and can drive second PWR PLT of top board knee-action that this top board is positioned at the groove below of said bed die and can stretches in it; This gear is electrically connected with each PWR PLT to realize automatic control; Above-mentioned all parts are installed on the frame.

2. according to the compression set of the said dry ice rapid shaping of claim 1; It is characterized in that: further comprise a haul mechanism, this haul mechanism comprises a pair ofly having press strip, a pair of slide rail of chute and can drive the 3rd PWR PLT that the action of said bed die is pushed into the compression zone with bed die or releases demoulding position; This slide rail is slidingly installed in the said chute and with said bed die and is fixed together; Said material jacking mechanism is positioned at the below, demoulding position that said bed die is pushed out; The 3rd PWR PLT also are electrically connected with said gear.

3. according to the compression set of the said dry ice rapid shaping of claim 2, it is characterized in that: said bed die heading both sides are respectively arranged with prelocalization piece and back preset pieces.

4. according to the compression set of the said dry ice rapid shaping of claim 2, it is characterized in that: further comprise a pusher, this pusher comprises charging ram, guide rail and can drive the 4th PWR PLT of charging ram action; This charging ram across be pushed out at said bed die the position above, which is provided with guide groove and be slidingly installed on the said guide rail; The 4th PWR PLT also are electrically connected with said gear.

5. according to the compression set of the said dry ice rapid shaping of claim 4, it is characterized in that: described pusher side is provided with the chute that can make the block dry ice after the moulding skid off.

6. according to the compression set of the said dry ice rapid shaping of one of claim 1-5, it is characterized in that: said each PWR PLT are hydro-cylinder or pneumatic cylinder.

7. according to the compression set of the said dry ice rapid shaping of one of claim 1-5; It is characterized in that: said first PWR PLT are first hydro-cylinder; This first hydro-cylinder is fixed on the upper plate, and upper plate is fixed on the column, and the expansion link of first hydro-cylinder connects in the push pedal; This push pedal is slidingly installed on the column, and described mold then is fixed in this push pedal.

8. according to the compression set of the said dry ice rapid shaping of claim 7, it is characterized in that: described bed die is arranged on the pedestal bottom plate, and said column also is fixed on this pedestal bottom plate, and this pedestal bottom plate then is fixed on the support.

9. according to the compression set of claim 4 or 5 said dry ice rapid shapings; It is characterized in that: said first PWR PLT are first hydro-cylinder; This first hydro-cylinder is fixed on the upper plate, and upper plate is fixed on the column, and the expansion link of first hydro-cylinder connects in the push pedal; This push pedal is slidingly installed on the column, and described mold then is fixed in this push pedal; Described bed die is arranged on the pedestal bottom plate, and said column also is fixed on this pedestal bottom plate, and this pedestal bottom plate then is fixed on the support; Said haul mechanism or pusher are fixed on the said pedestal bottom plate.

10. according to the compression set of the said dry ice rapid shaping of one of claim 1-5, it is characterized in that: described top board is arranged within the groove as the bottom surface of said groove; Perhaps top board is that stretch in the groove in the shaft-like hole that ejects from said groove floor.

11. the compression set according to the said dry ice rapid shaping of one of claim 1-5 is characterized in that: said second PWR PLT are second hydro-cylinder; This second hydro-cylinder is fixed on the lower steel plate, and this lower steel plate is fixed on the guidepost, and the expansion link of second hydro-cylinder connects one and ejects base plate, and this ejects base plate and is slidingly installed on the said guidepost, and said top board then is fixed on this and ejects on the base plate.

12. the compression set according to the said dry ice rapid shaping of one of claim 1-5 is characterized in that: the groove of described mold and bed die is provided with many groups.