CN206456816U - A kind of high intensity supporting mechanism of pneumatic transporting ash can - Google Patents

Abstract

The utility model discloses a kind of high intensity supporting mechanism of pneumatic transporting ash can, including defeated ash can and firm banking, firm banking lower end is fixed with supporting table, supporting table bottom is located in set platform, cover platform side wall and be provided with fixing groove, fixing groove bottom is fixedly connected by some high-strength springs with supporting table bottom, and supporting table surrounding is fixed with some damping blocks, and damping block is located in the damping cavity of fixed block, the upper and lower ends of damping cavity are provided with micro through-hole.The utility model structure is when defeated ash can shakes vertically, drive supporting table extruding or stretching high-strength spring, so as to avoid that this vibrations are directly delivered on bottom plate, slow down the damage to supporting construction, in horizontal vibrating, drive damping block to be moved in damping cavity, the pressure in damping cavity is set drastically to change, this change is prevented under pressure differential effect, micro through-hole allows the generation of this change to a certain extent again, so as to improve the intensity of whole supporting construction.

Description

A kind of high intensity supporting mechanism of pneumatic transporting ash can

Technical field

The utility model is related to pneumatic transporting ash can technical field, the high intensity support machine of specially a kind of pneumatic transporting ash can Structure.

Background technology

The problem of current Large Fe alloy production enterprise generally existing environmental pollution, Enterprise Internal Environment protection work Dynamics is also being continued to increase, and what many enterprises used is all that deduster reclaims dust, then by the way that manually deduster is collected into Dust load dolly be transported to appointed place.But reentrainment of dust so can be just caused unavoidably, polluted to environment, So cleared up mostly using pneumatic ash transmitting system now, and in the prior art in order to ensure the stability of defeated ash can, its branch Support structure is relative complex, and inconvenient operation, while in the carrying of defeated ash can, existing supporting construction tends not to ensure The high-intensity performance of structure, easily causes toppling for defeated ash can, or supporting construction fracture, be this it is proposed that a kind of strength The high intensity supporting mechanism of defeated ash can is used to solve the above problems.

Utility model content

The purpose of this utility model is to provide a kind of high intensity supporting mechanism of pneumatic transporting ash can, to solve above-mentioned background The problem of being proposed in technology.

To achieve the above object, the utility model provides following technical scheme：A kind of high intensity support of pneumatic transporting ash can Mechanism, including defeated ash can, the defeated ash can bottom are provided with firm banking, and the firm banking lower end is fixed with supporting table, institute Supporting table is stated for hollow round table type structure, and supporting table bottom is located in set platform, the set platform is hollow round table type structure, and with The set platform side wall of supporting table bottom contact is provided with fixing groove, and the fixing groove bottom passes through some high-strength springs and supporting table Bottom is fixedly connected, and the supporting table surrounding, which is fixed with the outside of some damping blocks, the damping block, is provided with piston pad, and damping Block is located in the damping cavity of fixed block, and the upper and lower ends of the damping cavity are provided with micro through-hole, and the fixed block passes through bolt knot Structure is fixedly mounted on bottom plate.

It is preferred that, the cross-sectional sizes of the frustum cone structure of the supporting table and set platform are the change of linear increment from top to bottom Change, and both incremental speed are consistent.

It is preferred that, the maximum tension length of the high-strength spring is less than the depth of fixing groove, and the number of high-strength spring Amount is no less than ten, and is to be fixed between supporting table and set platform.

It is preferred that, the cross-sectional sizes of the piston pad are more than the cross-sectional sizes of damping cavity, the cross-sectional sizes of the damping cavity More than the cross-sectional sizes of damping block, and the quantity of the damping block structure is four groups, is respectively symmetrically distributed in the surrounding of set platform.

It is preferred that, the diameter of the micro through-hole is no more than 1mm, and the quantity of micro through-hole is not less than two groups, and its is uniform It is distributed in the upper and lower side close to damping cavity bottom side.

Compared with prior art, the beneficial effects of the utility model are：The utility model structure is by the way that supporting table is installed Set platform in, when defeated ash can in the vertical direction shake, drive supporting table extruding or stretch high-strength spring so that avoid by This vibrations are directly delivered on bottom plate, slow down the damage to supporting construction, the intensity of structure are improved, when defeated ash can is in level side Upwards during vibrations, drive damping block to be moved in damping cavity, the pressure in damping cavity is drastically changed, the meeting under pressure differential effect This change is prevented, while micro through-hole allows the generation of this change to a certain extent, the effect for slowing down vibrations is reached Really, so as to improve the intensity of whole supporting construction.

Brief description of the drawings

Fig. 1 is the utility model structural representation；

Fig. 2 is the utility model supporting table magnified partial view；

Fig. 3 is the utility model supporting table and set platform connection diagram.

In figure：1 defeated ash can, 2 firm bankings, 3 supporting tables, 4 sets of platforms, 5 damping blocks, 6 fixed blocks, 7 bottom plates, 8 high intensity bullets Spring, 9 fixing grooves, 10 piston pads, 11 damping cavities, 12 micro through-holes.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belongs to the scope of the utility model protection.

Fig. 1-3 are referred to, the utility model provides a kind of technical scheme：A kind of high intensity support machine of pneumatic transporting ash can Structure, including defeated ash can 1, the defeated bottom of ash can 1 are provided with firm banking 2, and the lower end of firm banking 2 is fixed with supporting table 3, supporting table 3 For hollow round table type structure, and the bottom of supporting table 3 is located in set platform 4, and set platform 4 is hollow round table type structure, high-strength spring 8 Maximum tension length is less than the depth of fixing groove 9, and the quantity of high-strength spring 8 is no less than ten, and is to be fixed on support Between platform 3 and set platform 4, supporting table 3 can be moved up and down in set platform 4, while high-strength spring 8 can prevent this change Occur, so as to reach the effect of buffering, improve the intensity of supporting construction.

And the side wall of set platform 4 contacted with the bottom of supporting table 3 is provided with fixing groove 9, the bottom of fixing groove 9 passes through some high intensity Spring 8 is fixedly connected with the bottom of supporting table 3, and the surrounding of supporting table 3 is fixed with some damping blocks 5, and the outside of damping block 5 is provided with piston Pad 10, the cross-sectional sizes of piston pad 10 are more than the cross-sectional sizes of damping cavity 11, and the cross-sectional sizes of damping cavity 11 are more than damping block 5 Cross-sectional sizes, and the quantity of the structure of damping block 5 is four groups, is respectively symmetrically distributed in the surrounding of set platform 4, and damping block 5 is located at admittedly Determine in the damping cavity 11 of block 6, the upper and lower ends of damping cavity 11 are provided with micro through-hole 12, and fixed block 6 is fixed by bolt arrangement pacifies On bottom plate 7, the diameter of micro through-hole 12 is no more than 1mm, and the quantity of micro through-hole 12 is not less than two groups, and it is uniformly distributed In the upper and lower side close to the bottom side of damping cavity 11.

Operation principle：The utility model structure is by the way that supporting table 3 is arranged in set platform 4, when defeated ash can 1 is in vertical direction During upper vibrations, supporting table 3 is driven to extrude or stretch high-strength spring 8, so as to avoid this vibrations being directly delivered to bottom plate 7 On, slow down the damage to supporting construction, improve the intensity of structure, when defeated ash can 1 shakes in the horizontal direction, drive damping block 5 move in damping cavity 11, the pressure in damping cavity 11 is drastically changed, and can prevent this change under pressure differential effect, together When micro through-hole 12 allow the generation of this change to a certain extent, the effect for slowing down vibrations is reached, so as to improve whole The intensity of individual supporting construction.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out in the case where not departing from principle of the present utility model and spirit a variety of changes, repaiies Change, replace and modification, scope of the present utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of high intensity supporting mechanism of pneumatic transporting ash can, including defeated ash can（1）, the defeated ash can（1）Bottom is provided with fixation Base（2）, it is characterised in that：The firm banking（2）Lower end is fixed with supporting table（3）, the supporting table（3）For hollow circle Bench-type structure, and supporting table（3）Bottom is located at set platform（4）It is interior, the set platform（4）For hollow round table type structure, and and supporting table （3）The set platform of bottom contact（4）Side wall is provided with fixing groove（9）, the fixing groove（9）Bottom passes through some high-strength springs （8）And supporting table（3）Bottom is fixedly connected, the supporting table（3）Surrounding is fixed with some damping blocks（5）, the damping block （5）Outside is provided with piston pad（10）, and damping block（5）Positioned at fixed block（6）Damping cavity（11）It is interior, the damping cavity（11）'s Upper and lower ends are provided with micro through-hole（12）, the fixed block（6）Bottom plate is fixedly mounted on by bolt arrangement（7）On.

2. a kind of high intensity supporting mechanism of pneumatic transporting ash can according to claim 1, it is characterised in that：The supporting table （3）With set platform（4）Frustum cone structure cross-sectional sizes be linear increment from top to bottom change, and both incremental speed protect Hold consistent.

3. a kind of high intensity supporting mechanism of pneumatic transporting ash can according to claim 1, it is characterised in that：The high intensity Spring（8）Maximum tension length be less than fixing groove（9）Depth, and high-strength spring（8）Quantity be no less than ten, and To be fixed on supporting table（3）With set platform（4）Between.

4. a kind of high intensity supporting mechanism of pneumatic transporting ash can according to claim 1, it is characterised in that：The piston pad （10）Cross-sectional sizes be more than damping cavity（11）Cross-sectional sizes, the damping cavity（11）Cross-sectional sizes be more than damping block（5） Cross-sectional sizes, and the damping block（5）The quantity of structure is four groups, is respectively symmetrically distributed in set platform（4）Surrounding.

5. a kind of high intensity supporting mechanism of pneumatic transporting ash can according to claim 1, it is characterised in that：It is described miniature logical Hole（12）Diameter be no more than 1mm, and micro through-hole（12）Quantity be not less than two groups, it is uniformly distributed in close to damping cavity （11）The upper and lower side of bottom side.