CN217807183U - Lifting and transverse moving mechanism in pushed slab kiln circulating system - Google Patents

Abstract

The utility model relates to a lift sideslip mechanism in push pedal kiln circulation system, including sideslip bottom plate, intermediate lamella, rail panel and pushing mechanism, pushing mechanism is used for horizontal promotion the sideslip bottom plate, the intermediate lamella level set up and through the connecting rod with the sideslip bottom plate is connected, and the sideslip bottom plate passes through connecting rod drive intermediate lamella slant and goes up and down, and the rail panel is connected with the intermediate lamella. The device is characterized by further comprising an installation frame, wherein a guide transverse groove and a guide chute are formed in the installation frame, the transverse moving bottom plate is matched with the guide transverse groove, and the middle plate is matched with the guide chute. The utility model provides a lift sideslip mechanism is applied to the circulation system of pushed slab kiln in for link up the station of co-altitude not, ensure that the push pedal transmits smoothly in the circulation system.

Description

Lifting and transverse moving mechanism in pushed slab kiln circulating system

Technical Field

The utility model relates to a lift sideslip mechanism especially relates to a lift sideslip mechanism in pushed slab kiln circulation system.

Background

The method for sintering the ferrite element by using the pushed slab kiln has the advantages of high production efficiency, stable product quality and the like. The continuous circulating conveying of the ferrite inside and outside the kiln body can be realized by arranging an external circulating system outside the kiln body of the pushed slab kiln, the preformed ferrite elements are stacked on the pushed slab on an external circulating roller way, the pushed slab is conveyed to an inlet pushing mechanism of the pushed slab kiln along the external circulating roller way and then enters the kiln cavity to be slowly pushed, the pushed slab passes through different temperature areas of the kiln body to enable the ferrite elements to generate corresponding heat treatment processes, and the ferrite elements return to the external circulating roller way through an outlet pushing mechanism of the pushed slab kiln to be cooled and discharged.

In addition, in order to further improve the efficiency, the pushed slab kiln is also developed to a large specification, the height of the conveying track in the kiln is difficult to keep consistent with that of the circulating roller way outside the kiln, and in order to ensure smooth connection, a lifting and transverse moving mechanism is required to be equipped, so that the pushed slab is smoothly transmitted between stations with different heights, and elements are ensured to smoothly enter the kiln.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a lift sideslip mechanism in pushed slab kiln circulation system for in the pushed slab kiln circulation system quick butt joint between the not co-altitude station.

The utility model provides a technical scheme that above-mentioned problem adopted does: a lifting and transverse moving mechanism in a pushed slab kiln circulating system comprises a transverse moving bottom plate, an intermediate plate, a rail panel and a pushing mechanism, wherein the pushing mechanism is used for transversely pushing the transverse moving bottom plate, the intermediate plate is horizontally arranged and connected with the transverse moving bottom plate through a connecting rod, the transverse moving bottom plate drives the intermediate plate to obliquely lift through the connecting rod, and the rail panel is connected with the intermediate plate.

Preferably, the device further comprises a mounting frame, a guide transverse groove and a guide chute are arranged on the mounting frame, the transverse moving bottom plate is matched with the guide transverse groove, and the middle plate is matched with the guide chute. The guide transverse groove and the guide inclined groove can improve the stability and reliability of the actions of the transverse moving bottom plate and the intermediate plate.

Preferably, the transverse moving bottom plate is hinged with one end of a connecting rod, the middle plate is hinged with the other end of the connecting rod, the number of the connecting rods is multiple, and the middle plate is horizontally supported above the transverse moving bottom plate through the multiple connecting rods. The connecting rods can enable the middle plate to smoothly slide and ensure that the middle plate keeps a good horizontal state.

Preferably, the rail panel is fixedly arranged above the middle plate and synchronously acts with the middle plate. The rail panel is used for butting stations with different heights in the pushed slab kiln circulating system. The supporting height of the rail panel on the middle plate can be adjusted adaptively according to circulating systems with different working heights.

Preferably, the pushing mechanism is an oil cylinder or an air cylinder.

Compared with the prior art, the utility model has the advantages of: the utility model provides a lift sideslip mechanism is applied to the circulation system of pushed slab kiln for link up the station of co-altitude not, ensure that the push pedal transmits smoothly in circulation system, more be applicable to and set up this lift sideslip mechanism, it is convenient at pushed slab kiln entrance.

Compared with the conventional lifting oil cylinder and the conventional propelling oil cylinder, the lifting and transverse moving of the rail panel can be realized by only one oil cylinder, the lifting and transverse moving can be completed in one step, and the stable operation of the mechanism is obviously improved. Simple structure and convenient popularization and application.

Drawings

Fig. 1 is a schematic structural view of a lifting and traversing mechanism in an embodiment of the present invention;

fig. 2 is a structural sectional view of the lifting and traversing mechanism in the embodiment of the present invention;

fig. 3 is a side view of the lifting and traversing mechanism in an embodiment of the present invention;

in the figure, a transverse moving bottom plate 1, a middle plate 2, a rail face plate 3, an oil cylinder 4, a fixed side plate 5, a connecting rod 6, a first connecting shaft 7, a second connecting shaft 8 and a supporting column 9 are arranged.

Detailed Description

The invention will be described in further detail with reference to the following figures, which are exemplary and intended to illustrate the invention, but are not to be construed as limiting the invention. The description of the present embodiment is corresponding to the accompanying drawings, and the description related to the orientation is also based on the description of the accompanying drawings, and should not be construed as limiting the scope of the present invention.

The embodiment relates to a lifting and transverse moving mechanism which is arranged in a pushed slab kiln circulating system and used for completing the connection between transmission stations with different heights. The device comprises a transverse moving bottom plate 1, a middle plate 2, a rail panel 3, an oil cylinder 4 and left and right fixed side plates 5. The transverse moving bottom plate 1, the middle plate 2 and the rail panel 3 are all arranged in the middle of the left and right fixed side plates 5. The oil cylinder 4 acts on the transverse moving bottom plate 1, the middle plate 2 is arranged above the transverse moving bottom plate 1 through four connecting rods 6, the rail panel 3 is fixedly arranged above the middle plate 2 through supporting columns 9, and the rail panel 3 and the middle plate 2 act consistently.

The left and right fixed side plates 5 are symmetrically provided with guide transverse grooves, the transverse moving bottom plate 1 is fixedly arranged on two first connecting shafts 7, and the left and right ends of the first connecting shafts 7 are correspondingly supported in the guide transverse grooves of the left and right fixed side plates 5 respectively, so that the transverse moving bottom plate 1 slides along the guide transverse grooves.

The left and right fixed side plates 5 are respectively symmetrically provided with two guide chutes, the intermediate plate 2 is fixedly arranged on two second connecting shafts 8, and the left and right ends of the second connecting shafts 8 are respectively correspondingly supported in the guide chutes of the left and right fixed side plates 5, so that the intermediate plate 2 slides obliquely along the guide chutes, and the lifting and the transverse movement are realized.

The second connecting shaft 8 is hinged with one end of the connecting rod 6, the first connecting shaft 7 is hinged with the other end of the connecting rod 6, the number of the connecting rods 6 is four, and the middle plate 2 is horizontally supported above the transverse moving bottom plate 1 through the four connecting rods 6.

The oil cylinder 4 pushes the transverse moving bottom plate 1, the transverse moving bottom plate 1 moves transversely along the guide transverse groove, the middle plate 2 is driven to obliquely lift along the guide inclined groove, and the rail panel 3 obliquely lifts along with the middle plate 2, so that transverse moving lifting between two stations at different heights is realized.

In addition to the above embodiments, the present invention also includes other embodiments, and all technical solutions formed by equivalent transformation or equivalent replacement should fall within the protection scope of the claims of the present invention.

Claims (5)

1. The utility model provides a lift sideslip mechanism in pushed slab kiln circulation system which characterized in that: the rail panel type horizontal moving device comprises a horizontal moving bottom plate, a middle plate, a rail panel and a pushing mechanism, wherein the pushing mechanism is used for transversely pushing the horizontal moving bottom plate, the middle plate is horizontally arranged and is connected with the horizontal moving bottom plate through a connecting rod, the horizontal moving bottom plate drives the middle plate to obliquely lift through the connecting rod, and the rail panel is connected with the middle plate.

2. The elevating and traversing mechanism in a pusher kiln circulating system according to claim 1, wherein: the device is characterized by further comprising an installation frame, wherein a guide transverse groove and a guide chute are formed in the installation frame, the transverse moving bottom plate is matched with the guide transverse groove, and the middle plate is matched with the guide chute.

3. The elevating and traversing mechanism in a pusher kiln circulating system according to claim 1 or 2, wherein: the transverse moving bottom plate is hinged to one end of the connecting rod, the middle plate is hinged to the other end of the connecting rod, the number of the connecting rods is multiple, and the middle plate is horizontally supported above the transverse moving bottom plate through the multiple connecting rods.

4. The elevating and traversing mechanism in a pusher kiln circulating system according to claim 1, wherein: the rail panel is fixedly arranged above the middle plate and synchronously acts along with the middle plate.

5. The elevating and traversing mechanism in a pusher kiln circulating system according to claim 1, wherein: the pushing mechanism is an oil cylinder or an air cylinder.

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