CN202466529U - Channel bottom vibration slip-forming lining machine - Google Patents

Abstract

The utility model discloses a channel bottom vibration slip-forming lining machine, which adopts the technical scheme that the channel bottom vibration slip-forming lining machine comprises a slope feeding device, a traveling device and a channel bottom lining device, wherein the slope feeding device is hinged with a channel bottom vibration slip-forming lining machine main machine, and the channel bottom vibration slip-forming lining machine is characterized in that the channel bottom vibration slip-forming lining machine main machine comprises a channel bottom main stander, a distributing part and a vibration beam system assembly which is installed on the channel bottom main stander, the vibration beam system assembly comprises a vibration beam, a vibration motor which is fixed on the vibration beam and a vibrating device. One end of the vibration beam is connected with a material cabin through a shock absorber I. The channel bottom vibration slip-forming lining machine has beneficial effects that the automation degree is high, the conveying, distribution, vibration, forming and smoothing of concrete materials or lining materials can be completed in one step, the efficiency is high, the concrete (lining layer) is compact to vibrate, the forming effect is good, the running expense is low, the equipment reliability is high, and good popularization value can be realized.

Description

Vibration sliding-mode lining machine at the bottom of a kind of canal

Technical field

The utility model relates to a kind of canal base concrete mechanization lining device, especially relates to a kind of canal base concrete vibration sliding-mode lining machine.

Background technology

Coffering machine is widely used in engineering constructions such as irrigation and water conservancy, water transfer, power station channel of approach and river concrete bank protection.During construction; At first as required canal (river) road surface of base is carried out based process; Then by coffering machine according to designing requirement; Concrete evenly is layered on the channel basis, pave simultaneously accomplish vibrate (move) closely knit, propose slurry, extrusion modling, last artificial step completion lining cutting with spatula pressure surface receipts light.A kind of vibrating sliding-mode lining machine is disclosed in first to file 200720176677.6; It comprises frame, power source, control device; Distribution device is arranged on the frame, be provided with feeding device, be provided with the complete machine running gear at least one end of frame on the top of frame; Be provided with the sliding formwork shaped device that vibrates that can move up and down along the frame length direction in the bottom of frame, be fixed with the sliding formwork profiled sheeting on the shaped device.This kind device operating cost is low, equipment dependability is high, is applicable to the domatic construction of concrete lining of canal (river course).The deficiency of its existence is, because it adopts the vibrating spear moulding of vibrating, the equipment cost of being in is high relatively, in the work progress vibration big, noise is big, the shortcoming of surface finish relative mistake.

Summary of the invention

The purpose of the utility model is to overcome the shortcoming that exists in the prior art; Provide a kind of construction automaticity high; Adopt walking beam to accomplish the closely knit operation of vibratory concrete and have the canal of floating function at the bottom of the vibration sliding-mode lining machine; The technical scheme that adopts is: vibration sliding-mode lining machine at the bottom of a kind of canal; Comprise the slope feeding device, running gear and canal end liner are built device, and it is hinged that said slope feeding device and said canal end liner are built device; It is characterized in that: the walking beam system synthesis at the bottom of said canal end liner is built device and comprised mainframe, cloth part at the bottom of the canal and be installed in canal on the mainframe, is fixed on vibrating motor and vibrating device on the walking beam at said walking beam system synthesis involving vibrations beam.

The technical scheme of the utility model also has: said walking beam comprises steel plate I, steel plate II and is fixedly connected on the damper I between two block plates.

The technical scheme of the utility model also has: said walking beam one end is connected with feed bin through the damper I.

The technical scheme of the utility model also has: said vibrating device comprises steel plate and is fixed on the damper on the steel plate that the other end of said damper connects square tube.

The technical scheme of the utility model also has: said cloth partly comprises and is installed in distributing belt machine, the batch turning bucket on the mainframe and the cloth trolley of under winding plant drives, on the belt of said distributing belt machine, walking at the bottom of the said canal; Said cloth trolley comprises hopper; Said hopper is corresponding with the feed bin that is positioned at walking beam system synthesis one side, the opposite side of said walking beam system have be fixed on canal at the bottom of sliding template on the mainframe.

The technical scheme of the utility model also has: said running gear comprises slope feeding device running gear and keeps synchronous canal end liner to build the device running gear with said slope feeding device running gear; Said slope feeding device running gear comprises injecting glue set of wheels and the movable motor I that is fixed on the feeding device frame of slope, and said canal end liner is built the device running gear and comprised at the bottom of the canal that is fixed on mainframe end at the bottom of the canal with set of wheels and movable motor II.

The technical scheme of the utility model also has: said slope feeding device comprises feed hopper and slope feed conveyor.

The technical scheme of the utility model also has: said canal end liner is built device and is also comprised the hydraulic lifting system that is used to accomplish mainframe elevating movement at the bottom of the said canal.

The technical scheme of the utility model also has: the vibration sliding-mode lining machine also comprises operating platform and the electric-control system that is positioned at mainframe one side at the bottom of the canal at the bottom of the said canal, and said operating platform comprises the sun-shading rainproof paulin, cat ladder, support platform and guardrail.

The beneficial effect of the utility model is: this coffering machine adopts the walking beam system to accomplish concrete vibratory compaction, and the vibration back that finishes is undertaken floatingly by sliding template, and required concrete material is supplied with by the slope feeding device from the slope and under hydraulic lift drives, can be carried out the adjusting of concrete thickness; The completion complete machine laterally moves under running gear drives; This machine automaticity is high, can once accomplish concrete conveying, cloth, vibration, moulding and floating, and efficient is high; Vibratory concrete is closely knit effective; Operating cost is low, and equipment dependability is high, has good popularization value.

Description of drawings

Accompanying drawing 1 is the utility model structural representation, and accompanying drawing 2 is walking beam assembly front views, and accompanying drawing 3 is walking beam assembly left views, and accompanying drawing 4 is vibrating device structural representations, and accompanying drawing 5 is cloth vehicle structure sketch mapes, and accompanying drawing 6 is operating platform structural representations; Wherein, the 11st, slope feed conveyor frame, the 12nd, slope feed conveyor, the 13rd, casting glue set of wheels, the 14th, movable motor I, the 15th, feed hopper; The 16th, mainframe at the bottom of the canal, the 17th, the distributing belt machine, the 18th, the walking beam assembly, the 19th, the cloth trolley, the 110th, use set of wheels at the bottom of the canal, the 111st, the movable motor II; The 112nd, hydraulic lifting system, the 113rd, operating platform, the 114th, electric-control system, the 115th, winding plant, the 21st, vibrating motor; The 22nd, vibrating device, the 23rd, walking beam, the 24th, damper I, the 25th, steel plate I, the 26th, steel plate II; The 27th, angle steel, the 41st, steel plate, the 42nd, steel plate, the 43rd, channel-section steel, the 44th, stiffener; The 45th, damper, the 46th, square tube, the 51st, hopper, the 52nd, feed bin, the 53rd, sliding template; The 54th, sliding template adjusting device, the 61st, sun-shading rainproof paulin, the 62nd, cat ladder, the 63rd, support platform, the 64th, guardrail.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the utility model is described.In conjunction with accompanying drawing 1; This canal end vibration sliding-mode lining machine comprised the slope feeding device of supplying with concrete material or lining cutting bedding material at the bottom of giving canal from the top, slope, the canal end liner of accomplishing concrete construction in the canal bottom build device, accomplish complete machine laterally walking running gear, be positioned at canal at the bottom of the operating platform 113 and the electric-control system 114 of mainframe 16 1 sides; Wherein, Walking beam assembly 18 at the bottom of the canal end liner is built device and comprised mainframe 16, cloth part at the bottom of the canal and be installed in canal on the mainframe; Mainframe 16 is played a supporting role at the bottom of the canal; Cloth is partly accomplished the cloth of canal base concrete material or lining cutting bedding material, and walking beam assembly 18 is accomplished the operating process of the vibratory compaction moulding of concrete material or lining cutting bedding material.

In conjunction with accompanying drawing 2, walking beam assembly 18 involving vibrations beams 23, be fixed on vibrating motor 21 and vibrating device 22 on the walking beam, walking beam assembly 18 can comprise the walking beam 23 more than 2; Be fixedly connected with vibrating device 22 between the walking beam 23 He on the walking beam 23; Steel plate I 25 is arranged in the walking beam 23, and an end of steel plate I 25 is fixedly connected on damper I 24, and the other end of damper I 24 is fixedly connected on the angle steel 27; Angle steel 27 is welded on steel plate II 26; On angle steel II 26, also be welded with orthogonal square tube, the material of damper I 24 can be selected the good material of shock-absorbing capacity for use, like polyurethane material.

In conjunction with accompanying drawing 4, vibrating device 22 comprises that the below of steel plate 42 connects channel-section steel 43 by bolt steel plate 41 and steel plate 42 together; On channel-section steel 43, be welded with stiffener 44; One end of damper 45 is fixed on the steel plate 41, and whole vibrating device 22 is fixed on the walking beam 23, when vibrating motor 21 energized, when starting working; Under vibrating motor 21 drove, walking beam assembly 18 was accomplished concrete vibratory compaction process.

In conjunction with accompanying drawing 1 and 5; Cloth partly comprises the distributing belt machine 17 on the mainframe 16 at the bottom of the canal that is installed in; With the cloth trolley 19 of under winding plant 115 drives, on the belt of distributing belt machine 17, walking, this cloth trolley 19 comprises hopper 51, and hopper 51 is corresponding with the feed bin 52 that is positioned at walking beam system synthesis 18 1 sides; The opposite side of this walking beam system synthesis 18 have be fixed on canal at the bottom of sliding template 53 on the mainframe 16, sliding template adjusting device 54 can be regulated the angle of inclination of sliding template 53.

The canal end liner is built device and is also comprised the hydraulic lifting system 112 that is used to accomplish mainframe 16 elevating movements at the bottom of the canal, and hydraulic lifting system 112 can change the canal end liner and build height of devices, thereby regulates the thickness of lining concrete.

Mainframe 16 1 sides are equipped with operating platform 113 and electric-control system 114 at the bottom of canal, and operating platform comprises sun-shading rainproof paulin 61, cat ladder 62, support platform 63 and guardrail 64.

Running gear comprises slope feeding device running gear and keeps synchronous canal end liner to build the device running gear with slope feeding device running gear; Slope feeding device running gear comprises the injecting glue set of wheels that is fixed on the slope feed conveyor frame 1 13 and movable motor I 14 with its motion, and the canal end liner is built the device running gear and comprised at the bottom of the canal that is fixed on mainframe 16 ends at the bottom of the canal with set of wheels 110 and movable motor II 111.

The slope feeding device comprises feed hopper 15 and slope feed conveyor 12, is transported on the slope feed conveyor 12 through feed hopper 15 at the concrete that stirs on the slope, and builds the device direction with slope feed conveyor 12 to the canal end liner and carry.

During work, the concrete that stirs is transported on the slope feed conveyor 12 through feed hopper 15, through the conveying of this conveyor 13; Concrete enters into feed bin 52 through the hopper 51 of cloth trolley 19; Under the vibration effect of walking beam assembly 18, accomplish concrete vibratory compaction, after vibration is accomplished, under running gear drives; When vibration sliding-mode lining machine complete machine was walked at the bottom of the canal, 53 pairs of concrete of sliding template were floating.

Certainly; Above-mentioned explanation is not the restriction to the utility model; The utility model also be not limited only to above-mentioned for example, variation, remodeling, interpolation or replacement that those skilled in the art are made in the essential scope of the utility model also belong to the protection domain of the utility model.

Claims (9)

1. vibrate sliding-mode lining machine at the bottom of a canal; Comprise the slope feeding device; Running gear and canal end liner are built device; It is hinged that said slope feeding device and said canal end liner are built device, it is characterized in that: the walking beam system synthesis at the bottom of said canal end liner is built device and comprised mainframe, cloth part at the bottom of the canal and be installed in canal on the mainframe, is fixed on vibrating motor and vibrating device on the walking beam at said walking beam system synthesis involving vibrations beam.

2. according to vibration sliding-mode lining machine at the bottom of the described canal of claim 1, it is characterized in that: said walking beam comprises steel plate I, steel plate II and is fixedly connected on the damper I between two block plates.

3. according to vibration sliding-mode lining machine at the bottom of the described canal of claim 2, it is characterized in that: said walking beam one end is connected with feed bin through the damper I.

4. according to vibration sliding-mode lining machine at the bottom of the described canal of claim 1, it is characterized in that: said vibrating device comprises steel plate and is fixed on the damper on the steel plate that the other end of said damper connects square tube.

5. according to vibration sliding-mode lining machine at the bottom of the described canal of claim 1; It is characterized in that: said cloth partly comprises the distributing belt machine on the mainframe at the bottom of the said canal that is installed in, batch turning bucket and the cloth trolley of under winding plant drives, on the belt of said distributing belt machine, walking; Said cloth trolley comprises hopper; Said hopper is corresponding with the feed bin that is positioned at walking beam system synthesis one side, the opposite side of said walking beam system have be fixed on canal at the bottom of sliding template on the mainframe.

6. according to vibration sliding-mode lining machine at the bottom of the described canal of claim 1; It is characterized in that: said running gear comprises slope feeding device running gear and keeps synchronous canal end liner to build the device running gear with said slope feeding device running gear; Said slope feeding device running gear comprises injecting glue set of wheels and the movable motor I that is fixed on the feeding device frame of slope, and said canal end liner is built the device running gear and comprised at the bottom of the canal that is fixed on mainframe end at the bottom of the canal with set of wheels and movable motor II.

7. according to vibration sliding-mode lining machine at the bottom of the described canal of claim 1, it is characterized in that: said slope feeding device comprises feed hopper and slope feed conveyor.

8. according to vibration sliding-mode lining machine at the bottom of the described canal of claim 1, it is characterized in that: said canal end liner is built device and is also comprised the hydraulic lifting system that is used to accomplish mainframe elevating movement at the bottom of the said canal.

9. according to vibration sliding-mode lining machine at the bottom of the described canal of claim 1; It is characterized in that: the vibration sliding-mode lining machine also comprises operating platform and the electric-control system that is positioned at mainframe one side at the bottom of the canal at the bottom of the said canal; Said operating platform comprises the sun-shading rainproof paulin, cat ladder, support platform and guardrail.

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