CN209718053U - Multistage feeding oscillatory type concrete precast block process equipment - Google Patents
Multistage feeding oscillatory type concrete precast block process equipment Download PDFInfo
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- CN209718053U CN209718053U CN201822131910.XU CN201822131910U CN209718053U CN 209718053 U CN209718053 U CN 209718053U CN 201822131910 U CN201822131910 U CN 201822131910U CN 209718053 U CN209718053 U CN 209718053U
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- hopper
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- 238000000034 method Methods 0.000 title claims abstract description 32
- 230000003534 oscillatory effect Effects 0.000 title claims abstract description 19
- 238000003860 storage Methods 0.000 claims abstract description 43
- 230000003028 elevating effect Effects 0.000 claims abstract description 23
- 230000005540 biological transmission Effects 0.000 claims description 38
- 239000000463 material Substances 0.000 claims description 6
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims description 4
- 230000035611 feeding Effects 0.000 description 50
- 239000004570 mortar (masonry) Substances 0.000 description 15
- 239000011265 semifinished product Substances 0.000 description 10
- 238000004519 manufacturing process Methods 0.000 description 9
- 238000010586 diagram Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 4
- 230000000630 rising effect Effects 0.000 description 2
- 239000004576 sand Substances 0.000 description 2
- 239000002002 slurry Substances 0.000 description 2
- 238000003756 stirring Methods 0.000 description 2
- 230000006978 adaptation Effects 0.000 description 1
- 238000007792 addition Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000007664 blowing Methods 0.000 description 1
- 230000015271 coagulation Effects 0.000 description 1
- 238000005345 coagulation Methods 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 238000001035 drying Methods 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 230000005484 gravity Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000003672 processing method Methods 0.000 description 1
- 238000005096 rolling process Methods 0.000 description 1
- 239000002689 soil Substances 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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Abstract
The utility model discloses multistage feeding oscillatory type concrete precast block process equipment, including feeding device, storage device, the first feed device, the second feed device and mold vibration device, feeding device includes feeding support seat, and feeding supports seat upper end and slidably connects elevating hopper by the first sliding rail;Storage device includes storing support and storage hopper, and the first feed device includes the first conveyer frames, and the upper end of the first conveyer frames slidably connects feeding funnel;Second feed device includes the second conveyer frames and mold delivery mechanism, and mold delivery mechanism includes multiple first rollers, and multiple first rollers are located at the upper end of the second conveyer frames;Mold vibration device includes vibration support base, vibrates and connects the first vibration rack by the first hydraulicefficiency elevation structure in support base;First vibration rack is connected with vibrating disk by vibrating spring, and vibrating disk upper end is equipped with multiple first vibrating mass, the processing small-sized prefabricated member which can be more efficient, structure novel, creative height.
Description
Technical field
The utility model relates to engineering machinery fields, and in particular to multistage feeding oscillatory type concrete precast block processing is set
It is standby.
Background technique
Concrete prefabricated element, also known as concrete block.Concrete mortar is formed in particular manufacturing craft by the methods of extruding, vibration
Afterwards, the concrete prefabricated element of respective shapes can be obtained.Concrete prefabricated element may be used as building wall, it is also possible to make people's row
Road face making, concrete prefabricated element is in existing architectural engineering using extensive.In the prior art to concrete prefabricated element
Processing, usually artificial, when processing, is in one line by the mold of multiple fabrication of concrete prefabricated components first, then will
The concrete mortar modulated is placed into carrier, is then manually shoveled concrete mortar to mould in one line using scoop
In tool, after the processes such as squeezing, vibrating, the concrete prefabricated element of semi-finished product is generated, the concrete of semi-finished product is in drying
The concrete prefabricated element of hardening is re-formed afterwards.Although the resource of the processing method early investment of existing prefabricated components is few,
It is that speed of production is very slow, a large amount of manpower is needed to go to complete, whole prefabricated section production process is time-consuming and laborious.
Existing concrete prefabricated element process equipment, usually the material transmission of integral type.When one of material
Transmission link when something goes wrong, will affect the production efficiency of prefabricated components.And the vibration one of the concrete in existing mold
As be artificial or realized using vibrating head, need special worker and operated during blowing, affect production efficiency,
And increase cost of labor.
Utility model content
The purpose of this utility model is to provide multistage feeding oscillatory type concrete precast block process equipment, the process equipments
Processing small-sized prefabricated member that can be more efficient, structure novel are creative high.
To achieve the goals above, the technical solution of use is the utility model:
Multistage feeding oscillatory type concrete precast block process equipment, including feeding device, storage device, the first feeding dress
It sets, the second feed device and mold vibration device, feeding device include multiple feeding support seats, the upper end inclination of multiple feeding support seats
It is connected with the first sliding rail, slidably connects elevating hopper on the first sliding rail;
Storage device is located at the lower end of the first sliding rail, and storage device includes storing support, is connected with storage hopper on storing support;
First feed device includes the first conveyer frames, and the lower end of storage hopper is arranged in the front of the first conveyer frames, and first passes
The upper end of frame is sent to slidably connect feeding funnel;
Second feed device includes the second conveyer frames and mold delivery mechanism, and the first conveyer frames are arranged in the second conveyer frames
Lower end, the side of the second conveyer frames are connected with controller, and mold delivery mechanism includes multiple first rollers, multiple first roller phases
The mutually parallel upper end that the second conveyer frames are set;
Mold vibration device is arranged on the inside of the second conveyer frames, and mold vibration device includes vibration support base, vibration branch
It supports pedestal and is equipped with multiple first hydraulicefficiency elevation structures, be connected with the first vibration rack on multiple first hydraulicefficiency elevation structures;
The upper end of first vibration rack is connected with vibrating disk by multiple vibrating springs, and the upper end of vibrating disk is provided with multiple
The first vibrating mass being parallel to each other, vibrating disk are located at the lower end of the first roller.
Preferably, feeding support seat is there are four being respectively the first support, the second support, third support and the 4th support,
First support, the second support, third support and the 4th support are successively set on the lower end of the first sliding rail from front to back;
The height value of 4th support is greater than the height value of third support, and the height value of third support is greater than the height of the second support
Angle value, the height value of the second support are greater than the height value of the first support;Storage device setting third support and the 4th support it
Between.
Preferably, the upper end of the 4th support is provided with the first pulling mechanism, and the first pulling mechanism includes the first pulling
Motor, the first runner and the first support wheel, first pulls motor and the first runner to be located at the lower end of the first support wheel, and first pulls motor
Shaft be connected with the first runner, the first runner is connected by the first wirerope with elevating hopper, and the first wirerope is taken turns by the first support to be determined
Position support;
There are two first sliding rails, and what two the first sliding rails were parallel to each other is arranged in the upper end of feeding support seat;First is sliding
First sliding groove is offered on the inside of rail, the lower end of elevating hopper is provided with the first roll wheel assembly, is connected with first on the first roll wheel assembly
The end adapter of assist motor, the first roll wheel assembly is connected in first sliding groove.
Preferably, the elevating hopper, storage hopper and feeding funnel are in that terrace with edge is shelly-shaped, and storing support is square rack-like;
The lower part of elevating hopper is connected with the first hopper door close and the second hopper door close, the front and back two of elevating hopper by shaft
End is connected with the first electric cylinder and the second electric cylinder respectively, and the first electric cylinder and the second electric cylinder are separately connected the first material
Struggle against door close and the second hopper door close;
The lower part of storage hopper is connected with third hopper door close and the 4th hopper door close, the front and back of storage hopper by shaft
Both ends are connected with third electric cylinder and the 4th electric cylinder respectively, and third electric cylinder and the 4th electric cylinder are separately connected third
Hopper door close and the 4th hopper door close.
Preferably, the upper end of first sliding rail is provided with the first electric wire locating rack, and the first electric wire locating rack includes first
Electric wire vertical pole, the first electric wire vertical pole are connected on the first sliding rail by the first electric wire strut, the first electric wire vertical pole and the first sliding rail
It is parallel to each other;
The first spring electric wire is cased on first electric wire vertical pole, the electric end that enters of the first spring electric wire is connected with controller, and first
The current output terminal of spring electric wire connects the first electric cylinder and the second electric cylinder.
Preferably, the lower part of the feeding funnel is connected with the 5th hopper door close and the 6th hopper door close by shaft,
The rear and front end of feeding funnel is connected with the 5th electric cylinder and the 6th electric cylinder, the 5th electric cylinder and the 6th electric cylinder respectively
It is separately connected the 5th hopper door close and the 6th hopper door close;
First conveyer frames include the multiple first the second sliding rails for transmitting struts and being connected on multiple first transmission struts, the
The inner face of two sliding rails offers second sliding slot, and the lower end of feeding funnel is connected with the second roll wheel assembly, connects on the second roll wheel assembly
There is the second assist motor, the end adapter of the second roll wheel assembly is connected in second sliding slot.
Preferably, the upper end of second sliding rail is provided with the second electric wire locating rack and the second pulling mechanism, the second electric wire
Locating rack includes the second electric wire vertical pole, and the second electric wire vertical pole is parallel to each other with the second sliding rail;
Second spring electric wire is cased on second electric wire vertical pole, the electric end that enters of second spring electric wire is connected with controller, and second
The current output terminal of spring electric wire connects the 5th electric cylinder and the 6th electric cylinder;
Second pulling mechanism includes the second pulling motor and the second runner, and the second runner passes through the second wirerope and feeding funnel phase
Even.
Preferably, second conveyer frames include multiple second transmission struts and are connected on multiple second transmission struts
The upper end of the first transmission branch frame is arranged in first transmission branch frame, multiple first rollers;
Be provided with transmission case on first transmission branch frame of the first roller side, one end of the first roller by roller pedestal with
First transmission branch frame is connected, and the other end of the first roller is connected by transmission gear with the driving chain in transmission case, transmission chain
Item is connected with chain drive motor.
Preferably, there are four first hydraulicefficiency elevation structures, the first hydraulicefficiency elevation structure includes hydraulic lifting cylinder;The
One vibration rack is square rack-like, and there are six vibrating springs, and six vibrating springs are evenly arranged on the lower end of first vibration side's frame;
The lower end of the vibrating disk is connected with the first vibrating motor for vibrating disc vibration;
First vibrating mass is rectangle bulk, and the setting that multiple first vibrating mass are parallel to each other is on vibrating disk, and
Length value of the length value of one vibrating mass less than the first roller, distance values and the every two phase of every two adjacent first vibrating mass
Distance values between the first adjacent roller are identical.
The beneficial effects of the utility model are:
Above-mentioned multistage feeding oscillatory type concrete precast block process equipment is driven by three-level, realizes concrete prefabricated element
Highly-efficient processing.Controller controls feeding device, storage device, the first feed device, the second feed device and mould by route
Have the operation of vibration device, high degree of automation.
After storage hopper has a certain amount of concrete mortar material stock in storage device.The operation of feeding device and the first feeding
The operation of device 3 does not influence mutually, is relatively independent.After i.e. feeding device stops working a period of time, first will not influence
The work of feed device;First feed device stopped working after a period of time, will not influence the work of feeding device.Workpeople's
After work is not interfere with each other, the working efficiency of whole equipment is improved, the semi-finished product when feeding not in time or in mold are avoided
When prefabricated section is processed not in time, the situation of the stopping processing of entire process equipment.
When the molds of multiple processing prefabricated components are placed on above the first roller by worker to be put, empty mold first can be with the
One vibrating mass is in contact.After concrete mortar is put into mold by feeding funnel, start vibrating disk on the first vibrating motor, first
Vibrating motor drives the vibration of the first vibrating mass by vibrating disk, and the first vibrating mass will be in mold by the effect of the vibration force of itself
Concrete mortar vibration more evenly.The length of first vibration rack can make according to actual needs.
When the semi-finished product in mold concrete prefabricated element after processing is completed, the first hydraulicefficiency elevation structure drives first
Vibrating mass declines segment distance.Mold is directly contacted with the first roller at this time, will be in mold and mold after the rotation of the first roller
The concrete prefabricated element of semi-finished product is transported on mold carrier.In the process, the filling of the concrete mortar in mold,
The preliminary transmission that the vibration of concrete mortar stirs evenly with semi-finished product concrete prefabricated element is completed by process equipment, relative to
Existing process equipment, more time saving and energy saving, processing effect is good, so that production efficiency is greatly improved.In process equipment
The work division of various pieces is clear, and the later period is easier to attended operation when something goes wrong, and structure novel is creative high.
Detailed description of the invention
Fig. 1 is multistage feeding oscillatory type concrete precast block process equipment overall structure diagram.
Fig. 2 is storage device and the first rail structure position view.
Fig. 3 is storage device overall structure diagram.
Fig. 4 is the 4th support and the first pulling mechanism attachment structure schematic diagram.
Fig. 5 is mold vibration device overall structure diagram.
Fig. 6 is the first roller and the first vibrating mass locations of structures schematic top plan view.
Specific embodiment
The utility model is described in detail with reference to the accompanying drawing:
In conjunction with Fig. 1 to Fig. 6, multistage feeding oscillatory type concrete precast block process equipment, including feeding device 1, storing dress
Set 2,
First feed device 3, the second feed device 4 and mold vibration device 5.Feeding device 1 includes that multiple feedings support seat
11, the upper end inclination of multiple feeding support seats 11 is connected with the first sliding rail 12, slidably connects elevating hopper 13 on the first sliding rail 12.
Storage device 2 is located at the lower end of the first sliding rail 12, and storage device 2 includes storing support 21, sets on storing support 21
It is equipped with storage hopper 22.First feed device 3 includes the first conveyer frames 31, and the lower end of storage hopper 22 is arranged in the first conveyer frames 31,
The upper end of first conveyer frames 31 slidably connects feeding funnel 32.
Second feed device 4 includes the second conveyer frames 41 and mold delivery mechanism 6.The setting of second conveyer frames 41 is passed first
The lower end of frame 31 is sent, the side of the second conveyer frames 41 is connected with controller 7.Mold delivery mechanism 6 includes multiple first rollers 61,
What multiple first rollers 61 were parallel to each other is arranged in the upper end of the second conveyer frames 41.
Mold vibration device 5 is arranged in the second conveyer frames 41, and mold vibration device 5 includes vibration support base 51, vibration
Dynamic support base 51 is equipped with multiple first hydraulicefficiency elevation structures 52, is connected with the first vibration on multiple first hydraulicefficiency elevation structures 52
Dynamic bracket 53.The upper end of first vibration rack 53 is connected with vibrating disk 55 by multiple vibrating springs 54, and 55 upper end of vibrating disk is set
Multiple the first vibrating mass 56 being parallel to each other are equipped with, vibrating disk 55 is located at the lower end of multiple first rollers 61.
Feeding supports seat 11, and there are four be respectively the first support 101, the second support 102, third support 103 and the 4th support
104, it is sliding that the first support 101, the second support 102, third support 103 and the 4th support 104 are successively set on first from front to back
The lower end of rail 12.
The height value of 4th support 104 is greater than the height value of third support 103, and the height value of third support 103 is greater than the
The height value of two supports 102, the height value of the second support 102 are greater than the height value of the first support 101.The setting of storage device 2 exists
Between third support 103 and the 4th support 104.
The upper end of 4th support 104 is provided with the first pulling mechanism 14, and the first pulling mechanism 14 includes the first pulling motor
141, the first runner 142 and the first support wheel 143, first pulls motor 141 and the first runner 142 to be located under the first support wheel 143
End.The shaft of first pulling motor 141 is connected with the first runner 142, and the first runner 142 passes through the first wirerope 15 and elevating hopper 13
It is connected, the first wirerope 15 takes turns 143 positioning supports by the first support.
There are two first sliding rails 12, and what two the first sliding rails 12 were parallel to each other is arranged in the upper end of feeding support seat 11.
The inside of first sliding rail 12 is provided with first sliding groove, and the lower end of elevating hopper 13 is provided with the first roll wheel assembly, the first roll wheel assembly
End be connected in first sliding groove.
Elevating hopper 13, storage hopper 22 and feeding funnel 32 are shelly-shaped in terrace with edge, and storing support 21 is square rack-like.Elevating hopper 13
Lower part the first hopper door close and the second hopper door close are connected with by shaft, the rear and front end of elevating hopper 13 is connected with respectively
One electric cylinder and the second electric cylinder, the first electric cylinder and the second electric cylinder are separately connected the first hopper door close and
Two hopper door closes.
The lower part of storage hopper 22 is connected with third hopper door close and the 4th hopper door close by shaft, before storage hopper
Both ends are connected with third electric cylinder and the 4th electric cylinder respectively afterwards, and third electric cylinder and the 4th electric cylinder are separately connected
Three hopper door closes and the 4th hopper door close.
The upper end of first sliding rail 12 is provided with the first electric wire locating rack 16, and the first electric wire locating rack 16 is vertical including the first electric wire
Bar 161, the first electric wire vertical pole 161 are connected on the first sliding rail 12 by the first electric wire strut, the first electric wire vertical pole 161 and
One sliding rail 12 is parallel to each other.
The first spring electric wire is cased on first electric wire vertical pole 161, the electric end that enters of the first spring electric wire is connected with controller 7,
The current output terminal of first spring electric wire connects the first electric cylinder and the second electric cylinder.
The lower part of feeding funnel 32 is connected with the 5th hopper door close and the 6th hopper door close by shaft, before feeding funnel
Both ends are connected with the 5th electric cylinder and the 6th electric cylinder respectively afterwards, and the 5th electric cylinder and the 6th electric cylinder are separately connected
Five hopper door closes and the 6th hopper door close.
First conveyer frames 31 include multiple first transmission struts 311 and be connected on multiple first transmission struts 311 the
Two sliding rails 312,312 inner face of the second sliding rail offer second sliding slot, and feeding funnel 32 passes through the second roll wheel assembly and second sliding slot
It is slidably connected.Under rear portion of the height value less than the second sliding rail 311 of first transmission strut 311 of 311 front lower ends of the second sliding rail
The height value of the first transmission strut 311 at end.Purpose is to make the rear end of the second sliding rail 312 be higher than front end, then feeding funnel
32 can be free to slide to front end by the rear end of the certain gravity of itself from the second sliding rail 312.In order to increase working efficiency, the
It is connected with the first assist motor rolled for the first roll wheel assembly on one roll wheel assembly, is connected on the second roll wheel assembly for the
The second assist motor that one roll wheel assembly rolls.
The upper end of second sliding rail 312 is provided with the second electric wire locating rack 33 and the second pulling mechanism 34, the positioning of the second electric wire
Frame 33 includes the second electric wire vertical pole 331, and the second electric wire vertical pole 331 is parallel to each other with the second sliding rail 312.Second pulling mechanism 34
Motor and the second runner are pulled including second, the second pulling motor is connected on the second sliding rail 312, and second pulls the shaft of motor
It is connected with the second runner, the second runner is connected by the second wirerope with feeding funnel 32.
Second spring electric wire is cased on second electric wire vertical pole 331, second spring electric wire enters electric end and 7 phase of controller
Even, the current output terminal of second spring electric wire connects the 5th electric cylinder and the 6th electric cylinder.
Second conveyer frames 41 include it is multiple second transmission struts 42 and be connected to it is multiple second transmission struts 42 on first
Branch frame 43 is transmitted, the upper end of the first transmission branch frame 43 is arranged in multiple first rollers 61.
It is provided with transmission case 62 on first transmission branch frame 43 of 61 side of the first roller, one end of the first roller 61 passes through rolling
Cylinder pedestal 63 is connected with the first transmission branch frame 43, and the other end of the first roller 61 passes through the transmission in transmission gear and transmission case 62
Chain is connected.Driving chain is connected with chain drive motor, and chain drive motor can be fixed on the first transmission branch frame 43,
It can be fixed on external chain electric machine support.
There are four first hydraulicefficiency elevation structures 52, and the first hydraulicefficiency elevation structure 52 includes hydraulic lifting cylinder.First vibration
Bracket 53 is square rack-like, and there are six vibrating springs 54, and six vibrating springs 54 are evenly arranged on the lower end of first vibration side's frame 53.
The lower end of the vibrating disk 5 is connected with the first vibrating motor vibrated for vibrating disk 55.First vibrating mass 56 is in
Rectangular block, the setting that multiple first vibrating mass 56 are parallel to each other is on vibrating disk 55.The length value of first vibrating mass 56 is small
In the length value of the first roller 61, the distance values of every two adjacent first vibrating mass 56 and every two adjacent first roller 61
Between distance values it is identical, between every two adjacent first roller 61 adaptation be provided with first vibrating mass 56.
The first vibratory concrete mechanism 23 is connected on storing support 21, the first vibratory concrete mechanism 23 includes the second vibration
Dynamic motor 231 and the first vibration rod assembly being connected on the second vibrating motor 231, the second vibrating motor 231 are connected to storing support
On frame 21, the first vibration rod assembly is located in storage hopper 22.First vibration rod assembly, can under the drive of the second vibrating motor 231
Vibration is carried out to the concrete mortar in storage hopper 22 to mix thoroughly.
Above-mentioned multistage feeding oscillatory type concrete precast block process equipment is driven by three-level, realizes concrete prefabricated element
Highly-efficient processing.Controller 7 controls feeding device 1, storage device 2, the first feed device 3, the second feed device 4 by route
With the operation of mold vibration device 5.When normal work, the elevating hopper 13 in feeding device 1 first slides 101 upper end of the first support,
Then the concrete mortar modulated is put into elevating hopper 13 by worker, elevating hopper 13 under the action of the first pulling mechanism 14 to
The top orientation of 4th support 104 is mobile.When being moved to the top of storage hopper 22, elevating hopper 13 stops movement, elevating hopper 13
Concrete mortar is put into storage hopper 22.Then feeding funnel 32 is moved to the lower end of storage hopper 22, the coagulation in storage hopper 22
Soil sand slurry is fallen into feeding funnel 32.
After storage hopper 22 has a certain amount of concrete mortar material stock in storage device.The operation of feeding device 1 and first
The operation of feed device 3 does not influence mutually, is relatively independent.After i.e. feeding device 1 stops working a period of time, it will not influence
The work of first feed device 3;First feed device 3 stopped working after a period of time, will not influence the work of feeding device 1.
After the work of workpeople is not interfere with each other, the working efficiency of whole equipment is improved, is avoided when feeding is not in time or in mold
Semi-finished product prefabricated section processing not in time when, entire process equipment stopping processing situation.
Also novel mold vibration device 5, the first hydraulicefficiency elevation structure 52 in mold vibration device 5 are set in this equipment
The lifting of controllable first vibration rack 53.When needing fabrication of concrete prefabricated section, the first hydraulicefficiency elevation structure 52 is driven
First vibrating mass 56 rises, and after rising to certain distance, there is first vibrating mass 56 between each first roller 61, and the
Upper surface after the rising of one vibrating mass 56 is higher than 61 upper surface of the first roller.
When the molds of multiple processing prefabricated components are placed on by worker to be put above the first roller 61, empty mold first can be with
First vibrating mass 56 is in contact.After concrete mortar is put into mold by feeding funnel 32, start the first vibration electricity on vibrating disk
Machine, the first vibrating motor drive the first vibrating mass 56 to vibrate by vibrating disk, and the first vibrating mass 56 passes through the vibration force of itself
Effect vibrates the concrete mortar in mold more evenly.The length of first vibration rack 53 can make according to actual needs.
When the semi-finished product in mold concrete prefabricated element after processing is completed, the first hydraulicefficiency elevation structure 52 drives
One vibrating mass 56 declines segment distance.Mold is directly contacted with the first roller 61 at this time, after the rotation of the first roller 61, by mold and
The concrete prefabricated element of semi-finished product in mold is transported on mold carrier.In the process, the concrete sand in mold
It is complete by process equipment that the filling of slurry, the vibration of concrete mortar stir evenly the preliminary transmission with semi-finished product concrete prefabricated element
At more time saving and energy saving relative to existing process equipment, processing effect is good, so that production efficiency is greatly improved.Add
The work division of various pieces is clear in construction equipment, and the later period is easier to attended operation when something goes wrong, and structure novel is creative high.
Certainly, the above description is not intended to limit the present invention, and the utility model is also not limited to the example above,
The variations, modifications, additions or substitutions that those skilled in the art are made in the essential scope of the utility model, are also answered
Belong to the protection scope of the utility model.
Claims (9)
1. multistage feeding oscillatory type concrete precast block process equipment, which is characterized in that including feeding device, storage device, the
One feed device, the second feed device and mold vibration device, feeding device include multiple feeding support seats, multiple feeding support seats
Upper end inclination is connected with the first sliding rail, slidably connects elevating hopper on the first sliding rail;
Storage device is located at the lower end of the first sliding rail, and storage device includes storing support, is connected with storage hopper on storing support;
First feed device includes the first conveyer frames, and the lower end of storage hopper, the first conveyer frames are arranged in the front of the first conveyer frames
Upper end slidably connect feeding funnel;
Second feed device includes the second conveyer frames and mold delivery mechanism, and the second conveyer frames are arranged under the first conveyer frames
End, the side of the second conveyer frames are connected with controller, and mold delivery mechanism includes multiple first rollers, and multiple first rollers are mutual
The parallel upper end that the second conveyer frames are set;
Mold vibration device is arranged on the inside of the second conveyer frames, and mold vibration device includes vibration support base, vibration support bottom
Seat is equipped with multiple first hydraulicefficiency elevation structures, is connected with the first vibration rack on multiple first hydraulicefficiency elevation structures;
The upper end of first vibration rack is connected with vibrating disk by multiple vibrating springs, and the upper end of vibrating disk is provided with multiple mutual
The first parallel vibrating mass, vibrating disk are located at the lower end of the first roller.
2. multistage feeding oscillatory type concrete precast block process equipment according to claim 1, which is characterized in that on described
There are four be respectively the first support, the second support, third support and the 4th support, the first support, the second support, third for material support seat
Support and the 4th support are successively set on the lower end of the first sliding rail from front to back;
The height value of 4th support is greater than the height value of third support, and the height value of third support is greater than the height of the second support
Value, the height value of the second support are greater than the height value of the first support;Storage device is arranged between third support and the 4th support.
3. multistage feeding oscillatory type concrete precast block process equipment according to claim 2, which is characterized in that described the
The upper end of four supports is provided with the first pulling mechanism, and the first pulling mechanism includes the first pulling motor, the first runner and the first support
Wheel, first pulls motor and the first runner to be located at the lower end that the first support is taken turns, and the shaft of the first pulling motor is connected with the first runner,
First runner is connected by the first wirerope with elevating hopper, and the first wirerope takes turns positioning support by the first support;
There are two first sliding rails, and what two the first sliding rails were parallel to each other is arranged in the upper end of feeding support seat;First sliding rail
Inside offers first sliding groove, and the lower end of elevating hopper is provided with the first roll wheel assembly, the first power-assisted is connected on the first roll wheel assembly
The end adapter of motor, the first roll wheel assembly is connected in first sliding groove.
4. multistage feeding oscillatory type concrete precast block process equipment according to claim 1, which is characterized in that on described
Hopper, storage hopper and feeding funnel are in that terrace with edge is shelly-shaped, and storing support is square rack-like;
The lower part of elevating hopper is connected with the first hopper door close and the second hopper door close, the rear and front end point of elevating hopper by shaft
It is not connected with the first electric cylinder and the second electric cylinder, the first electric cylinder and the second electric cylinder are separately connected the first hopper and close
Close door and the second hopper door close;
The lower part of storage hopper is connected with third hopper door close and the 4th hopper door close, the rear and front end of storage hopper by shaft
It is connected with third electric cylinder and the 4th electric cylinder respectively, third electric cylinder and the 4th electric cylinder are separately connected third hopper
Door close and the 4th hopper door close.
5. multistage feeding oscillatory type concrete precast block process equipment according to claim 4, which is characterized in that described the
The upper end of one sliding rail is provided with the first electric wire locating rack, and the first electric wire locating rack includes the first electric wire vertical pole, the first electric wire vertical pole
It is connected on the first sliding rail by the first electric wire strut, the first electric wire vertical pole is parallel to each other with the first sliding rail;
The first spring electric wire is cased on first electric wire vertical pole, the electric end that enters of the first spring electric wire is connected with controller, the first spring
The current output terminal of electric wire connects the first electric cylinder and the second electric cylinder.
6. multistage feeding oscillatory type concrete precast block process equipment according to claim 1, which is characterized in that described to send
The lower part of hopper is connected with the 5th hopper door close and the 6th hopper door close by shaft, and the rear and front end of feeding funnel connects respectively
There are the 5th electric cylinder and the 6th electric cylinder, the 5th electric cylinder and the 6th electric cylinder are separately connected the 5th hopper door close
With the 6th hopper door close;
First conveyer frames include the multiple first the second sliding rails for transmitting struts and being connected on multiple first transmission struts, and second is sliding
The inner face of rail offers second sliding slot, and the lower end of feeding funnel is connected with the second roll wheel assembly, and is connected on the second roll wheel assembly
The end adapter of two assist motors, the second roll wheel assembly is connected in second sliding slot.
7. multistage feeding oscillatory type concrete precast block process equipment according to claim 6, which is characterized in that described the
The upper end of two sliding rails is provided with the second electric wire locating rack and the second pulling mechanism, and the second electric wire locating rack is vertical including the second electric wire
Bar, the second electric wire vertical pole are parallel to each other with the second sliding rail;
Second spring electric wire is cased on second electric wire vertical pole, the electric end that enters of second spring electric wire is connected with controller, second spring
The current output terminal of electric wire connects the 5th electric cylinder and the 6th electric cylinder;
Second pulling mechanism includes the second pulling motor and the second runner, and the second runner is connected by the second wirerope with feeding funnel.
8. multistage feeding oscillatory type concrete precast block process equipment according to claim 1, which is characterized in that described the
Two conveyer frames include it is multiple second transmission struts and be connected to it is multiple second transmission struts on first transmission branch frames, multiple first
The upper end of the first transmission branch frame is arranged in roller;
It is provided with transmission case on first transmission branch frame of the first roller side, one end of the first roller passes through roller pedestal and first
Branch frame is transmitted to be connected, the other end of the first roller is connected by transmission gear with the driving chain in transmission case, driving chain and
Chain drive motor is connected.
9. multistage feeding oscillatory type concrete precast block process equipment according to claim 1, which is characterized in that described the
There are four one hydraulicefficiency elevation structures, and the first hydraulicefficiency elevation structure includes hydraulic lifting cylinder;First vibration rack is square rack-like,
There are six vibrating springs, and six vibrating springs are evenly arranged on the lower end of first vibration side's frame;
The lower end of the vibrating disk is connected with the first vibrating motor for vibrating disc vibration;
First vibrating mass is rectangle bulk, and the setting that multiple first vibrating mass are parallel to each other is on vibrating disk, the first vibration
The length value of motion block less than the first roller length value, the distance values of every two adjacent first vibrating mass with it is every two adjacent
Distance values between first roller are identical.
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CN201822131910.XU CN209718053U (en) | 2018-12-19 | 2018-12-19 | Multistage feeding oscillatory type concrete precast block process equipment |
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CN201822131910.XU CN209718053U (en) | 2018-12-19 | 2018-12-19 | Multistage feeding oscillatory type concrete precast block process equipment |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109531776A (en) * | 2018-12-19 | 2019-03-29 | 中交第航务工程局有限公司 | Multistage feeding oscillatory type concrete precast block process equipment |
CN111099382A (en) * | 2020-01-09 | 2020-05-05 | 鸿程电子工业(南通)有限公司 | Special feeding mechanism constructs |
CN113357975A (en) * | 2021-05-18 | 2021-09-07 | 上海机电工程研究所 | Box ammunition auxiliary device and using method thereof |
-
2018
- 2018-12-19 CN CN201822131910.XU patent/CN209718053U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109531776A (en) * | 2018-12-19 | 2019-03-29 | 中交第航务工程局有限公司 | Multistage feeding oscillatory type concrete precast block process equipment |
CN109531776B (en) * | 2018-12-19 | 2024-05-17 | 中交第一航务工程局有限公司 | Multistage feeding vibration type concrete precast block processing equipment |
CN111099382A (en) * | 2020-01-09 | 2020-05-05 | 鸿程电子工业(南通)有限公司 | Special feeding mechanism constructs |
CN113357975A (en) * | 2021-05-18 | 2021-09-07 | 上海机电工程研究所 | Box ammunition auxiliary device and using method thereof |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20191203 |