CN110356790A - A kind of used on cement production line finished ground cement part flow arrangement - Google Patents
A kind of used on cement production line finished ground cement part flow arrangement Download PDFInfo
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- CN110356790A CN110356790A CN201910639914.5A CN201910639914A CN110356790A CN 110356790 A CN110356790 A CN 110356790A CN 201910639914 A CN201910639914 A CN 201910639914A CN 110356790 A CN110356790 A CN 110356790A
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- gear
- helical spring
- type
- annular array
- gear set
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G33/00—Screw or rotary spiral conveyors
- B65G33/08—Screw or rotary spiral conveyors for fluent solid materials
- B65G33/14—Screw or rotary spiral conveyors for fluent solid materials comprising a screw or screws enclosed in a tubular housing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G33/00—Screw or rotary spiral conveyors
- B65G33/24—Details
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G33/00—Screw or rotary spiral conveyors
- B65G33/24—Details
- B65G33/26—Screws
- B65G33/265—Screws with a continuous helical surface
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G33/00—Screw or rotary spiral conveyors
- B65G33/24—Details
- B65G33/32—Adaptations of bearings or couplings for supporting and connecting screws
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G33/00—Screw or rotary spiral conveyors
- B65G33/24—Details
- B65G33/34—Applications of driving gear
Abstract
The invention discloses a kind of used on cement production line finished ground cement part flow arrangements, including principal post body case.The finished ground cement of concentration can be utilized a driving motor by the present invention, change is able to carry out multi-faceted shunting function, realize a tractor serves several purposes, the utilization rate of driving device is enhanced simultaneously, reduce equipment cost, and, device control ability with higher, it can guarantee the safety of the device when in use, and, there is the device the engagement type spin intensity of gear set to enhance mechanism, intensity when rotation can be enhanced, enhance its ability to work, furthermore, there is the device gear-engaged type to rotate diversion mechanism, it can transform the rotation into as multiple directions, to improve the utilization rate of component, in addition, there is the device annular array type helical spring to contradict control mechanism, the maximum resistance of rotation can be controlled, the generation of driving motor burnout phenomenon caused by preventing rotational resistance excessive.
Description
Technical field
The present invention relates to technical field of cement production, specially a kind of used on cement production line finished ground cement part flow arrangement.
Background technique
Currently, when the powder overconcentration of power in the managerial system, needing to use part flow arrangement, main function is in manufacture of cement place: will
The powder unit of concentration is distributed to each storing position, and existing part flow arrangement is when shunting, need to use a variety of instruments into
Row collocation work, it is relatively low for the utilization rate of component and driving device, while control ability is also poor.
Summary of the invention
The purpose of the present invention is to provide a kind of used on cement production line finished ground cement part flow arrangements, to solve above-mentioned background skill
The problem of being proposed in art.
To achieve the above object, the invention provides the following technical scheme: a kind of used on cement production line finished ground cement shunts dress
It sets, including principal post body case, the bottom of the principal post body case is equipped with supporting leg, and the side of the principal post body case is provided with
The inside of the shunt conduit structure of multiple annular array settings, the principal post body case and shunt conduit structure is respectively arranged with company
Logical main hollow structure and secondary hollow structure, the bottom of the shunt conduit structure is provided with the main discharge with its integral structure
Pipeline configuration, the main discharge tube are internally provided with the main discharge orifice for being connected to secondary hollow structure bottom side, the principal post
Body case is being located at the main hollow structure bottom centre installation one gear-engaged type rotation diversion mechanism, the gear-engaged type
The side of rotation diversion mechanism is equipped with multiple the first rotary shafts of master, is equipped with principal screw on the axis body of first rotary shaft of master
Blade, and the axis body of the first rotary shaft of master one end is mounted on the center of shunt conduit structure end by base bearing, it is described
Main cylinders outer casing bottom is provided centrally with master unit installation groove structure, the inside installation one of the master unit installation groove structure
The engagement type spin intensity of gear set enhances mechanism, and the engagement type spin intensity enhancing mechanism top center installation one of gear set is main
Second rotary shaft, second rotary shaft of master are mounted on main cylinders outer casing bottom center, the gear set engagement by base bearing
Formula spin intensity enhances actuator base center and installs a main third rotary shaft, and a circular array is installed in the main third rotary shaft bottom
Column helical spring contradicts control mechanism, and the annular array type helical spring contradicts control mechanism bottom centre installation one main the
The bottom of four rotary shafts, the 4th rotary shaft of master is installed by one axis body mounting flange.
Further, the engagement type spin intensity enhancing mechanism of the gear set includes the engagement type spin intensity enhancing of gear set
The engagement type spin intensity enhancing mechanism hollow structure of mechanism hollow casing, gear set, the engagement type spin intensity of gear set increase
The engagement type spin intensity enhancing mechanism bearing of the first rotary shaft of strong mechanism, gear set, the engagement type spin intensity of gear set increase
The second rotary shaft of strong mechanism, the engagement type spin intensity of gear set enhance mechanism third rotary shaft, the engagement type rotation of gear set
The engagement type spin intensity of enhanced strength mechanism first gear, gear set enhances mechanism second gear, the engagement type rotation of gear set
Turn engagement type spin intensity enhancing the 4th gear of mechanism of enhanced strength mechanism third gears and gears group;The gear set is nibbled
Box-like spin intensity enhancing mechanism hollow casing is internally provided with the engagement type spin intensity enhancing mechanism of gear set with hollow
Structure, the engagement type spin intensity enhancing mechanism of gear set are strong by the engagement type rotation of gear set with hollow casing bottom centre
The engagement type spin intensity of a gear set is installed with bearing by degree enhancing mechanism enhances the first rotary shaft of mechanism, the gear set engagement
Formula spin intensity enhances mechanism hollow casing top center and is pacified by the engagement type spin intensity enhancing mechanism bearing of gear set
The engagement type spin intensity enhancing mechanism third rotary shaft of a gear set is filled, the engagement type spin intensity of gear set enhances mechanism
Mechanism bearing is enhanced by the engagement type spin intensity of gear set with the side of hollow casing, the engagement type rotation of one gear set is installed
The second rotary shaft of enhanced strength mechanism, the engagement type spin intensity of gear set enhance on axis body of the mechanism with the second rotary shaft
The engagement type spin intensity enhancing mechanism second gear of gear set is installed and gear set engagement type spin intensity enhancing mechanism uses
Third gear, the engagement type spin intensity of gear set enhance mechanism the first rotary shaft top and the engagement type rotation of the gear set
Turn enhanced strength mechanism and is separately installed with the engagement type spin intensity enhancing mechanism of gear set with first with the bottom end of third rotary shaft
The engagement type spin intensity of gears and gears group enhances the 4th gear of mechanism, and the engagement type spin intensity of the gear set enhances machine
Structure is meshed with first gear with gear set engagement type spin intensity enhancing mechanism with the tooth structure between second gear, described
The engagement type spin intensity enhancing mechanism of gear set enhances the 4th tooth of mechanism with the engagement type spin intensity of third gears and gears group
Tooth structure between wheel is meshed.
Further, the engagement type spin intensity enhancing mechanism of the gear set is small with the structure radius of first gear reference circle
In the structure radius of the engagement type spin intensity enhancing mechanism second gear reference circle of the gear set, the gear set is engagement type
The structure radius that spin intensity enhances mechanism second gear reference circle, which is greater than the engagement type spin intensity of the gear set, enhances machine
The structure radius of structure third gear compound graduation circle, the engagement type spin intensity enhancing mechanism of gear set are less than institute with third gear
State the structure radius of engagement type spin intensity enhancing mechanism the 4th gear compound graduation circle of gear set.
Further, engagement type spin intensity enhancing the first rotary shaft end of mechanism of the gear set and gear set engagement
Formula spin intensity enhances mechanism and fixes company with main third rotary shaft and main second rotary shaft end respectively with third rotary shaft end
It connects.
Further, the gear-engaged type rotation diversion mechanism includes gear-engaged type rotation diversion mechanism hollow shell
Body, gear-engaged type rotation diversion mechanism connecting plate, gear-engaged type rotation diversion mechanism bolt hole, gear-engaged type rotation
Turn diversion mechanism hollow structure, gear-engaged type rotation the first rotary shaft of diversion mechanism, gear-engaged type rotation shunting machine
Structure first bearing, gear-engaged type rotation diversion mechanism master gear, the second rotation of gear-engaged type rotation diversion mechanism
Axis, gear-engaged type rotation diversion mechanism pinion and gear-engaged type rotate diversion mechanism second bearing;The gear
One gear-engaged type is installed and rotates diversion mechanism connecting plate, the tooth in the bottom of engagement type rotation diversion mechanism hollow shell
That takes turns engagement type rotation diversion mechanism connecting plate is internally provided with multiple gear-engaged type rotation diversion mechanism bolts hole, institute
State being provided centrally in gear-engaged type rotation diversion mechanism use inside gear-engaged type rotation diversion mechanism hollow shell
Hollow structure, the gear-engaged type rotation diversion mechanism rotate diversion mechanism by gear-engaged type with the center of hollow shell bottom
With the first rotary shaft, and the two is being installed by gear-engaged type rotation diversion mechanism with first bearing through position, the tooth
Gear-engaged type rotation diversion mechanism first bearing is installed at the top for taking turns engagement type rotation the first rotary shaft of diversion mechanism,
One gear-engaged type rotation diversion mechanism master is installed on the top of gear-engaged type rotation first rotary shaft of diversion mechanism
It is used by multiple gear-engaged types rotation diversion mechanism the side of gear, the gear-engaged type rotation diversion mechanism hollow shell
Second rotary shaft runs through, and the two is being installed by gear-engaged type rotation diversion mechanism with second bearing through position, each
The gear-engaged type rotation diversion mechanism is respectively mounted gear-engaged type rotation diversion mechanism with one end of the second rotary shaft and uses
Pinion, between the gear-engaged type rotation diversion mechanism pinion and gear-engaged type rotation diversion mechanism master gear
It is engaged by tooth structure.
Further, the outer end of gear-engaged type rotation second rotary shaft of diversion mechanism and main first rotary shaft
One end connection, the gear-engaged type rotation first rotary shaft bottom end of diversion mechanism and the end of main second rotary shaft connect
It connects.
Further, the gear-engaged type rotation diversion mechanism connecting plate is by being inserted into gear-engaged type rotation point
Bolt inside stream mechanism bolt hole is mounted on the inside of main hollow structure.
Further, it includes that annular array type helical spring contradicts that the annular array type helical spring, which contradicts control mechanism,
The main hollow housing of control mechanism, annular array type helical spring contradict the main hollow section of control mechanism, annular array type spiral shell
It revolves spring and contradicts control mechanism column spinner, annular array type helical spring conflict control mechanism semi-circular recesses structure, ring
Shape array helical spring contradicts the secondary hollow section of control mechanism, annular array type helical spring contradicts control mechanism activity
Plate, annular array type helical spring contradict control mechanism helical spring and annular array type helical spring contradicts control mechanism and uses
Push rod;The annular array type helical spring contradicts center and main 4th rotation for main one end face of hollow housing of control mechanism
The end of axis is fixedly connected, and it is institute that the annular array type helical spring, which contradicts control mechanism with the center inside main hollow housing,
It states annular array type helical spring and contradicts the main hollow section of control mechanism, the annular array type helical spring contradicts control machine
Structure is socketed with main hollow housing in the inside for being located at the main hollow section of annular array type helical spring conflict control mechanism
One annular array type helical spring contradicts control mechanism column spinner, and the annular array type helical spring contradicts control mechanism and uses
The inside of main hollow housing is that annular array type helical spring contradicts the secondary hollow section of control mechanism, the annular array type spiral shell
It revolves spring and contradicts the inside in the secondary hollow section of control mechanism positioned at annular array type helical spring conflict control mechanism
An annular array type helical spring, which is placed, with an end face in the hollow section of master contradicts control mechanism movable plate, the annular array
Formula helical spring contradicts the secondary hollow section of control mechanism and contradicts control mechanism use in the annular array type helical spring in place
An annular array type helical spring is fixed between one end of movable plate contradicts control mechanism helical spring, the annular array type
The end face that helical spring contradicts control mechanism movable plate is provided with the annular array type helical spring with its integral structure
Control mechanism push rod is contradicted, and the annular array type helical spring contradicts control mechanism push rod and runs through the annular array
Formula helical spring contradicts the main hollow housing of control mechanism, and is located at the annular array type helical spring and contradicts control mechanism use
The inside in main hollow section, the annular array type helical spring contradict control mechanism push rod and are being located at the annular array type
It is semicircular structure that helical spring, which contradicts control mechanism with the one end in main hollow section, and the annular array type helical spring contradicts
The side of control mechanism column spinner, which is provided with, contradicts control mechanism push rod for placing the annular array type helical spring
The annular array type helical spring of end contradicts control mechanism semi-circular recesses structure, and the annular array type helical spring supports
The end of one end and main third rotary shaft for touching control mechanism column spinner is fixed.
Further, the initial length that the annular array type helical spring contradicts control mechanism helical spring is greater than institute
State the length that annular array type helical spring contradicts the secondary hollow section of control mechanism.
Further, the annular array type helical spring contradicts the construction profile and annular of control mechanism push rod end
It is consistent with the construction profile of semi-circular recesses structure that array helical spring contradicts control mechanism.
Compared with prior art, the beneficial effects of the present invention are: the finished ground cement of concentration can be utilized one by the present invention
Driving motor, change are able to carry out multi-faceted shunting function, realize a tractor serves several purposes, while enhancing the utilization of driving device
Rate reduces equipment cost, also, device control ability with higher, can guarantee the safety of the device when in use
Property, moreover, there is the device the engagement type spin intensity of gear set to enhance mechanism, intensity when rotation can be enhanced, enhance its work
Make ability, in addition, there is the device gear-engaged type to rotate diversion mechanism, can transform the rotation into as multiple directions, to mention
The utilization rate of high component can control rotation most in addition, there is the device annular array type helical spring to contradict control mechanism
Big resistance, the generation of driving motor burnout phenomenon caused by preventing rotational resistance excessive.
Detailed description of the invention
Fig. 1 is a kind of complete section structural schematic diagram of used on cement production line finished ground cement part flow arrangement of the present invention;
Fig. 2 is a kind of engagement type spin intensity enhancing of used on cement production line finished ground cement part flow arrangement middle gear group of the present invention
The structural schematic diagram of mechanism;
Fig. 3 is a kind of engagement type rotation diversion mechanism of used on cement production line finished ground cement part flow arrangement middle gear of the present invention
Structural schematic diagram;
Fig. 4 is that annular array type helical spring contradicts control in a kind of used on cement production line finished ground cement part flow arrangement of the present invention
The structural schematic diagram of mechanism processed;
In figure: 1, principal post body case, 2, supporting leg, 3, shunt conduit structure, 4, base bearing, 5, main hollow structure, 6 are secondary
Hollow structure, 7, main discharge orifice, 8, master unit installation groove structure, 9, the engagement type spin intensity of gear set enhance mechanism, 91, tooth
The engagement type spin intensity enhancing mechanism hollow casing of wheel group, 92, the engagement type spin intensity of gear set enhances the hollow knot of mechanism
Structure, 93, engagement type spin intensity enhancing the first rotary shaft of mechanism of gear set, 94, the engagement type spin intensity of gear set enhances machine
Structure bearing, 96, engagement type spin intensity enhancing the second rotary shaft of mechanism of gear set, 97, the engagement type spin intensity of gear set
Enhancing mechanism third rotary shaft, 98, the engagement type spin intensity enhancing mechanism first gear of gear set, 99, gear set engagement
Formula spin intensity enhancing mechanism second gear, 910, the engagement type spin intensity enhancing mechanism third gear of gear set, 911,
The engagement type spin intensity of gear set enhances mechanism the 4th gear, 10, and gear-engaged type rotates diversion mechanism, 101, gear engagement
Formula rotation diversion mechanism hollow shell, 102, gear-engaged type rotation diversion mechanism connecting plate, 103, gear-engaged type rotation
Turn diversion mechanism bolt hole, 104, gear-engaged type rotates diversion mechanism hollow structure, 105, gear-engaged type rotation point
Stream the first rotary shaft of mechanism, 106, gear-engaged type rotation diversion mechanism first bearing, 107, gear-engaged type rotation point
Stream mechanism master gear, 108, gear-engaged type rotation the second rotary shaft of diversion mechanism, 109, gear-engaged type rotation shunts
Mechanism pinion, 1010, gear-engaged type rotates diversion mechanism second bearing, 12, principal screw blade, 13, main third rotation
Shaft, 14, main 4th rotary shaft, 15, annular array type helical spring contradict control mechanism, 151, annular array type helical spring
The conflict main hollow housing of control mechanism, 152, the main hollow section of annular array type helical spring conflict control mechanism, 153,
Annular array type helical spring conflict control mechanism column spinner, 154, annular array type helical spring contradicts control mechanism with half
Circular groove structure, 155, the secondary hollow section of annular array type helical spring conflict control mechanism, 156, annular array type spiral shell
Rotation spring conflict control mechanism movable plate, 157, annular array type helical spring conflict control mechanism helical spring, 158,
Annular array type helical spring contradicts control mechanism push rod, 16, and axis body mounting flange, 17, main second rotary shaft, 18 are main
First rotary shaft, 19, main discharge tube structure.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Referring to Fig. 1, a kind of embodiment provided by the invention: including principal post body case 1, the bottom of the principal post body case 1
Portion is equipped with supporting leg 2, and the side of the principal post body case 1 is provided with the shunt conduit structure 3 of multiple annular array settings, institute
It states principal post body case 1 and is respectively arranged with the main hollow structure 5 being connected to and secondary hollow structure 6, institute with the inside of shunt conduit structure 3
The bottom for stating shunt conduit structure 3 is provided with main discharge tube structure 19 with its integral structure, the main discharge tube 19
Be internally provided with the main discharge orifice 7 for being connected to secondary 6 bottom side of hollow structure, the principal post body case 1 is in being located at the master
5 bottom centre of hollow structure installs a gear-engaged type and rotates diversion mechanism 10, the gear-engaged type rotation diversion mechanism 10
Side is equipped with multiple the first rotary shafts of master 18, is equipped with principal screw blade 12 on the axis body of first rotary shaft of master 18, and
The axis body of described 18 one end of the first rotary shaft of master is mounted on the center of 3 end of shunt conduit structure, the principal post by base bearing 4
1 bottom centre of body case is provided with master unit installation groove structure 8, the inside installation one of the master unit installation groove structure 8
The engagement type spin intensity of gear set enhances mechanism 9, engagement type spin intensity enhancing 9 top center of the mechanism installation one of gear set
Main second rotary shaft 17, second rotary shaft of master 17 are mounted on 1 bottom centre of principal post body case, the tooth by base bearing 4
A main third rotary shaft 13, main 13 bottom of third rotary shaft are installed by wheel group engagement type spin intensity enhancing 9 bottom centre, mechanism
Portion installs an annular array type helical spring and contradicts control mechanism 15, and the annular array type helical spring contradicts control mechanism 15
Main 4th rotary shaft 14 of bottom centre's installation one, an axis body mounting flange 16 is installed in the bottom of the 4th rotary shaft 14 of master.
Referring to Fig. 2, the gear set engagement type spin intensity enhancing mechanism 9 includes that the engagement type spin intensity of gear set increases
Strong mechanism hollow casing 91, the engagement type spin intensity of gear set enhance mechanism hollow structure 92, the engagement type rotation of gear set
The engagement type spin intensity enhancing mechanism bearing 94 of the first rotary shaft 93 of enhanced strength mechanism, gear set, gear set are engagement type
Spin intensity, which enhances the engagement type spin intensity of the second rotary shaft 95 of mechanism, gear set, enhances mechanism third rotary shaft 97, tooth
The engagement type spin intensity enhancing mechanism first gear 98 of wheel group, the engagement type spin intensity of gear set enhance mechanism second gear
915, the engagement type spin intensity enhancing mechanism third gear 910 of gear set and gear set engagement type spin intensity enhancing mechanism use
4th gear 911;The gear set that is internally provided with of the engagement type spin intensity enhancing mechanism hollow casing 91 of gear set is nibbled
Box-like spin intensity enhances mechanism hollow structure 92, and the engagement type spin intensity of gear set enhances mechanism hollow casing 91
Bottom centre enhances mechanism bearing 94 by the engagement type spin intensity of gear set and installs the engagement type spin intensity increasing of a gear set
The first rotary shaft 93 of strong mechanism, engagement type spin intensity enhancing 91 top center of mechanism hollow casing of gear set pass through
The engagement type spin intensity of a gear set is installed with bearing 94 by the engagement type spin intensity enhancing mechanism of gear set enhances mechanism third
The side of rotary shaft 97, the engagement type spin intensity enhancing mechanism hollow casing 91 of gear set passes through the engagement type rotation of gear set
Turn enhanced strength mechanism bearing 94 and a gear set engagement type spin intensity enhancing mechanism the second rotary shaft 95, the tooth are installed
The engagement type spin intensity enhancing mechanism of wheel group is increased with the engagement type spin intensity of gear set is equipped on the axis body of the second rotary shaft 95
Strong mechanism second gear 915 and the engagement type spin intensity of gear set enhance mechanism third gear 910, the gear set engagement
Formula spin intensity, which enhances mechanism 93 top of the first rotary shaft and the engagement type spin intensity of the gear set, enhances mechanism third
The bottom end of rotary shaft 97 is separately installed with the engagement type spin intensity enhancing mechanism first gear 98 of gear set and gear set engagement
Formula spin intensity enhances the 4th gear 911 of mechanism, and the engagement type spin intensity of the gear set enhances mechanism first gear
98 are meshed with gear set engagement type spin intensity enhancing mechanism with the tooth structure between second gear 915, the gear set
Engagement type spin intensity enhancing mechanism third gear 910 and the engagement type spin intensity of gear set enhance the 4th gear of mechanism
Tooth structure between 911 is meshed;The engagement type spin intensity of gear set enhances mechanism 98 reference circle of first gear
Structure radius is less than the structure radius of engagement type spin intensity enhancing mechanism 915 reference circle of second gear of the gear set, institute
The structure radius for stating engagement type spin intensity enhancing 915 reference circle of mechanism second gear of gear set is engaged greater than the gear set
Formula spin intensity enhances the structure radius of mechanism 910 reference circle of third gear, the engagement type spin intensity enhancing of gear set
Mechanism third gear 910 is less than the knot of engagement type spin intensity enhancing mechanism 911 reference circle of the 4th gear of the gear set
Structure radius;The engagement type spin intensity enhancing mechanism of gear set is strong with the engagement type rotation in 93 end of the first rotary shaft and gear set
Degree enhancing mechanism is fixedly connected with main third rotary shaft 13 and main second rotary shaft, 17 end respectively with 97 end of third rotary shaft.
Referring to Fig. 3, the gear-engaged type rotation diversion mechanism 10 includes that gear-engaged type rotation diversion mechanism is empty
Heart shell 101, gear-engaged type rotation diversion mechanism connecting plate 102, gear-engaged type rotate diversion mechanism bolt hole
103, gear-engaged type rotation diversion mechanism hollow structure 104, gear-engaged type rotate the first rotary shaft of diversion mechanism
105, gear-engaged type rotation diversion mechanism first bearing 106, gear-engaged type rotate diversion mechanism master gear 107, tooth
Take turns the second rotary shaft 108 of engagement type rotation diversion mechanism, gear-engaged type rotation diversion mechanism is nibbled with pinion 109 and gear
Box-like rotation diversion mechanism second bearing 1010;The bottom of the gear-engaged type rotation diversion mechanism hollow shell 101
One gear-engaged type rotation diversion mechanism connecting plate 102 is installed, the gear-engaged type rotates diversion mechanism connecting plate 102
Be internally provided with multiple gear-engaged types rotation diversion mechanism bolts hole 103, the gear-engaged type rotates diversion mechanism
Gear-engaged type rotation diversion mechanism hollow structure 104, the gear engagement are provided centrally with inside hollow shell 101
The center that formula rotates diversion mechanism 101 bottom of hollow shell rotates the first rotary shaft 105 of diversion mechanism by gear-engaged type,
And the two is rotating the diversion mechanism installation of first bearing 106, the gear-engaged type rotation by gear-engaged type through position
Gear-engaged type rotation diversion mechanism first bearing 106 is installed at the top for turning the first rotary shaft 105 of diversion mechanism, described
One gear-engaged type is installed and rotates the main tooth of diversion mechanism in the top that gear-engaged type rotates the first rotary shaft 105 of diversion mechanism
The side of wheel 107, the gear-engaged type rotation diversion mechanism hollow shell 101 rotates shunting machine by multiple gear-engaged types
Structure is run through with the second rotary shaft 108, and the two is rotating diversion mechanism second bearing by gear-engaged type through position
1010 installations, each gear-engaged type rotation diversion mechanism are respectively mounted gear engagement with one end of the second rotary shaft 108
Formula rotates diversion mechanism pinion 109, and the gear-engaged type rotation diversion mechanism pinion 109 and gear-engaged type revolve
Turn to engage between diversion mechanism master gear 107 by tooth structure;The second rotation of the gear-engaged type rotation diversion mechanism
The outer end of shaft 108 is connect with one end of main first rotary shaft 18, the first rotation of the gear-engaged type rotation diversion mechanism
105 bottom end of axis is connect with the end of main second rotary shaft 17;The gear-engaged type rotation diversion mechanism is logical with connecting plate 102
It crosses and is inserted into the inside that gear-engaged type rotation diversion mechanism is mounted on main hollow structure 5 with the bolt inside bolt hole 103.
Referring to Fig. 4, it includes annular array type helical spring that the annular array type helical spring, which contradicts control mechanism 15,
Contradict the main hollow housing 151 of control mechanism, annular array type helical spring contradicts the main hollow section 152 of control mechanism, ring
Shape array helical spring contradicts control mechanism column spinner 153, annular array type helical spring contradicts control mechanism semicircle
Connected in star structure 154, annular array type helical spring contradict the secondary hollow section 155 of control mechanism, annular array type spiral bullet
Spring contradicts control mechanism movable plate 156, annular array type helical spring contradicts control mechanism helical spring 157 and circular array
Column helical spring contradicts control mechanism push rod 158;It is hollow that the annular array type helical spring contradicts control mechanism master
The center of 151 1 end face of shell is fixedly connected with the end of main 4th rotary shaft 14, and the annular array type helical spring supports
Touching center of the control mechanism inside main hollow housing 151 is that the annular array type helical spring contradicts in control mechanism master
Empty interval 152, the annular array type helical spring contradict control mechanism and are being located at the annular array with main hollow housing 151
The inside that formula helical spring contradicts the main hollow section 152 of control mechanism is socketed an annular array type helical spring and contradicts control machine
Structure column spinner 153, it is circular array that the annular array type helical spring, which contradicts control mechanism with the inside of main hollow housing 151,
Column helical spring contradicts the secondary hollow section 155 of control mechanism, and the annular array type helical spring contradicts control mechanism and uses
The inside in secondary hollow section 155 is being located at the main hollow section 152 of annular array type helical spring conflict control mechanism
It places an annular array type helical spring and contradicts control mechanism movable plate 156, the annular array type helical spring in one end face
It contradicts control mechanism and is being located at annular array type helical spring conflict control mechanism movable plate with secondary hollow section 155
An annular array type helical spring is fixed between 156 one end contradicts control mechanism helical spring 157, the annular array type
The end face that helical spring contradicts control mechanism movable plate 156 is provided with the annular array type spiral bullet with its integral structure
Spring contradicts control mechanism push rod 158, and the annular array type helical spring contradicts control mechanism with push rod 158 through described
Annular array type helical spring contradicts the main hollow housing 151 of control mechanism, and is located at the annular array type helical spring and supports
The inside in the main hollow section 152 of control mechanism is touched, the annular array type helical spring contradicts control mechanism and existed with push rod 158
Contradicting control mechanism with the one end in main hollow section 152 positioned at the annular array type helical spring is semicircular structure, described
Annular array type helical spring contradicts control mechanism and is provided with the side of column spinner 153 for placing the annular array type spiral shell
Revolve the annular array type helical spring conflict control mechanism semi-circular recesses knot that spring contradicts control mechanism 158 end of push rod
Structure 154, the annular array type helical spring contradict one end of control mechanism column spinner 153 and the end of main third rotary shaft 13
Portion is fixed;The initial length that the annular array type helical spring contradicts control mechanism helical spring 157 is greater than the annular
Array helical spring contradicts the length in the secondary hollow section 155 of control mechanism;The annular array type helical spring contradicts control
The construction profile and annular array type helical spring of mechanism processed 158 end of push rod contradict control mechanism semi-circular recesses structure
154 construction profile is consistent, and main function is: when driving resistance excessive, resistance is greater than annular array type helical spring
When contradicting the elasticity of control mechanism helical spring 157, annular array type helical spring can be made to contradict control mechanism spiral
Spring 157 compresses, and under causation, so that realizing relative rotation between two rotary shafts, plays a protective role, so circular array
The elasticity that column helical spring contradicts control mechanism helical spring 157 should be less than rotation of the driving motor under maximum power
Dynamics is also the maximum pressure value being laterally applied to simultaneously.
Specifically used mode: in present invention work, the rotary shaft of axis body mounting flange 16 and a driving motor is carried out
Total discharge outlet of finished ground cement, is then located at the surface of the device by installation link, driving motor is opened, in driving motor
Under effect is lower and the linkages effect of all parts, multiple rotations of principal screw blades 12, when cement under gravity, fall in master
Behind the inside of hollow structure 5, under the action of principal screw blade 12, cement is shunted.
It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie
In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter
From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power
Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims
Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.
Claims (10)
1. a kind of used on cement production line finished ground cement part flow arrangement, including principal post body case (1), it is characterised in that: the principal post
The bottom of body case (1) is equipped with supporting leg (2), and the side of the principal post body case (1) is provided with multiple annular array settings
Shunt conduit structure (3), the principal post body case (1) is respectively arranged with the master being connected to the inside of shunt conduit structure (3)
Hollow structure (5) and secondary hollow structure (6), the bottom of the shunt conduit structure (3) is provided with the master with its integral structure
Discharge tube structure (19), the main discharge tube (19) are internally provided with the master for being connected to secondary hollow structure (6) bottom side
Discharge orifice (7), the principal post body case (1) are being located at main hollow structure (5) the bottom centre installation one gear-engaged type rotation
Turn diversion mechanism (10), the side of gear-engaged type rotation diversion mechanism (10) is equipped with multiple the first rotary shafts of master
(18), it is equipped with principal screw blade (12) on the axis body of first rotary shaft of master (18), and the first rotary shaft of the master (18)
The axis body of one end is mounted on the center of shunt conduit structure (3) end, principal post body case (1) bottom by base bearing (4)
It is provided centrally with master unit installation groove structure (8), the inside of the master unit installation groove structure (8) is installed a gear set and nibbled
Box-like spin intensity enhances mechanism (9), engagement type spin intensity enhancing mechanism (9) the top center installation one of gear set main the
Two rotary shafts (17), second rotary shaft of master (17) are mounted on principal post body case (1) bottom centre, institute by base bearing (4)
It states gear set engagement type spin intensity enhancing (9) bottom centre, mechanism and one main third rotary shaft (13), the main third rotation is installed
Shaft (13) bottom installs an annular array type helical spring and contradicts control mechanism (15), and the annular array type helical spring supports
Touch main 4th rotary shaft (14) of control mechanism (15) bottom centre installation one, the bottom installation one of the 4th rotary shaft (14) of master
Axis body mounting flange (16).
2. a kind of used on cement production line finished ground cement part flow arrangement according to claim 1, it is characterised in that: the gear
Engagement type spin intensity enhancing mechanism (9) of group includes gear set engagement type spin intensity enhancing mechanism hollow casing (91), tooth
The engagement type spin intensity enhancing mechanism hollow structure (92) of wheel group, the first rotation of the engagement type spin intensity enhancing mechanism of gear set
The engagement type spin intensity enhancing mechanism bearing (94) of shaft (93), gear set, the engagement type spin intensity of gear set enhance mechanism
Enhance mechanism third rotary shaft (97), the engagement type rotation of gear set with the second rotary shaft (95), the engagement type spin intensity of gear set
Turn the engagement type spin intensity enhancing of enhanced strength mechanism first gear (98), gear set mechanism second gear (915), gear
The engagement type spin intensity enhancing mechanism third gear (910) of group and the engagement type spin intensity of gear set enhance the 4th tooth of mechanism
It takes turns (911);Engagement type spin intensity enhancing mechanism hollow casing (91) of gear set is internally provided with gear set engagement
Formula spin intensity enhances mechanism with hollow structure (92), and the engagement type spin intensity of gear set enhances mechanism hollow casing
(91) bottom centre enhances mechanism bearing (94) installation engagement type rotation of one gear set by the engagement type spin intensity of gear set
Enhanced strength mechanism the first rotary shaft (93), engagement type spin intensity enhancing mechanism hollow casing (91) top of gear set
Portion center enhances mechanism by the engagement type spin intensity of gear set and installs the engagement type spin intensity increasing of a gear set with bearing (94)
Strong mechanism is led to third rotary shaft (97), the side of the engagement type spin intensity enhancing mechanism hollow casing (91) of gear set
It crosses gear set engagement type spin intensity enhancing mechanism bearing (94) and a gear set engagement type spin intensity enhancing mechanism use is installed
Second rotary shaft (95), the engagement type spin intensity enhancing mechanism of gear set are equipped with on the axis body of the second rotary shaft (95)
Gear set engagement type spin intensity enhancing mechanism second gear (915) and the engagement type spin intensity of gear set enhance mechanism with the
Three gears (910), the engagement type spin intensity of gear set enhance mechanism the first rotary shaft (93) top and the gear set
Engagement type spin intensity enhancing mechanism is separately installed with the engagement type spin intensity of gear set with the bottom end of third rotary shaft (97) and increases
Strong mechanism first gear (98) and the engagement type spin intensity of gear set enhance the 4th gear (911) of mechanism, and the gear
The engagement type spin intensity enhancing mechanism of group enhances the second tooth of mechanism with first gear (98) and the engagement type spin intensity of gear set
Tooth structure between wheel (915) is meshed, the engagement type spin intensity enhancing mechanism third gear (910) of the gear set and
The engagement type spin intensity enhancing mechanism of gear set is meshed with the tooth structure between the 4th gear (911).
3. a kind of used on cement production line finished ground cement part flow arrangement according to claim 2, it is characterised in that: the gear
The structure radius of engagement type spin intensity enhancing mechanism first gear (98) reference circle of group is less than the engagement type rotation of the gear set
Turn the structure radius of enhanced strength mechanism second gear (915) reference circle, the engagement type spin intensity of gear set enhances machine
The structure radius of structure second gear (915) reference circle, which is greater than the engagement type spin intensity of the gear set, enhances mechanism third tooth
The structure radius of (910) reference circle is taken turns, the engagement type spin intensity enhancing mechanism of gear set is less than institute with third gear (910)
State the structure radius of engagement type spin intensity enhancing the 4th gear (911) reference circle of mechanism of gear set.
4. a kind of used on cement production line finished ground cement part flow arrangement according to claim 2, it is characterised in that: the gear
Engagement type spin intensity enhancing mechanism the first rotary shaft (93) end of group and gear set engagement type spin intensity enhancing mechanism use
Third rotary shaft (97) end is fixedly connected with main third rotary shaft (13) and main second rotary shaft (17) end respectively.
5. a kind of used on cement production line finished ground cement part flow arrangement according to claim 1, it is characterised in that: the gear
Engagement type rotation diversion mechanism (10) includes gear-engaged type rotation diversion mechanism hollow shell (101), gear-engaged type rotation
Turn diversion mechanism connecting plate (102), gear-engaged type rotation diversion mechanism bolt hole (103), gear-engaged type rotation point
Flow mechanism hollow structure (104), gear-engaged type rotation diversion mechanism the first rotary shaft (105), gear-engaged type rotation
Diversion mechanism first bearing (106), gear-engaged type rotation diversion mechanism master gear (107), gear-engaged type rotation point
Flow mechanism the second rotary shaft (108), gear-engaged type rotation diversion mechanism pinion (109) and gear-engaged type rotation point
Mechanism is flowed with second bearing (1010);The bottom installation one of the gear-engaged type rotation diversion mechanism hollow shell (101)
Gear-engaged type rotates diversion mechanism with connecting plate (102), and the gear-engaged type rotates diversion mechanism connecting plate (102)
Multiple gear-engaged type rotations diversion mechanism bolt hole (103) are internally provided with, the gear-engaged type rotates diversion mechanism
Diversion mechanism hollow structure (104) are rotated with the internal gear-engaged type that is provided centrally with of hollow shell (101), the gear
The center of engagement type rotation diversion mechanism hollow shell (101) bottom is by the first rotation of gear-engaged type rotation diversion mechanism
Axis (105), and the two is rotating diversion mechanism first bearing (106) installation, the tooth by gear-engaged type through position
One gear-engaged type rotation diversion mechanism is installed with first in the top for taking turns engagement type rotation diversion mechanism the first rotary shaft (105)
The top of bearing (106), gear-engaged type rotation diversion mechanism first rotary shaft (105) is installed by the rotation of one gear-engaged type
Turn diversion mechanism master gear (107), the gear-engaged type rotation diversion mechanism is multiple with the side of hollow shell (101)
Gear-engaged type rotation diversion mechanism the second rotary shaft (108) runs through, and the two is being revolved through position by gear-engaged type
Turn diversion mechanism second bearing (1010) installation, each gear-engaged type rotates the second rotary shaft of diversion mechanism
(108) one end is respectively mounted gear-engaged type rotation diversion mechanism pinion (109), and the gear-engaged type rotation shunts
Mechanism is engaged with gear-engaged type rotation diversion mechanism between master gear (107) by tooth structure with pinion (109).
6. a kind of used on cement production line finished ground cement part flow arrangement according to claim 5, it is characterised in that: the gear
The outer end of engagement type rotation diversion mechanism the second rotary shaft (108) is connect with the one end of main first rotary shaft (18), the tooth
It takes turns engagement type rotation diversion mechanism and is connect with the first rotary shaft (105) bottom end with the end of one main second rotary shaft (17).
7. a kind of used on cement production line finished ground cement part flow arrangement according to claim 5, it is characterised in that: the gear
Engagement type rotation diversion mechanism connecting plate (102) is by being inserted into gear-engaged type rotation diversion mechanism bolt hole (103)
Internal bolt is mounted on the inside of main hollow structure (5).
8. a kind of used on cement production line finished ground cement part flow arrangement according to claim 1, it is characterised in that: the annular
It includes that annular array type helical spring contradicts the main hollow housing of control mechanism that array helical spring, which contradicts control mechanism (15),
(151), annular array type helical spring contradicts the main hollow section (152) of control mechanism, annular array type helical spring contradicts
Control mechanism column spinner (153), annular array type helical spring contradict control mechanism semi-circular recesses structure (154), ring
Shape array helical spring contradicts the secondary hollow section (155) of control mechanism, annular array type helical spring contradicts control mechanism
Control mechanism helical spring (157) and annular array type spiral bullet are contradicted with movable plate (156), annular array type helical spring
Spring contradicts control mechanism with push rod (158);The annular array type helical spring contradicts control mechanism with main hollow housing (151)
The center of one end face is fixedly connected with the end of main 4th rotary shaft (14), and the annular array type helical spring contradicts control
The internal center of mechanism main hollow housing (151) is that the annular array type helical spring contradicts the main hollow area of control mechanism
Between (152), the annular array type helical spring contradicts control mechanism with main hollow housing (151) positioned at the annular array
The inside that formula helical spring contradicts the main hollow section (152) of control mechanism is socketed an annular array type helical spring and contradicts control
Mechanism is contradicted control mechanism with the inside of main hollow housing (151) and is with column spinner (153), the annular array type helical spring
Annular array type helical spring contradicts the secondary hollow section (155) of control mechanism, and the annular array type helical spring contradicts control
The inside of the secondary hollow section (155) of mechanism processed is hollow positioned at annular array type helical spring conflict control mechanism master
It places an annular array type helical spring and contradicts control mechanism movable plate (156), the circular array in one end face in section (152)
Column helical spring contradicts the secondary hollow section (155) of control mechanism and is being located at annular array type helical spring conflict control
Mechanism contradicts control mechanism helical spring with an annular array type helical spring is fixed between one end of movable plate (156)
(157), the annular array type helical spring contradicts control mechanism and is provided with and its integral type with an end face of movable plate (156)
The annular array type helical spring of structure contradicts control mechanism with push rod (158), and the annular array type helical spring contradicts
Control mechanism contradicts the main hollow housing of control mechanism (151) through the annular array type helical spring with push rod (158), and
The inside of the main hollow section (152) of control mechanism, the annular array type are contradicted positioned at the annular array type helical spring
Helical spring contradicts control mechanism and is contradicted in control mechanism master with push rod (158) positioned at the annular array type helical spring
One end of empty interval (152) is semicircular structure, and the annular array type helical spring contradicts control mechanism with column spinner (153)
Side be provided with the circular array that control mechanism push rod (158) end is contradicted for placing the annular array type helical spring
Column helical spring contradicts control mechanism with semi-circular recesses structure (154), and the annular array type helical spring contradicts control
Mechanism is fixed with one end of column spinner (153) and the end of main third rotary shaft (13).
9. a kind of used on cement production line finished ground cement part flow arrangement according to claim 8, it is characterised in that: the annular
The initial length that array helical spring contradicts control mechanism helical spring (157) is greater than the annular array type helical spring
Contradict the length of the secondary hollow section (155) of control mechanism.
10. a kind of used on cement production line finished ground cement part flow arrangement according to claim 8, it is characterised in that: the ring
The construction profile and annular array type helical spring that shape array helical spring contradicts control mechanism push rod (158) end contradict
Control mechanism is consistent with the construction profile of semi-circular recesses structure (154).
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CN111097739A (en) * | 2019-12-30 | 2020-05-05 | 唐振三 | Embedded rotary type ground cleaning device |
CN111236029A (en) * | 2020-01-13 | 2020-06-05 | 泉州市贺元信息技术有限公司 | Stripe cutterbar is used in cement road surface construction |
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Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
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CN111017577A (en) * | 2019-12-20 | 2020-04-17 | 庄清梅 | Self-adaptive feeding device for powder raw materials |
CN111017798A (en) * | 2019-12-20 | 2020-04-17 | 刘可壮 | Electric drive thread structure type supporting device |
CN111097739A (en) * | 2019-12-30 | 2020-05-05 | 唐振三 | Embedded rotary type ground cleaning device |
CN111236029A (en) * | 2020-01-13 | 2020-06-05 | 泉州市贺元信息技术有限公司 | Stripe cutterbar is used in cement road surface construction |
CN111285176A (en) * | 2020-02-14 | 2020-06-16 | 刘玉辉 | One-machine-multi-purpose rotary plane driving device |
CN111232862A (en) * | 2020-02-27 | 2020-06-05 | 赵明月 | Auxiliary rotating device for automatic elevator winch |
CN111251650A (en) * | 2020-02-27 | 2020-06-09 | 刘玉辉 | Threaded structure rotation type zip-top can compression device |
CN111365441A (en) * | 2020-03-17 | 2020-07-03 | 何明琼 | Rotary centrifugal force type tension driving device |
CN111361015A (en) * | 2020-03-17 | 2020-07-03 | 谢绪碧 | Feeding device for horizontal cement stirring tank |
CN111547189A (en) * | 2020-04-16 | 2020-08-18 | 秦江澎 | Ship fixing device for port berthing of civil ships |
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