CN203892466U - Speed reducer applicable to double-shaft stirring system - Google Patents

Abstract

The utility model discloses a speed reducer applicable to a double-shaft stirring system. The speed reducer is of a shell structure comprising shafts and gears. The shafts mainly include a high-speed shaft (1), an intermediate shaft (2), a low-speed shaft (3) and a counter gear shaft (4). The gears mainly include a high-speed shaft gear (101), an intermediate gear (201), an intermediate shaft gear (202), a low-speed shaft gear (301), a first counter gear (302) and a second counter gear (401), wherein the high-speed shaft gear (101) is arranged on the high-speed shaft (1), the intermediate gear (201) and the intermediate shaft gear (202) are arranged on the intermediate shaft (2), the low-speed shaft gear (301) and the first counter gear (302) are arranged on the low-speed shaft (3), and the second counter gear (401) is arranged on the counter gear shaft (4). The speed reducer is ingenious, operation performance of a dredging machine is effectively met, the gears are sufficiently lubricated, and the speed reducer has the advantages of less material consumption, energy conservation, simplicity in process and arrangement, convenience in maintenance and the like, and is suitable for wide popularization and use.

Description

A kind of speed reducer that is applicable to Double shaft stirring system

Technical field

The utility model is a kind of speed reducer that is applicable to Double shaft stirring system, is specifically related to tile machinery with the speed reducer drive field of de-airing extruder, belongs to mud extruder higher level transmission field.

Background technique

At present, large-scale de-airing extruder adopts the mode of disperseing driving more, that is: the running of upper axle (higher level), lower shaft (subordinate) is driven by two motors and two sets of transmission mechanism respectively, operates comparatively flexible.Higher level drives as example, and its running is mainly sent to by motor, belt, pneumatic clutch, planetary speed reducer extrudes axle, and stirring shaft passes through tooth case separate transmission.During work, first motor pulley can drive speed reducer high speed shaft to run up, and drives respectively each axle and the stirring shaft of speed reducer after slowing down again, now, enter the pug of rewinding case, through mud cylinder, head and machine mouth, can be extruded into the mud bar meeting the requirements, squeeze mud process and complete.When reality is used, toward contact, there is following defect:

(1) equipment loss is large: opening in docking process of de-airing extruder, mainly to control and extrude the rotation of axle/stop by start/stop speed reducer, often easily cause the situation that the overload of band material starts, heavy duty is stopped to occur, cause the impact to driving mechanism, simultaneously, extrude axle can because moment moment of torsion excessive and produce deformation and torsional vibration etc., equipment unit is caused to loss;

(2) cost of equipment maintenance is high: when reality is used, due to mud extruder, extrude axle in using and stirring shaft rotates simultaneously, if there is putty in vacuum chamber, stirring shaft can not stop feed immediately, easily causes the loss of several of equipment, improves the maintenance cost of equipment.

Based on above-mentioned situation, existing patent documentation CN2616751Y has proposed a kind of speed reducer for compact mud extruder, although overcome the situations such as the leakage of oil that mud extruder speed reducer in use exists, putty, but its structure is comparatively complicated, in actual fabrication process, tend to cause a large amount of inputs of fabrication cycle and cost material, economic benefit is poor, for this reason, the utility model arises at the historic moment.

Model utility content

The purpose of this utility model is to provide a kind of speed reducer that is applicable to Double shaft stirring system, by the speed reducer of existing use with to tooth case, optimization is arranged in same shell construction this speed reducer, setting between each axle and gear is very ingenious, can not only effectively meet mud extruder service behaviour, realize the sufficient lubrication between gear, also there is material-saving, energy-conservation, technology arrangement is simple, the advantage such as easy to maintenance, suitablely extensively promote the use of.

The utility model is achieved through the following technical solutions: a kind of speed reducer that is applicable to Double shaft stirring system, its structure is as follows: this speed reducer is the shell construction that includes axle and gear, and described axle is mainly by high speed shaft, jack shaft, lower velocity shaft and tooth axle is formed, described gear is mainly by the high speed shaft shaftgear of being located on high speed shaft, be located at intermediate gear and jack shaft shaftgear on jack shaft, be located at lower velocity shaft shaftgear and first pair of gear on lower velocity shaft, be located at second pair of gear on tooth axle formed, described intermediate gear and jack shaft shaftgear are coaxial configuration, described lower velocity shaft shaftgear and first pair of gear are coaxial configuration, described high speed shaft shaftgear and the mutual interlock of intermediate gear, described jack shaft shaftgear and the mutual interlock of lower velocity shaft shaftgear, described first pair of gear and second pair of mutual interlock of gear, in said structure, each axle, between gear, arrange ingenious, each between centers transmitting torque does not bear axial force, during making, by accurate Calculation and organic layout, can not only meet mud extruder structural requirement and realize agitating function, can also effectively improve the vacuum performance of mud extruder, avoid occurring the generation of the situations such as vacuum box putty, there is reduction power consumpiton, be convenient to the characteristics such as maintenance.

Except above-mentioned advantage, this device also can be realized the sufficient lubrication between each gear, its lubricating system is to bring one by one by calculating the also lower velocity shaft shaftgear (gearwheel) of each gear of organic assembling from lower velocity shaft the high speed shaft gear that is positioned at upper strata, guarantee all gear sufficient lubrications, has use value, certainly, for improving each axle, interlock between gear, described high speed shaft and high speed shaft shaftgear, jack shaft and jack shaft shaftgear are respectively integrative-structure, at described jack shaft and intermediate gear, lower velocity shaft and lower velocity shaft shaftgear and first pair of gear, to being provided with flat key between tooth axle and second pair of gear, structure is very simple.

This apparatus structure is compact, described shell construction comprises upper strata housing, middle level housing and the lower floor's housing setting gradually from top to bottom, the fixed block that every adjacent two layers housing all consists of connecting bolt and locating stud interconnects, described high speed shaft is positioned on the horizontal cutting lines of upper strata housing and middle level housing, described jack shaft, lower velocity shaft and tooth axle is positioned on the horizontal cutting lines of middle level housing and lower floor's housing, wherein, high speed shaft is placed on separately upper strata housing, keeps in repair very convenient.

The utility model is reasonable in design, described high speed shaft, jack shaft, lower velocity shaft and be all longitudinally arranged in shell construction to tooth axle, one end of described high speed shaft stretches out and is connected with motor pulley by clutch in a side of shell construction, and described lower velocity shaft stretches out with to one end of tooth axle and is connected with (two) stirring shaft respectively at the opposite side of shell construction.

For better realizing the utility model, described being also provided with on to tooth axle, act on second pair of overload arming pin on gear.

For improving the stability of device, in the utility model, described high speed shaft, jack shaft, lower velocity shaft and the two ends of tooth axle are all fixed on to the sidewall of shell construction by bearing external member, this bearing external member comprises the clutch shaft bearing external member of fixing high speed shaft, fixedly the second bearing external member, fixedly the 3rd bearing external member and fixing the 4th bearing external member to tooth axle of lower velocity shaft of jack shaft, specifically can be summarized as follows:

(1) described clutch shaft bearing external member comprises that bearing, the high speed shaft for high speed shaft that are arranged on bearing, the high speed shaft bearing gland high speed shaft for of high speed shaft extending end and are arranged on the high speed shaft the other end can cover and high speed shaft outside framework oil seal go side.

(2) the second described bearing external member comprises and is arranged on bearing, jack shaft adjustment lid, the midship shaft bearing gland for jack shaft of jack shaft one end and bearing, the midship shaft bearing gland for jack shaft that is arranged on the jack shaft the other end.

(3) the 3rd described bearing external member comprise that bearing lower velocity shaft for, lower velocity shaft that are arranged on lower velocity shaft extending end can go side cover, lower velocity shaft outside framework oil seal and bearing, lower velocity shaft bearing housing, lower velocity shaft adjustment lid, the adjusting nut for lower velocity shaft that are arranged on the lower velocity shaft the other end.

(4) the 4th described bearing external member comprise be arranged on to tooth axle extending end to tooth bearing axle for, to tooth axle can go side cover, to tooth axle outside framework oil seal and be arranged on to the tooth axle the other end to tooth bearing for axle, to tooth axle bearing cover, to tooth axle bearing gland.

The utility model compared with prior art, has the following advantages and beneficial effect:

(1) the utility model designs in same shell construction by the speed reducer of existing use with to tooth case is synthetic, when fully guaranteeing equipment precision, also have compactness, attractive in appearance, and complete machine stability can well wait many advantages.

(2) in the utility model, the setting of each axle and gear is very ingenious, when reality is used, carry out the structural requirement of mud extruder that can be effectively satisfied by accurate Calculation and organic layout, the application of twin shaft is extruded, is stirred in realization, there is the advantages such as material-saving, energy-conservation, technology arrangement is simple, suitablely extensively promote the use of.

(3) the utility model is simple in structure, in speed reducer, the lubricating system of each gear is by calculating the lower velocity shaft shaftgear of each gear of organic assembling from lower velocity shaft, to bring to one by one the high speed shaft shaftgear on upper strata, fully guaranteed the lubricated of interior each gear of shell construction, practicability is extremely strong.

(4) the utility model stable performance, each between centers transmitting torque does not bear axial force, by moment of torsion, directly export transmission, reduced the loss of power, when actual fabrication, optimization by gear distributes, can effectively meet the performance requirement of mud extruder, certainly, for making shell construction there is good technology capability and assembly process process, size and modulus, each bearing designation of device internal gear also should match with moment of torsion, and for the difference of moment of torsion, the size of dish gear, each bearing designation of modulus also should be different.

(5) the utility model is reasonable in design; upper strata housing to tooth axle on be also provided with overload protection; can effectively protect the gear structure on each axle; the prevention heavy losses that cause violating the regulations; when reality is used, can also effectively avoid because of after vacuum chamber putty, stirring shaft continues feed and the situation of the damage vacuum box that causes; there is the characteristic that improves equipment reliability and extension device working life, have promotional value.

Accompanying drawing explanation

Fig. 1 is plan view of the present utility model.

Fig. 2 is rear view of the present utility model.

Fig. 3 is left view of the present utility model.

Fig. 4 is plan view of the present utility model.

Fig. 5 is the sectional view of A-A shown in Fig. 1.

Fig. 6 is the sectional view of B-B shown in Fig. 1.

Fig. 7 is the sectional view of Fig. 2.

Wherein, 1-high speed shaft, 2-jack shaft, 3-lower velocity shaft, 4-to tooth axle, 101-high speed shaft shaftgear, 201-intermediate gear, 202-jack shaft shaftgear, 301-lower velocity shaft shaftgear, 302-the first pair of gear, 401-the second pair of gear, 5-upper strata housing, 6-middle level housing, 7-lower floor housing, 8-connecting bolt, 9-locating stud, 10-high speed shaft bearing, 11-high speed shaft bearing gland, 12-high speed shaft can cover go side, 13-high speed shaft outside framework oil seal, 14-jack shaft bearing, 15-jack shaft adjustment lid, 16-midship shaft bearing gland, 17-lower velocity shaft bearing, 18-lower velocity shaft can cover go side, 19-lower velocity shaft outside framework oil seal, 20-lower velocity shaft bearing housing, 21-lower velocity shaft adjustment lid, 22-adjusting nut, 23-to tooth axle bearing, 24-tooth axle can be covered go side, 25-to tooth axle outside framework oil seal, 26-to tooth axle bearing cover, 27-to tooth axle bearing gland.

Embodiment

Below in conjunction with embodiment, the utility model is described in further detail, but mode of execution of the present utility model is not limited to this.

Embodiment:

The utility model proposes a kind of speed reducer that is applicable to Double shaft stirring system, for mud extruder higher level mixing part, it has been concentrated the power system of higher level mixing part and deceleration system in a shell construction, speed reducer and the structural design split type to tooth case in existing design have been overcome, as shown in Fig. 1～7, structure is known, shell construction is interior by some power system and deceleration systems that the gear of mutual interlock formed respectively to higher level mixing part, wherein, one end of deceleration system is connected on motor pulley, after slowing down, by power system, drive respectively again, be mainly used in extruding in higher level mixing part the driving of axle and two stirring shafts, can not only meet mud extruder service behaviour, reduce labor intensity, also there is material-saving, energy-conservation, technology arrangement is simple, the advantage such as easy to maintenance, suitablely extensively promote the use of.

Structure of the present utility model can further be summarized as follows:

As shown in Figure 1 and Figure 2, the power system that the utility model relates to and deceleration system form by the gear assembly such as axle, gear and connecting key (as: flat key), and wherein, axle includes high speed shaft 1, jack shaft 2, lower velocity shaft 3 and to tooth axle 4; Gear includes the high speed shaft shaftgear 101 be located on high speed shaft 1, be located at intermediate gear 201 and jack shaft shaftgear 202 on jack shaft 2, be located at lower velocity shaft shaftgear 301 on lower velocity shaft 3 and the first pair of gear 302, be located at second pair of gear 401 on tooth axle 4; The effect of flat key is to strengthen the interlock between gear and axle, guarantee the synchronism of the gear assembly of each mutual interlock, because high speed shaft 1 and high speed shaft shaftgear 101, jack shaft 2 are respectively integrative-structure with jack shaft shaftgear 202, therefore, flat key jack shaft 2 and intermediate gear 201, lower velocity shaft 3 and lower velocity shaft shaftgear 301 and the first pair of gear 302 should be set, between tooth axle 4 and second pair of gear 401.And in said structure, because intermediate gear 201 and jack shaft shaftgear 202, lower velocity shaft shaftgear 301 and first pair of gear 302 are respectively coaxial configuration, therefore, in the utility model, high speed shaft shaftgear 101 and the mutual interlock of intermediate gear 201, jack shaft shaftgear 202 and the mutual interlock of lower velocity shaft shaftgear 301, first pair of gear 302 and second pair of mutual interlock of gear 401.

During work, high speed shaft 1 is by clutch high speed rotating under the drive of motor pulley, and drive high speed shaft shaftgear 101, interlock intermediate gear 201 is with it rotated thereupon, intermediate gear 201 drives jack shaft 2 to rotate by flat key again, analogizes in proper order, and its rotation process is passed on lower velocity shaft 3 successively by jack shaft shaftgear 202 again, the lower velocity shaft shaftgear 301 that lower velocity shaft 3 adopts is gearwheel, to complete the deceleration part of complete machine; Power section is mentioned by first on lower velocity shaft 3, by lower velocity shaft 3, by flat key, drive first pair of gear 302 to rotate, drive second pair of gear 401 of interlock with it to rotate thereupon, its rotation process is passed to tooth axle 4 by flat key again, thereby realize the driving of two stirring shafts, working principle is very simple.Setting between each axle, gear is also very ingenious, each between centers transmitting torque does not bear axial force, as shown in Figure 3,4, high speed shaft 1, jack shaft 2, lower velocity shaft 3 and be all longitudinally arranged in shell construction to tooth axle 4, in its structure, one end of high speed shaft 1 stretches out and is connected with motor pulley by clutch in a side of shell construction, lower velocity shaft 3 stretch out with to one end of tooth axle 4 and the opposite side of shell construction respectively with extrude axle and be connected with stirring shaft.

When reality is used, for meeting mud extruder structural requirement and realizing agitating function, arranging between each axle, gear all needs can carry out by accurate Calculation and organic layout, for example: the optimization of gear distributes and can effectively meet the requirement of mud extruder performance; The size of the auxiliary equipments such as each axle, dish gear, connecting key is selected, also need and install moment of torsion and match etc., not only from overall compact degree, get a promotion, improving the vacuum performance of mud extruder, avoid occurring the situations such as vacuum box putty and improve aspect mud extruder extrusion pressure all there is good using effect, suitablely extensively promote the use of.Except above-mentioned advantage, the utility model also has good lubricating system, in the prior art, the power consumption at head, machine mouth place, is all equipped with lubrication system in head, machine mouth ingress conventionally when reducing to extrude, and this device only need arrange lubrication system extruding axle ingress, can realize sufficient lubrication, its lubricating system is the lower velocity shaft shaftgear 301(gearwheel from lower velocity shaft 3 mainly) splash oil, and bring one by one all gears in device, practicability is extremely strong.

Certainly, for strengthening the aesthetics of gearbox structure design, improve the integrally-built compactedness of mud extruder and stability for brick, in the utility model, complete machine adopts the design proposal of shell type, comprise the upper strata housing 5 setting gradually from top to bottom, middle level housing 6 and lower floor's housing 7, the fixed block that every adjacent two layers housing all consists of connecting bolt 8 and locating stud 9 interconnects, wherein, high speed shaft 1 is positioned on the horizontal cutting lines of upper strata housing 5 and middle level housing 6, described jack shaft 2, lower velocity shaft 3 and 4, tooth axle being positioned on the horizontal cutting lines of middle level housing 6 and lower floor's housing 7.When reality is used; because high speed shaft 1 is placed on separately upper strata housing 5; its maintenance is also very easily; certainly; for preventing the violating the regulations heavy losses that cause, ensure higher reliability and longer working life, the utility model is also provided with on to tooth axle 4 and acts on second pair of overload arming pin on gear 401; effectively protected the gear on each axle, using effect is good.

For improving the stability of complete machine, the utility model is all equipped with bearing external member on each axle, as shown in Fig. 5, Fig. 6 structure, in the utility model, high speed shaft 1, jack shaft 2, lower velocity shaft 3 and the two ends of tooth axle 4 are all fixed on to the sidewall of shell construction by bearing external member, this bearing external member comprises the clutch shaft bearing external member of fixing high speed shaft 1, fixedly the second bearing external member, fixedly the 3rd bearing external member and fixing the 4th bearing external member to tooth axle 4 of lower velocity shaft 3 of jack shaft 2, and its structure specifically can be summarized as follows:

(1) clutch shaft bearing external member: as shown in Figure 5, this clutch shaft bearing external member is arranged on the two ends of high speed shaft 1, comprises that the bearing 10 for high speed shaft, the high speed shaft that are arranged on bearing 10, the high speed shaft bearing gland 11 for high speed shaft of high speed shaft 1 extending end and are arranged on high speed shaft 1 the other end can go side lid 12 and high speed shaft outside framework oil seals 13.

(2) second bearing external members: as shown in Figure 6, this the second bearing external member is arranged on the two ends of jack shaft 2, comprises and is arranged on bearing 14, jack shaft adjustment lid 15, the midship shaft bearing gland 16 for jack shaft of jack shaft 2 one end and bearing 14, the midship shaft bearing gland 16 for jack shaft that is arranged on jack shaft 2 the other ends.

(3) the 3rd bearing external members: as shown in Figure 6, the 3rd bearing external member is arranged on the two ends of lower velocity shaft 3, comprise be arranged on the bearing 17 for lower velocity shaft, lower velocity shaft of lower velocity shaft 3 extending ends can go side lid 18, lower velocity shaft outside framework oil seal 19 and bearing 17, lower velocity shaft bearing housing 20, the lower velocity shaft adjustment lower velocity shaft for that are arranged on lower velocity shaft 3 the other ends covers 21, adjusting nut 22.

(4) the 4th bearing external members: as shown in Figure 6, the 4th bearing external member is arranged on the two ends to tooth axle 4, comprise be arranged on to tooth axle 4 extending ends to bearing 23 for tooth axle, to tooth axle can go side lid 24, to tooth axle outside framework oil seal 25 and be arranged on to tooth axle 4 the other ends to bearing 23 tooth axle for, to tooth axle bearing overlap 26, to tooth axle bearing gland 27.

The above; it is only preferred embodiment of the present utility model; not the utility model is done to any pro forma restriction, any simple modification, equivalent variations that every foundation technical spirit of the present utility model is done above embodiment, within all falling into protection domain of the present utility model.

Claims (10)

1. a speed reducer that is applicable to Double shaft stirring system, is characterized in that: this speed reducer is the shell construction that includes axle and gear, and described axle is mainly by high speed shaft (1), jack shaft (2), lower velocity shaft (3) and tooth axle (4) is formed, described gear is mainly by the high speed shaft shaftgear (101) of being located on high speed shaft (1), be located at intermediate gear (201) and jack shaft shaftgear (202) on jack shaft (2), be located at lower velocity shaft shaftgear (301) and first pair of gear (302) on lower velocity shaft (3), be located at the second pair of gear (401) on tooth axle (4) formed, described intermediate gear (201) and jack shaft shaftgear (202) are coaxial configuration, described lower velocity shaft shaftgear (301) and first pair of gear (302) are coaxial configuration, the interlock mutually of described high speed shaft shaftgear (101) and intermediate gear (201), the interlock mutually of described jack shaft shaftgear (202) and lower velocity shaft shaftgear (301), the interlock mutually of described first pair of gear (302) and second pair of gear (401).

2. a kind of speed reducer that is applicable to Double shaft stirring system according to claim 1, it is characterized in that: described high speed shaft (1) and high speed shaft shaftgear (101), jack shaft (2) are respectively integrative-structure with jack shaft shaftgear (202), be provided with flat key between at described jack shaft (2) and intermediate gear (201), lower velocity shaft (3) and lower velocity shaft shaftgear (301) and first pair of gear (302), to tooth axle (4) and second pair of gear (401).

3. according to right, want a kind of speed reducer that is applicable to Double shaft stirring system described in 2, it is characterized in that: described shell construction comprises the upper strata housing (5) setting gradually from top to bottom, middle level housing (6) and lower floor's housing (7), the fixed block that every adjacent two layers housing all consists of connecting bolt (8) and locating stud (9) interconnects, described high speed shaft (1) is positioned on the horizontal cutting lines of upper strata housing (5) and middle level housing (6), described jack shaft (2), lower velocity shaft (3) and tooth axle (4) being positioned on the horizontal cutting lines of middle level housing (6) and lower floor's housing (7).

4. according to right, want a kind of speed reducer that is applicable to Double shaft stirring system described in 3, it is characterized in that: described high speed shaft (1), jack shaft (2), lower velocity shaft (3) and be all longitudinally arranged in shell construction to tooth axle (4), one end of described high speed shaft (1) stretches out and is connected with motor pulley in a side of shell construction, and described lower velocity shaft (3) stretches out with to one end of tooth axle (4) and is connected with stirring shaft respectively at the opposite side of shell construction.

5. a kind of speed reducer that is applicable to Double shaft stirring system according to claim 4, is characterized in that: described, be also provided with the overload arming pin acting on second pair of gear (401) on to tooth axle (4).

6. according to a kind of speed reducer that is applicable to Double shaft stirring system described in claim 1～5 any one, it is characterized in that: described high speed shaft (1), jack shaft (2), lower velocity shaft (3) and the two ends of tooth axle (4) are all fixed on to the sidewall of shell construction by bearing external member, this bearing external member comprises the clutch shaft bearing external member of fixing high speed shaft (1), fixedly the second bearing external member, fixedly the 3rd bearing external member and fixing the 4th bearing external member to tooth axle (4) of lower velocity shaft (3) of jack shaft (2).

7. a kind of speed reducer that is applicable to Double shaft stirring system according to claim 6, is characterized in that: described clutch shaft bearing external member comprises bearing for high speed shaft (10), the high speed shaft bearing gland (11) that is arranged on high speed shaft (1) extending end and the bearing for high speed shaft (10) that is arranged on high speed shaft (1) the other end, high speed shaft can go side lid (12), high speed shaft outside framework oil seal (13).

8. a kind of speed reducer that is applicable to Double shaft stirring system according to claim 6, is characterized in that: the second described bearing external member comprises and is arranged on bearing for jack shaft (14), jack shaft adjustment lid (15), the midship shaft bearing gland (16) of jack shaft (2) one end and bearing for jack shaft (14), the midship shaft bearing gland (16) that is arranged on jack shaft (2) the other end.

9. a kind of speed reducer that is applicable to Double shaft stirring system according to claim 6, is characterized in that: the 3rd described bearing external member comprise be arranged on the bearing for lower velocity shaft (17), lower velocity shaft of lower velocity shaft (3) extending end can go side lid (18), lower velocity shaft outside framework oil seal (19) and bearing lower velocity shaft for (17), lower velocity shaft bearing housing (20), the lower velocity shaft adjustment that are arranged on lower velocity shaft (3) the other end cover (21), adjusting nut (22).

10. a kind of speed reducer that is applicable to Double shaft stirring system according to claim 6, is characterized in that: the 4th described bearing external member comprise be arranged on to tooth axle (4) extending end to tooth bearing (23) for axle, to tooth axle can go side lid (24), to tooth axle outside framework oil seal (25) and be arranged on to tooth axle (4) the other end to tooth bearing (23) for axle, to tooth axle bearing cover (26), to tooth axle bearing gland (27).