CN214274289U - Pneumatic cog type clutch - Google Patents

Abstract

The utility model particularly discloses a pneumatic cog type clutch, which comprises a clutch seat; the clutch seat is of a C-shaped structure; the lower end of the clutch seat is provided with a lower mounting groove position; a lower clutch assembly is arranged on the lower mounting groove position; an upper mounting groove position is arranged at the upper end of the clutch seat; an upper clutch assembly is installed on the upper installation slot position; a shifting fork groove position is formed at the side end of the clutch seat; the shifting fork groove position is provided with a shifting component; the shifting component is used for controlling the lower clutch assembly to be separated from or connected with the upper clutch assembly. The utility model is used for controlling the lower clutch assembly to be separated from or connected with the upper clutch assembly through the shifting component, thereby realizing the cutting off and the transmission of power, and the operation is simple and flexible; the clutch has simple structure and stable operation, and can meet the use requirement even if the power of the engine is increased, thereby effectively transmitting the power.

Description

Pneumatic cog type clutch

Technical Field

The utility model relates to a clutch technical field, concretely relates to pneumatic cog formula clutch.

Background

The clutch is a component of the drive train, by means of which the drive input is connected to the drive output and, if necessary, interrupts the transmission of power. The clutch matched with the mechanical transmission is divided into a pull type clutch and a push type clutch according to the movement direction of the clutch, the pull type clutch is more and more widely applied due to the characteristics of the pull type clutch, a clutch release fork is used as a key part, when a cylinder piston extends out to push the release fork, the cylinder piston acts on one end of the clutch release fork, a release fork shaft is used as a fulcrum to enable the release fork to slide along the axial direction, the other end of the release fork pushes an upper ratchet to enable the clutch to be separated, when the cylinder piston contracts, the shift fork loses support, a pressure spring applies downward pressure to an upper ratchet wheel to enable the upper ratchet wheel to move downward along a spline shaft and be jointed with a lower ratchet wheel.

The existing clutch has a complex structure, cannot meet the use requirements more and more, cannot effectively transmit power, causes the phenomena of clutch slipping, friction plate burning loss and the like, and some clutches also need to be maintained by adding lubricating grease regularly, and the volume of the clutch also needs to be correspondingly increased along with the increase of input power. The clutches are not suitable for application scenarios with limited space but larger required power, or intelligent combination of a plurality of power output shafts driven by single power input, and the like. To this end, we propose a pneumatic cog type clutch to solve the above existing problems.

SUMMERY OF THE UTILITY MODEL

To the defect that prior art exists, the utility model provides a pneumatic cogged clutch is used for overcoming the defect that above-mentioned exists.

A pneumatic cog type clutch includes a clutch seat; the clutch seat is of a C-shaped structure; the lower end of the clutch seat is provided with a lower mounting groove position; a lower clutch assembly is arranged on the lower mounting groove position; an upper mounting groove position is arranged at the upper end of the clutch seat; an upper clutch assembly is installed on the upper installation slot position; a shifting fork groove position is formed at the side end of the clutch seat; the shifting fork groove position is provided with a shifting component; the shifting component is used for controlling the lower clutch assembly to be separated from or connected with the upper clutch assembly.

Preferably, the lower clutch assembly comprises a lower driving shaft and a bearing spacer bush which are arranged in the lower mounting groove; the upper end and the lower end of the bearing spacer sleeve are symmetrically provided with first deep groove ball bearings; and the bearing spacer bush and the first deep groove ball bearing are both sleeved on the lower driving shaft.

As a preferred scheme, a first clamp spring is arranged at the top of a first deep groove ball bearing at the upper end of the bearing spacer; and a second elastic check ring is arranged at the bottom of the first deep groove ball bearing at the lower end of the bearing spacer.

Preferably, the lower clutch assembly further comprises a lower ratchet and a chain wheel; the lower ratchet is arranged above the chain wheel; the bottom of the chain wheel is provided with an inner hexagon screw; the socket head cap screw connects the lower ratchet and the chain wheel through the second spring washer.

Preferably, the lower ratchet and the chain wheel are sleeved at the top end of the lower driving shaft, and a first elastic retainer ring for clamping the lower ratchet is arranged at the top of the lower driving shaft.

As a preferred scheme, the upper clutch assembly comprises second deep groove ball bearings symmetrically arranged in the upper mounting groove; a second clamp spring is arranged between the symmetrical second deep groove ball bearings; a spline shaft is rotatably arranged on the second deep groove ball bearing; the spline shaft is provided with a shaft clamp for limiting the spline shaft to move upwards; and the shaft clamp is arranged below the second deep groove ball bearing.

Preferably, the bottom of the spline shaft is provided with an upper ratchet matched with the lower ratchet; the spline shaft is also sleeved with a flat gasket; the flat washer is arranged below the shaft clamp; a pressure spring is arranged between the upper ratchet and the flat washer; and a shifting fork notch is formed on the circumference of the upper ratchet.

As a preferred scheme, a guide shaft slot position is further formed in the side end of the clutch seat; a guide shaft is arranged in the guide shaft groove; the guide shaft penetrates through the shifting fork groove position; the clutch seat is also provided with a set screw; the fastening screw is provided with a first spring washer and a fastening nut; the fastening nut is used for fixing the fastening screw on the guide shaft.

Preferably, the pulling assembly further comprises a shifting fork; the shifting fork is provided with a shaft hole; the guide shaft penetrates through the shaft hole through the oilless bearing; and the fork opening end of the shifting fork is clamped in the shifting fork notch.

As a preferred scheme, the tail end of the shifting fork is provided with a transmission bolt through a fixing nut; the pulling assembly comprises a double-shaft cylinder; the double-shaft cylinder is arranged on the outer side surface of the clutch seat through a mounting bolt; and the piston end of the double-shaft cylinder is arranged right above the transmission bolt.

Has the advantages that: the utility model has simple principle and stable operation, is used for controlling the lower clutch assembly to be separated from or connected with the upper clutch assembly through the shifting component, further realizes the cutting off and transmission of power, and has simple and flexible operation; wherein, when the double-shaft cylinder acts, the piston end of the double-shaft cylinder extends out, when the piston end of the double-shaft cylinder contacts with the transmission bolt, the transmission bolt is pushed upwards, because the transmission bolt is fixedly arranged at the tail end of the shifting fork, namely, the shifting fork moves upwards along the guide shaft, and the fork opening end of the shifting fork is clamped in the shifting fork notch, so as to drive the upper ratchet to move upwards until the upper ratchet is completely separated from the lower ratchet, namely, the clutch cuts off power output, when the piston end contracts due to the action of the double-shaft cylinder, the upper ratchet resets under the action of the pressure spring at the moment, so that the upper ratchet is jointed with the lower ratchet, because the chain wheel is connected with an external power source through the chain to rotate, then the lower drive shaft is driven to rotate, thereby realizing the rotation of the lower ratchet, after the upper ratchet is jointed with the lower ratchet, the upper spline shaft can drive the rotation through the upper ratchet, thereby realizing the continuous output of power, and the oilless bearing can effectively reduce the abrasion of the shifting fork and the guide shaft, because the oilless bearing is in universal movement, the shifting fork can smoothly shift the upper ratchet to move, and the shifting device has the advantages of long service life and good shifting effect; the utility model provides a clutch simple structure, the steady operation even the increase of engine power, this clutch also can satisfy the operation requirement, transmission power effectively.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an explosion diagram of the clutch seat and the shifting assembly of the present invention.

Fig. 3 is an exploded view of the upper clutch assembly of the present invention.

Fig. 4 is an exploded view of the lower clutch assembly of the present invention.

Fig. 5 is a cross-sectional view of the present invention.

In the figure: 1-a clutch seat; 2-an upper clutch assembly; 3-lower clutch assembly; 4-pulling the assembly; 101-lower mounting slot position; 102-installing a slot position; 103-shifting fork slot position; 104-guiding shaft slot position; 105-a guide shaft; 106-oilless bearing; 107-set screws; 108-a set nut; 109-a first spring washer; 201-a first circlip; 202-lower ratchet; 203-a sprocket; 204-a second spring washer; 205-socket head cap screw; 206-lower drive shaft; 207-a first snap spring; 208-a first deep groove ball bearing; 209-bearing spacer; 210-a second circlip; 301-a spline shaft; 302-a second deep groove ball bearing; 303-a second snap spring; 304-axle card; 305-flat washer; 306-a pressure spring; 307-fork notch; 308-upper ratchet; 401-double-shaft cylinder; 402-mounting bolts; 403-a shifting fork; 404-shaft hole; 405-a drive bolt; 406 — a retaining nut.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

In the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "side", "top", "bottom", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention; the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 5, the utility model provides a pneumatic cog type clutch, which comprises a clutch seat 1; the clutch seat 1 is of a C-shaped structure; the lower end of the clutch seat 1 is provided with a lower mounting groove position 101; the lower mounting groove position 101 is provided with a lower clutch assembly 2; an upper mounting groove 102 is formed in the upper end of the clutch seat 1; an upper clutch assembly 3 is arranged on the upper mounting slot position 102; a shifting fork groove position 103 is arranged at the side end of the clutch seat 1; the shifting component 4 is arranged on the shifting fork groove position 103; the shifting component 4 is used for controlling the lower clutch assembly 2 to be separated from or connected with the upper clutch assembly 3; the utility model has simple principle, the shifting component 4 is used for controlling the lower clutch assembly 2 to be separated from or connected with the upper clutch assembly 3, thereby realizing the cutting off and transmission of power, and the operation is simple and flexible; the utility model provides a clutch simple structure, the steady operation even the increase of engine power, this clutch also can satisfy the operation requirement, transmission power effectively.

In some examples of the present invention, the lower clutch assembly 2 includes a lower drive shaft 206 and a bearing spacer 209 disposed within the lower mounting slot 101; the upper end and the lower end of the bearing spacer 209 are symmetrically provided with first deep groove ball bearings 208; the bearing spacer 209 and the first deep groove ball bearing 208 are both sleeved on the lower driving shaft 206; a first clamp spring 207 is arranged at the top of a first deep groove ball bearing 208 at the upper end of the bearing spacer 209; a second elastic retainer ring 210 is arranged at the bottom of the first deep groove ball bearing 208 at the lower end of the bearing spacer 209; the lower clutch assembly 2 further comprises a lower ratchet 202 and a chain wheel 203; the lower ratchet 202 is arranged above the chain wheel 203; the bottom of the chain wheel 203 is provided with an inner hexagon screw 205; the socket head cap screw 205 connects the lower ratchet 202 and the sprocket 203 by the second spring washer 204; the lower ratchet 202 and the chain wheel 203 are both sleeved at the top end of the lower driving shaft 206, and the top of the lower driving shaft 206 is provided with the first elastic retainer ring 201 for clamping the lower ratchet 202.

In some examples of the present invention, the upper clutch assembly 3 includes second deep groove ball bearings 302 symmetrically disposed in the upper mounting slot 102; a second clamp spring 303 is arranged between the second deep groove ball bearings 302 which are symmetrical; a spline shaft 301 is rotatably mounted on the second deep groove ball bearing 302; the spline shaft 301 is provided with a shaft clamp 304 for limiting the spline shaft 301 to move upwards; the shaft clamp 304 is arranged below the second deep groove ball bearing 302; the bottom of the spline shaft 301 is provided with an upper ratchet 308 matched with the lower ratchet 202; the spline shaft 301 is also sleeved with a flat gasket 305; the flat washer 305 is arranged below the shaft clamp 304; a pressure spring 306 is arranged between the upper ratchet 308 and the flat washer 305; a shifting fork notch 307 is formed in the circumferential edge of the upper ratchet 308; by adopting the structure, the upper clutch assembly 3 can run more stably, and has small abrasion and long service life.

In some examples of the present invention, a guide shaft slot 104 is further disposed at a side end of the clutch seat 1; a guide shaft 105 is arranged in the guide shaft slot 104; the guide shaft 105 penetrates through the shifting fork slot position 103; the clutch seat 1 is also provided with a set screw 107; a first spring washer 109 and a fastening nut 108 are arranged on the fastening screw 107; the fastening nut 108 is used for fixing the fastening screw 107 to the guide shaft 105; the shifting assembly 4 further comprises a shifting fork 403; a shaft hole 404 is formed in the shifting fork 403; the guide shaft 105 passes through the shaft hole 404 through the oilless bearing 106; the oilless bearing 106 can effectively reduce the abrasion between the shifting fork 403 and the guide shaft 105, and the shifting fork 403 can smoothly shift the upper ratchet 308 to move due to the universal movement of the oilless bearing 106, so that the oil-free bearing has the advantages of long service life and good shifting effect; the clutch provided by the utility model has simple structure and stable operation; the fork opening end of the shifting fork 403 is clamped in the shifting fork notch 307; the tail end of the shifting fork 403 is provided with a transmission bolt 405 through a fixing nut; the pulling assembly 4 comprises a double-shaft cylinder 401; the double-shaft cylinder 401 is arranged on the outer side surface of the clutch seat 1 through a mounting bolt 402; the piston end of the double-shaft cylinder 401 is arranged right above the transmission bolt 405; when the double-shaft cylinder 401 acts, the piston end of the double-shaft cylinder 401 extends out, when the piston end of the double-shaft cylinder 401 contacts with the transmission bolt 405, the transmission bolt 405 is pushed upwards, as the transmission bolt 405 is fixedly arranged at the tail end of the shifting fork 403, namely, the shifting fork 403 moves upwards along the guide shaft 105, and the fork opening end of the shifting fork 403 is clamped in the shifting fork notch 307, the upper ratchet 308 is driven to move upwards until the upper ratchet 308 and the lower ratchet 202 are completely separated, namely, the clutch cuts off power output, when the piston end shrinks due to the action of the double-shaft cylinder 401, the upper ratchet 308 resets under the action of the pressure spring 306, so that the upper ratchet 308 is jointed with the lower ratchet 202, as the chain wheel 203 is connected with an external power source through a chain to rotate, the lower driving shaft 206 is driven to rotate, the rotation of the lower ratchet 202 is realized, and after the upper ratchet 308 is jointed with the lower ratchet 202, the spline shaft 301 can be driven to rotate through the upper ratchet 308, and continuous output of power is realized.

In the description herein, references to the description of the terms "one embodiment," "certain embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. A pneumatic cog type clutch characterized in that: comprises a clutch seat; the clutch seat is of a C-shaped structure; the lower end of the clutch seat is provided with a lower mounting groove position; a lower clutch assembly is arranged on the lower mounting groove position; an upper mounting groove position is arranged at the upper end of the clutch seat; an upper clutch assembly is installed on the upper installation slot position; a shifting fork groove position is formed at the side end of the clutch seat; the shifting fork groove position is provided with a shifting component; the shifting component is used for controlling the lower clutch assembly to be separated from or connected with the upper clutch assembly.

2. The pneumatic cog type clutch of claim 1 wherein the lower clutch assembly includes a lower drive shaft and a bearing spacer disposed in a lower mounting slot; the upper end and the lower end of the bearing spacer sleeve are symmetrically provided with first deep groove ball bearings; and the bearing spacer bush and the first deep groove ball bearing are both sleeved on the lower driving shaft.

3. The pneumatic cog type clutch of claim 2 wherein a first snap spring is provided on top of a first deep groove ball bearing at the upper end of said bearing spacer; and a second elastic check ring is arranged at the bottom of the first deep groove ball bearing at the lower end of the bearing spacer.

4. The pneumatic cog type clutch of claim 3, wherein said lower clutch assembly further comprises a lower ratchet and sprocket; the lower ratchet is arranged above the chain wheel; the bottom of the chain wheel is provided with an inner hexagon screw; the socket head cap screw connects the lower ratchet and the chain wheel through the second spring washer.

5. The pneumatic cog type clutch according to claim 4, wherein the lower ratchet and the chain wheel are sleeved on the top end of the lower driving shaft, and the top of the lower driving shaft is provided with a first elastic retainer ring for clamping the lower ratchet.

6. The pneumatic cog type clutch of claim 5 wherein said upper clutch assembly includes second deep groove ball bearings symmetrically disposed in an upper mounting slot; a second clamp spring is arranged between the symmetrical second deep groove ball bearings; a spline shaft is rotatably arranged on the second deep groove ball bearing; the spline shaft is provided with a shaft clamp for limiting the spline shaft to move upwards; and the shaft clamp is arranged below the second deep groove ball bearing.

7. The pneumatic cog type clutch according to claim 6, wherein the bottom of the spline shaft is mounted with upper ratchet teeth that mate with the lower ratchet teeth; the spline shaft is also sleeved with a flat gasket; the flat washer is arranged below the shaft clamp; a pressure spring is arranged between the upper ratchet and the flat washer; and a shifting fork notch is formed on the circumference of the upper ratchet.

8. The pneumatic cog type clutch according to claim 7, wherein a guide shaft slot is further formed at a side end of the clutch seat; a guide shaft is arranged in the guide shaft groove; the guide shaft penetrates through the shifting fork groove position; the clutch seat is also provided with a set screw; the fastening screw is provided with a first spring washer and a fastening nut; the fastening nut is used for fixing the fastening screw on the guide shaft.

9. The pneumatic cog type clutch of claim 8 wherein said pulling assembly further comprises a fork; the shifting fork is provided with a shaft hole; the guide shaft penetrates through the shaft hole through the oilless bearing; and the fork opening end of the shifting fork is clamped in the shifting fork notch.

10. The pneumatic cog type clutch according to claim 9, wherein the tail end of the shift fork is mounted with a driving bolt through a fixing nut; the pulling assembly comprises a double-shaft cylinder; the double-shaft cylinder is arranged on the outer side surface of the clutch seat through a mounting bolt; and the piston end of the double-shaft cylinder is arranged right above the transmission bolt.

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