CN115365792A - Mounting equipment for motorcycle cylinder head accessory - Google Patents

Abstract

The invention relates to the technical field of cylinder assembling equipment, in particular to mounting equipment for a motorcycle cylinder head accessory, which solves the problems that: the invention provides a mounting device of motorcycle cylinder head fittings, which can not rapidly mount an assembly of an intake valve core and an exhaust valve core, and comprises: the rack is provided with a mounting surface; the mounting table is provided with a first surface and a second surface which are opposite, the first surface is in contact with the base, the second surface is provided with a first protruding part and a second protruding part, the first protruding part is used for being matched with an air inlet valve core, and the second protruding part is used for being matched with an air outlet valve core; when the mounting table can drive the cylinder body to rotate, the pressing plate can be matched with the first protruding part so as to assemble cylinder head accessories on the intake valve core; alternatively, the pressure plate can cooperate with the second protrusion to effect assembly of the cylinder head fitting to the exhaust valve core.

Description

Mounting equipment for motorcycle cylinder head accessory

Technical Field

The invention relates to the technical field of cylinder assembling equipment, in particular to mounting equipment for a motorcycle cylinder head accessory.

Background

The cylinder is an indispensable part in motorcycle parts, and in the cylinder assembling process, some assembling parts need to be installed on the air inlet valve core and the exhaust valve core.

Disclosure of Invention

The problems solved by the invention are as follows: the mounting equipment of the cylinder can not be quickly mounted on the assembly parts of the intake valve core and the exhaust valve core.

In order to solve the above problems, an embodiment of the present invention provides a mounting apparatus for a motorcycle cylinder head accessory, wherein a motorcycle cylinder is provided with a cylinder body, the cylinder body is provided with an intake valve core and an exhaust valve core, the mounting apparatus is used for assembling the cylinder head accessory with the intake valve core or the exhaust valve core, and the mounting apparatus includes: the device comprises a rack, a base and a driving device, wherein the rack is provided with an installation surface, and the installation surface is provided with a base driving device which is connected with the rack; the pressing plate is connected with the driving device, and the driving device can drive the pressing plate to move; the mounting table is rotatably connected with the base and is provided with a first surface and a second surface which are opposite, the first surface is in contact with the base, the second surface is provided with a first protruding part and a second protruding part, the first protruding part is used for matching with an air inlet valve core, and the second protruding part is used for matching with an exhaust valve core; when the mounting table can drive the cylinder body to rotate, the pressing plate can be matched with the first protruding part, so that cylinder head accessories are assembled on the intake valve core; alternatively, the pressure plate can cooperate with the second protruding member to effect assembly of the cylinder head fitting to the exhaust valve core.

Compared with the prior art, the technical scheme has the following technical effects: the setting of base has shortened the distance between mount table and the clamp plate, the distance that drive arrangement drive clamp plate need descend has been reduced, the time that the assembly needs each time has been shortened, the mount table can the pivoted set up let admit air valve core and exhaust valve core can be quick remove to the below of clamp plate, let admit air valve core and exhaust valve core's cylinder head accessory's installation only need put a cylinder body, the condition that the staff need artificial cylinder body of moving to come the adjusting position has been avoided, also promoted the efficiency and the degree of accuracy of cylinder head accessory installation when reducing working strength.

In one embodiment of the invention, the base comprises: the supporting part is fixedly connected with the mounting surface, and the contact surface of the supporting part and the mounting surface is a first side surface; the placing table is fixedly connected with one side of the supporting part, which is far away from the mounting surface, and the side of the placing table, which is far away from the supporting part, is a second side surface; a first included angle is formed between the second side face and the mounting face; a second included angle is formed between the second surface and the second side surface.

Compared with the prior art, the technical scheme has the following technical effects: the setting of first contained angle lets advance the valve core and can produce the difference in height with the exhaust valve core in vertical direction, and the setting of second contained angle lets the cylinder body slope setting on the mount table, lets advance the valve core or the front side slope that the exhaust valve core can be toward the installation face, guarantees the normal work of clamp plate.

In one embodiment of the invention, the first protruding member is in the first position and the second protruding member is in the second position when the pressure plate is mated with the first protruding member, and the first protruding member is in the second position and the second protruding member is in the first position when the pressure plate is mated with the second protruding member.

Compared with the prior art, the technical scheme has the following technical effects: the setting of primary importance and second position lets the mount table can realize the switching to the assembly target through rotating appointed angle, and the staff can judge the mount table through the mark of primary importance and second position and need pivoted angle, and it is more convenient when letting clamp plate and admission valve core or exhaust valve core counterpoint, has promoted the assembly efficiency of cylinder head accessory.

In one embodiment of the invention, a side of the first protruding member away from the second surface is obliquely arranged and forms a first inclined surface, the first inclined surface is obliquely arranged relative to the second surface, a side of the second protruding member away from the second surface is obliquely arranged and forms a second inclined surface, the second inclined surface is obliquely arranged with respect to the second surface, the first inclined surface is parallel to the mounting surface when the first protruding member is located at the first position, and the second inclined surface is parallel to the mounting surface when the first protruding member is located at the second position.

Compared with the prior art, the technical scheme has the following technical effects: the setting on first inclined plane, let first bellying can reduce the influence that first contained angle and second contained angle brought when the primary importance, let the clamp plate only need vertical downward can accomplish assembly work, let drive arrangement only need simple reciprocating when driving the clamp plate, let the drive of clamp plate become more convenient, the first bellying on second inclined plane sets up when the primary importance, first contained angle and second contained angle can be cooperated on the second inclined plane, further increase intake valve core and the difference in height between the exhaust valve core, avoid the clamp plate to contact exhaust valve core and intake valve core simultaneously at the during operation.

In one embodiment of the invention, the base further comprises: the rotating device is arranged on the second side surface, and the rotating device is arranged at the center of the second side surface; the limiting blocks are arranged on the second side face, the two limiting blocks are respectively positioned on two sides of the rotating device, and the limiting blocks extend towards one side far away from the mounting face along the second side face.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: the setting of rotating device makes the rotation of mount table more convenient, and setting up of stopper makes the mount table more convenient when rotating primary importance or second place, avoids appearing that turned angle is too big and need adjust repeatedly, makes the calibration of primary importance and second place become more convenient.

In one embodiment of the present invention, a driving device includes: the pressing plate is connected with the lifting mechanism; the transmission mechanism is connected with the lifting mechanism; and the driving pedal is fixedly connected with the transmission mechanism and is arranged at the bottom of the rack.

Compared with the prior art, the technical scheme has the following technical effects: the setting of elevating system lets the clamp plate can move in vertical direction, and the setting of drive footboard lets the position that the staff can step on the mode control clamp plate through the foot, lets the removal of clamp plate become more convenient, and drive mechanism's setting lets the staff be located the foot of installation face below and has an effect and can transmit the clamp plate of installation face top, through the cooperation of hand and foot, promotes the assembly efficiency of cylinder head accessory.

In one embodiment of the invention, the transmission mechanism comprises: the first transmission rod is fixedly connected with the rack; one end of the connecting sheet is connected with the driving pedal, and the other end of the connecting sheet is sleeved on the first transmission rod; the second transmission rod is fixedly connected with the connecting sheet; wherein, can drive the second transfer line and remove when the drive footboard removes.

Compared with the prior art, the technical scheme has the following technical effects: the setting of first transfer line lets drive mechanism's one end and frame fixed, and the setting of connection piece lets the distance increase between drive footboard and the first transfer line, and it becomes easier to let the staff exert external force to the drive footboard, and the setting that second transfer line is connected with drive mechanism lets the external force of exerting on the drive footboard can transmit for drive mechanism.

In one embodiment of the present invention, the elevating mechanism includes: the fixed rod is connected with the rack; the pulley block is at least partially sleeved on the fixed rod; the driving wheel is sleeved on the fixed rod and drives the pulley block to rotate through rotation; pressure head subassembly, pressure head subassembly's one end is equipped with the clamp plate, and pressure head subassembly's the other end is connected with the drive wheel, and the assembly pulley includes: the first pulley is sleeved on the fixed rod; the second pulley is connected with the rack, and the second pulley is connected with the first pulley through a conveying belt; the third pulley is connected with the pressure head assembly and drives the pressure plate to move towards the mounting surface through rotation; the reset pulley is arranged on one side, far away from the mounting surface, of the pressure head assembly, and the reset pulley is connected with the driving wheel through a spring.

Compared with the prior art, the technical effect achieved by adopting the technical scheme is as follows: the setting of first pulley lets the drive conveyer belt that the second transfer line can be relaxed move down, and the second pulley plays the effect that changes power direction, and the third pulley of being convenient for can drive the third transfer line and descend, and when the setting of the pulley that resets lets the external force of drive footboard department disappear, the pressure head subassembly can reset fast, realizes the reciprocating motion of clamp plate, lets the fast continuous work of erection equipment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts;

FIG. 1 is a schematic view of the overall structure of the installation apparatus of the present invention;

FIG. 2 is a schematic view of the overall structure of the base of the present invention;

FIG. 3 is a front view of FIG. 2;

FIG. 4 is a schematic view showing the fitting connection of the cylinder body, the mounting table and the base;

FIG. 5 is a schematic view of the overall structure of the mounting table;

FIG. 6 is a schematic view showing the fitting connection of the exhaust valve core and the intake valve core with the mounting table;

FIG. 7 is a schematic view of the mounting table in a first position;

FIG. 8 is a schematic view of the mounting station in a second position;

FIG. 9 is a schematic view showing the fitting connection of the rotating device and the mounting table;

FIG. 10 is a schematic view of the rack and the transmission mechanism being coupled together;

FIG. 11 is a schematic view of the overall structure of the transmission mechanism;

FIG. 12 is a schematic view of the connection between the lifting mechanism and the frame;

FIG. 13 is a schematic view of the connection between the lifting mechanism and the transmission mechanism;

FIG. 14 is a schematic view of the overall structure of the platen;

description of reference numerals:

100-a frame; 110-a mounting surface; 120-a base; 121-a support; 121 a-a first side; 122-a placing table; 122 a-a second side; 123-a limiting block; 124-rotating means; 130-a mounting table; 131-a first side; 132-a second face; 133-a first raised member; 133 a-first ramp; 134-a second projection; 134 a-a second bevel; 200-cylinder body; 210-inlet valve core; 220-exhaust valve core; 230-a handle; 300-a drive means; 310-a transmission mechanism; 311-a first transfer lever; 312-a connecting piece; 313-a second drive link; 314-a drive pedal; 320-a lifting mechanism; 321-a fixing rod; 322-a conveyor belt; 323-pulley block; 323 a-a first pulley; 323 b-a second pulley; 323 c-a third pulley; 323 d-reset pulley; 324-a ram assembly; 325-driving wheel; 326-third drive link; 330-protective shell; 340-a platen; 341-first via; alpha-a first angle; beta-second angle; d1-a first direction; d2-second direction.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

[ first embodiment ] A method for manufacturing a semiconductor device

Referring to fig. 1 to 6, in a specific embodiment, the present invention provides a mounting apparatus of a cylinder head fitting for a motorcycle, a cylinder of the motorcycle being provided with a cylinder block 200, the cylinder block 200 being provided with an intake valve core 210 and an exhaust valve core 220, the mounting apparatus for assembling the cylinder head fitting with the intake valve core 210 or the exhaust valve core 220, the mounting apparatus comprising: the device comprises a rack 100, wherein the rack 100 is provided with an installation surface 110, a base 120 and a driving device 300 are arranged on the installation surface 110, and the driving device 300 is connected with the rack 100; the pressing plate 340 is connected with the driving device 300, and the driving device 300 can drive the pressing plate 340 to move; the mounting table 130 is rotatably connected with the base 120, the mounting table 130 is provided with a first surface 131 and a second surface 132 which are opposite, the first surface 131 is in contact with the base 120, the second surface 132 is provided with a first protruding part 133 and a second protruding part 134, the first protruding part 133 is used for being matched with the intake valve core 210, and the second protruding part 134 is used for being matched with the exhaust valve core 220; when the mounting table 130 can drive the cylinder body 200 to rotate, the pressing plate 340 can be matched with the first protruding part 133 to assemble cylinder head accessories on the intake valve core 210; alternatively, the pressure plate 340 can cooperate with the second protrusion 134 to effect assembly of the cylinder head fitting to the exhaust valve core 220.

The rack 100 is in a table shape, the mounting surface 110 is an upper surface of the rack 100, a notch is formed in the center of the mounting surface 110, at least part of the driving device 300 penetrates through the notch and is located above the base 120, the base 120 is arranged at a position close to the front side of the mounting surface 110, the mounting table 130 is arranged above the base 120, the lower surface of the mounting table 130 is a first surface 131, the upper surface of the mounting table 130 is a second surface 132, the second surface 132 is provided with the cylinder body 200, the intake valve core 210 and the exhaust valve core 220 are arranged in the cylinder body 200, the upper surface and the lower surface of the cylinder body 200 are both provided with mounting holes, one end of the intake valve core 210 is in a hemispherical shape, the other end of the intake valve core 210 is in a cylindrical shape, one end of the cylindrical shape at least penetrates through the mounting hole from bottom, the hemispherical end and the outer contour of the mounting hole in the lower surface are attached and in contact with the first protrusion piece 133, the exhaust valve core 220 is consistent with the structure of the intake valve core 210 and in contact with the second protrusion piece 134, when the mounting table 130 rotates, the first protrusion piece 133 and the second protrusion piece 134 can rotate with the mounting table 130, so as to drive the intake valve core 210 and the second protrusion piece 134 mounted on the first protrusion piece 133.

When the mounting equipment is used, firstly, a sealing ring is placed in the mounting hole, then, the exhaust valve core 220 and the intake valve core 210 are mounted in the mounting hole, after the mounting is finished, one cylindrical end of the exhaust valve core 220 and the intake valve core 210 is positioned above the upper surface of the cylinder body 200, and then, the exhaust valve core 220 and the intake valve core 210 are placed on the mounting table 130, the intake valve core 210 is matched with the first protruding piece 133, the exhaust valve core 220 is matched with the second protruding piece 134, then, the mounting table 130 is rotated, one cylindrical end of the intake valve core 210 is positioned under the pressing plate 340, and the intake valve core 210 is sleeved with a mounting part to be mounted, for example: after the corresponding assembly part sleeves are completely arranged, the pressing plate 340 is controlled to descend through the driving assembly and contacts with the sleeved assembly parts, the assembly parts are fixed in the cylinder body 200, after the cylinder head fittings of the air inlet valve core 210 are completely arranged, the mounting table 130 is rotated, the cylindrical end of the exhaust valve core 220 is located under the pressing plate 340, the pressing plate 340 is controlled to descend through the driving assembly, the corresponding assembly parts are arranged, and after the cylinder head fittings of the exhaust valve core 220 are completely arranged, the cylinder body 200 is taken down from the mounting plate, and the mounting work is completed.

The setting of base 120 has shortened the distance between mount table 130 and the clamp plate 340, the distance that drive arrangement 300 drive clamp plate 340 need descend has been reduced, the time that the assembly needs each time has been shortened, mount table 130 can the pivoted setting let advance valve core 210 and exhaust valve core 220 can be quick move to the below of clamp plate 340, let the installation of the cylinder head accessory of advancing valve core 210 and exhaust valve core 220 only need put cylinder body 200 once, the condition that the staff need artificial cylinder body 200 of moving to adjust the position has been avoided, the efficiency and the degree of accuracy of cylinder head accessory installation have also been promoted when reducing working strength.

[ second embodiment ]

Referring to fig. 3-8, in one particular embodiment, the base 120 includes: a support portion 121, the support portion 121 being fixedly connected to the mounting surface 110, a contact surface of the support portion 121 and the mounting surface 110 being a first side surface 121a; a placing table 122, the placing table 122 is fixedly connected with one side of the supporting portion 121 far away from the mounting surface 110, and one side of the placing table 122 far away from the supporting portion 121 is a second side surface 122a; a first included angle α is formed between the second side surface 122a and the mounting surface 110; the second surface 132 and the second side surface 122a form a second included angle β therebetween.

The lower end of the supporting portion 121 is fixedly connected with the mounting surface 110, the upper end of the supporting portion 121 is arranged in an inclined manner relative to the lower end, the placing table 122 is in contact with the upper end of the supporting portion 121, generally, two supporting portions 121 are arranged on two sides of the placing table 122 respectively, so that the placing table 122 is more stably fixed, a first included angle α is formed between the second side surface 122a and the mounting surface 110 due to the inclined arrangement, the first surface 131 is fixedly connected with the placing table 122, the central position of the first surface 131 and the central position of the placing table 122 are located on the same vertical line, the bottom of the first protruding member 133 is attached to the second surface 132, the distance between the bottom of the first protruding member 133 and the mounting surface 110 is gradually reduced along the first direction D1, and the distance between the second surface 132 and the second side surface 122a is gradually reduced along the second direction D2.

Because of the existence of the first included angle α, a height difference is generated between the cylindrical end of the exhaust valve core 220 and the cylindrical end of the intake valve core 210 in the vertical direction, so that the pressure plate 340 is prevented from touching the exhaust valve core 220 when the intake valve core 210 is machined, and the existence of the second included angle β enables the cylinder 200 to be in an inclined state after the cylinder 200 is mounted on the mounting table 130, and when the position of the intake valve core 210 moves to the lower side of the pressure plate 340, the exhaust valve core 220 can incline to the front side of the mounting surface 110, the horizontal distance between the cylindrical end of the exhaust valve core 220 and the pressure plate 340 is opened, and further the pressure plate 340 is prevented from touching the exhaust valve core 220.

It should be noted that when the position of the exhaust valve core 220 moves to below the pressure plate 340, the intake valve core 210 also tilts towards the front side of the mounting surface 110, which is not described herein again.

The first included angle α is set to enable the intake valve core 210 and the exhaust valve core 220 to generate a height difference in the vertical direction, and the second included angle β is set to enable the cylinder body 200 to tilt on the mounting table 130, so that the intake valve core 210 or the exhaust valve core 220 can tilt toward the front side of the mounting surface 110, and the normal operation of the pressing plate 340 is ensured.

[ third embodiment ]

Referring to fig. 7 and 8, in one particular embodiment, when the pressure plate 340 is engaged with the first protrusion 133, the first protrusion 133 is in the first position and the second protrusion 134 is in the second position, and when the pressure plate 340 is engaged with the second protrusion 134, the first protrusion 133 is in the second position and the second protrusion 134 is in the first position.

The handle 230 is arranged on the side face of the mounting table 130, a worker rotates the mounting table 130 through the handle 230, the mounting table 130 passes through a first position and a second position in the rotating process, when the mounting table 130 is located at the first position, the air inlet valve core 210 is located under the pressing plate 340, the handle 230 is located on the left side of the mounting table 130, when the mounting table 130 is located at the second position, the air outlet valve core 220 is located under the pressing plate 340, and the handle 230 is located on the right side of the mounting table 130.

During operation, the mounting table 130 is rotated to the first position, the control pressing plate 340 is used for assembling cylinder head accessories of the intake valve core 210, after the assembly is finished, the handle 230 is moved to enable the mounting table 130 to rotate to the second position, the control pressing plate 340 is used for assembling cylinder head accessories of the exhaust valve core 220, the rotating angle required by the switching between the first position and the second position can be adjusted according to actual conditions, and the fact that the pressing plate 340 cannot contact the intake valve core 210 and the exhaust valve core 220 simultaneously in the pressing process is guaranteed.

Preferably, the mounting table 130 needs to be rotated 180 ° during the switching of the mounting table 130 from the first position to the second position.

The setting of first position and second position lets mount table 130 can realize the switching to the assembly target through rotating appointed angle, and the staff can judge mount table 130 angle that needs the pivoted through the mark of first position and second position, and it is more convenient when letting clamp plate 340 and intake valve core 210 or exhaust valve core 220 counterpoint, has promoted the assembly efficiency of cylinder head accessory.

[ fourth example ] A

In a specific embodiment, a side of the first protrusion 133 away from the second surface 132 is disposed obliquely and forms a first inclined surface 133a, the first inclined surface 133a is disposed obliquely relative to the second surface 132, a side of the second protrusion 134 away from the second surface 132 is disposed obliquely and forms a second inclined surface 134a, the second inclined surface 134a is disposed obliquely with respect to the second surface 132, the first inclined surface 133a is parallel to the mounting surface 110 when the first protrusion 133 is located at the first position, and the second inclined surface 134a is parallel to the mounting surface 110 when the first protrusion 133 is located at the second position.

The lower surfaces of the first protrusion 133 and the second protrusion 134 are both circular, the first inclined surface 133a and the second inclined surface 134a are also circular, when the mounting table 130 rotates to the first position, the first inclined surface 133a is located right below the pressing plate 340, at this time, the first protrusion 133 makes up a height difference caused by extension of the base 120 along the first direction D1 and a height difference caused by extension of the mounting table 130 along the second direction D2 in the vertical direction, so that the first inclined surface 133a is parallel to the mounting surface 110, and meanwhile, the second inclined surface 134a further increases the height difference caused by extension of the base 120 along the first direction D1 and the height difference caused by extension of the mounting table 130 along the second direction D2, thereby changing the orientation of the exhaust valve core 220 and further increasing the direct distance between the exhaust valve core 220 and the pressing plate 340.

When the mounting table 130 rotates to the second position, the second inclined surface 134a is located right below the pressing plate 340, and at this time, the second protrusion 134 makes up for a height difference caused by extension of the base 120 along the first direction D1 and a height difference caused by extension of the mounting table 130 along the second direction D2 in the vertical direction, so that the second inclined surface 134a is parallel to the mounting surface 110, and meanwhile, the first inclined surface 133a further increases the height difference caused by extension of the base 120 along the first direction D1 and the height difference caused by extension of the mounting table 130 along the second direction D2, so that the direction of the intake valve core 210 is changed, and the direct distance between the intake valve core 210 and the pressing plate 340 is further increased.

The setting of first inclined plane 133a, let first bellying 133 can reduce the influence that first contained angle alpha and second contained angle beta brought when the primary importance, let clamp plate 340 only need vertically can accomplish assembly work downwards, let drive arrangement 300 only need simple reciprocating when driving clamp plate 340, let the drive of clamp plate 340 become more convenient, the first bellying 133 of setting of second inclined plane 134a when the primary importance, second inclined plane 134a can cooperate first contained angle alpha and second contained angle beta, further increase the difference in height between intake valve core 210 and the exhaust valve core 220, avoid clamp plate 340 to contact exhaust valve core 220 and intake valve core 210 simultaneously at the during operation.

[ fifth embodiment ]

Referring to fig. 9, in a specific embodiment, the base 120 further comprises: the rotating device 124, the rotating device 124 is arranged on the second side surface 122a, and the rotating device 124 is arranged in the center of the second side surface 122a; the two limit blocks 123 are respectively located at two sides of the rotating device 124, and the limit blocks 123 protrude from one side, far away from the mounting surface 110, of the second side surface 122 a.

The rotating device 124 comprises a rotating ring and a rotating shaft, a concave part is arranged at the center of the second side surface 122a, a through hole is formed in the center of the concave part, the rotating shaft is arranged inside the through hole, the rotating ring is installed on the concave part, after the rotating ring is installed, the height of the rotating ring is higher than that of the second side surface 122a, a concave area matched with the rotating ring is formed in the center of the first surface 131 of the installation platform 130, after the first surface 131 is attached to the second side surface 122a, the convex part of the rotating ring enters the concave area, and the installation platform 130 can rotate through the rotating ring.

The limiting blocks 123 are L-shaped and are respectively arranged at the left side and the right side of the second side surface 122a, only the handle 230 can contact with the limiting blocks 123 in the rotating process of the mounting table 130, after the handle 230 contacts with the limiting blocks 123, the mounting table 130 cannot rotate continuously in the direction, under normal conditions, the mounting table 130 is located at a first position or a second position, an included angle between the two limiting blocks 123 is matched with an angle, required to rotate, of the mounting table 130 when the first position and the second position are switched, if the first position and the second position are switched, 120 degrees needs to rotate, the included angle between the two limiting blocks 123 is 120 degrees, and preferably, the two limiting blocks 123 are located on the same horizontal line.

The rotation of mount table 130 is more convenient due to the arrangement of rotating device 124, the rotation of mount table 130 is more convenient due to the arrangement of limiting block 123, the mount table 130 is more convenient to rotate to the first position or the second position, the phenomenon that the rotation angle is too large and needs to be adjusted repeatedly is avoided, and the calibration of the first position and the second position becomes more convenient.

[ sixth embodiment ]

Referring to fig. 10-14, in one particular embodiment, the drive device 300 includes: the lifting mechanism 320, the pressing plate 340 is connected with the lifting mechanism 320; the transmission mechanism 310, the transmission mechanism 310 is connected with the lifting mechanism 320; and the driving pedal 314 is fixedly connected with the transmission mechanism 310 and is arranged at the bottom of the machine frame 100.

The lifting mechanism 320 is used for controlling the up-and-down movement of the pressing plate 340, the driving pedal 314 is arranged at the bottom of the machine frame 100 and is arranged at a position where the foot of a worker can touch the screen, and the transmission mechanism 310 is used for transmitting the external force obtained by the driving pedal 314 to the lifting mechanism 320 so as to achieve the purpose that the driving pedal 314 drives the pressing plate 340 to lift.

Installation equipment is when using, the staff is with turning left handle 230, let handle 230 and left stopper 123 contact, step on drive footboard 314 afterwards, carry out cylinder head accessory assembly to intake valve core 210, after the assembly finishes, turn right handle 230, let handle 230 and the stopper 123 contact on right side, step on drive footboard 314 afterwards, carry out cylinder head accessory assembly to exhaust valve core 220, after the assembly is accomplished, take off assembled cylinder body 200 from mount table 130, place new cylinder body 200 and continue the assembly work.

The arrangement of the lifting mechanism 320 enables the pressing plate 340 to move in the vertical direction, the arrangement of the driving pedal 314 enables a worker to control the position of the pressing plate 340 in a foot treading mode, the movement of the pressing plate 340 becomes more convenient, the arrangement of the transmission mechanism 310 enables the foot of the worker below the mounting surface 110 to exert force and transmit the force to the pressing plate 340 above the mounting surface 110, and the assembly efficiency of the cylinder head fitting is improved through the cooperation of hands and feet.

[ seventh example ]

Referring to fig. 10 and 11, in one particular embodiment, the transmission mechanism 310 includes: the first transmission rod 311, the first transmission rod 311 is fixedly connected with the frame 100; one end of the connecting piece 312 is connected with the driving pedal 314, and the other end is sleeved on the first transmission rod 311; the second transmission rod 313 is fixedly connected with the connecting piece 312; wherein, the driving pedal 314 can drive the second transmission rod 313 to move when moving.

The first driving rod 311 is located at the rear side of the rack 100, the connecting piece 312 is provided with a plurality of connecting holes, the connecting holes are arranged in parallel and at intervals, the first driving rod 311 penetrates through the connecting hole at the rear side of the connecting piece 312, positioning devices are arranged at two sides of the first driving rod 311, which are in contact with the connecting piece 312, so as to prevent the connecting piece 312 from moving on the first driving rod 311, the front side of the connecting piece 312 is provided with a driving pedal 314, the middle position of the connecting piece 312 is provided with a second driving rod 313, the second driving rod 313 is connected with the driving mechanism 310, when the driving pedal 314 is descended by external force, the fixed end of the connecting piece 312 and the first driving rod 311 is kept still, one side of the driving pedal 314 inclines downwards, and the second driving rod 313 also inclines downwards, so as to drive at least part of the driving mechanism 310 to move downwards, and thus drive the pressing plate 340 to descend.

Preferably, the magnitude of the force transmitted by the driving pedal 314 can be changed by changing the position of the connecting hole through which the first transmission rod 311 passes, the closer the connecting hole is to the driving pedal 314, and under the condition that the same external force is applied to the driving pedal 314, the smaller the external force transmitted to the transmission mechanism 310 by the second transmission rod 313 is, the better the descending precision of the pressing plate 340 is adjusted, the problems of too large up-and-down moving amplitude and too fast moving speed of the pressing plate 340 are avoided, and the safety of the pressing plate 340 in the working process is improved.

The arrangement of the first transmission rod 311 enables one end of the transmission mechanism 310 to be fixed with the rack 100, the arrangement of the connecting piece 312 enables the distance between the driving pedal 314 and the first transmission rod 311 to be increased, and the external force applied to the driving pedal 314 by a worker can be more easily applied, and the arrangement of the second transmission rod 313 connected with the transmission mechanism 310 enables the external force applied to the driving pedal 314 to be transmitted to the transmission mechanism 310.

[ eighth embodiment ]

Referring to fig. 12-14, in one particular embodiment, the lift mechanism 320 includes: a fixing rod 321, the fixing rod 321 being connected to the rack 100; the pulley block 323, at least part of the pulley block 323 is sleeved on the fixed rod 321; the driving wheel 325 is sleeved on the fixed rod 321 and drives the pulley block 323 to rotate through rotation; pressure head subassembly 324, the one end of pressure head subassembly 324 is equipped with clamp plate 340, and the other end and the drive wheel 325 of pressure head subassembly 324 are connected, and the assembly pulley 323 includes: the first pulley 323a, the first pulley 323a is sleeved on the fixing rod 321; a second pulley 323b, the second pulley 323b being connected to the frame 100, and the second pulley 323b being connected to the first pulley 323a via the conveyor belt 322; a third pulley 323c, the third pulley 323c being connected to the pressing head assembly 324, the third pulley 323c driving the pressing plate 340 to move toward the mounting surface 110 by rotation; the reset pulley 323d is arranged on one side of the pressure head assembly 324 far away from the mounting surface 110, and the reset pulley 323d is connected with the driving wheel 325 by a spring.

The first pulleys 323a are located at the lowest part of the pulley block 323 and are arranged on the fixed rod 321, the fixed rod 321 is located at the front side of the first transmission rod 311 and is located above the second transmission rod 313, two first pulleys 323a are provided, one side of each first pulley 323a close to the driving pedal 314 is provided with a conveyor belt 322, a driving wheel 325 is arranged between the two first pulleys 323a, two ends of the second transmission rod 313 correspond to one conveyor belt 322 respectively, one conveyor belt 322 corresponds to one first pulley 323a, the first pulleys 323a are located below the mounting surface 110, the second pulleys 323b are located above the mounting surface 110, the mounting surface 110 is further provided with a protective shell 330, second pulleys 323b are arranged inside the protective shell 330, the number of the second pulleys 323b is the same as that of the first number and corresponds to one by one, the first pulleys 323a and the second pulleys are connected through the conveyor belts 322, the third pulleys 323c and the second pulleys 323b are located at the same height, the third pulleys 323c are located at two sides of the pressure head assembly, a third transmission rod 326 c is arranged above the third pulley 326 c, the third transmission rod 323c passes through the transmission rod assembly, the two return heads of the return springs 324 d, and are connected with the return pressure head assembly 326 d, and the return pressure head assembly 325 d is connected with the return pressure head assembly 324 d.

When the driving pedal 314 moves downwards, the second transmission rod 313 also drives the conveyor belt 322 to move downwards, the first pulley 323a can rotate under the action of the conveyor belt 322, so that the movement of the conveyor belt 322 is smoother, the conveyor belt 322 passes through the upper surface of the second pulley 323b, passes through the protective shell 330, and then passes through the lower surface of the third pulley 323c to be connected with the third transmission rod 326, the third transmission rod 326 also moves downwards during the downward movement of the conveyor belt 322, so as to drive the pressure head assembly 324 to move downwards, the end of the pressure plate 340 is provided with a first through hole 341, the first through hole 341 passes through the cylindrical end of the exhaust valve core 220 or 210 during the downward movement of the pressure plate 340, so that the pressure plate 340 can be better sleeved on the cylinder head fitting on the intake valve core 220 or 210, at this time, the spring between the return pulley 323d and the driving wheel 325 is in a stretching state, and when no external force is applied at the driving pedal 314, the third transmission rod 326 obtains an upward pulling force under the elastic potential energy of the spring, and completes the return.

The arrangement of the first pulley 323a enables the second transmission rod 313 to drive the transmission belt 322 to move downwards more easily, the second pulley 323b has the function of changing the force direction, so that the third pulley 323c can drive the third transmission rod 326 to descend, and when the arrangement of the reset pulley 323d enables the external force at the position of the driving pedal 314 to disappear, the pressure head assembly 324 can reset quickly, the reciprocating motion of the pressure plate 340 is realized, and the installation equipment can work quickly and continuously.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected by one skilled in the art without departing from the spirit and scope of the invention, as defined in the appended claims.

Claims (10)

1. A mounting device for a motorcycle cylinder head fitting, the motorcycle cylinder being provided with a cylinder block (200), the cylinder block (200) being provided with an inlet valve core (210) and an outlet valve core (220), the mounting device being for assembling a cylinder head fitting with the inlet valve core (210) or the outlet valve core (220), characterized in that the mounting device comprises:

the device comprises a rack (100), wherein the rack (100) is provided with a mounting surface (110), and a base (120) is arranged on the mounting surface (110);

a drive device (300), the drive device (300) being connected to the chassis (100);

the pressing plate (340), the pressing plate (340) is connected with the driving device (300), and the driving device (300) can drive the pressing plate (340) to move;

a mounting table (130), the mounting table (130) being rotatably connected to the base (120), the mounting table (130) having a first surface (131) and a second surface (132) opposite to each other, the first surface (131) being in contact with the base (120), the second surface (132) being provided with a first protrusion (133) and a second protrusion (134), the first protrusion (133) being adapted to engage with the inlet valve core (210), and the second protrusion (134) being adapted to engage with the exhaust valve core (220);

when the mounting table (130) can drive the cylinder body (200) to rotate, the pressure plate (340) can be matched with the first protruding piece (133) to assemble the cylinder head accessory on the air inlet valve core (210); alternatively, the pressure plate (340) may cooperate with the second protrusion (134) to effect assembly of the cylinder head fitting to the exhaust valve core (220).

2. The mounting apparatus of claim 1, wherein the base (120) comprises:

a support part (121), wherein the support part (121) is fixedly connected with the mounting surface (110), and the contact surface of the support part (121) and the mounting surface (110) is a first side surface (121 a);

the placing table (122) is fixedly connected with one side, away from the mounting surface (110), of the supporting part (121), and one side, away from the supporting part (121), of the placing table (122) is a second side surface (122 a);

wherein the second side surface (122 a) forms a first included angle (a) with the mounting surface (110); the second face (132) forms a second included angle (beta) with the second side face (122 a).

3. The mounting apparatus according to claim 2, wherein when the pressure plate (340) is mated with the first protruding member (133), the first protruding member (133) is located in a first position, the second protruding member (134) is located in a second position, and when the pressure plate (340) is mated with the second protruding member (134), the first protruding member (133) is located in the second position, and the second protruding member (134) is located in the first position.

4. The mounting device according to claim 3, wherein the first protrusion (133) is obliquely arranged away from the side of the second face (132) and forms a first oblique face (133 a), the first oblique face (133 a) being obliquely arranged relative to the second face (132), the second protrusion (134) is obliquely arranged away from the side of the second face (132) and forms a second oblique face (134 a), the second oblique face (134 a) being obliquely arranged with respect to the second face (132).

5. The mounting apparatus of claim 4, wherein the first ramp surface (133 a) is parallel to the mounting surface (110) when the first protrusion (133) is in the first position, and the second ramp surface (134 a) is parallel to the mounting surface (110) when the first protrusion (133) is in the second position.

6. The mounting apparatus of claim 2, wherein the base (120) further comprises:

the rotating device (124) is arranged on the second side surface (122 a), and the rotating device (124) is arranged at the center of the second side surface (122 a);

the limiting blocks (123), the limiting blocks (123) are arranged on the second side face (122 a), the number of the limiting blocks (123) is two, the two limiting blocks (123) are respectively located on two sides of the rotating device (124), and the limiting blocks (123) extend out along the second side face (122 a) towards one side far away from the mounting face (110).

7. The mounting arrangement, as set forth in any of claims 1 to 6, characterized in that the driving means (300) comprise:

the lifting mechanism (320), the pressing plate (340) is connected with the lifting mechanism (320);

the transmission mechanism (310), the transmission mechanism (310) is connected with the lifting mechanism (320);

the driving pedal (314) is fixedly connected with the transmission mechanism (310) and arranged at the bottom of the rack (100).

8. The mounting arrangement, as set forth in claim 7, characterized in that the transmission mechanism (310) comprises:

the first transmission rod (311) is fixedly connected with the rack (100);

one end of the connecting piece (312) is connected with the driving pedal (314), and the other end of the connecting piece (312) is sleeved on the first transmission rod (311);

the second transmission rod (313), the said second transmission rod (313) is fixedly connected with said connecting link (312);

when the driving pedal (314) moves, the second driving rod (313) can be driven to move.

9. The mounting apparatus of claim 8, wherein the lifting mechanism (320) comprises:

the fixing rod (321), the said fixing rod (321) is connected with said framework (100);

the pulley block (323), at least part of the pulley block (323) is sleeved on the fixed rod (321);

the driving wheel (325) is sleeved on the fixed rod (321) and drives the pulley block (323) to rotate through rotation;

the pressing head assembly (324), one end of the pressing head assembly (324) is provided with a pressing plate (340), and the other end of the pressing head assembly (324) is connected with a driving wheel (325).

10. The mounting arrangement, as set forth in claim 9, characterized in that the pulley block (323) comprises:

the first pulley (323 a), the said first pulley (323 a) is fitted on the said dead lever (321);

a second pulley (323 b), the second pulley (323 b) being connected to the frame (100), and the second pulley (323 b) being connected to the first pulley (323 a) via a conveyor belt (322);

the third pulley (323 c), the third pulley (323 c) is connected with the pressure head assembly (324), and the third pulley (323 c) drives the pressure plate (340) to move towards the mounting surface (110) through rotation;

the reset pulley (323 d), reset pulley (323 d) are located the pressure head subassembly (324) keep away from one side of installation face (110), adopt spring coupling between reset pulley (323 d) and drive wheel (325).

Images