Disclosure of Invention
In order to solve the problems, the invention adopts the following technical scheme that the demolding tool for the glass fiber reinforced plastic product comprises a rotating plate, a movable support plate, a hydraulic cylinder and a knocking device, wherein the movable support plate is installed on the right side surface of the rotating plate, the hydraulic cylinder is located above the movable support plate, the bottom of the hydraulic cylinder is connected with the right side surface of the rotating plate, a movable sliding groove is formed in the middle of the movable support plate, the knocking device is installed on the movable support plate, and the demolding tool for the glass fiber reinforced plastic product can be installed on an external rotating device through the rotating plate.
The knocking device comprises a knocking sliding plate, a knocking sliding column, a knocking spring, a knocking hammer, a follower rod, an L-shaped frame, a guide mechanism and a connecting rod, wherein the knocking sliding plate is connected with a moving chute on a moving support plate in a sliding fit manner, and the top of the left end of the knocking sliding plate is connected with the top of a hydraulic cylinder;
the middle part of the knocking sliding plate is connected with the middle part of the knocking sliding column in a sliding fit mode, the section of the knocking sliding column is of a T-shaped structure, a knocking hammer is mounted on the bottom of the knocking sliding column, a knocking spring is arranged at the lower end of the knocking sliding column, and the knocking spring is mounted between the bottom of the movable support plate and the top of the knocking hammer;
the front side and the rear side of the upper end of the knocking sliding column are respectively provided with a follower rod, the L-shaped frames are symmetrically arranged on the front side and the rear side of the movable support plate and are positioned above the L-shaped frames, the inner side surface of each L-shaped frame is provided with a guide mechanism, two adjacent guide mechanisms on the same side are connected through a connecting rod, and when the glass fiber reinforced plastic cylinder demoulding device works, the knocking device can be used for positioning and knocking the glass fiber reinforced plastic cylinder, so that the glass fiber reinforced plastic cylinder can be demoulded.
The guide mechanism comprises a guide connecting plate, a guide frame, a movable baffle, a stop block, a baffle connecting rod, a reset spring and an upper baffle, wherein a bolt column is arranged on the outer side surface of the guide connecting plate, the guide connecting plate is connected with the L-shaped frame in a bolt connection mode, and the guide frame is arranged on the inner side surface of the guide connecting plate;
the guide frame is of an inverted U-shaped structure, the side edge of the guide frame is obliquely arranged outwards, a pushing chute is arranged on the top of the guide frame, a movable baffle is connected in the pushing chute of the guide frame in a sliding fit mode, and a stop block is arranged in the middle of the movable baffle;
the outer side surface of the movable baffle is connected with a baffle connecting rod, the middle part of the baffle connecting rod penetrates through the movable baffle, the outer end of the baffle connecting rod is arranged on the guide connecting plate through a return spring, the upper baffle is positioned above the outer end of the movable baffle, the upper baffle is connected with the inner side surface of the guide connecting plate, during specific work, the guide mechanism can drive the knocking hammer to perform hammering action on the glass fiber reinforced plastic cylinder, when the hydraulic cylinder drives the knocking sliding plate to move rightwards, the follower rod can be contacted with the guide frame, the inclined structure at the left end of the guide frame enables the position of the follower rod to be raised, when the follower rod moves to the top of the guide frame, the movable baffle can be pushed to move rightwards under the blocking effect of the stop dog, the movable baffle moves to the right side of the guide frame, the stop dog automatically falls under the action of gravity, the follower rod can smoothly move to the, when the follower rod is separated from the guide frame, the movable baffle can return to the initial position under the action of the reset spring, meanwhile, the knocking hammer performs hammering action under the action of the reset force of the knocking spring, and the knocking hammer can perform hammering action when the hydraulic cylinder performs contraction motion.
The outer end of L type frame evenly be provided with the round hole from top to bottom to the guiding mechanism locks in the different positions of L type frame, during specific work, can adjust the hammering dynamics of knocking the hammer through locking the guiding mechanism in the different height position of L type frame.
As a preferred technical scheme of the invention, the cross section of the stop block is of a T-shaped structure, the movable baffle is provided with a counter bore matched with the T-shaped structure of the stop block, and during specific work, when the movable baffle moves to the right end of the guide frame, the stop block can automatically fall down, so that the top of the stop block and the top of the movable baffle are in the same plane, and the follower rod can smoothly move to the right side of the guide frame.
As a preferred technical scheme of the invention, the outer side surface of the lower end of the stop block is an inclined surface, the inclined angle of the inclined surface of the stop block is equal to the inclined angle of the inclined surface of the guide frame, during specific work, the inclined surface of the stop block can be attached to the side surface of the guide frame, when the follower rod is separated from the guide frame, the return spring can drive the movable baffle to return to the initial position, and the inclined surface of the stop block enables the movable baffle to smoothly move to the initial position.
As a preferred technical scheme of the invention, the bottom of the follower rod is provided with an arc chamfer, the outer side surface of the lower end of the follower rod is symmetrically provided with square grooves, and a sliding roller is arranged in each square groove of the follower rod through a pin shaft.
In a preferred embodiment of the present invention, the width of the bottom of the outer end of the follower rod is greater than the width of the movable stop plate, and the width of the bottom of the outer end of the follower rod is smaller than the width of the guide frame.
As a preferred technical scheme of the invention, the bottom of the knocking hammer is an arc-shaped surface or a plane, and different planes at the bottom of the knocking hammer can be used for glass fiber reinforced plastic cylinders with different structures during specific work.
According to the preferable technical scheme, the bottom of the knocking hammer is provided with the trapezoidal groove, the clamping plates are symmetrically distributed in the trapezoidal groove of the knocking hammer, the upper end of each clamping plate is mounted on the inner wall of the trapezoidal groove through a hinge, the outer side face of each clamping plate is connected with the side wall of the trapezoidal groove through a clamping plate spring, and when the knocking hammer works, the trapezoidal groove formed in the knocking hammer can perform hammering action on the corrugated glass steel cylinder, so that the corrugated glass steel cylinder can be stressed uniformly.
In addition, the invention provides a demolding method of a demolding tool for a glass fiber reinforced plastic product, which comprises the following steps:
the first step is as follows: locking of the knocking demoulding device: firstly, the invention is arranged on an external rotating device, and the invention can be driven to rotate to a proper knocking position by the rotation of the external rotating device;
the second step is that: replacement of the knocking hammer: the shape structure of the glass fiber reinforced plastic cylinder is hammered according to the requirement, so that the hammering hammer can stably knock on the glass fiber reinforced plastic cylinder;
the third step: hammering the glass fiber reinforced plastic cylinder: the hydraulic cylinder is controlled to extend, the follower rod can be in contact with the left end of the guide frame, the inclined structure at the left end of the guide frame enables the position of the follower rod to be raised, when the follower rod moves to the top of the guide frame, the movable baffle can be pushed to move rightwards under the blocking effect of the stop block, the movable baffle moves to the right side of the guide frame, the stop block automatically falls under the action of gravity, the follower rod can smoothly move to the right side of the movable baffle, the right side of the movable baffle is located on the right side of the guide frame at the moment, when the follower rod is separated from the guide frame, the movable baffle can return to the initial position under the action of the reset spring, and meanwhile, the hammering action is carried out by the hammering hammer under the action of the;
the fourth step: and (3) circularly hammering the glass fiber reinforced plastic cylinder: the telescopic motion of the hydraulic cylinder can drive the hammering hammer to do cyclic hammering action;
the fifth step: and (3) separating a die opening: when the knocking hammer performs hammering action on the glass fiber reinforced plastic cylinder, the round hole screwdriver is manually inserted into a joint of the mold and a product, so that the glass fiber reinforced plastic cylinder at the knocking part can be separated from the mold;
and a sixth step: and (3) completely separating the glass fiber reinforced plastic cylinder: the glass fiber reinforced plastic cylinder can be separated from the mold by controlling the external rotating device to rotate and repeating the knocking action, so that the demolding action of the glass fiber reinforced plastic cylinder is completed.
The invention has the beneficial effects that:
the invention can automatically carry out hammering action on the glass fiber reinforced plastic cylinders with different side structures, can adjust the hammering force on the glass fiber reinforced plastic cylinders, has stable hammering force on the glass fiber reinforced plastic cylinders, and can carry out hammering action when the sliding plate is knocked to move left and right.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.
As shown in fig. 1 to 8, the demolding tool for glass fiber reinforced plastic products comprises a rotating plate 1, a movable support plate 2, a hydraulic cylinder 3 and a knocking device 4, wherein the movable support plate 2 is installed on the right side surface of the rotating plate 1, the hydraulic cylinder 3 is located above the movable support plate 2, the bottom of the hydraulic cylinder 3 is connected with the right side surface of the rotating plate 1, a movable sliding groove is formed in the middle of the movable support plate 2, the knocking device 4 is installed on the movable support plate 2, and the demolding tool for glass fiber reinforced plastic products can be installed on an external rotating device through the rotating plate 1.
The knocking device 4 comprises a knocking sliding plate 41, a knocking sliding column 42, a knocking spring 43, a knocking hammer 44, a follower rod 45, an L-shaped frame 46, a guide mechanism 47 and a connecting rod 48, wherein the knocking sliding plate 41 is connected with a moving chute on the moving support plate 2 in a sliding fit manner, and the top of the left end of the knocking sliding plate 41 is connected with the top of the hydraulic cylinder 3;
the middle part of the knocking sliding plate 41 is connected with the middle part of the knocking sliding column 42 in a sliding fit mode, the section of the knocking sliding column 42 is of a T-shaped structure, a knocking hammer 44 is installed on the bottom of the knocking sliding column 42, a knocking spring 43 is arranged at the lower end of the knocking sliding column 42, and the knocking spring 43 is installed between the bottom of the movable support plate 2 and the top of the knocking hammer 44;
the front side and the rear side of the upper end of the knocking sliding column 42 are respectively provided with a follower rod 45, the L-shaped frames 46 are symmetrically arranged on the front side and the rear side of the movable support plate 2, the follower rods 45 are positioned above the L-shaped frames 46, the inner side surface of each L-shaped frame 46 is provided with a guide mechanism 47, two adjacent guide mechanisms 47 on the same side are connected through a connecting rod 48, and when the knocking device 4 works specifically, the knocking device 4 can perform positioning knocking on a glass steel cylinder, so that the glass steel cylinder can perform demoulding action.
The outer end of L type frame 46 evenly be provided with the round hole from top to bottom to guiding mechanism 47 locks in the different positions of L type frame 46, during specific work, can adjust the hammering dynamics of knocking hammer 44 through locking guiding mechanism 47 in the different height position of L type frame 46.
The cross section of the stop block 474 is of a T-shaped structure, the movable baffle 473 is provided with a counter bore matched with the T-shaped structure of the stop block 474, and during specific operation, when the movable baffle 473 moves to the right end of the guide frame 472, the stop block 474 can automatically fall down, so that the top of the stop block 474 and the top of the movable baffle 473 are in the same plane, and the follower rod 45 can smoothly move to the right side of the guide frame 472.
The outer side surface of the lower end of the stop block 474 is an inclined surface, the inclined angle of the inclined surface of the stop block 474 is equal to the inclined angle of the inclined surface of the guide frame 472, the inclined surface of the stop block 474 can be attached to the side surface of the guide frame 472 during specific work, when the follower rod 45 is separated from the guide frame 472, the return spring 476 can drive the movable baffle 473 to return to the initial position, and the inclined surface of the stop block 474 enables the movable baffle 473 to smoothly move to the initial position.
The guide mechanism 47 comprises a guide connecting plate 471, a guide frame 472, a movable baffle 473, a stop block 474, a baffle connecting rod 475, a return spring 476 and an upper baffle 477, wherein a bolt column is arranged on the outer side surface of the guide connecting plate 471, the guide connecting plate 471 is connected with the L-shaped frame 46 in a bolt connection mode, and the guide frame 472 is arranged on the inner side surface of the guide connecting plate 471;
the guide frame 472 is of an inverted U-shaped structure, the side edge of the guide frame 472 is obliquely arranged outwards, a pushing chute is arranged on the top of the guide frame 472, a movable baffle 473 is connected in the pushing chute of the guide frame 472 in a sliding fit manner, and a stop block 474 is arranged in the middle of the movable baffle 473;
a baffle link 475 is connected to the outer side of the movable baffle 473, the middle of the baffle link 475 passes through the movable baffle 473, the outer end of the baffle link 475 is mounted on the guide link 471 through a return spring 476, the upper baffle 477 is located above the outer end of the movable baffle 473, the upper baffle 477 is connected to the inner side of the guide link 471, during specific operation, the guide mechanism 47 can drive the hammering hammer 44 to hammer the glass fiber reinforced plastic cylinder, when the hydraulic cylinder 3 drives the hammering slide plate 41 to move rightwards, the follower rod 45 can contact with the guide frame 472, the inclined structure at the left end of the guide frame 472 can raise the position of the follower rod 45, when the follower rod 45 moves to the top of the guide frame 472, the movable baffle 473 can be pushed to move rightwards under the blocking effect of the baffle 474, so that the movable baffle 473 moves to the right side of the guide frame 472, the baffle 474 automatically falls under the effect of gravity, so that the follower rod 45 can smoothly move to the right side, at this time, the right side of the moving barrier 473 is positioned on the right side of the guide frame 472, and when the follower rod 45 is separated from the guide frame 472, the moving barrier 473 can return to the initial position by the return spring 476, and the hammering hammer 44 performs the hammering action by the return force of the hammering spring 43, and the hammering hammer 44 also performs the hammering action when the hydraulic cylinder 3 performs the retracting movement.
The bottom of the follower rod 45 is provided with an arc-shaped chamfer, square grooves are symmetrically formed in the outer side surface of the lower end of the follower rod 45, a sliding roller 45a is mounted in each square groove of the follower rod 45 through a pin shaft, and during specific work, the sliding rollers 45a on the follower rod 45 can prevent the follower rod 45 from blocking the stop 474 to cause the stop 474 to be incapable of falling.
The width of the bottom of the outer end of the follower rod 45 is greater than that of the moving barrier 473, and the width of the bottom of the outer end of the follower rod 45 is smaller than that of the guide frame 472.
The bottom of the knocking hammer 44 is an arc-shaped surface or a plane, and different planes at the bottom of the knocking hammer 44 can be used for glass fiber reinforced plastic cylinders with different structures in specific work.
Knocking hammer 44's bottom be provided with the dovetail groove, knocking hammer 44's dovetail groove internal symmetry distributes and have cardboard 44a, the upper end of cardboard 44a is passed through the hinge mount on the inner wall of dovetail groove, cardboard 44 a's lateral surface is connected with the lateral wall in dovetail groove through cardboard spring 44b, specific during operation, the dovetail groove that knocking hammer 44 goes up to set up can carry out the hammering action to corrugated glass steel cylinder for corrugated glass steel cylinder can even atress.
In addition, the invention provides a demolding method of a demolding tool for a glass fiber reinforced plastic product, which comprises the following steps:
the first step is as follows: locking of the knocking demoulding device: firstly, the invention is arranged on an external rotating device, and the invention can be driven to rotate to a proper knocking position by the rotation of the external rotating device;
the second step is that: replacement of rapping hammer 44: the knocking hammer 44 is replaced according to the requirement by hammering the appearance structure of the glass fiber reinforced plastic cylinder, so that the knocking hammer 44 can stably knock on the glass fiber reinforced plastic cylinder;
the third step: hammering the glass fiber reinforced plastic cylinder: the hydraulic cylinder 3 is controlled to perform an extension motion, the follower rod 45 can be in contact with the left end of the guide frame 472, the inclined structure at the left end of the guide frame 472 enables the position of the follower rod 45 to be raised, when the follower rod 45 moves to the top of the guide frame 472, the movable baffle 473 can be pushed to move rightwards under the blocking action of the stop 474, the movable baffle 473 moves to the right side of the guide frame 472, the stop 474 automatically falls under the action of gravity, the follower rod 45 can smoothly move to the right side of the movable baffle 473, at the moment, the right side of the movable baffle 473 is positioned at the right side of the guide frame 472, when the follower rod 45 is separated from the guide frame 472, the movable baffle 473 can return to the initial position under the action of the return spring 476, and the knocking hammer 44 performs a hammering action under the action of the return force of the;
the fourth step: and (3) circularly hammering the glass fiber reinforced plastic cylinder: the telescopic motion of the hydraulic cylinder 3 can drive the knocking hammer 44 to do circulating hammering action;
the fifth step: and (3) separating a die opening: when the knocking hammer 44 performs hammering action on the glass fiber reinforced plastic cylinder, the round hole opener is manually inserted into a joint of the mold and a product, so that the glass fiber reinforced plastic cylinder at the knocking part can be separated from the mold;
and a sixth step: and (3) completely separating the glass fiber reinforced plastic cylinder: the glass fiber reinforced plastic cylinder can be separated from the mold by controlling the external rotating device to rotate and repeating the knocking action, so that the demolding action of the glass fiber reinforced plastic cylinder is completed.
Example 1
With respect to the demolded workpiece shown in fig. 9, the demolded method is as follows:
the first step is as follows: locking of the knocking demoulding device: firstly, the invention is arranged on an external rotating device, and the invention can be driven to rotate to a proper knocking position by the rotation of the external rotating device;
the second step is that: replacement of rapping hammer 44: the knocking hammer 44 is replaced by a hammer with a plane bottom surface, so that the knocking hammer 44 can stably knock on the glass fiber reinforced plastic cylinder;
the third step: hammering the glass fiber reinforced plastic cylinder: the hydraulic cylinder 3 is controlled to perform an extension motion, the follower rod 45 can be in contact with the left end of the guide frame 472, the inclined structure at the left end of the guide frame 472 enables the position of the follower rod 45 to be raised, when the follower rod 45 moves to the top of the guide frame 472, the movable baffle 473 can be pushed to move rightwards under the blocking action of the stop 474, the movable baffle 473 moves to the right side of the guide frame 472, the stop 474 automatically falls under the action of gravity, the follower rod 45 can smoothly move to the right side of the movable baffle 473, at the moment, the right side of the movable baffle 473 is positioned at the right side of the guide frame 472, when the follower rod 45 is separated from the guide frame 472, the movable baffle 473 can return to the initial position under the action of the return spring 476, and the knocking hammer 44 performs a hammering action under the action of the return force of the;
the fourth step: and (3) circularly hammering the glass fiber reinforced plastic cylinder: the telescopic motion of the hydraulic cylinder 3 can drive the knocking hammer 44 to do circulating hammering action;
the fifth step: and (3) separating a die opening: when the knocking hammer 44 performs hammering action on the glass fiber reinforced plastic cylinder, the round hole opener is manually inserted into a joint of the mold and a product, so that the glass fiber reinforced plastic cylinder at the knocking part can be separated from the mold;
and a sixth step: and (3) completely separating the glass fiber reinforced plastic cylinder: the glass fiber reinforced plastic cylinder can be separated from the mold by controlling the external rotating device to rotate and repeating the knocking action, so that the demolding action of the glass fiber reinforced plastic cylinder is completed.
Example 2
With respect to the demolded workpiece shown in fig. 10, the demolded method differs from that in embodiment 1 in the replacement of the hammer 44 in the second step, and the other steps are the same, and in this embodiment, the second step specifically operates to: the knocking hammer 44 is replaced by a hammer with an arc-shaped bottom surface, so that the knocking hammer 44 can stably knock on the glass fiber reinforced plastic cylinder.
Example 3
For the demolded workpiece shown in fig. 11, the difference between the demolding method and the demolding method in embodiment 1 is the replacement of the striking hammer 44 in the second step, and other steps are the same, in this embodiment, a trapezoidal groove is formed at the bottom of the striking hammer 44, snap-gauge plates 44a are symmetrically distributed in the trapezoidal groove of the striking hammer 44, the upper end of the snap-gauge plate 44a is mounted on the inner wall of the trapezoidal groove through a hinge, and the outer side surface of the snap-gauge plate 44a is connected with the side wall of the trapezoidal groove through a snap-gauge spring 44b, so that the trapezoidal groove formed in the striking hammer 44 in this embodiment can perform a hammering action on the corrugated glass fiber reinforced plastic cylinder, and the corrugated glass fiber reinforced plastic cylinder can be uniformly stressed.
The invention can automatically carry out hammering action on the glass fiber reinforced plastic cylinders with different side structures, can adjust the hammering force on the glass fiber reinforced plastic cylinders, has stable hammering force on the glass fiber reinforced plastic cylinders, and can carry out hammering action when the sliding plate 41 is knocked to move left and right.
The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.