JP2019181675A - New type treatment equipment for finished article for machining - Google Patents

Abstract

To provide treatment equipment for a finished article for machining of which a structure is simple, a work efficiency is greatly improved by utilization of integration of start-up and storage, and simultaneously, a site area can be greatly reduced.SOLUTION: This treatment equipment includes a first housing 111 which is located in a housing 100, in which a first box 101 is located in the first housing, a second housing 112 is located in the first box, a second box 102 is slidably connected to the second housing, and a third housing 113 is located in the second box. A second motor 121 is located on a top part inner wall of the second housing, an overload protection component is located outside the second motor, and the overload protection component includes an impact absorption composite plate and a cooling iron piece.SELECTED DRAWING: Figure 1

Description

The present invention relates to the field of workpiece processing technology, and specifically to a new type of machined product processing equipment for machining.

Many processed goods processing plants often buff the surface of processed goods, and traditional processed goods buffing equipment needs to invest a lot of manpower, its labor intensity is strong and inefficient, and at the same time traditional The large processed product buffing apparatus cannot be automatically stored and has a large site area when not in use. Therefore, the traditional processed product buffing apparatus has a great disadvantage and needs to be improved.

Chinese Patent Application No. 102984931

The present invention provides a new machined processing equipment for the necessary technical problems to be solved, which can solve the current technical problems mentioned above.

The present invention is realized by employing the following technical scheme. The new machined workpiece processing equipment of the present invention includes a housing and a first housing that is installed inside the housing and has an end opening directed to the right. A dust-proof plate is fixed to the top end surface of the housing through a connection lever. Connected, a first container is installed in the first container, a second container is installed in the first container with an end facing downward, and an end is directed downward in the second container. The second container box that passes back and forth is slip-connected and engaged and connected, the third container is installed in the second container, and the convex block is installed in the front and rear on the left inner wall of the first container A first exchange shaft extending forward and backward is connected to the convex block so as to be rotatable, and a first conical pulley positioned between the convex blocks is fixedly connected to the first exchange shaft, A first motor is installed on the left inner wall of the first container, and the first motor A second conical pulley engaged with and connected to the first conical pulley is connected to transmit power; a third conical pulley is fixedly connected to the front and rear ends of the first exchange shaft; A second exchange shaft is installed in the first container case to extend left and right symmetrically, and the left and right ends of the second exchange shaft are engaged with and connected to the housing through bearings so as to rotate. A first conical pulley fixedly connected to the first container box in a longitudinally symmetrical manner with respect to the second exchange shaft is fixedly connected to the left end of the shaft and engaged with and connected to the third conical pulley. An arm and a second fixed arm are engaged and connected, a second motor is installed on the top inner wall of the second housing, an overload protection component is installed outside the second motor, and the overload protection component Including the shock absorbing composite plate and the cooling iron piece, the second motor A screw lever that extends downward to the bottom end of the second container and passes through the second container is connected so as to be able to transmit power, a turbine is installed symmetrically in the third container case, and the turbine lever extends vertically in the turbine. Three exchange shafts are fixedly connected, the upper end of the third exchange shaft is attached to the second container through a bearing, and a buffing wheel is fixed at the lower end of the third exchange shaft. A worm that is connected to the third housing and extends to the left and right to be positioned at the rear end of the turbine, and both left and right ends of the worm are rotatably attached to the second container through bearings. A fifth conical pulley located between the two turbines is fixedly connected, a third motor is installed on the inner wall of the rear end of the second housing, and the fifth motor is installed at the front end of the third motor. Conical pulley A sixth conical pulley engaged with and connected to the motor is connected so that power can be transmitted.

As a preferred technical solution, a fourth housing is installed at the bottom end of the housing, and a fourth exchange shaft extending in the front-rear direction is installed in the fourth housing, and is symmetrical in the front-rear direction with respect to the fourth exchange shaft. A rotating wheel is fixedly connected, and a caterpillar is connected between the two rotating wheels symmetrically.

As a preferred technical solution, the turbine meshes with the worm.

As a preferred technical solution, the screw lever engages and connects with the second container.

As a preferred technical solution, the shock absorbing composite plates are installed at the upper and lower ends of the second motor and fixedly connected to the second motor, and the cooling iron pieces are installed at the front and rear ends of the second motor. Fixedly connected to the shell of the two motors, the upper and lower ends of the cooling iron pieces are fixedly connected to the shock absorbing composite plate, and one or more cooling iron pieces are respectively attached to the front and rear ends of the second motor. Installed.

The beneficial effect of the present invention is that when the equipment of the present invention is in an initial state, the first container is located at the left end of the first container housing, the left end surface is in contact with the convex block, and the second container is A box is located at the top of the second container and the top end surface is in contact with the first container.

When used, the first motor is activated and rotated in conjunction with the second exchange shaft, the first container moves to the right, and when the second fixed arm contacts the housing, the first motor The motor is controlled to stop operation. At this time, the second motor is started and rotated in conjunction with the screw lever, the second container box slides down, and the bottom of the second container box is the first container box. The fifth conical pulley fully engages with the sixth conical pulley to control the second motor and stop rotating, at which time the third motor is activated and the buffing wheel and By rotating in conjunction with this, it is possible to quickly buff the surface of the workpiece.

After use, the third motor is controlled to stop rotation, the second motor is started and rotated in conjunction with the screw lever, the second container slides upward, and the second container When the top end surface of the box comes into contact with the first container, the second motor is controlled to stop the rotation, and at this time, the first motor is started and rotated in conjunction with the second exchange shaft, When the one box moves to the left and the left end surface of the first container contacts the convex block, the third motor is controlled to stop the rotation.

The structure of the facility according to the present invention is simple, the operation is convenient, and the use of the integrated start-up and storage can greatly increase the work efficiency and at the same time greatly reduce the site area.

The beneficial effect of the present invention is that when the equipment of the present invention is in an initial state, the first container is located at the left end of the first container housing, the left end surface is in contact with the convex block, and the second container is A box is located at the top of the second container and the top end surface is in contact with the first container.

When used, the first motor is activated and rotated in conjunction with the second exchange shaft, the first container moves to the right, and when the second fixed arm contacts the housing, the first motor The motor is controlled to stop operation. At this time, the second motor is started and rotated in conjunction with the screw lever, the second container box slides down, and the bottom of the second container box is the first container box. The fifth conical pulley fully engages with the sixth conical pulley to control the second motor and stop rotating, at which time the third motor is activated and the buffing wheel and By rotating in conjunction with this, it is possible to quickly buff the surface of the workpiece.

After use, the third motor is controlled to stop rotation, the second motor is started and rotated in conjunction with the screw lever, the second container slides upward, and the second container When the top end surface of the box comes into contact with the first container, the second motor is controlled to stop the rotation, and at this time, the first motor is started and rotated in conjunction with the second exchange shaft, When the one box moves to the left and the left end surface of the first container contacts the convex block, the third motor is controlled to stop the rotation.

The structure of the facility according to the present invention is simple, the operation is convenient, and the use of the integrated start-up and storage can greatly increase the work efficiency and at the same time greatly reduce the site area.

FIG. 1 is a schematic diagram of the overall structure when the new machined workpiece processing facility of the present invention is stopped. FIG. 2 is a cross-sectional view in the AA direction in FIG. FIG. 3 is a schematic diagram of the overall structure when the new machining apparatus for machining work according to the present invention operates. FIG. 4 is a left view of FIG. FIG. 5 is a schematic diagram of the external structure of the second motor of the present invention.

For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and drawings.

As shown in FIGS. 1 to 5, the new machined workpiece processing facility of the present invention includes a housing 100 and a first casing 111 that is installed inside the housing 100 and has an end facing to the right. A dustproof plate 189 is fixedly connected to the top end surface of the first container 101 through a connection lever 188, a first container 101 is installed in the first container 111, and a second container whose end is directed downward in the first container 101. A casing 112 is installed, and a second container box 102 with an end passing through the second container box 112 in the front-rear direction is slidably connected to and engaged with the second container box. The body 113 is installed, and the convex block 103 is installed on the left inner wall of the first container 111 in the front and rear, and the first exchange shaft 155 extending in the front and rear is engaged with and connected to the convex block 103 so as to be rotatable. A first conical pulley 145 positioned between the convex blocks 103 is fixedly connected to the first exchange shaft 155, and A first motor 123 is installed on the inner wall at the left end of the housing 111, and a second conical pulley 144 that engages and connects to the first conical pulley 145 is connected to the first motor 123 so that power can be transmitted. A third conical pulley 143 is fixedly connected to the front and rear ends of the first exchange shaft 155, and the second exchange shaft 156 is installed symmetrically in the front-rear direction extending to the left and right of the first housing 111, A fourth cone in which the left and right ends of the second exchange shaft 156 are rotatably engaged and connected to the housing 100 through bearings, and the left cone of the second exchange shaft is engaged and connected to the third conical pulley 143. The first pulley 142 is fixedly connected, and the first fixed arm 211 and the second fixed arm 212 that are fixedly connected to the first container 101 in a longitudinally symmetrical manner with respect to the second exchange shaft 156 are engaged and connected. A second motor 121 is installed on the top inner wall of the second housing 112, and the second motor 121 An overload protection component is installed outside, and the overload protection component includes a shock absorbing composite plate 1214 and a cooling iron piece 1215, and extends downward to the bottom end of the second motor 121 and passes through the second container box 102. The lever 153 is connected so that power can be transmitted, a turbine 131 is installed symmetrically in the third housing 113, and a third exchange shaft 151 extending vertically is fixedly connected to the turbine 131, An upper end of the third exchange shaft 151 is attached to the second container box 102 through a bearing, and a buffing wheel 161 is fixedly connected to a lower end of the third exchange shaft 151. A worm 152 that extends from side to side in the three-case housing and is located at the rear end of the turbine is installed, and both left and right ends of the worm 152 are rotatably attached to the second container box 102 through bearings. Between the turbine 131 A fifth conical pulley 141 is fixedly connected, a third motor 122 is installed on the inner wall of the rear end of the second container 112, and the fifth conical pulley 141 is connected to the front end of the third motor 122. A sixth conical pulley 146 that engages and connects is connected so that power can be transmitted.

Preferably, a fourth casing 114 is installed at the bottom end of the housing 100, and a fourth exchange shaft 154 extending in the front-rear direction symmetrically in the left-right direction is installed in the fourth casing 114. A rotating wheel 104 is fixedly connected in a symmetrical manner, and a caterpillar 162 is connected between the two rotating wheels 104 in a symmetrical manner.

Preferably, the turbine 131 meshes with the worm 152.

Preferably, the screw lever 153 is engaged with and connected to the second container box 102.

Preferably, the shock absorbing composite plate 1214 is installed at the upper and lower ends of the second motor 121 and fixedly connected to the second motor 121, and the cooling iron pieces 1215 are installed at the front and rear ends of the second motor 121. Fixedly connected to the shell of the second motor 121, and the upper and lower ends of the cooling iron piece 1215 are fixedly connected to the shock absorbing composite plate 1214, and are respectively connected to the front end and the rear end of the second motor 121. When the cooling iron piece 1215 is installed, the cooling iron piece 1215 absorbs and dissipates heat generated when the second motor 121 operates, and the shock absorbing composite plate 1214 operates when the second motor 121 operates. Reduce the generated vibration force to prevent the vibration force from being too large and affecting the normal operation of the device.

When the equipment of the present invention is in the initial state, the first container 101 is located at the left end of the first container 111, the left end surface is in contact with the convex block 103, and the second container 102 is the first container The top end surface of the two-case housing 112 is in contact with the first container box 101.

In use, the first motor 123 is started and rotated in conjunction with the second exchange shaft 156, the first container 101 moves to the right, and the second fixed arm 212 contacts the housing 100. Sometimes, the first motor 123 is controlled to stop the operation, and at this time, the second motor 121 is started and rotated in conjunction with the screw lever 153, so that the second container 102 slides down, and the second container When the bottom of the box 102 comes into contact with the first container 101, the fifth conical pulley 141 is completely meshed with the sixth conical pulley 146 to control the second motor 121 and stop rotating. At this time, the third motor 122 is started and rotated in conjunction with the buffing wheel 161, thereby realizing a fast buffing of the surface of the workpiece.

After the use is finished, the third motor 122 is controlled to stop rotating, the second motor 121 is started and rotated in conjunction with the screw lever 153, and the second container box 102 slides up, When the top end surface of the second container 102 comes into contact with the first container 101, the second motor 121 is controlled to stop the rotation, and at this time, the first motor 123 is activated to start the second exchange shaft 156. When the first container 101 moves to the left and the left end surface of the first container 101 contacts the convex block 103, the third motor 122 is controlled to stop the rotation. To do.

What has been described above is merely a specific implementation method of the present invention, but the protection scope of the present invention is not limited thereto. Changes and replacements that have been conceived not through all creative labor are covered by the protection scope of the present invention. Therefore, the protection scope of the present invention is based on the protection scope defined by the claims.

The present invention relates to the field of workpiece processing technology, and specifically to a new type of machined product processing equipment for machining.

Many processed goods processing plants often buff the surface of processed goods, and traditional processed goods buffing equipment needs to invest a lot of manpower, its labor intensity is strong and inefficient, and at the same time traditional The large processed product buffing apparatus cannot be automatically stored and has a large site area when not in use. Therefore, the traditional processed product buffing apparatus has a great disadvantage and needs to be improved.

Chinese Patent Application No. 102984931

The present invention provides a new machined processing equipment for the necessary technical problems to be solved, which can solve the current technical problems mentioned above.

The present invention is realized by employing the following technical scheme. The new machined workpiece processing facility of the present invention includes a housing and a first empty chamber installed inside the housing and having an end opening directed to the right, and a dustproof plate is fixedly connected to the top end surface of the housing through a connection lever. A first slide block is installed in the first empty chamber , a second empty chamber is installed in the first slide block with an end opening downward, and the end opening passes through the second empty chamber back and forth. The second slide block is slidably connected and engaged, the third empty chamber is installed in the second slide block , the convex block is installed on the left inner wall of the first empty chamber , and the front and rear are on the convex block. the first rotary shaft is engaged connected so as to be rotatable, the first conical pulley located between the convex block on the first rotary axis extending in a Fixedly connected, first motor is installed at the left end inner wall of the first vacant chamber, the second conical pulley to said first conical pulley engages connected to the first motor is the power can be transmitted A third conical pulley is fixedly connected to the front and rear ends of the first rotation shaft , the second rotation shaft is installed symmetrically in the front-rear direction and extends to the left and right in the first empty chamber , The left and right ends of the rotating shaft are rotatably engaged with and connected to the housing through bearings, and the fourth conical pulley is fixed to the left end of the second rotating shaft and engaged with and connected to the third conical pulley. A first fixed arm and a second fixed arm, which are fixedly connected to the first slide block symmetrically with respect to the second rotation axis , are engaged with and connected to the top inner wall of the second empty chamber . Motor is installed and front Is installed overload protection components outside of the second motor, the overload protection part comprises a cooling iron piece and the shock-absorbing composite plate, through the said extends below the second motor bottom end second slide block screws A lever is connected so that power can be transmitted, a worm wheel is installed symmetrically in the third empty chamber , a third rotating shaft extending vertically to the worm wheel is fixedly connected, and the third rotating shaft The upper end of the third rotating shaft is attached to the second slide block through a bearing, and a buffing wheel is fixedly connected to the end of the lower end of the third rotating shaft , and extends left and right to the third empty chamber. A worm located at the rear end of the worm wheel is installed, and left and right ends of the worm are attached to the second slide block for rotation through bearings. A fifth conical pulley located between the two worm wheels is fixedly connected to the worm , and a third motor is installed on the inner wall of the rear end of the second empty chamber . A sixth conical pulley engaged with and connected to the fifth conical pulley is connected to the front end so that power can be transmitted.

Is the fourth vacant chamber bottom end of the housing is provided as a preferred technical solution, the fourth fourth rotation axis symmetrical manner extending in the front-rear in the empty chamber is installed, the rotating wheel in front and rear symmetrical with the fourth rotation shaft Are fixedly connected, and Caterpillar (registered trademark) is connected between the two rotating wheels symmetrically.

As a preferred technical solution, the worm wheel meshes with the worm.

As a preferred technical solution, the screw lever engages and connects with the second slide block .

As a preferred technical solution, the shock absorbing composite plates are installed at the upper and lower ends of the second motor and fixedly connected to the second motor, and the cooling iron pieces are installed at the front and rear ends of the second motor. Fixedly connected to the shell of the two motors, the upper and lower ends of the cooling iron pieces are fixedly connected to the shock absorbing composite plate, and one or more cooling iron pieces are respectively attached to the front and rear ends of the second motor. Installed.

The beneficial effect of the present invention is that when the equipment of the present invention is in an initial state, the first slide block is located at the left end of the first empty chamber , the left end surface is in contact with the convex block, and the second slide block is Is located at the top of the second empty chamber and the top end surface is in contact with the first slide block .

When using, when the first motor is activated and rotated in conjunction with the second rotation shaft , the first slide block moves to the right, and the second fixed arm comes into contact with the housing, the first The motor is controlled to stop the operation. At this time, the second motor is started and rotated in conjunction with the screw lever, the second slide block slides down, and the bottom of the second slide block is the first slide block. The fifth conical pulley fully engages with the sixth conical pulley to control the second motor and stop rotating, at which time the third motor is activated and the buffing wheel By rotating in conjunction with this, it is possible to quickly buff the surface of the workpiece.

After use, the third motor is controlled to stop rotating, the second motor is started and rotated in conjunction with the screw lever, the second slide block slides up, and the second slide When the top end surface of the block comes into contact with the first slide block , the second motor is controlled to stop the rotation, and at this time, the first motor is started and rotated in conjunction with the second rotation shaft , When one slide block moves to the left and the left end surface of the first slide block comes into contact with the convex block, the third motor is controlled to stop the rotation.

The structure of the facility according to the present invention is simple, the operation is convenient, and the use of the integrated start-up and storage can greatly increase the work efficiency and at the same time greatly reduce the site area.

The beneficial effect of the present invention is that when the equipment of the present invention is in an initial state, the first slide block is located at the left end of the first empty chamber , the left end surface is in contact with the convex block, and the second slide block is Is located at the top of the second empty chamber and the top end surface is in contact with the first slide block .

When using, when the first motor is activated and rotated in conjunction with the second rotation shaft , the first slide block moves to the right, and the second fixed arm comes into contact with the housing, the first The motor is controlled to stop the operation. At this time, the second motor is started and rotated in conjunction with the screw lever, the second slide block slides down, and the bottom of the second slide block is the first slide block. The fifth conical pulley fully engages with the sixth conical pulley to control the second motor and stop rotating, at which time the third motor is activated and the buffing wheel By rotating in conjunction with this, it is possible to quickly buff the surface of the workpiece.

After use, the third motor is controlled to stop rotating, the second motor is started and rotated in conjunction with the screw lever, the second slide block slides up, and the second slide When the top end surface of the block comes into contact with the first slide block , the second motor is controlled to stop the rotation, and at this time, the first motor is started and rotated in conjunction with the second rotation shaft , When one slide block moves to the left and the left end surface of the first slide block comes into contact with the convex block, the third motor is controlled to stop the rotation.

The structure of the facility according to the present invention is simple, the operation is convenient, and the use of the integrated start-up and storage can greatly increase the work efficiency and at the same time greatly reduce the site area.

In order to explain the present invention in detail with reference to FIGS. 1 to 5 below and to provide a convenient explanation, the following directions are defined as follows: the vertical and horizontal directions described below and the self-projection relationship in FIG. The vertical and horizontal directions are the same. FIG. 1 is a front view of the device of the present invention, and the direction shown in FIG. 1 coincides with the front, rear, left, right, top and bottom directions of the front direction of the device of the present invention.

FIG. 1 is a schematic diagram of the overall structure when the new machined workpiece processing facility of the present invention is stopped. FIG. 2 is a cross-sectional view in the AA direction in FIG. FIG. 3 is a schematic diagram of the overall structure when the new machining apparatus for machining work according to the present invention operates. FIG. 4 is a left view of FIG. FIG. 5 is a schematic diagram of the external structure of the second motor of the present invention.

For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and drawings.

As shown in FIGS. 1 to 5, the new machining object processing equipment for machining according to the present invention includes a housing 100 and a first empty chamber 111 that is installed inside the housing 100 and has an end opening toward the right. dustproof plate 189 through the connection lever 188 to the top end face is fixedly connected, said first vacant chamber 111 first slide block 101 is installed, the second free chamber 112 in which the end opening in the first slide block 101 toward the bottom The second slide block 102 whose end passes through the second vacant chamber 112 downward and forward is slidably connected and connected, and the third vacant chamber 113 is installed in the second slide block 102. , the convex blocks 103 back and forth to the left end inner wall of the first vacant chamber 111 is installed, the first rotary shaft 155 which extends back and forth in the convex block 103 is engaged with the connection so as to be rotatable, said first The first conical pulley 145 located between the rotating shaft 155 to the convex block 103 is connected fixedly, first motor 123 is installed at the left end inner wall of the first vacant chamber 111, the first motor 123 A second conical pulley 144 engaged with and connected to the first conical pulley 145 is connected so that power can be transmitted, and a third conical pulley 143 is fixed to the front and rear ends of the first rotating shaft 155. The second rotating shaft 156 is installed in the first empty chamber 111 so as to extend left and right symmetrically, and the left and right ends of the second rotating shaft 156 engage with the housing 100 through bearings so as to be rotatable. connect the fourth conical pulley 142 to the second the the left end of the rotary shaft third conical pulley 143 engages the connection is connected fixedly, first slide back and forth symmetrically to said second rotary shaft 156 the first fixed arm 211 fixedly connected to the block 101 Second fixing arm 212 is engaged with the connection, the second motor 121 is installed on the top inner wall of the second free chamber 112, the overload protection part is disposed on the outer side of the second motor 121, the overload protection The component includes a shock absorbing composite plate 1214 and a cooling iron piece 1215, and a screw lever 153 extending downward to the bottom end of the second motor 121 and passing through the second slide block 102 is connected so that power can be transmitted, worm wheel 131 is installed symmetrically to the third vacant chamber 113, the third rotation shaft 151 extending vertically to the worm wheel 131 is connected fixedly, the second upper end through bearing of the third rotating shaft 151 It mounted such that it can rotate in the slide block 102, buffing wheel 161 is fixedly connected to the lower end end of the third rotary shaft 151, the Wo extends horizontally in the third vacant chamber Worm 152 is installed is located in the rear end of Muhoiru, right and left ends of the worm 152 is mounted to rotate in the second sliding block 102 through bearings, a position between two of the worm wheel 131 to the worm 152 A fifth conical pulley 141 is fixedly connected, a third motor 122 is installed on the inner wall of the rear end of the second empty chamber 112, and the fifth conical pulley 141 is engaged with the front end of the third motor 122. A sixth conical pulley 146 to be connected is connected so that power can be transmitted.

Preferably, a fourth empty chamber 114 is installed at the bottom end of the housing 100, a fourth rotating shaft 154 extending in the front-rear symmetrical manner is installed in the fourth empty chamber 114, and the fourth rotating shaft 154 is symmetrical in the front-rear direction. The rotating wheel 104 is fixedly connected to each other, and a caterpillar (registered trademark) 162 is connected between the two rotating wheels 104 symmetrically.

Preferably, the worm wheel 131 meshes with the worm 152.

Preferably, the screw lever 153 engages and connects with the second slide block 102.

Preferably, the shock absorbing composite plate 1214 is installed at the upper and lower ends of the second motor 121 and fixedly connected to the second motor 121, and the cooling iron pieces 1215 are installed at the front and rear ends of the second motor 121. Fixedly connected to the shell of the second motor 121, and the upper and lower ends of the cooling iron piece 1215 are fixedly connected to the shock absorbing composite plate 1214, and are respectively connected to the front end and the rear end of the second motor 121. When the cooling iron piece 1215 is installed, the cooling iron piece 1215 absorbs and dissipates heat generated when the second motor 121 operates, and the shock absorbing composite plate 1214 operates when the second motor 121 operates. Reduce the generated vibration force to prevent the vibration force from being too large and affecting the normal operation of the device.

When the equipment of the present invention is in the initial state, the first slide block 101 is positioned at the left end of the first empty chamber 111, the left end surface is in contact with the convex block 103, and the second slide block 102 is the second slide block 102. The top end surface of the empty chamber 112 is in contact with the first slide block 101.

In use, the first motor 123 is activated and rotates in conjunction with the second rotating shaft 156, the first slide block 101 moves to the right, and the second fixed arm 212 contacts the housing 100. Sometimes, the first motor 123 is controlled to stop the operation, and at this time, the second motor 121 is started and rotated in conjunction with the screw lever 153 so that the second slide block 102 slides down and the second slide When the bottom of the block 102 comes into contact with the first slide block 101, the fifth conical pulley 141 is completely engaged with the sixth conical pulley 146 to control the second motor 121 and stop rotating, At this time, the third motor 122 is started and rotated in conjunction with the buffing wheel 161, thereby realizing a fast buffing of the surface of the workpiece.

After the use is finished, the third motor 122 is controlled to stop the rotation, the second motor 121 is started and rotated in conjunction with the screw lever 153, and the second slide block 102 slides up, When the top end surface of the second slide block 102 comes into contact with the first slide block 101, the second motor 121 is controlled to stop the rotation, and at this time, the first motor 123 is activated to start the second rotating shaft 156. When the first slide block 101 moves to the left and the left end surface of the first slide block 101 contacts the convex block 103, the third motor 122 is controlled to stop the rotation. To do.

What has been described above is merely a specific implementation method of the present invention, but the protection scope of the present invention is not limited thereto. Changes and replacements that have been conceived not through all creative labor are covered by the protection scope of the present invention. Therefore, the protection scope of the present invention is based on the protection scope defined by the claims.

Claims (1)

A new machined processing equipment for machining, which includes a housing and a first housing that is installed inside the housing and has an end opening facing right, and a dust-proof plate is fixedly fixed to the top end surface of the housing through a connection lever. Connected, a first container is installed in the first container, a second container is installed in the first container with an end facing downward, and an end is directed downward in the second container. The second container box that passes back and forth is slip-connected and engaged and connected, the third container is installed in the second container, and the convex block is installed in the front and rear on the left inner wall of the first container A first exchange shaft extending forward and backward is connected to the convex block so as to be rotatable, and a first conical pulley positioned between the convex blocks is fixedly connected to the first exchange shaft, A first motor is installed on the left inner wall of the first container, and the first motor A second conical pulley engaged with and connected to the first conical pulley is connected to transmit power; a third conical pulley is fixedly connected to the front and rear ends of the first exchange shaft; A second exchange shaft is installed in the first container case to extend left and right symmetrically, and the left and right ends of the second exchange shaft are engaged with and connected to the housing through bearings so as to rotate. A first conical pulley fixedly connected to the first container box in a longitudinally symmetrical manner with respect to the second exchange shaft is fixedly connected to the left end of the shaft and engaged with and connected to the third conical pulley. An arm and a second fixed arm are engaged and connected, a second motor is installed on the top inner wall of the second housing, an overload protection component is installed outside the second motor, and the overload protection component Including the shock absorbing composite plate and the cooling iron piece, the second motor A screw lever that extends downward to the bottom end of the second container and passes through the second container is connected so as to be able to transmit power, a turbine is installed symmetrically in the third container case, and the turbine lever extends vertically in the turbine. Three exchange shafts are fixedly connected, the upper end of the third exchange shaft is attached to the second container through a bearing, and a buffing wheel is fixed at the lower end of the third exchange shaft. A worm that is connected to the third housing and extends to the left and right to be positioned at the rear end of the turbine, and both left and right ends of the worm are rotatably attached to the second container through bearings. A fifth conical pulley located between the two turbines is fixedly connected, a third motor is installed on the inner wall of the rear end of the second housing, and the fifth motor is installed at the front end of the third motor. Conical pulley A sixth conical pulley that engages and connects with the motor is connected so that power can be transmitted, a fourth housing is installed at the bottom end of the housing, and the left and right sides of the fourth housing are symmetrically front and rear A fourth exchange shaft extending to the fourth exchange shaft is fixedly connected to the fourth exchange shaft in a longitudinally symmetrical manner, a caterpillar is connected to the left and right symmetrically between the two rotational wheels, and the turbine is connected to the worm. The screw lever engages and connects with the second container, the shock absorbing composite plates are installed at the upper and lower ends of the second motor and fixedly connected to the second motor, and the cooling iron piece Installed at the front and rear ends of the second motor and fixedly connected to the shell of the second motor, the upper and lower ends of the cooling iron pieces are fixedly connected to the shock absorbing composite plate, and the second motor One or more sheets of the cold at the front end and the rear end respectively. New machining for workpiece processing equipment, characterized in that the iron piece is placed.