CN114290613A - Automatic die adjusting device for electric tooth arrangement and electric tooth arrangement machine - Google Patents

Abstract

The invention provides an electric automatic die adjusting device for tooth arrangement. The automatic die adjustment device for the electric tooth arrangement comprises a mounting plate, a middle plate, a pin pushing plate, a mounting top plate, a first support, a second support, an adjustable component and a power component, wherein the power component is fixedly assembled with the first support, sequentially transmits the first support to the mounting top plate, sequentially transmits the mounting plate, the adjustable component, the middle plate, the second support and the pin pushing plate. The invention realizes the automatic adjustment of the moulds with different thicknesses, is convenient to operate and saves the occupied space and labor force. Meanwhile, the invention also provides an electric tooth arrangement machine adopting the electric automatic tooth arrangement and mold adjustment device.

Description

Automatic die adjusting device for electric tooth arrangement and electric tooth arrangement machine

Technical Field

The invention relates to the technical field of zipper processing, in particular to an electric automatic die adjusting device for tooth arrangement and an electric tooth arrangement machine.

Background

The supporting component of the traditional tooth arrangement and die adjustment device cannot be adjusted interactively, and only can be suitable for dies with the same thickness, and dies with different thicknesses need to be adjusted by different machines, so that the consumed labor force is large, the use is inconvenient, and the tooth arrangement and die adjustment device with various thicknesses needs to be arranged, so that the occupied space is large.

Disclosure of Invention

In order to solve the technical problems, the invention provides the electric automatic die setting device for tooth arrangement, which can adjust dies with different thicknesses, is convenient to operate and saves occupied space and labor force.

Meanwhile, the invention also provides an electric tooth arrangement machine adopting the electric automatic tooth arrangement and mold adjustment device.

The utility model provides an automatic mode device that transfers of electronic tooth arrangement, includes mounting panel, medium plate, ejector pin board, installation roof, first support column, second support column, adjustable subassembly and power component, mounting panel, medium plate, ejector pin board and the installation roof sets up at interval in proper order, first support column with the installation roof reaches the fixed equipment of power component, the second support column with the medium plate reaches the fixed equipment of ejector pin board, adjustable subassembly with the fixed equipment of mounting panel and medium plate, power component with the fixed equipment of first support column is in order to transmit in proper order first support column with the installation roof, power component simultaneously with the fixed equipment of mounting panel is in order to transmit in proper order the mounting panel adjustable subassembly the medium plate the second support column reaches the ejector pin board.

Preferably, the automatic die adjustment device for the electric tooth arrangement further comprises an installation bottom plate, the installation bottom plate and the middle plate are arranged at intervals, and the first supporting column and the power assembly are fixed on the installation bottom plate.

Preferably, the automatic die adjustment device for the electric tooth arrangement further comprises an inductor, and the inductor is fixed on the mounting base plate and connected with the power assembly.

Preferably, the mounting base plate comprises a mounting base plate bottom wall, and the first supporting plate and the power assembly penetrate through the mounting base plate bottom wall.

Preferably, the power assembly comprises a first gear, and the first gear is fixedly assembled with the first support column and arranged on the bottom wall of the mounting bottom plate.

Preferably, the power assembly comprises a second gear, and the second gear is arranged on the bottom wall of the mounting bottom plate and is spaced from the first gear.

Preferably, the power assembly further comprises a first motor fixedly assembled with the mounting base plate and the second gear.

Preferably, the power assembly further comprises a third gear, and the third gear is fixed on the bottom wall of the mounting bottom plate and is in meshing transmission with the first gear and the second gear.

Preferably, the power assembly comprises a fourth gear, and the fourth gear is arranged on the bottom wall of the mounting base plate.

The utility model provides an electronic tooth machine of arranging, includes injection material device, feed arrangement, electronic tooth automatic die adjustment device, transmission, discharging device, frame device and control panel of arranging, feed arrangement install in injection material device one side below, electronic tooth automatic die adjustment device install in injection material device below, transmission install in injection material device opposite side below, discharging device install in the drive assembly side, frame device install in the drive assembly below, control panel install in frame device top. The automatic die adjustment device for the electric tooth arrangement comprises a mounting plate, a middle plate, a push pin plate, a mounting top plate, a first support column, a second support column, an adjustable component and a power component, wherein the mounting plate, the middle plate, the push pin plate and the mounting top plate are sequentially arranged at intervals, the first support column is sequentially assembled with the mounting top plate and the power component, the second support column is sequentially assembled with the middle plate and the push pin plate, the adjustable component is sequentially assembled with the mounting plate and the middle plate, the power component is sequentially assembled with the first support column, the first support column is sequentially assembled with the mounting top plate, and the power component is simultaneously and sequentially assembled with the mounting plate to sequentially transmit the mounting plate, the adjustable component, the middle plate, the second support column and the push pin plate.

Compared with the prior art, the automatic adjustment device has the advantages that the power assembly drives the first support column to drive the mounting top plate to move, the power assembly drives the mounting plate, the adjustable device, the middle plate and the second support column to drive the push pin plate to move, so that automatic adjustment of molds with different thicknesses can be realized, the operation is convenient, the labor loss is reduced, and the occupied space is saved.

Drawings

FIG. 1 is a schematic perspective view of an electric dental unit according to the present invention;

FIG. 2 is a schematic perspective view of the automatic die adjustment device for electric tooth arrangement shown in FIG. 1;

FIG. 3 is an exploded perspective view of the support assembly of FIG. 2;

FIG. 4 is a schematic perspective view of a portion of the motorized automatic die adjustment apparatus shown in FIG. 2;

FIG. 5 is a partially exploded perspective view of the adjustable assembly of FIG. 2;

FIG. 6 is a partially exploded perspective view of another corner of the automatic die adjustment device for electric tooth arrangement shown in FIG. 2;

fig. 7 is a schematic perspective view of the power column and the mounting plate shown in fig. 2.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 is a schematic perspective view of an electric dental unit according to the present invention. The electric tooth arrangement machine 100 comprises an injection device 20, a feeding device 30, an electric tooth arrangement automatic die adjusting device 10, a transmission device 40, a discharging device 50, a rack device 60 and a control panel 70, wherein the feeding device 30 is installed below one side of the injection device 20, the electric tooth arrangement automatic die adjusting device 10 is installed below the injection device 20, the transmission device 40 is installed below the other side of the injection device 20, the discharging device 50 is installed on the side surface of the transmission assembly 40, the rack device 60 is installed below the transmission assembly 40, and the control panel 70 is installed above the rack device 60.

Please refer to fig. 2, which is a schematic perspective view of the automatic die adjustment device for electric tooth arrangement shown in fig. 1. Electric tooth arrangement automatic regulating apparatus 10 includes supporting component 11, support column 13, adjustable subassembly 15, power component 17 and inductor 19, support column 13 runs through supporting component 11, and is fixed in supporting component, adjustable subassembly 15 reaches power component 17 is fixed in supporting component 11, inductor 19 is fixed in supporting component 11, with power component 17 electricity is connected.

Please refer to fig. 3, which is an exploded perspective view of the support assembly shown in fig. 2. The supporting component 11 includes an installation bottom plate 111, an installation plate 113, a fixing plate 114, a middle plate 116, a first template 117, a push pin plate 118 and an installation top plate 119, the installation bottom plate 111, the installation plate 113, the fixing plate 114, the middle plate 116, the template 117, the push pin plate 118 and the installation top plate 119 are sequentially arranged at intervals, the installation bottom plate 111 is the bottom, the installation top plate 119 is the top, and the sensor 19 and the power 17 component are fixed on the installation bottom plate 111.

The mounting baseplate 111 comprises a mounting baseplate upper wall 1111, a mounting baseplate bottom wall 1113, a first mounting baseplate through-hole 1115, a second mounting baseplate through-hole 1116, a third mounting baseplate through-hole 1117, a fourth mounting baseplate through-hole 1118 and a recess 1119, the first mounting baseplate through-hole 1115, the second mounting baseplate through-hole 1116, the third mounting baseplate through-hole 1117, the fourth mounting baseplate through-hole 1118 and the recess 1119 extend through the mounting baseplate upper wall 1111 and the mounting baseplate bottom wall 1113, the first mounting baseplate through-hole 1115 is disposed distal to a central portion of the mounting baseplate 111, the second mounting baseplate through-hole 1116 is disposed proximal to the central portion of the mounting baseplate 111 as compared to the first mounting baseplate through-hole 1115, the third mounting baseplate through-hole 1117 is disposed proximal to the central portion of the mounting baseplate 111 as compared to the second mounting baseplate through-hole 1116, the fourth mounting baseplate through-hole 1118 is disposed at the central portion of the mounting baseplate 111, the supporting column 13 penetrates through the first mounting base plate through hole 1115, the second mounting base plate through hole 1116 and the third mounting base plate through hole 1117, the adjustable component 15 is arranged on two opposite sides of the mounting base plate upper wall 1111, the two opposite sides are connected with one side provided with the groove 1119, and the power component 17 penetrates through the mounting base plate bottom wall 1113.

The mounting plate 113 includes mounting plate upper wall 1131, mounting plate bottom wall 1133, the relative two first mounting plate lateral walls 1135 that set up and the relative two second mounting plate lateral walls 1136, mounting plate through-hole 1137, through-hole 1138 that set up and a style of calligraphy groove 1139 that sets up relatively, the mounting plate upper wall 1131 and mounting plate bottom wall 1133 with first mounting plate lateral wall 1135 and second mounting plate lateral wall 1136 is connected, through-hole 1138 runs through second mounting plate lateral wall 1136 and process a style of calligraphy groove 1139, mounting plate through-hole 1137 is located the mounting plate 113 middle part, a style of calligraphy groove 1139 by first mounting lateral wall 1135 forms to the middle part is sunken, power component 17 runs through mounting plate bottom wall 1113.

The fixing plate 114 includes a first fixing plate through hole 1141 and a second fixing plate through hole 1143.

The middle plate 116 includes a first middle plate through hole 1161, a second middle plate through hole 1163, and a third middle plate through hole 1165, the first middle plate through hole 1161 is disposed far from the middle of the middle plate 116, the second middle plate through hole 1163 is disposed near the middle of the middle plate 116 compared to the first middle plate through hole 1161, and the third middle plate through hole 1165 is disposed at the middle of the middle plate 116.

The template 117 includes a first template through hole 1171, a second template through hole 1173, a third template through hole 1175, and a fourth template through hole 1177, the first template through hole 1171 is disposed away from a middle portion of the template 117, the second template through hole 1173 is disposed closer to the middle portion of the template 117 than the first template through hole 1171, the third template through hole 1175 is disposed closer to the middle portion of the template 117 than the second template through hole 1173, and the fourth template through hole 1177 is disposed at the middle portion of the template 117.

The push pin plate 118 includes a push pin plate upper wall 1181, a push pin plate bottom wall 1183, a push pin 1185, a push pin sleeve 1186, a push pin block 1187 and a push pin plate through hole 1189, wherein the push pin sleeve 1186 is sleeved outside the push pin 1185, and the push pin block 1187 is arranged in the middle of the push pin plate bottom wall 1183.

The mounting top plate 119 includes a first mounting top plate through hole 1191 and a second mounting top plate through hole 1193.

Please refer to fig. 4, which is a schematic perspective view of a portion of the electric automatic die adjustment device for tooth arrangement shown in fig. 2. The support columns 13 include a first support column 131, a second support column 133, a third support column 135 and a fourth support column 137. The first support column 131 penetrates through the first mounting base plate through hole 1115, the first template through hole 1171 and the first mounting top plate through hole 1191, one end of the first support column 131 is fixed to the mounting base plate 111, and the other end is fixed to the mounting top plate 119; the second supporting pillar 133 penetrates through the third template through hole 1175, one end of the second supporting pillar 133 is fixed to the middle plate 116 through the second middle plate through hole 1163, and the other end of the second supporting pillar 133 is fixed to the push pin plate 118 through the push pin plate through hole 1189; one end of the third supporting pillar 135 is fixed to the mounting base plate 111 through the third mounting base plate through hole 1117, and the other end thereof is fixed to the fixing plate 114 through the first fixing plate through hole 1141; the fourth supporting pillar 137 penetrates through the second mounting base plate through hole 1116 and the second template through hole 1173, one end of the fourth supporting pillar 137 is fixed to the mounting base plate 111, and the other end is fixed to the template 117.

Please refer to fig. 5, which is a partially exploded perspective view of the adjustable assembly shown in fig. 2. The adjustable assembly 15 comprises a first fixing block 151, a connecting block 153, a swinging block 155 and a second fixing block 157, the first fixing block 151, the connecting block 153, the swinging block 155 and the second fixing block 157 are sequentially connected through bolts, the first fixing block 151 is fixed to the upper wall 1111 of the installation bottom plate through bolts, and the second fixing block 157 is fixed to the middle plate 116 through bolts.

The connection block 153 includes a first connection block 1531 and a second connection block 1533, the first connection block 1531 is connected to the second connection block 1533 by a bolt, the first connection block 1531 is connected to the first fixing block 151 and the swing block 155 by a bolt, one end of the second connection block 1533 is connected to the first connection block 1531 by a bolt, the other end of the second connection block 1533 is disposed in the linear groove 1139, and a swing rod 15331 and a connection through hole 15333 are provided, and the swing rod 15331 penetrates through the connection through hole 15333 and the through hole 1138 and is fixed to the mounting plate 113.

Please refer to fig. 6, which is a partially exploded view of another corner of the automatic die adjustment device for electric tooth arrangement shown in fig. 2. The power assembly 17 includes a motor 171, a gear 173, a gear sleeve 175 and a power column 177, the motor 171 is connected to the gear 173, the gear sleeve 175 is sleeved outside the gear 173, the power column 177 penetrates through the gear 173, the fourth mounting plate through hole 1118, the mounting plate through hole 1137 and the second fixing plate through hole 1143, one end of the power column 177 is fixed to the mounting plate 111 and is fixedly assembled with the gear 173, the other end of the power column is fixed to the fixing plate 114, and the gear 173 is arranged on the mounting plate bottom wall 1113.

The motor 171 includes a first motor 1711 and a second motor 1713 which are disposed apart from each other, the first motor 1711 is fixed to the recess 1119, and the second motor 1173 is disposed apart from the mounting base 111. The first motor 1711 is fixedly assembled with the gear 173 and electrically connected to the sensor 19, and the second motor 1713 is connected to the gear 173 via a belt 17131.

The gear 173 includes a first gear 1731, a second gear 1733, a third gear 1735 and a fourth gear 1737, the first gear 1731 is disposed on the bottom wall 1113 of the mounting base plate, and the first support column 131 penetrates through the first gear 1731 and is fixedly assembled with the first gear 1731; the second gear 1733 is disposed on the bottom wall 1113 of the mounting base plate, spaced from the first gear 1731, and fixedly assembled with the first motor 1711; the third gear 1735 is fixed to the bottom wall 1113 of the mounting base plate and is in meshing transmission with the first gear 1731 and the second gear 1733; the fourth gear 1737 is disposed in the middle of the bottom wall 1113 of the mounting base plate and connected to the second motor 1713 via a belt 17131. The gear sleeve 175 is disposed at the bottom of the first gear 1731.

Please refer to fig. 7, which is a schematic perspective view of the power column and the mounting plate shown in fig. 2. The power column 177 includes a cylinder 1771 and a protrusion 1773, the protrusion 1773 is disposed on an outer surface of the cylinder 1771, the cylinder 1771 penetrates the fourth gear 1737, the fourth mounting base plate through hole 1118, the mounting plate through hole 1137 and the second fixing plate through hole 1143, one end of the cylinder 1771 is fixed to the mounting base plate 111 and is fixedly assembled with the second gear 1733, and the other end of the cylinder 1773 is fixed to the fixing plate 114. The mounting plate bottom wall 1131 is provided with small holes 11311, the protrusion 1773 includes a protrusion hole 17731 correspondingly disposed to the small hole 11311, and the protrusion 1773 is fixed to the mounting plate bottom wall 1133 by passing through the protrusion hole 17731 and the small hole 11311 through a bolt.

The inductor 19 includes a first inductor 191 and a second inductor 193, the first inductor 191 and the second inductor 193 are disposed at an interval, the first inductor 191 and the second inductor 193 are fixed to the mounting base plate 111, and the first inductor 191 and the second inductor 193 are electrically connected to the first motor 1711.

When the automatic die adjustment device 10 for electric tooth arrangement is in operation, a user places a die on the upper wall of the push pin plate 118, the first sensor 191 is in a light-on state, the first motor 1711 sequentially drives the second gear 1733, the third gear 1735, the first gear 1731, the first support column 131 and the mounting top plate 119 to move, at this time, the moving direction of the second gear 1733 is the first direction, when the mounting top plate 119 moves to the highest point which can be reached by the mounting top plate, the first sensor 191 is changed from the light-on state to the light-off state, then the second motor 1713 sequentially drives the fourth gear 1737, the power column 177, the adjustable component 15, the middle plate 116, the second support column 133 and the push pin plate 118 to move, at this time, the moving direction of the fourth gear 1737 is the second direction, when the adjustable component 15 moves to be perpendicular to the middle plate 116, the pin pushing plate 118 stops moving, at this time, the pin pushing plate 118 moves to the highest point that it can reach, then the first motor 1711 drives the first motor 1711 to drive the second gear 1733, the third gear 1735, the first gear 1731, the first supporting column 131 and the installation top plate 119 to move synchronously, the second sensor 193 flickers, at this time, the second gear 1733 moves in a third direction, the third direction is opposite to the first direction, when the installation top plate 119 is pressed down to contact the mold to stop moving, the second sensor 193 changes to be long and bright or long and dark, then the second motor 1713 drives the fourth gear 1737, the power column 177, the adjustable component 15, the middle plate 116, the second supporting column 133 and the pin pushing plate 118 to move in sequence, at this time, the fourth gear 1737 moves in a fourth direction, the fourth direction is opposite the second direction and movement is stopped when the adjustable assembly 15, the middle plate 116 and the push pin plate 118 move to the initial position.

Compared with the prior art, the second gear 1733, the third gear 1735, the first gear 1731 and the first support column 131 are driven by the first motor 1711 to further drive the installation top plate 119 to move, the fourth gear 1737, the power column 177, the adjustable component 15, the middle plate 116 and the second support column 133 are driven by the second motor 1713 to further drive the push pin plate 118 to move, so that automatic adjustment of molds with different thicknesses can be realized, the use is convenient, and the occupied space and labor force are saved.

The above description is only a part of the embodiments of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the contents of the specification and the drawings, or applied directly or indirectly to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. An automatic die adjustment device for electric tooth arrangement is characterized by comprising:

mounting a plate;

the middle plate is arranged at intervals with the mounting plate;

the push pin plate is arranged at intervals with the middle plate;

the mounting top plate is arranged at an interval with the push pin plate;

the first supporting column penetrates through the mounting top plate and is fixedly assembled with the mounting top plate;

the second supporting column is fixedly assembled with the middle plate and the push pin plate;

the adjustable component is fixedly assembled with the mounting plate and the middle plate;

the power assembly is fixedly assembled with the first supporting column to sequentially transmit the first supporting column and the mounting top plate, and simultaneously, the power assembly is fixedly assembled with the mounting plate to sequentially transmit the mounting plate, the adjustable assembly, the middle plate, the second supporting column and the push pin plate.

2. The automatic die adjustment device for the electric tooth arrangement according to claim 1, further comprising a mounting base plate, wherein the mounting base plate and the middle plate are arranged at an interval, and the first support column and the power assembly are fixed on the mounting base plate.

3. The automatic die adjustment device for electric tooth arrangement according to claim 2, further comprising a sensor fixed to the mounting base plate and connected to the power assembly.

4. The automatic die adjustment device for electric tooth arrangement according to claim 2, wherein the mounting base plate comprises a mounting base plate bottom wall, and the first supporting plate and the power assembly penetrate through the mounting base plate bottom wall.

5. The automatic die adjustment device for the electric tooth arrangement according to claim 4, wherein the power assembly comprises a first gear, and the first gear is fixedly assembled with the first support column and arranged on the bottom wall of the mounting base plate.

6. The automatic die adjustment device for the electric tooth arrangement according to claim 5, wherein the power assembly further comprises a second gear, and the second gear is arranged on the bottom wall of the mounting base plate and is spaced from the first gear.

7. The automatic die adjustment device for the electric tooth arrangement according to claim 6, wherein the power assembly further comprises a first motor fixedly assembled with the mounting base plate and the second gear.

8. The automatic die adjustment device for the electric tooth arrangement according to claim 7, wherein the power assembly further comprises a third gear, and the third gear is fixed on the bottom wall of the mounting base plate and is in meshing transmission with the first gear and the second gear.

9. The automatic die adjustment device for the electric tooth arrangement according to claim 4, wherein the power assembly comprises a fourth gear, and the fourth gear is arranged on the bottom wall of the mounting base plate.

10. The utility model provides an electronic tooth machine of arranging, includes injection material device, feed arrangement, electronic tooth automatic die adjustment device, transmission, discharging device, frame device and control panel of arranging, feed arrangement install in injection material device one side below, electronic tooth automatic die adjustment device install in injection material device below, transmission install in injection material device opposite side below, discharging device install in the drive assembly side, frame device install in the drive assembly below, control panel install in frame device top.

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