CN108622629B

CN108622629B - Transplanting positioning tool

Info

Publication number: CN108622629B
Application number: CN201810541944.8A
Authority: CN
Inventors: 章宇庆; 周炳水; 黄金雷; 金盾
Original assignee: China United Engineering Corp Ltd
Current assignee: China United Engineering Corp Ltd
Priority date: 2018-05-30
Filing date: 2018-05-30
Publication date: 2024-04-23
Anticipated expiration: 2038-05-30
Also published as: CN108622629A

Abstract

The invention provides a transplanting positioning tool which is reasonable in structural design, low in labor intensity and high in positioning precision. One end of the hollow shaft is provided with a taper sleeve, and the other end is provided with a locking piece; the pull rod is arranged in the hollow shaft, one end of the pull rod is connected with the locking nut, and the other end of the pull rod is connected with the locking piece; the set screw is connected with the hollow shaft and the pull rod; the hollow shaft is sleeved in the head bearing, and the head bearing is sleeved on the bracket; the clamping plate is arranged on the bracket and is clamped with the hollow shaft; the locating pin is connected with the taper sleeve and the hollow shaft; the elastic body is arranged on the locking piece; the positioning plate is provided with a lower positioning hole, and the lower bottom surface is provided with a positioning surface; the conveying plate is fixedly arranged at the bottom of the bracket; the transplanting plate is fixed on the side surface of the bracket, an upper positioning hole is formed in the transplanting plate, and a positioning surface is formed in the lower bottom surface of the transplanting plate; the ejector rod is fixedly arranged on the bracket; the tail bearing is arranged on the ejector rod; the tail thimble is arranged on the tail bearing and is arranged opposite to the working end of the hollow shaft; the fixed nut is connected with the ejector rod.

Description

Transplanting positioning tool

Technical Field

The invention relates to a transplanting positioning tool, in particular to a transplanting positioning tool for cylindrical inner hole workpieces such as water treatment film elements and the like, which is used for conveying and positioning the workpieces at different stations.

Background

The production process flow of the water treatment membrane elements such as the ultrafiltration membrane element, the nanofiltration membrane element, the reverse osmosis membrane element and the like is long, and in the automatic membrane rolling equipment, workpieces such as the water treatment membrane element and the like containing cylindrical inner holes are required to be transplanted and fixed among a membrane inserting station, a membrane rolling station, a tape winding station, a feeding station and a discharging station. The manual film rolling mode is generally adopted before, the film element is transplanted in a manual carrying mode, the labor intensity is high, and the positioning accuracy is low.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide the transplanting positioning tool which is reasonable in structural design, low in labor intensity and high in positioning accuracy.

The invention solves the problems by adopting the following technical scheme: the utility model provides a transplantation location frock which characterized in that: the device comprises a tensioning mechanism, a positioning plate, a conveying plate, a bracket, a transplanting plate, a head bearing, a clamping plate, a tail thimble, a tail bearing, an ejector rod and a fixing nut; the tensioning mechanism comprises a taper sleeve, a set screw, a hollow shaft, a pull rod, a locking nut, a positioning pin, an elastomer and a locking piece; one end of the hollow shaft is a driving end, and a taper sleeve is arranged at the end; the other end of the hollow shaft is a working end, and a locking piece is arranged at the end; the pull rod is arranged in the hollow shaft, one end of the pull rod is connected with the locking nut, and the other end of the pull rod is connected with the locking piece; the set screw is connected with the hollow shaft and the pull rod; the hollow shaft is sleeved in the head bearing, and the head bearing is sleeved on the bracket; the clamping plate is arranged on the bracket and is clamped with the hollow shaft; the locating pin is connected with the taper sleeve and the hollow shaft; the elastic body is arranged on the locking piece; the positioning plate is fixed with the bracket, a lower positioning hole is formed in the positioning plate, and a positioning surface is formed in the lower bottom surface of the positioning plate; the conveying plate is fixedly arranged at the bottom of the bracket; the transplanting plate is fixed on the side surface of the bracket, an upper positioning hole is formed in the transplanting plate, and a positioning surface is formed in the lower bottom surface of the transplanting plate; the ejector rod is fixedly arranged on the bracket; the tail bearing is arranged on the ejector rod; the tail thimble is arranged on the tail bearing and is arranged opposite to the working end of the hollow shaft; the fixed nut is connected with the ejector rod.

The locking piece is provided with a locking piece inclined plane, the working end of the hollow shaft is provided with a hollow shaft inclined plane, and the locking piece inclined plane is connected with the hollow shaft inclined plane.

The middle part of the hollow shaft is provided with a clamping groove, and the clamping plate is clamped with the clamping groove.

The pull rod is provided with the waist-shaped groove, and the set screw penetrates through the hollow shaft and is clamped into the waist-shaped groove of the pull rod.

The invention also comprises a gasket which is matched with the nut.

The elastic body adopts an O-shaped ring or an elastic band.

The elastic body is provided with a groove, and the elastic body is embedded into the groove.

The tail thimble is provided with a conical surface.

The conveying plate is fixedly arranged at the bottom of the bracket by riveting, bonding or bolting

The transplanting plate is fixed on the side surface of the bracket by riveting, bonding or bolting.

Compared with the prior art, the invention has the following advantages and effects: the invention is particularly suitable for transplanting and positioning of water-treated film workpieces, and is used for transplanting, positioning, fixing and rotating the workpieces among different stations such as a film inserting station, a film rolling station, a tape winding station, a feeding station, a discharging station and the like in the automatic film rolling process. The invention adopts the cylindrical inner hole of the workpiece to fix and restrain the workpiece, adopts the positioning plate to accurately position the workpiece and each processing station, adopts the transplanting plate to ensure the accurate positioning in the transplanting process, can be applied to the transplanting positioning of the cylindrical inner hole workpiece such as automatic film rolling equipment and the like, and is convenient for subsequent automatic processing.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present invention.

Fig. 2 is a schematic side view of the structure of fig. 1.

Fig. 3 is a schematic partial structure of an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail by way of examples with reference to the accompanying drawings, which are illustrative of the present invention and not limited to the following examples.

Referring to fig. 1-3, the embodiment of the invention comprises a tensioning mechanism 1, a positioning plate 2, a conveying plate 3, a bracket 4, a transplanting plate 6, a head bearing 7, a clamping plate 8, a tail thimble 9, a tail bearing 10, an ejector rod 11 and a fixing nut 12.

The tensioning mechanism 1 is matched with the tail thimble 9 to jointly position and fix the workpiece 5. The tensioning mechanism 1 comprises a taper sleeve 101, a set screw 102, a hollow shaft 103, a pull rod 104, a locking nut 105, a gasket 106, a positioning pin 107, an elastic body 108 and a locking piece 109.

One end of the hollow shaft 103 is a driving end, and the end is provided with a taper sleeve 101. The other end of the hollow shaft 103 is a working end for mounting the workpiece 5. The taper sleeve 101 is an interface of a tensioning mechanism and an external drive, and the external drive can be connected with the taper sleeve 101 through a coupler and the like to drive the taper sleeve 101 to rotate so as to drive the workpiece 5 to rotate.

A locking tab 109 is mounted on the working end of hollow shaft 103. The locking piece 109 is provided with a locking piece inclined plane, the working end of the hollow shaft 103 is provided with a hollow shaft inclined plane, and the locking piece inclined plane is connected with the hollow shaft inclined plane. The locking piece 109 is used for pressing the tensioning workpiece 5, and the locking piece inclined surface is matched with the hollow shaft inclined surface, so that the locking piece 109 can slide on the hollow shaft 103. The locking piece 109 may be 2 pieces or a plurality of pieces.

The pull rod 104 is installed in the hollow shaft 103, and one end thereof is connected with the lock nut 105, and the other end thereof is connected with the lock piece 109. The pull rod 104 is used for tensioning and expanding the locking piece 109, so that the locking piece 109 presses and fixes the workpiece 5. The lock nut 105 is used for rotating to drive the pull rod 104 to move left, and then the workpiece 5 is locked by the locking piece 109.

The set screw 102 is connected with the hollow shaft 103 and the pull rod 104 to prevent the pull rod 104 from rotating and slipping during tensioning. Specifically, the pull rod 104 is provided with a waist-shaped groove, and the set screw 102 passes through the hollow shaft 103 and is clamped into the waist-shaped groove of the pull rod 104.

The hollow shaft 103 is cylindrical and sleeved in the head bearing 7. The head bearing 7 is sleeved on the bracket 4. The head bearing 7 is used for supporting and rotating the tensioning mechanism 1, restraining radial displacement of the hollow shaft 103, guaranteeing the rotating precision of the hollow shaft 103, and can be in the forms of a rolling bearing, a self-lubricating sliding bearing and the like. The bracket 4 is used for supporting and fixing various parts.

The clamping plate 8 is arranged on the bracket 4 and is clamped with the hollow shaft 103. Specifically, a clamping groove 13 is formed in the middle of the hollow shaft 103, and the clamping plate 8 is clamped with the clamping groove 13. The clamping plate 8 is used for restraining axial displacement of the hollow shaft 103, preventing the tensioning mechanism 1 from moving in an axial direction and guaranteeing the rotating precision of the tensioning mechanism 1. The clamping plate 8 and the bracket 4 can be fixed in a riveting way, an adhesive way or a bolt connection way.

The washer 106 cooperates with the nut 5 for preventing loosening of the nut 5.

A locating pin 107 is connected to the cone sleeve 101 and the hollow shaft 103 for securing the cone sleeve 101 and the hollow shaft 103 together.

The elastic body 108 is mounted on the locking piece 109 for restraining the locking piece 109 so that the locking piece 109 is retracted and the locking piece 109 is prevented from falling down when the workpiece is taken out. The elastomer 108 may take the form of an O-ring, rubber band, or the like. The elastic body 108 is provided with a groove, and the elastic body 108 is embedded in the groove to restrict the locking piece 109.

The positioning plate 2 and the bracket 4 can be fixed in a riveting, bonding or bolting mode, and the positioning plate 2 is used for positioning the workpiece 5 at different stations. The positioning plate 2 is provided with a cylindrical lower positioning hole 21, and the lower positioning hole 21 is matched with a positioning pin of a station to restrict the horizontal size of the workpiece 2 and the invention. The lower bottom surface of the locating plate 2 is provided with a locating surface which is contacted with the station platform to restrict the height dimension of the workpiece 2 and the invention. The positioning plate 2 is arranged in a left-right block.

The conveying plate 3 can be fixedly arranged at the bottom of the bracket 4 in a riveting, bonding or bolting mode, etc., so that the conveying plate 3 can be conveniently replaced after being worn. The conveying plate 3 is used for the automatic conveying of the workpiece 5 on a feeding conveying line and a discharging conveying line, and the conveying line can be in the form of a belt line, a roller line, a chain line and the like.

The workpiece 5 is a workpiece to be processed, and has a cylindrical inner hole.

The transplanting plate 6 can be fixed on the side surface of the bracket 4 in a riveting, bonding or bolting mode. The transplanting plate 6 is used for transplanting the invention and the workpiece 5 between different stations, a cylindrical upper positioning hole 61 is arranged on the transplanting plate 6, and the upper positioning hole 61 is matched with a positioning pin of the transplanting device to restrict the horizontal dimension of the transplanting device and the invention. The lower bottom surface of the transplanting plate 6 is provided with a positioning surface which is contacted with the transplanting device to restrict the height dimension of the transplanting device and the invention. The transplanting plate 6 is arranged in a left-right manner.

The ejector rod 11 is fixedly arranged on the bracket 4 and is used for supporting the tail bearing 10.

The tail bearing 10 is mounted on the ejector rod 11 for supporting and rotating the tail ejector pin 9, and can be in the form of a rolling bearing, a self-lubricating sliding bearing and the like.

The tail thimble 9 is arranged on the tail bearing 10 and is opposite to the working end of the hollow shaft 103 and is used for positioning and fixing the workpiece 5 together with the tensioning mechanism 1. The tail thimble 9 is provided with a conical surface which is matched with an inner hole of the workpiece 5, so that the positioning accuracy of the center of the workpiece 5 and the center of the tail thimble 9 is ensured.

The fixing nut 12 is connected with the ejector rod 11 and is used for locking and fixing the ejector rod 11. Because the workpiece 5 has more specifications, when the workpiece 5 is replaced, the tail thimble 9, the tail bearing 10 and the ejector rod 11 need to be replaced synchronously, and the replacement is convenient by adopting a fixing mode of fixing the fixing nut 12.

After one end of the cylindrical inner hole of the workpiece 5 is mounted on the tail thimble 9, the locking nut 105 is loosened, so that the pull rod 104 moves to the right, and the locking piece 109 is driven to move to the right. The other end of the cylindrical inner hole of the workpiece 5 is sleeved on the locking piece 109, the locking nut 105 is screwed down, the pull rod 104 moves leftwards, the locking piece 109 is driven to move leftwards, and the outer diameter of the locking piece 109 is increased and is fixedly extruded with the inside of the workpiece 5. When needed, the external drive can drive the taper sleeve 101 to rotate, and the taper sleeve 101 drives the hollow shaft 103 to rotate, so that the workpiece 5 is driven to rotate. After the process is finished, the lock nut 105 is loosened, the pull rod 104 is moved to the right, the locking piece 109 is driven to move to the right to disengage the inner surface of the workpiece 5, and the workpiece 5 is taken out. At each station, the external drive can drive the tensioning mechanism 1 to rotate, and the tensioning mechanism 1 drives the workpiece 5 to rotate.

In addition, it should be noted that the specific embodiments described in the present specification may vary from part to part, from name to name, etc., and the above description in the present specification is merely illustrative of the structure of the present invention. All equivalent or simple changes of the structure, characteristics and principle according to the inventive concept are included in the protection scope of the present patent. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the invention as defined in the accompanying claims.

Claims

1. The utility model provides a transplantation location frock which characterized in that: the device comprises a tensioning mechanism, a positioning plate, a conveying plate, a bracket, a transplanting plate, a head bearing, a clamping plate, a tail thimble, a tail bearing, an ejector rod and a fixing nut; the tensioning mechanism comprises a taper sleeve, a set screw, a hollow shaft, a pull rod, a locking nut, a positioning pin, an elastomer and a locking piece; one end of the hollow shaft is a driving end, and a taper sleeve is arranged at the end; the other end of the hollow shaft is a working end, and a locking piece is arranged at the end; the pull rod is arranged in the hollow shaft, one end of the pull rod is connected with the locking nut, and the other end of the pull rod is connected with the locking piece; the set screw is connected with the hollow shaft and the pull rod; the hollow shaft is sleeved in the head bearing, and the head bearing is sleeved on the bracket; the clamping plate is arranged on the bracket and is clamped with the hollow shaft; the locating pin is connected with the taper sleeve and the hollow shaft; the elastic body is arranged on the locking piece; the positioning plate is fixed with the bracket, a lower positioning hole is formed in the positioning plate, and a positioning surface is formed in the lower bottom surface of the positioning plate; the conveying plate is fixedly arranged at the bottom of the bracket; the transplanting plate is fixed on the side surface of the bracket, an upper positioning hole is formed in the transplanting plate, and a positioning surface is formed in the lower bottom surface of the transplanting plate; the ejector rod is fixedly arranged on the bracket; the tail bearing is arranged on the ejector rod; the tail thimble is arranged on the tail bearing and is arranged opposite to the working end of the hollow shaft; the fixed nut is connected with the ejector rod; the locking piece is provided with a locking piece inclined plane, the working end of the hollow shaft is provided with a hollow shaft inclined plane, and the locking piece inclined plane is connected with the hollow shaft inclined plane.

2. The transplanting positioning fixture of claim 1, wherein: the middle part of hollow shaft be provided with the draw-in groove, cardboard and draw-in groove joint.

3. The transplanting positioning fixture of claim 1, wherein: the pull rod is provided with a waist-shaped groove, and the set screw penetrates through the hollow shaft and is clamped into the waist-shaped groove of the pull rod.

4. The transplanting positioning fixture of claim 1, wherein: the nut is characterized by further comprising a gasket which is matched with the nut.

5. The transplanting positioning fixture of claim 1, wherein: the elastic body adopts an O-shaped ring or an elastic band.

6. The transplanting positioning fixture of claim 1, wherein: the elastic body is provided with a groove, and the elastic body is embedded into the groove.

7. The transplanting positioning fixture of claim 1, wherein: the tail thimble is provided with a conical surface.

8. The transplanting positioning fixture of claim 1, wherein: the conveying plate is fixedly arranged at the bottom of the bracket by riveting, bonding or bolting.

9. The transplanting positioning fixture of claim 1, wherein: the transplanting plate is fixed on the side face of the bracket by riveting, bonding or bolting.