CN209979100U - Full-electric mode locking pressure detection device - Google Patents
Full-electric mode locking pressure detection device Download PDFInfo
- Publication number
- CN209979100U CN209979100U CN201920633117.1U CN201920633117U CN209979100U CN 209979100 U CN209979100 U CN 209979100U CN 201920633117 U CN201920633117 U CN 201920633117U CN 209979100 U CN209979100 U CN 209979100U
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- mode locking
- pressure
- test sensor
- lock template
- pressure test
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Abstract
The utility model discloses a full-electric mode locking pressure detection device, including the mode locking support, install the mode locking guide rail on the mode locking support, install respectively in mode locking guide rail both ends and rather than the gliding left slider and right slider of cooperation, correspond left side jam plate and the right jam plate that installs setting on left slider and the right slider, be equipped with the full-electric servo motor that drives its straight reciprocating motion on left side jam plate or/and the right jam plate, be equipped with the pressure test sensor that detects the mode locking power that produces after the mode locking action on left side jam plate or/and the right jam plate, pressure test sensor passes through the control system of signal line transmission pressure data to the mode locking machine; the back of the left lock template or/and the back of the right lock template is sunken with a pressure containing cavity for installing a pressure test sensor, the back of the left lock template or/and the back of the right lock template is provided with a sealing plate for covering the pressure containing cavity, one end of the pressure test sensor is fixed on the sealing plate through a fixing screw, and the other end of the pressure test sensor is in fit contact with the deepest wall surface of the pressure containing cavity.
Description
Technical Field
The utility model relates to a technical field of mode locking equipment especially relates to an adopt full electric drive mode locking/die sinking action, can detect the mode locking power of producing after the mode locking is moved and thereby realize the full electric mode locking pressure measurement of control mode locking power with data feedback.
Background
The mold locking equipment in the prior art has the advantages that the hydraulic motor, the servo motor and the like provide mold locking force to achieve the purposes of mold locking and mold opening, no matter which mold locking equipment is driven by mold locking power, the control on the mold locking force cannot be accurately controlled, and if the mold locking force is too large, a template is damaged or a molded product is easy to deform, so that the product quality is seriously influenced; if the clamping force is too small, the molded product cannot be molded or the deformation and burr of the molded product increase. In view of the above situation, some pressure testing devices may be additionally and independently installed in some mold locking devices, and the mold locking pressure of the mold locking plate is preset according to the pressure testing parts, but these pressure testing parts are externally installed, and have a large volume and a complicated structure, which may cause inaccurate extrusion testing and a complicated structure of the entire mold locking device.
Disclosure of Invention
The utility model aims at overcoming the defects of the prior art and providing a full-electric mode locking pressure detection device which adopts a full-electric servo motor to drive the actions of mode locking and mold opening so as to achieve the purpose of accurate mode locking; a pressure test sensor is arranged in the mold locking plate and used for detecting the mold locking force generated by the two mold locking plates after the mold locking action, and simultaneously, data is fed back and transmitted to a control system of the mold locking machine for monitoring the mold locking force, so that the mold locking force is monitored, the mold locking force can be adjusted according to production requirements, the optimal mold locking force and production effect are achieved, and the production effect is ensured; this pressure test sensor is the built-in hidden structure of installing in the lock die board, can not produce any influence to lock die action etc. and adopt shrouding encapsulation design and fixed, can in time maintain and change pressure test sensor, convenient and fast and practical.
The utility model provides a technical scheme that its technical problem adopted is: a full-electric mode locking pressure detection device comprises a mode locking support, a mode locking guide rail arranged on the mode locking support, a left slide block and a right slide block which are respectively arranged at two ends of the mode locking guide rail and slide in a matching way with the mode locking guide rail, a left locking template and a right locking template which are correspondingly arranged on the left slide block and the right slide block, and a full-electric servo motor for driving the left locking template or/and the right locking template to do linear reciprocating motion; the back of the left lock template or/and the back of the right lock template is internally provided with a pressure containing cavity for mounting a pressure test sensor, the back of the left lock template or/and the back of the right lock template is provided with a sealing plate for covering the pressure containing cavity, one end of the pressure test sensor is fixed on the sealing plate through a fixing screw, and the other end of the pressure test sensor is in fit contact with the deepest wall surface of the pressure containing cavity.
Furthermore, the pressure test sensor is arranged in the left mold locking plate, and the right mold locking plate is fixedly connected and arranged with one end of the mold locking bracket; the closing plate installed on the back surface of the left mold locking plate is connected with a connecting rod through a connecting base, and the connecting rod is connected with the power output end of the full-electric servo motor.
In summary, the fully-electric mode-locking pressure detection device of the utility model adopts the fully-electric servo motor to drive the mode-locking and mold-opening actions, so as to achieve the purpose of accurate mode-locking; a pressure test sensor is arranged in the mold locking plate and used for detecting the mold locking force generated by the two mold locking plates after the mold locking action, and simultaneously, data is fed back and transmitted to a control system of the mold locking machine for monitoring the mold locking force, so that the mold locking force is monitored, the mold locking force can be adjusted according to production requirements, the optimal mold locking force and production effect are achieved, and the production effect is ensured; this pressure test sensor is the built-in hidden structure of installing in the lock die board, can not produce any influence to lock die action etc. and adopt shrouding encapsulation design and fixed, can in time maintain and change pressure test sensor, convenient and fast and practical.
Drawings
Fig. 1 is a schematic structural diagram of an all-electric mode-locking pressure detection device according to embodiment 1 of the present invention.
Detailed Description
Example 1
The fully-electric mode-locking pressure detection device described in this embodiment 1, as shown in fig. 1, includes a mode-locking support 1, a mode-locking guide rail 2 installed on the mode-locking support, a left slider 3 and a right slider 4 installed at two ends of the mode-locking guide rail respectively and sliding in cooperation therewith, a left mold-locking plate 5 and a right mold-locking plate 6 installed on the left slider and the right slider correspondingly, a fully-electric servo motor (not shown in the figure) for driving the left mold-locking plate to reciprocate linearly, a pressure test sensor 7 for detecting a mode-locking force generated after mode-locking operation is installed on the left mold-locking plate, and the pressure test sensor transmits pressure data to a control system of the mode-locking machine; the back of the left locking template is sunken with a pressure containing cavity 8 for mounting a pressure test sensor, the back of the left locking template is provided with a sealing plate 9 for sealing the pressure containing cavity, one end of the pressure test sensor is fixed on the sealing plate through a fixing screw 10, and the other end of the pressure test sensor is in contact with the deepest wall surface of the pressure containing cavity in a fitting manner.
In this embodiment, the pressure test sensor is installed in the left mold locking plate, and the right mold locking plate is fixedly connected and installed with one end of the mold locking bracket; the shrouding of left side clamp plate back installation is connected with connecting rod 11 through the connection base, and the power take off of full electric servo motor is connected to the connecting rod.
The full-electric mode locking pressure detection device adopts a full-electric servo motor to drive the actions of mode locking and mold opening, so as to achieve the purpose of accurate mode locking; a pressure test sensor is arranged in the mold locking plate and used for detecting the mold locking force generated by the two mold locking plates after the mold locking action, and simultaneously, data is fed back and transmitted to a control system of the mold locking machine for monitoring the mold locking force, so that the mold locking force is monitored, the mold locking force can be adjusted according to production requirements, the optimal mold locking force and production effect are achieved, and the production effect is ensured; this pressure test sensor is the built-in hidden structure of installing in the lock die board, can not produce any influence to lock die action etc. and adopt shrouding encapsulation design and fixed, can in time maintain and change pressure test sensor, convenient and fast and practical.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the structure of the present invention in any way. Any simple modification, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention all still fall within the scope of the technical solution of the present invention.
Claims (2)
1. A full-electric mode locking pressure detection device is characterized by comprising a mode locking support, a mode locking guide rail arranged on the mode locking support, a left slide block and a right slide block which are respectively arranged at two ends of the mode locking guide rail and slide in a matching way with the mode locking guide rail, a left lock template and a right lock template which are correspondingly arranged on the left slide block and the right slide block, and a full-electric servo motor for driving the left lock template or/and the right lock template to do linear reciprocating motion; the back of the left lock template or/and the back of the right lock template is internally provided with a pressure containing cavity for mounting a pressure test sensor, the back of the left lock template or/and the back of the right lock template is provided with a sealing plate for covering the pressure containing cavity, one end of the pressure test sensor is fixed on the sealing plate through a fixing screw, and the other end of the pressure test sensor is in fit contact with the deepest wall surface of the pressure containing cavity.
2. The pressure detecting device for all-electric mode locking according to claim 1, wherein the pressure testing sensor is installed in the left mode locking plate, and the right mode locking plate is fixedly connected and installed with one end of the mode locking bracket; the closing plate installed on the back surface of the left mold locking plate is connected with a connecting rod through a connecting base, and the connecting rod is connected with the power output end of the full-electric servo motor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920633117.1U CN209979100U (en) | 2019-04-30 | 2019-04-30 | Full-electric mode locking pressure detection device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920633117.1U CN209979100U (en) | 2019-04-30 | 2019-04-30 | Full-electric mode locking pressure detection device |
Publications (1)
Publication Number | Publication Date |
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CN209979100U true CN209979100U (en) | 2020-01-21 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201920633117.1U Active CN209979100U (en) | 2019-04-30 | 2019-04-30 | Full-electric mode locking pressure detection device |
Country Status (1)
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CN (1) | CN209979100U (en) |
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2019
- 2019-04-30 CN CN201920633117.1U patent/CN209979100U/en active Active
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