阅读说明：本技术 一种节能门窗安装加工用定位装置 (Positioning device for mounting and processing energy-saving doors and windows ) 是由 王陕莉 于 2021-09-10 设计创作，主要内容包括：本发明一种节能门窗安装加工用定位装置,包括底板、减震组件、减震板、右支撑柱、升降组件、翻转组件和左支撑柱,所述减震组件设于底板上,所述减震板设于减震组件上,所述右支撑柱设于减震板一侧上,所述左支撑柱设于减震板另一侧上,所述升降组件设于减震板上,所述翻转组件设于右支撑柱和左支撑柱上；本发明属于门窗加工技术领域,具体是指一种通过升降组件可带动门窗升降移动,方便在翻转时进行移动门窗,减少体力劳动方便使用,通过翻转组件可将门窗进行固定,以及进行翻转,通过液压升降杆可对不同大小的门窗进行翻转,通过减震组件可避免装置受到震动损坏的节能门窗安装加工用定位装置。(The positioning device for mounting and processing the energy-saving door and window comprises a bottom plate, a damping component, a damping plate, a right supporting column, a lifting component, an overturning component and a left supporting column, wherein the damping component is arranged on the bottom plate; the invention belongs to the technical field of door and window processing, and particularly relates to a positioning device for mounting and processing an energy-saving door and window, which can drive the door and window to move up and down through a lifting assembly, is convenient for moving the door and window during overturning, reduces manual labor and is convenient to use, can fix and overturn the door and window through an overturning assembly, can overturn the door and window with different sizes through a hydraulic lifting rod, and can prevent the device from being damaged by vibration through a damping assembly.)

1. The utility model provides an energy-conserving door and window installs and processes uses positioner which characterized in that: comprises a bottom plate, a damping component, a damping plate, a right supporting column, a lifting component, a turnover component and a left supporting column, wherein the damping component is arranged on the bottom plate, the damping plate is arranged on the damping component, the right supporting column is arranged on one side of the damping plate, the left supporting column is arranged on the other side of the damping plate, the lifting component is arranged on the damping plate, the turnover component is arranged on the right supporting column and the left supporting column, the lifting component comprises a lifting motor, a lifting bidirectional screw rod, a left lifting block, a right lifting block, a left lifting rod, a right lifting rod, a left sliding block, a right sliding block and a lifting plate, one end of the lifting bidirectional screw rod is rotatably arranged on the right supporting column, the other end of the lifting bidirectional screw rod is rotatably arranged on the left supporting column, the left lifting block is slidably arranged on one side of the damping plate, the left lifting block is in threaded connection with the lifting bidirectional screw rod, the right lifting block is slidably arranged on the other side of the damping plate, the right elevating block is in threaded connection with the lifting bidirectional screw, the elevating plate is slidably arranged on the right supporting column and the left supporting column, the left sliding block is slidably arranged on one side of the elevating plate, the right sliding block is slidably arranged on the other side of the elevating plate, one end of the left elevating rod is hinged on the left elevating block, the other end of the left elevating rod is hinged on the right sliding block, the left elevating rod is symmetrically arranged on the left elevating block and the right sliding block, one end of the right elevating rod is hinged on the right elevating block, the other end of the right elevating rod is hinged on the left sliding block, the right elevating rod is symmetrically arranged on the right elevating block and the left sliding block, the intersection of the right elevating rod and the left elevating rod is hinged, the elevating motor is arranged on the left supporting column, and the output end of the elevating motor is connected with the lifting bidirectional screw.

2. The positioning device for mounting and processing the energy-saving door and window as claimed in claim 1, wherein: the overturning component comprises an overturning motor, an overturning driving gear, an overturning driven gear, an overturning transmission shaft, a left fixed block, a hydraulic lifting rod, a fixed plate, a right fixed block, a left clamping nail, a right clamping block and a right clamping nail, the overturning driving gear is rotatably arranged on a left supporting column, the overturning driven gear is meshed with the overturning driving gear, the overturning transmission shaft is rotatably arranged on the left supporting column, the overturning transmission shaft is connected with the overturning driven gear, the left fixed block is arranged on the overturning transmission shaft, the hydraulic lifting rod is arranged on the right supporting column, the fixed plate is arranged on the hydraulic lifting rod, the right fixed block is rotatably arranged on the fixed plate, the left clamping block is slidably arranged on the left fixed block, the left clamping nail is arranged on the top of the left fixed block, the utility model discloses a upset motor, including left side clamp nail and left fixed block threaded connection, right side clamp block slidable locates in the right fixed block, right side clamp nail is located on right fixed block top, right side clamp nail and right fixed block threaded connection, the upset motor is located on the left branch dagger, the upset driving gear is connected to upset motor output.

3. The positioning device for mounting and processing the energy-saving door and window as claimed in claim 2, wherein: damping component includes damper plate, left damper rod, right damper rod, left snubber block, right snubber block and damping spring, left side snubber block slidable locates on bottom plate one side, right side damper rod slidable locates on the bottom plate opposite side, the damper plate slidable locates on the guide post, left side damper rod one end articulates on left snubber block, the left side damper rod other end articulates on the damper plate, right side damper rod one end articulates on right snubber block, the right side damper rod other end articulates on the damper plate, damping spring one end is located on left snubber block, the damping spring other end is located on right snubber block.

4. The positioning device for mounting and processing the energy-saving door and window as claimed in claim 3, wherein: and the right supporting column is provided with a control panel, and the control panel is connected with a lifting motor and a turnover motor.

5. The positioning device for mounting and processing the energy-saving door and window as claimed in claim 4, wherein: the base is arranged on two sides of the damping base.

Technical Field

The invention belongs to the technical field of door and window processing, and particularly relates to a positioning device for mounting and processing an energy-saving door and window.

Background

The energy-saving door and window is used for increasing the lighting and ventilation area or expressing the character characteristics of modern buildings, and can improve the optical performance, the thermal performance and the sealing performance of materials and improve the structure of the door and window to achieve the expected effect.

In order to increase the lighting and ventilation area or represent the character of modern buildings, the door and window area of the building is larger and larger, and the building is provided with a full-glass curtain wall building, so that the heat loss of the door and window accounts for more than 40% of the total heat loss of the building, the energy saving of the door and window is the key of the energy saving of the building, and the door and window is not only a sensitive part for losing energy, but also is related to lighting, ventilation, sound insulation and vertical surface modeling. The energy-saving treatment mainly aims at improving the heat-insulating property of the material and improving the sealing property of the door and window. Energy-conserving door and window need install or correspond the processing like door frame to door and window subassembly in the production and processing process, can not provide the lift in the upset, is unfavorable for workman's operation, reduces production efficiency.

Disclosure of Invention

In order to overcome the defects of the prior art, the positioning device for mounting and processing the energy-saving door and window can drive the door and window to move up and down through the lifting assembly, the door and window can be conveniently moved during overturning, manual labor is reduced, the door and window can be fixed and overturned through the overturning assembly, the door and window with different sizes can be overturned through the hydraulic lifting rod, and the device can be prevented from being damaged by vibration through the damping assembly.

The technical scheme adopted by the invention is as follows: the invention relates to a positioning device for mounting and processing an energy-saving door and window, which comprises a bottom plate, a damping component, a damping plate, a right supporting column, a lifting component, a turnover component and a left supporting column, wherein the damping component is arranged on the bottom plate, the damping plate is arranged on the damping component, the right supporting column is arranged on one side of the damping plate, the left supporting column is arranged on the other side of the damping plate, the lifting component is arranged on the damping plate, the turnover component is arranged on the right supporting column and the left supporting column, the lifting component comprises a lifting motor, a lifting bidirectional screw rod, a left lifting block, a right lifting block, a left lifting rod, a right lifting rod, a left sliding block, a right sliding block and a lifting plate, one end of the lifting bidirectional screw rod is rotatably arranged on the right supporting column, the other end of the lifting bidirectional screw rod is rotatably arranged on the left supporting column, the left lifting block is slidably arranged on one side of the damping plate, and the left lifting block is in threaded connection with the lifting bidirectional screw rod, the right lifting block is slidably arranged on the other side of the damping plate and is in threaded connection with the lifting bidirectional screw rod, the lifting plate can be arranged on the right supporting column and the left supporting column in a sliding way, the left sliding block can be arranged on one side of the lifting plate in a sliding way, the right sliding block is slidably arranged on the other side of the lifting plate, one end of the left lifting rod is hinged on the left lifting block, the other end of the left lifting rod is hinged on the right sliding block, the left lifting rod is symmetrically arranged on the left lifting block and the right sliding block, one end of the right lifting rod is hinged on the right lifting block, the other end of the right lifting rod is hinged on the left sliding block, the right lifting rod is symmetrically arranged on the right lifting block and the left sliding block, the intersection of the right lifting rod and the left lifting rod is hinged, the lifting motor is arranged on the left support column, and the output end of the lifting motor is connected with the lifting bidirectional screw.

Further, the overturning assembly comprises an overturning motor, an overturning driving gear, an overturning driven gear, an overturning transmission shaft, a left fixed block, a hydraulic lifting rod, a fixed plate, a right fixed block, a left clamping nail, a right clamping block and a right clamping nail, the overturning driving gear is rotatably arranged on a left supporting column, the overturning driven gear is meshed with the overturning driving gear, the overturning transmission shaft is rotatably arranged on the left supporting column and is connected with the overturning driven gear, the left fixed block is arranged on the overturning transmission shaft, the hydraulic lifting rod is arranged on the right supporting column, the fixed plate is arranged on the hydraulic lifting rod, the right fixed block is rotatably arranged on the fixed plate, the left clamping block is slidably arranged on the left fixed block, the left side presss from both sides tight nail and locates on left fixed block top, left side presss from both sides tight nail and left fixed block threaded connection, right side presss from both sides tight piece slidable and locates in the right fixed block, right side presss from both sides tight nail and locates on the right fixed block top, right side presss from both sides tight nail and right fixed block threaded connection, the upset motor is located on the left branch dagger, the upset driving gear is connected to upset motor output.

Further, the damping assembly comprises a damping guide rod damping spring and a damping guide sleeve, the damping guide rod is arranged on two sides of the damping plate, the damping guide sleeve is arranged on two sides of the damping bottom plate, the damping guide sleeve is slidably arranged on the damping guide rod, one end of the damping spring is arranged on the damping plate, the other end of the damping spring is arranged on the damping bottom plate, and the damping spring is sleeved on the damping guide rod and the damping guide sleeve.

Furthermore, a control panel is arranged on the right supporting column and connected with a lifting motor and a turnover motor.

Further, the base is arranged on two sides of the damping base.

The invention with the structure has the following beneficial effects: the utility model provides an energy-conserving door and window positioner for installation processing can drive door and window lift through lifting unit and remove, conveniently removes door and window when the upset, reduces the physical labor and facilitates the use, can fix door and window through the upset subassembly to and overturn, can overturn to the door and window of equidimension not through hydraulic lifting rod, can avoid the device to receive vibrations through damper and damage.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

The lifting device comprises a base plate, a bottom plate, a damping component, a damping plate, a right supporting column, a lifting component, a turning component, a 7 supporting column, a left supporting column, a 8 lifting motor, a 9 lifting bidirectional screw, a 10 lifting block, a 11 lifting block, a right lifting block, a 12 lifting rod, a 13 lifting rod, a right lifting rod, a 14 sliding block, a left sliding block, a 15 sliding block, a 16 lifting plate, a 17 lifting motor, a 18 overturning driving gear, a 19 lifting driven gear, a 20 overturning transmission shaft, a 21 fixing block, a 22 hydraulic lifting rod, a 23 fixing plate, a 24 fixing block, a right fixing block, a 25 clamping block, a 26 clamping nail, a left clamping nail, a 27 clamping block, a right clamping block, a 28 clamping nail, a right clamping nail, a 29 damping guide rod, a 30 damping spring, a 31 damping guide sleeve, a 32, a control panel, a 33 and a base.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

As shown in figure 1, the positioning device for mounting and processing the energy-saving door and window comprises a bottom plate 1, a damping component 2, a damping plate 3, a right supporting column 4, a lifting component 5, a turnover component 6 and a left supporting column 7, wherein the damping component 2 is arranged on the bottom plate 1, the damping plate 3 is arranged on the damping component 2, the right supporting column 4 is arranged on one side of the damping plate 3, the left supporting column 7 is arranged on the other side of the damping plate 3, the lifting component 5 is arranged on the damping plate 3, the turnover component 6 is arranged on the right supporting column 4 and the left supporting column 7, the lifting component 5 comprises a lifting motor 8, a lifting bidirectional screw 9, a left lifting block 10, a right lifting block 11, a left lifting rod 12, a right lifting rod 13, a left sliding block 14, a right sliding block 15 and a lifting plate 16, one end of the lifting bidirectional screw 9 is rotatably arranged on the right supporting column 4, the other end of the lifting bidirectional screw 9 is rotatably arranged on the left supporting column 7, the left lifting block 10 is slidably arranged on one side of the damping plate 3, the left lifting block 10 is in threaded connection with the lifting bidirectional screw 9, the right lifting block 11 is slidably arranged on the other side of the damping plate 3, the right lifting block 11 is in threaded connection with the lifting bidirectional screw 9, the lifting plate 16 is slidably arranged on the right supporting column 4 and the left supporting column 7, the left sliding block 14 is slidably arranged on one side of the lifting plate 16, the right sliding block 15 is slidably arranged on the other side of the lifting plate 16, one end of the left lifting rod 12 is hinged on the left lifting block 10, the other end of the left lifting rod 12 is hinged on the right sliding block 15, the left lifting rod 12 is symmetrically arranged on the left lifting block 10 and the right sliding block 15, one end of the right lifting rod 13 is hinged on the right lifting block 11, the other end of the right lifting rod 13 is hinged on the left sliding block 14, the right lifting rod 13 is symmetrically arranged on the right lifting block 11 and the left sliding block 14, the intersection of the right lifting rod 13 and the left lifting rod 12 is hinged, the lifting motor 8 is arranged on the left supporting column 7, and the output end of the lifting motor 8 is connected with the lifting bidirectional screw 9.

Wherein, the turning assembly 6 comprises a turning motor 17, a turning driving gear 18, a turning driven gear 19, a turning transmission shaft 20, a left fixed block 21, a hydraulic lifting rod 22, a fixed plate 23, a right fixed block 24, a left clamping block 25, a left clamping nail 26, a right clamping block 27 and a right clamping nail 28, the turning driving gear 18 is rotatably arranged on the left support column 7, the turning driven gear 19 is meshed with the turning driving gear 18, the turning transmission shaft 20 is rotatably arranged on the left support column 7, the turning transmission shaft 20 is connected with the turning driven gear 19, the left fixed block 21 is arranged on the turning transmission shaft 20, the hydraulic lifting rod 22 is arranged on the right support column 4, the fixed plate 23 is arranged on the hydraulic lifting rod 22, the right fixed block 24 is rotatably arranged on the fixed plate 23, the left clamping block 25 is slidably arranged on the left fixing block 21, the left clamping nail 26 is arranged on the top of the left fixing block 21, the left clamping nail 26 is in threaded connection with the left fixing block 21, the right clamping block 27 is slidably arranged in the right fixing block 24, the right clamping nail 28 is arranged on the top of the right fixing block 24, the right clamping nail 28 is in threaded connection with the right fixing block 24, the overturning motor 17 is arranged on the left supporting column 7, and the output end of the overturning motor 17 is connected with the overturning driving gear 18.

Damping component 2 includes damping guide bar 29 damping spring 30 and shock attenuation guide sleeve 31, damping guide bar 29 is located on 3 both sides of damper plate, damping guide sleeve 31 is located on 1 both sides of damping bottom plate, damping guide sleeve 31 slidable locates on damping guide bar 29, damping spring 30 one end is located on damper plate 3, the damping bottom plate 1 is located to the damping spring 30 other end, damping guide bar 29 and damping guide sleeve 31 are located to the damping spring 30 cover.

And a control panel 32 is arranged on the right supporting column 4, and the control panel 32 is connected with the lifting motor 8 and the overturning motor 17.

The base 33 is provided on both sides of the damper base 33.

When the lifting device is used, a door panel is placed on the lifting plate 16, the control panel 32 controls the lifting motor 8 to start, then the lifting motor 8 drives the lifting bidirectional screw rod 9 to rotate, then the lifting bidirectional screw rod 9 drives the left lifting block 10 and the right lifting block 11 to move, then the left lifting block 10 and the right lifting block 11 move to respectively drive the left lifting rod 12 and the right lifting rod 13 to move, then the left lifting rod 12 and the right lifting rod 13 respectively drive the left sliding block 14 and the right sliding block 15 to move, then the left sliding block 14 and the right sliding block 15 drive the lifting plate 16 to move, when a set position is reached, the control panel 32 controls the lifting motor 8 to stop, so that the lifting effect is realized, then the hydraulic lifting rod 22 is adjusted according to the size of the door and window, then the door and window are placed on the left fixing block 21 and the right fixing block 24, then the left clamping nail 26 is screwed, then the left clamping nail 26 drives the left clamping block 25 to fix the door and window, then screw up right side and press from both sides tight nail 28, then right side presss from both sides tight piece 27 fixed door and window of right side drive of tight nail 28 drive, and then realize fixed effect, then control panel 32 control upset motor 17 starts, then upset motor 17 drives upset driving gear 18 and rotates, then upset driving gear 18 drives upset driven gear 19 and rotates, then upset driven gear 19 drives upset transmission shaft 20 and rotates, then upset transmission shaft 20 drives left fixed block 21 and rotates, then left fixed block 21 drives right fixed block 24 through door and window and rotates on fixed plate 23, control panel 32 control upset motor 17 stops after the upset is accomplished, and then realize the effect of upset, when taking place vibrations, damping plate 3 drives shock attenuation guide bar 29 and slides in shock attenuation guide sleeve 31, damping plate 3 and damping bottom plate 1 compress damping spring 30 simultaneously, and then upward realize absorbing effect.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.