JP2020001153A - Geothermal industrial processing device - Google Patents

Abstract

To provide a geothermal industrial processing device.SOLUTION: A geothermal industrial processing device including: a base plate; an adjustment control airframe which is fixedly located at an apex of the base plate; a cutting airframe which is located on a left side of the adjustment control airframe; and an angle modulation airframe which is located on a rear side of the adjustment control airframe. A connection shaft, which extends downward and is located, is engaged with and connected to a left side of a bottom end face of the angle modulation airframe by a slide, and a bottom terminal of the connection shaft is fixedly engaged with and connected to an apex end face of the base plate. A dovetail groove is provided on a right side of a front side end face of the angle modulation airframe, and a dovetail block is engaged with and connected into the dovetail groove by a slide. A hinge component, which extends outside the front side end face of the angle modulation airframe, is fixedly connected to a front side end face of the dovetail block, and a guide slide housing is located in the adjustment control airframe. A guide slide block is engaged with and connected into the guide slide housing by a slide, and a first screw rod, which is so located as to extend left and right, is engaged with and connected into the guide slide block by threads.SELECTED DRAWING: Figure 1

Description

The present invention covers the geothermal industrial processing field, and specifically relates to a geothermal industrial processing apparatus.

The geothermal plate is widely used in human life as a new plate material, and a cutting device is required when connecting the geothermal plate with a gable connection, and it is necessary to cut it according to actual needs. In order to meet the needs by cutting to various standards, the geothermal plate needs different cutting slopes, it is necessary to make better gable connection and ensure the whole sealing performance, but the cutting machine Only mechanical cutting can be performed, the cut end faces are all flat, artificial and other manual cutting is necessary, work efficiency is low, and when cutting, the plate material is fixed by the operator's hand It is necessary, and the stability is poor and cutting mistakes are easy to occur. Therefore, there is an urgent need for geothermal industrial processing equipment used for processing geothermal plates.

Chinese Patent Application No. 104909472

  It is an object of the present invention to provide a geothermal industrial processing apparatus, which can solve the above-mentioned problems in the current technology.

The geothermal industrial processing apparatus according to the present invention includes a base plate, an adjustment control body fixedly installed on the top of the base plate, a cutting body installed on the left side of the adjustment control body, and an angle modulation installed on a rear side of the adjustment control body. A connection shaft including a fuselage and extending downwardly to the left of a bottom end surface of the angle modulation body is engaged and connected by sliding, and a bottom end of the connection shaft is fixedly engaged and connected to a top end surface of the base plate. A groove is provided on the right side of the front end face of the angle modulation body, and a block is engaged and connected by sliding in the groove, and the front end face of the angle modulation body is connected to the front end face of the dovetail block. An extending hinge part is fixedly installed, a guide slide housing is installed in the adjustment control body, and a guide slide block is inserted into the guide slide housing. A first screw rod, which is engaged and connected with the guide slide block and extends left and right in the guide slide block, is engaged and connected with a screw thread, and a right end of the first screw rod is connected to a right side of the guide slide housing. A first empty groove, which is engaged and connected by power to a first electric machine fixedly fitted into the inner wall and extends rightward in a rear side wall of the guide slide housing, is provided to communicate with the first electric machine. A female screw kit is rotationally engaged and connected to the rear wall body of the groove, and a second screw rod extending and installed backward in the rear end surface of the female screw kit is engaged and connected with a screw thread, and A rear end of a rod extends out of a rear end surface of the adjustment control body and is fixedly engaged and connected to the hinge part which is separated from the dowel block, and a front end of the female screw kit is provided in the first empty groove. The first gear that extends and inserts into the A second vacant groove is provided in communication with the front side wall of the guide slide housing, and a first rotating shaft installed to extend left and right in the left side wall of the second vacant groove is engaged and connected by rotation, and A first gear that extends and is inserted into the second empty groove is fixedly installed at the right end of one rotation shaft, and the first gear and the first gear are engaged with the first gear and the first gear in the guide slide block. An adjusting drive mechanism used to be connected is installed, the cutting body includes a post whose bottom end is fixedly connected to the base plate, and a transmission housing is installed in the post; A second rotating shaft installed to extend right and left in the right wall of the transmission housing is rotationally engaged and connected, and extends and inserted into the transmission housing at a left end of the second rotating shaft. A two-stage vehicle is fixedly installed, and the right end of the second rotating shaft is at the left of the first rotating shaft At a relative position of a side end, a left extending end of the first rotating shaft extends out of a left end surface of the adjustment control body and is fixedly engaged and connected to a right end of the second rotating shaft. An elevating chute is installed in the side end surface, the elevating chute is located above the transmission casing, and an elevating actuator is installed in the elevating chute.

A further technical plan, wherein the adjusting drive mechanism includes a second electric machine fixedly installed in the guide slide block, and a second electric machine extending and inserted into the first empty groove at a rear end of the second electric machine. A gear is connected by power, the second gear is located on the left side of the first gear, and a third gear that extends and is inserted into the second empty groove at the front end of the second electric machine is connected by power. , The third gear is located on the right side of the first gear.

In a further technical plan, the lifting actuator is rotatably engaged and connected between the lifting chute and the transmission housing, and is slidably engaged into the lifting screw rod and the lifting chute which are installed extending vertically. A fourth beam extending and inserted into the transmission housing at the bottom end of the lifting screw rod and being motively engaged and connected to the second gear wheel, the fourth beam including the lifting beam that is installed and extended rearward. A carriage is fixedly installed, and a top end of the lifting screw is extended into the lifting chute, inserted into the lifting chute, and is rotationally connected to a top wall of the lifting chute. A guide slide bar, which is engaged and connected with a screw thread to the lift beam located at Upper and lower ends Each is fixedly connected to the upper and lower walls of the elevating chute, and a through-mounting groove is installed in the elevating beam located on the rear side of the column, and a cutting blade is rotationally engaged in the through-mounting groove. A third electric machine that is connected and is power-engaged and connected to the cutting blade is fixedly fitted into the left side wall of the through mounting groove, and a chip pocket is penetrated through the base plate facing the bottom of the cutting blade. You.

A further technical plan is to install a symmetrically mounted clamp component in the top end face of the angle modulating body.

  The beneficial effects of the present invention are as follows. The structure of the present invention is simple, easy to operate, controls the third gear through the second electric machine, drives and rotates the first gear and the first rotating shaft, and the first rotating shaft is the second rotating shaft. The second stage is driven and rotated. At this time, the second stage drives and rotates the fourth stage and the lifting screw bar, and at the same time, the lifting screw bar drives the lifting beam and the bottom of the lifting chute. To realize the end face directly connected to the flat surface; when the end face of the slope is required, control the rotation of the first threaded rod through the first electric machine, and use the first threaded rod to guide the guide slide block. The guide slide block is driven and slid to the rightmost side in the guide slide housing. At this time, the guide slide block drives the second gear and is engaged with and connected to the first gear by power. Drive the car as far as possible from the first At this time, the second electric machine drives and rotates the first gear by controlling the second gear, and the first gear drives and rotates the female screw kit. At this time, the female screw kit drives the second screw rod to adjust the control body. Gradually move to the rear side, at the same time, the second screw rod drives the angle modulation body and rotates it in the direction of the connection axis, thereby realizing the angle adjustment work of the angle modulation body, the angle modulation body needs the required machining angle At this time, the first screw rod is controlled and rotated in the opposite direction through the first electric machine, the guide slide block is slid to the initial position, and the control of the rotation of the second electric machine is performed. The end face machining operation is realized, thereby realizing the automatic driving of the control of the angle adjustment and the automatic control of the elevating operation of the elevating beam.

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

FIG. 1 is a top view of the geothermal industrial processing apparatus of the present invention. FIG. 2 is a schematic diagram of the internal structure of the adjustment control body of the present invention. FIG. 3 is a sectional view taken along line AA of FIG. 2 of the present invention. FIG. 4 is a schematic diagram of the internal structure of the cutting machine of the present invention.

Hereinafter, the present invention will be described in detail with reference to FIGS.

As shown in FIGS. 1 to 4, the geothermal industrial processing apparatus according to the embodiment of the present invention includes a base plate 5, an adjustment control body 8 fixedly installed on the top of the base plate 5, and a left side of the adjustment control body 8. A connection shaft 71 including a cutting machine 6 and an angle modulation machine 7 installed on the rear side of the adjustment control machine 8 and extending downward to the left of the bottom end surface of the angle modulation machine 7 is engaged by sliding. The bottom end of the connection shaft 71 is fixedly engaged and connected to the top end surface of the base plate 5, and a groove 72 is provided on the right side of the front end surface of the angle modulation body 7, and is provided in the dovetail groove 72. A block 721 is engaged and connected by a slide, and a hinge part 722 extending out of a front end face of the angle modulation body 7 is fixedly installed on a front end face of the dovetail block 721, and a guide slide housing is provided in the adjustment control body 8. 81 is installed, the guide A guide slide block 811 is engaged and connected by slide in the slide housing 81, and a first screw rod 812 that extends and is installed in the guide slide block 811 to extend left and right is engaged and connected by a screw thread. The right end of one threaded rod 812 is power-engaged and connected to a first electric machine 813 which is fixedly fitted into the right inner wall of the guide slide housing 81, and turns right into the rear wall of the guide slide housing 81. A first empty groove 82 extending and installed is communicated and installed, and a female screw kit 822 is rotationally engaged and connected to a rear side wall of the first empty groove 82, and is rearwardly inserted into a rear end surface of the female screw kit 822. A second threaded rod 821, which is extended and installed, is engaged and connected by a thread, and a rear end of the second threaded rod 821 extends out of a rear end face of the adjustment control body 8 and from the dovetail block 721. The hinged component 722 is fixedly engaged and connected to the separated A first gear 823 that extends and is inserted into the first empty groove 82 is fixedly installed at the front end of the tongue 822, a second empty groove 84 is communicated with the front side wall of the guide slide housing 81, and A first rotary shaft 841 installed to extend left and right in the left side wall of the two empty grooves 84 is rotationally engaged and connected, and the right end of the first rotary shaft 841 is inserted into the second empty groove 84. A first gear 842 to be extended and inserted is fixedly installed, and an adjustment drive used for being power-engaged and connected to the first gear 823 and the first gear 842 in the guide slide block 811. A mechanism is installed, the cutting body 6 includes a support column 61 whose bottom end is fixedly connected to the base plate 5, and a transmission housing 611 is installed in the support column 61, and a right side of the transmission housing 611. A second rotating shaft 613 extending right and left in the wall is engaged and connected by rotation, and the second rotating shaft 613 is A second gear 614 that extends and is inserted into the transmission housing 611 at the left end is fixedly installed, and the right end of the second rotating shaft 613 is located at a relative position to the left end of the first rotating shaft 841. The left extension end of the first rotation shaft 841 extends out of the left end surface of the adjustment control body 8 and is fixedly engaged and connected to the right end of the second rotation shaft 613, and is connected to the rear end surface of the support column 61. An elevating chute 616 is installed at the upper side of the transmission casing 611, and an elevating actuator is installed in the elevating chute 616.

As a useful and illustrative example, the adjusting drive mechanism includes a second electric machine 83 fixedly installed in the guide slide block 811, and a rear end of the second electric machine 83 has the first empty groove 82. A second gear 815 extending and inserted therein is connected by power, the second gear 815 is located on the left side of the first gear 823, and is inserted into the second free groove 84 at the front end of the second electric machine 83. The third gear 816 to be extended and inserted is connected by power, the third gear 816 is located on the right side of the first gear 842, thereby realizing automatic drive control, and the first gear 823 and the first gear 823 are connected. The work stability of the third gear 816 is improved, the work efficiency is greatly improved, the labor of the workers is reduced, and at the same time, the operating costs are reduced.

As an advantageous and illustrative example, the lifting actuator is configured to be rotatably engaged between the lifting chute 616 and the transmission housing 611 and installed vertically and the lifting screw rod 615 and the lifting chute 616 are installed vertically. The lifting beam 62, which is slidably engaged and installed in a rearward direction, and is inserted into the transmission housing 611 at the bottom end of the lifting screw bar 615 and inserted into the second stage. A fourth gear 612, which is power-connected to the car 614, is fixedly installed, and a top end of the lifting screw 615 extends into the lifting chute 616, and is inserted into the lifting chute 616 and rotates on the top wall of the lifting chute 616. The lifting screw rod 615 is engaged and connected with the lifting beam 62 located in the lifting chute 616 with a screw thread, and is inserted into the lifting beam 62 on the rear side of the lifting screw rod 615. Guide slide bar 617 extended vertically and engaged by slide The ends of the upper and lower ends of the guide slide bar 617 are fixedly engaged and connected to the upper and lower walls of the elevating chute 616, respectively, and a through mounting groove 621 is formed in the elevating beam 62 located on the rear side of the support column 61. A third electric machine 623 is installed, and a cutting blade 622 is rotationally engaged and connected into the through-mounting groove 621, and a third electric machine 623 which is power-engaged and connected to the cutting blade 622 in a left wall of the through-mounting groove 621. The tip pocket 51 is fixedly fitted and penetratingly installed in the base plate 5 facing the bottom of the cutting blade 622, thereby realizing automatic control of a high-speed cutting operation on the geothermal plate of the lifting drive control, thereby greatly improving the working efficiency. Enhance.

As a useful and illustrative example, a clamp component 73 is installed symmetrically in the top end face of the angle modulating body 7, thereby increasing the stability when cutting the geothermal plate.

In the initial state, the angle modulation body 7 is parallel to the adjustment control body 8, and at this time, the second screw rod 821 is completely located in the female screw kit 822, and at the same time, the guide slide block 811 is moved to the guide slide housing 81. At this time, the guide slide block 811 drives the second gear 815 to move it away from the first gear 823 at the maximum, and at the same time, the guide slide block 811 drives the third gear 816 to The first gear is motively engaged and connected, with the lifting beam 62 at the top of the lifting chute 616.

When the end face of the plane is required, the third gear 816 is controlled through the second electric machine 83 to drive and rotate the first gear 842 and the first rotating shaft 841, and the first rotating shaft 841 is rotated by the second rotating shaft 841. 613 and the second gear 614 are driven and rotated. At this time, the second gear 614 drives and rotates the fourth gear 612 and the lifting screw rod 615, and at the same time, the lifting screw rod 615 is raised and lowered. Drive 62 and gradually slide it to the bottom of the lifting chute 616 to realize the end face directly connected to the plane; when the end face of the slope is required, control the rotation of the first screw rod 812 through the first electric machine 813 Then, the guide slide block 811 is driven by the first screw rod 812 and is slid to the rightmost side in the guide slide housing 81. At this time, the guide slide block 811 drives the second gear 815 and causes the first gear 823 to move. It is engaged and connected by power, and at the same time, the guide slide block 811 drives the third gear 816 As far as possible, the second gear 83 drives and rotates the first gear 823 under the control of the second gear 815, and the first gear 823 drives and rotates the female screw kit 822. At this time, the female screw kit 822 drives the second screw rod 821 and gradually moves it to the rear side of the adjustment control body 8, and at the same time, the second screw rod 821 drives the angle modulation body 7 to move in the direction of the connection shaft 71. Rotate, thereby realizing the angle adjustment work of the angle modulation body 7, and when the angle modulation body 7 moves to the required processing angle, at this time, the first screw rod 812 is controlled through the first electric machine 813 in the opposite direction. By rotating, the guide slide block 811 is slid to the initial position, and the rotation of the second electric machine 83 is controlled to realize the end face machining operation of the slope.

Those skilled in the art will be able to clarify the case without departing from the general spirit and idea of the present invention. Various modifications can be made to the above-described embodiments, and all of these modifications fall within the protection scope of the present invention. The protection scheme of the present invention should be based on the claim of the present invention.

Claims (1)

The geothermal industrial processing apparatus includes a base plate, an adjustment control body fixedly installed on the top of the base plate, a cutting body installed on the left side of the adjustment control body, and an angle modulation body installed on the rear side of the adjustment control body. A connection shaft extending downwardly to the left of a bottom end surface of the angle modulation body is engaged and connected by sliding; a bottom end of the connection shaft is fixedly engaged and connected to a top end surface of the base plate; A hinge part is provided on the right side of the front end face of the modulator body, a groove is provided, and the block is slidably engaged in the groove and extends outside the front end face of the angle modulation body on the front end face of the dovetail block. Is fixedly installed, a guide slide housing is installed in the adjustment control body, and a guide slide block is slidably engaged in the guide slide housing. A first screw rod extending left and right in the guide slide block is engaged and connected by a screw thread, and a right end of the first screw rod is fixed in a right inner wall of the guide slide housing. A first empty groove, which is engaged and connected by power to the first electric machine fitted with the power supply and extends to the right inside the rear wall of the guide slide housing, is provided in communication therewith, and a rear wall body of the first empty groove is provided. A female screw kit is rotationally engaged and connected to the female screw kit, and a second screw rod extending rearward into the rear end face of the female screw kit is engaged and connected with a screw thread, and a rear end of the second screw rod is connected to the female screw kit. Extends out of the rear end face of the adjustment control body and is fixedly engaged and connected to the hinge part separated from the dowel block, and is inserted into the first empty groove at the front end of the female screw kit. The first gear is fixedly installed, and the guide A second empty groove is communicated with the front side wall of the housing, and a first rotating shaft extending leftward and rightward in the left side wall of the second empty groove is engaged and connected by rotation. At the right end of the rotating shaft, a first gear that extends and is inserted into the second empty groove is fixedly installed, and is engaged with the first gear and the first gear by power in the guide slide block. An adjusting drive mechanism to be used to perform the cutting, the cutting body includes a column having a bottom end fixedly connected to the base plate, a transmission housing is installed in the column, and the transmission is installed. A second rotary shaft extending left and right in the right wall of the housing is rotationally engaged and connected, and a second rotary shaft extending into the transmission housing at a left end of the second rotary shaft is inserted. A gear train is fixedly installed, and the right end of the second rotating shaft is opposed to the left end of the first rotating shaft Position, wherein the left extension end of the first rotating shaft extends out of the left end surface of the adjustment control body and is fixedly engaged and connected to the right end of the second rotating shaft, and is provided in the rear end surface of the support column. An elevating chute is installed at the upper side of the transmission casing, an elevating actuator is installed in the elevating chute, and the adjusting drive mechanism is fixedly installed in the guide slide block. A second gear that includes two electric machines and extends and is inserted into the first empty groove at the rear end of the second electric machine is connected by power, and the second gear is located on the left side of the first gear, A third gear, which extends and is inserted into the second empty groove, is connected to the front end of the second electric machine by power, the third gear is located on the right side of the first gear, and the lifting actuator is Turn between the lifting chute and the transmission housing A lifting screw rod, which is engaged and installed at a vertical extension, and the lifting beam, which is engaged and installed by sliding within the lifting chute and is installed at a rearward extension, and a bottom portion of the lifting screw rod A fourth gear, which extends into the transmission housing at the end and is power-engaged and connected to the second gear, is fixedly installed, and the top end of the lifting screw bar is inserted into the lifting chute. The lifting screw is extended and inserted and rotationally connected to the top wall of the lifting chute, and the lifting screw bar is threadedly connected to the lifting beam located in the lifting chute. A guide slide bar extending vertically installed in the lifting beam on the side is engaged and connected by slide, and upper and lower ends of the guide slide bar are fixedly engaged and connected to upper and lower walls of the lift chute, respectively. Located behind the support A through mounting groove is provided in the lifting beam, a cutting blade is rotationally engaged and connected in the through mounting groove, and is power-engaged and connected to the cutting blade in a left side wall of the through mounting groove. The third electric machine is fixedly fitted, a tip pocket is penetrated in the base plate facing the bottom of the cutting blade, and a clamp configuration device is installed symmetrically in the top end surface of the angle modulation body. Is done.

Images