CN114592790A - Propelling device for geothermal exploration drilling - Google Patents

Abstract

The invention relates to the technical field of exploration drilling, in particular to a propulsion device for geothermal exploration drilling, which comprises a supporting plate, a guide seat and a clamping seat, wherein the supporting plate is provided with a guide hole, one side of the guide hole is provided with the clamping seat, the clamping seat comprises a supporting plate, a movable plate and a clamping block, one side of the clamping seat is provided with a side plate, one side of the side plate is provided with a top plate corresponding to the guide hole, a driver is arranged on the top plate, the bottom of the top plate is provided with a plurality of connecting rods, the top plate is connected with a resisting plate through the connecting rods, one side of the resisting plate, which faces the top plate, is provided with the guide seat, a plurality of lifting seats are arranged on the outer wall of the supporting plate in an array mode, the bottom of each lifting seat is provided with a buffer seat, the side plate is provided with a slide way, and a threaded rod is arranged inside the slide way. The propulsion device for geothermal exploration drilling is reasonable in design, simple in structure and capable of being widely used.

Description

Propelling device for geothermal exploration drilling

Technical Field

The invention relates to the technical field of exploration drilling, in particular to a propulsion device for geothermal exploration drilling.

Background

Seismic methods for geothermal resource exploration are classified into two types, active seismic and passive seismic. The passive seismic exploration is an exploration method which monitors seismic waves generated by microseism activity in a rock stratum by using a dense seismic array, then inverts the activity characteristics of the microseism by using a seismology method and performs the distribution of elastic parameters such as three-dimensional longitudinal and transverse wave velocity, longitudinal and transverse wave velocity ratio, Poisson ratio and the like in a research area. The passive seismic exploration method is generally applied to foreign geothermal resource exploration, and the method is not widely researched at home. Active seismic refers to a high resolution reflection seismic exploration method. Active earthquakes are relatively high in cost, so that passive earthquakes are still relied on in the general investigation stage of geothermal resources, and the active earthquakes are the most reliable data for geothermal reservoirs in an evaluation area

The drilling equipment is required to be used in the process of exploration drilling, so that the accuracy of drilling is ensured, the existing equipment is poor in stability when in use, and drill bits of different sizes are not convenient to clamp and fix when in use, and therefore the propulsion device for geothermal exploration drilling is provided.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a propulsion device for geothermal exploration drilling.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a geothermal exploration drilling is with advancing device, includes backup pad, guide holder and grip slipper, its characterized in that: the guide hole has been seted up in the backup pad, guide hole one side is provided with the grip slipper, the grip slipper includes extension board, fly leaf and fixture block, one side of grip slipper is provided with the curb plate, be provided with the roof that corresponds with the guide hole position on the curb plate, be provided with the driver on the roof, the bottom of roof is provided with many connecting rods, the roof is connected with through the connecting rod and supports the board, support one side that the board was towards the roof and be provided with the guide seat, the array is provided with a plurality of lift seats in the backup pad, the bottom of lift seat is provided with the cushion socket.

As a preferred embodiment: the slide has been seted up on the curb plate, the inside of slide is provided with the threaded rod, the activity is provided with the sliding block of being connected with the board that supports on the threaded rod, the top of curb plate is provided with driving motor.

As a preferred embodiment: the guide device is characterized in that a guide groove is formed in the guide seat, a contraction rod is arranged in the guide groove, a push plate is arranged on the contraction rod, and a pressing rod abutted against the top plate is arranged on one side of the push plate.

As a preferred embodiment: the outer wall of the push plate is symmetrically provided with clamping plates, the clamping plates are provided with a plurality of inclined plates, the inclined plates are arranged in a pairwise symmetrical mode, and springs are arranged between the two inclined plates located on the same side.

As a preferred embodiment: the bottom of the abutting plate is provided with a mounting plate, the mounting plate is provided with a fastening groove, and the mounting plate is provided with a plurality of fastening rods.

As a preferred embodiment: the supporting plate is provided with two supporting rods, and the top plate and the abutting plate are provided with clamping holes for the supporting rods to penetrate through.

As a preferred embodiment: the supporting plate is provided with a sliding groove, a guide rod matched with the movable plate is arranged in the sliding groove, the movable plate is provided with a convex plate, the convex plate is provided with a bayonet for mounting a clamping block, one side of the clamping block is provided with a fixed block, and the fixed block is provided with a roller.

As a preferred embodiment: the lifting groove is formed in the lifting seat, the screw rod is arranged in the lifting groove, the lifting block connected with the supporting plate is arranged on the screw rod, and the limiting plate fixedly connected with the buffer seat is arranged at the bottom of the lifting seat.

As a preferred scheme: the buffer seat comprises an upper pressing plate and a lower pressing plate, wherein a groove is formed in one side, opposite to the upper pressing plate, of the lower pressing plate, a pressure spring and a limiting block are arranged in the groove, clamping grooves are formed in the upper pressing plate and the lower pressing plate, and connecting rods are arranged in the clamping grooves.

The invention has the beneficial effects that:

1. according to the propulsion device for geothermal exploration drilling, the clamping seat corresponding to the guide hole is arranged on the supporting plate, so that drill bits with different sizes can be clamped and fixed conveniently during use, and the applicability of the device is improved.

2. According to the propulsion device for geothermal exploration drilling, the guide seat is arranged between the abutting plate and the top plate, so that power generated by the driver is buffered, and stable operation of the device is guaranteed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and detailed embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor. Wherein:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the guide seat of the present invention;

FIG. 3 is a schematic view of a clamping base according to the present invention;

FIG. 4 is a schematic view of the lifting seat of the present invention;

FIG. 5 is a schematic view of the internal structure of the buffer seat of the present invention.

In the figure: 1. a support plate; 10. a guide hole; 100. a slideway; 101. a side plate; 102. a drive motor; 103. a threaded rod; 104. a slider; 105. a strut; 106. a top plate; 107. a connecting rod; 108. a resisting plate; 109. a driver; 11. a clamping seat; 110. a sliding groove; 111. a support plate; 112. a guide bar; 113. a movable plate; 114. a convex plate; 115. a bayonet; 116. a clamping block; 117. a fixed block; 118. a roller; 12. a lifting seat; 120. a lifting groove; 122. a lifting block; 123. a screw; 124. a limiting plate; 13. a buffer seat; 130. a card slot; 131. an upper pressure plate; 132. a lower pressing plate; 133. a groove; 134. a pressure spring; 135. a limiting block; 136. a connecting rod; 14. a guide seat; 140. a guide groove; 141. a retracting lever; 142. a fastening rod; 143. a fastening groove; 144. pushing the plate; 145. a pressure lever; 146. clamping a plate; 147. a sloping plate; 148. a spring; 149. and (7) mounting the plate.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying fig. 1 to 5 are described in detail below.

Next, the present invention will be described in detail with reference to the drawings, wherein for convenience of illustration, the cross-sectional view of the device structure is not enlarged partially according to the general scale, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in the actual fabrication.

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The invention provides a propulsion device for geothermal exploration drilling, which comprises a supporting plate 1, a guide seat 14 and a clamping seat 11, wherein a guide hole 10 is formed in the supporting plate 1, the clamping seat 11 is arranged on one side of the guide hole 10, the clamping seat 11 comprises a supporting plate 111, a movable plate 113 and a clamping block 116, a side plate 101 is arranged on one side of the clamping seat 11, a top plate 106 corresponding to the guide hole 10 is arranged on the side plate 101, a driver 109 is arranged on the top plate 106, a plurality of connecting rods 107 are arranged at the bottom of the top plate 106, the top plate 106 is connected with a resisting plate 108 through the connecting rods 107, the guide seat 14 is arranged on one side, facing the top plate 106, of the resisting plate 108, a plurality of lifting seats 12 are arranged on the supporting plate 1 in an array mode, and a buffer seat 13 is arranged at the bottom of the lifting seats 12.

As can be seen from fig. 1, the side plate 101 is provided with a slide 100, a threaded rod 103 is arranged inside the slide 100, a sliding block 104 connected with the abutting plate 108 is movably arranged on the threaded rod 103, and the top of the side plate 101 is provided with a driving motor 102, so that the threaded rod 103 and the sliding block 104 are matched with each other, thereby facilitating the adjustment of the position of the abutting plate 108 when in use.

As can be seen from fig. 2, a guide groove 140 is formed in the guide seat 14, a contraction rod 141 is disposed in the guide groove 140, a push plate 144 is disposed on the contraction rod 141, a pressure rod 145 abutting against the top plate 106 is disposed on one side of the push plate 144, a clamping plate 146 is symmetrically disposed on the outer wall of the push plate 144, a plurality of inclined plates 147 are disposed on the clamping plate 146, the inclined plates 147 are symmetrically disposed in pairs, and a spring 148 is disposed between the two inclined plates 147 on the same side.

As can be seen from fig. 2, the bottom of the abutting plate 108 is provided with an installation plate 149, the installation plate 149 is provided with a fastening slot 143, the installation plate 149 is provided with a plurality of fastening rods 142, and the installation plate 149 is provided with the fastening rods 142, so that a drill to be installed can be conveniently fixed inside the fastening slot 143 during use.

As can be seen from fig. 1, the supporting plate 1 is provided with two supporting rods 105, and the top plate 106 and the abutting plate 108 are provided with fastening holes for the supporting rods 105 to pass through.

As can be seen from fig. 3, the support plate 111 is provided with a sliding groove 110, a guide rod 112 which is matched with the movable plate 113 is arranged inside the sliding groove 110, the movable plate 113 is provided with a protruding plate 114, the protruding plate 114 is provided with a bayonet 115 for mounting the fixture block 116, one side of the fixture block 116 is provided with a fixed block 117, the fixed block 117 is provided with a roller 118, and the guide rod 112 arranged inside the sliding groove 110 is matched with the movable plate 113, so that the movable plate 113 is driven to move, and the position of the fixture block 116 is conveniently adjusted according to the size of a drill bit to be mounted when the drill bit is used.

As can be seen from fig. 4, a lifting groove 120 is formed in the lifting seat 12, a screw 123 is arranged in the lifting groove 120, a lifting block 122 connected to the support plate 1 is arranged on the screw 123, and a limiting plate 124 fixedly connected to the buffer seat 13 is arranged at the bottom of the lifting seat 12.

It can be known from fig. 5 that, the buffer seat 13 includes an upper pressing plate 131 and a lower pressing plate 132, a groove 133 has been all seted up to one side that the upper pressing plate 131 and the lower pressing plate 132 are opposite, the inside of groove 133 is provided with a pressure spring 134 and a limiting block 135, a draw-in groove 130 has all been seted up on upper pressing plate 131 and the lower pressing plate 132, the inside of draw-in groove 130 is provided with a connecting rod 136, utilizes the elastic force that the pressure spring 134 that sets up in the inside of groove 133 produced, cushions rocking that buffer seat 13 received.

The working principle is as follows: before the propulsion device for geothermal exploration drilling is used, a drill bit to be used is clamped in a fastening groove 143 and is fixedly installed through a fastening rod 142 arranged on a mounting plate 149, when the propulsion device is used, a driving motor 102 arranged on a side plate 101 is started to drive a threaded rod 103 to rotate, so that a resisting plate 108 is driven to move, the drill bit penetrates through a guide hole 10, a driver 109 arranged on a top plate 106 is started, a push plate 144 is driven to move through the driver 109, so that the push plate 144 generates acting force on the contraction rod 141, and a sloping plate 147 arranged on the clamping plate 146 is driven to move, when the push plate 144 is abutted against the inner wall of a guide groove 140, the thrust is generated on the drill bit on the resisting plate 108, and the drill bit performs drilling operation under the cooperation of the threaded rod 103; in the using process, the shaking generated by the device is buffered through the pressure spring 134 arranged in the clamping groove 130.

It will be apparent to those skilled in the art that various modifications and variations can be made in the embodiments of the present invention without departing from the spirit or scope of the embodiments of the invention. It is intended that the present invention also include the modifications and variations of the embodiments provided they come within the scope of the claims and their equivalents.

Claims (9)

1. A propulsion device for geothermal exploration drilling, comprising a support plate (1), a guide seat (14) and a clamping seat (11), characterized in that: the guide plate is characterized in that a guide hole (10) is formed in the supporting plate (1), a clamping seat (11) is arranged on one side of the guide hole (10), the clamping seat (11) comprises a supporting plate (111), a movable plate (113) and a clamping block (116), a side plate (101) is arranged on one side of the clamping seat (11), a top plate (106) corresponding to the guide hole (10) is arranged on the side plate (101), a driver (109) is arranged on the top plate (106), a plurality of connecting rods (107) are arranged at the bottom of the top plate (106), a supporting plate (108) is connected to the top plate (106) through the connecting rods (107), a guide seat (14) is arranged on one side, facing the top plate (106), of the supporting plate (108), a plurality of lifting seats (12) are arranged in an array mode on the supporting plate (1), and a buffer seat (13) is arranged at the bottom of the lifting seats (12).

2. The propulsion device for geothermal exploration drilling according to claim 1, wherein: the improved structure of the anti-theft device is characterized in that a slide way (100) is formed in the side plate (101), a threaded rod (103) is arranged inside the slide way (100), a sliding block (104) connected with the abutting plate (108) is movably arranged on the threaded rod (103), and a driving motor (102) is arranged at the top of the side plate (101).

3. The propulsion device for geothermal exploration drilling according to claim 1, wherein: a guide groove (140) is formed in the guide seat (14), a contraction rod (141) is arranged in the guide groove (140), a push plate (144) is arranged on the contraction rod (141), and a pressing rod (145) abutted to the top plate (106) is arranged on one side of the push plate (144).

4. A propulsion device for geothermal exploration drilling according to claim 3, wherein: the outer wall of the push plate (144) is symmetrically provided with a clamping plate (146), the clamping plate (146) is provided with a plurality of inclined plates (147), the inclined plates (147) are symmetrically arranged in pairs, and a spring (148) is arranged between the two inclined plates (147) on the same side.

5. A propulsion device for geothermal exploration drilling according to claim 1, wherein: the bottom of the abutting plate (108) is provided with a mounting plate (149), the mounting plate (149) is provided with a fastening groove (143), and the mounting plate (149) is provided with a plurality of fastening rods (142).

6. The propulsion device for geothermal exploration drilling according to claim 1, wherein: two supporting rods (105) are arranged on the supporting plate (1), and clamping holes for the supporting rods (105) to penetrate through are formed in the top plate (106) and the abutting plate (108).

7. The propulsion device for geothermal exploration drilling according to claim 1, wherein: the supporting plate (111) is provided with a sliding groove (110), a guide rod (112) matched with a movable plate (113) is arranged inside the sliding groove (110), the movable plate (113) is provided with a convex plate (114), the convex plate (114) is provided with a bayonet (115) for installing a clamping block (116), one side of the clamping block (116) is provided with a fixed block (117), and the fixed block (117) is provided with a roller (118).

8. The propulsion device for geothermal exploration drilling according to claim 1, wherein: lifting groove (120) have been seted up to the inside of lift seat (12), the inside of lifting groove (120) is provided with screw rod (123), be provided with elevator (122) of being connected with backup pad (1) on screw rod (123), the bottom of lift seat (12) is provided with limiting plate (124) with buffer seat (13) fixed connection.

9. A propulsion device for geothermal exploration drilling according to any one of claims 1 to 8, characterised in that: buffer seat (13) include top board (131) and holding down plate (132), top board (131) and holding down plate (132) one side in opposite directions all seted up recess (133), the inside of recess (133) is provided with pressure spring (134) and stopper (135), draw-in groove (130) have all been seted up on top board (131) and holding down plate (132), the inside of draw-in groove (130) is provided with connecting rod (136).

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