CN216348117U - Industrial electronic detonator assembling equipment - Google Patents

Abstract

The utility model relates to the technical field of detonators, in particular to industrial electronic detonator assembling equipment.

Description

Industrial electronic detonator assembling equipment

Technical Field

The utility model relates to the technical field of detonators, in particular to industrial electronic detonator assembling equipment.

Background

At present, industrial electronic detonators are widely popularized and used in the whole world, explosiveness is one of main safety-harming factors of the industrial electronic detonators in the assembly process of the industrial electronic detonators, when the industrial detonators are produced and assembled, an electronic circuit of the industrial electronic detonators can be detected finally to reach the standard of assembly and use, a common manual detection mode is adopted in the detection process, human resource investment is large, efficiency is low, the danger coefficient is high, and personal safety hidden dangers are easily caused when operators are improperly operated during detection.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide industrial electronic detonator assembling equipment, and aims to solve the technical problems that in the prior art, when industrial detonators are produced and assembled, the circuit performance of the industrial electronic detonators can be finally detected to reach the standard of assembly and use, the current detection process adopts a common manual detection mode, the human resource investment is large, the efficiency is low, the danger coefficient is high, and the personal safety hidden danger is easily caused when operators perform improper operation during detection.

In order to achieve the purpose, the industrial electronic detonator assembling equipment comprises a clamping disc, a detection base, a probe and a transmission device;

the clamping disc is connected with the detection base through the transmission device and is positioned on one side of the detection base;

the probe is arranged on the detection base through a support and is positioned on one side, close to the clamping disc, of the detection base;

the transmission device comprises a guide rail, a sliding block, a connecting support and a hydraulic assembly, the guide rail is fixedly connected with the detection base and is located at one side of the clamping disc, the sliding block is connected with the guide rail in a sliding mode and is located at one side of the detection base, one side of the connecting support is fixedly connected with the sliding block, the other side of the connecting support is fixedly connected with the clamping disc and is located between the sliding block and the clamping disc, and the hydraulic assembly is fixedly connected with the detection base.

The clamping disc is connected to the detection base through the transmission device, the probe is connected to the detection base through a support, the detonator body is clamped through the clamping disc, a human body is prevented from directly contacting the detonator body during detection, the probe extends into a loop of a detection electronic detonator in the detonator, the guide rail is welded to the detection base, the limiting movement in the moving process is realized through the guide rail, the slider is in sliding connection with the guide rail, the right side of the connecting support is welded to the slider, the connecting support is driven to move through the movement of the slider on the guide rail, the left side of the connecting support is welded to the clamping disc, the clamping disc is driven to move along the guide rail through the movement of the connecting support, and the hydraulic assembly is welded to the detection base, the clamping disc is driven by the hydraulic component to move, so that a detonator body is placed on the clamping disc to be clamped, the probe is connected to the detection base through a support, the guide rail is welded to the detection base, the sliding block is connected with the guide rail in a sliding mode, the hydraulic component provides driving power to move the sliding block on the guide rail, the connecting support is welded to the sliding block, the clamping disc is welded to the connecting support, the clamping disc is driven to move through the movement of the sliding block, the clamping disc moves to the position below the probe on the detection base, the probe extends into the electronic detonator to detect an internal loop, the direct contact between a human body and the detonator during detection is avoided, and the safety during detection is improved, eliminating the hidden danger of personal safety.

The hydraulic assembly comprises a hydraulic cylinder and a hydraulic rod, the hydraulic cylinder is fixedly connected with the detection base and is positioned on one side of the detection base, which is close to the guide rail; one end of the hydraulic rod is connected with the hydraulic cylinder, and the other end of the hydraulic rod is fixedly connected with the sliding block and is positioned between the hydraulic cylinder and the sliding block.

The hydraulic cylinder is welded on the detection base, the hydraulic cylinder provides power for the hydraulic rod to stretch in the stretching process, one end of the hydraulic rod is connected with the output end of the hydraulic cylinder, the other end of the hydraulic rod is connected with the sliding block, the hydraulic rod is arranged between the hydraulic cylinder and the sliding block, and the sliding block is moved in the length direction of the guide rail by stretching the hydraulic rod through the output power provided by the hydraulic cylinder.

The guide rail is provided with a transverse sliding groove, and the transverse sliding groove is positioned on one side of the guide rail, which is close to the sliding block, and is matched with the sliding block.

The guide rail is provided with the transverse sliding groove, a notch of the transverse sliding groove faces to the direction of the clamping disc, and the clamping disc is driven by the sliding block to move along the long direction of the transverse sliding groove, so that the clamping disc moves below the probe.

Wherein, the detection base has a body spout, the notch orientation of body spout the one side of probe.

The detection base is provided with a tube body sliding groove, the clamping disc clamps the upper part of the electronic detonator tube body, and the lower part of the electronic detonator tube body moves in the tube body sliding groove along the long direction of the tube body sliding groove.

The industrial electronic detonator assembling equipment further comprises a lateral support, wherein the lateral support is fixedly connected with the detection base, fixedly connected with the probe and positioned on one side of the detection base close to the probe.

The side direction support welding is in the left side of detecting the base, it is right through the side direction support when the probe detects and pass through the inside that the body can be stretched into to the side direction support.

The industrial electronic detonator assembling equipment further comprises a containing box, wherein the containing box is fixedly connected with the detection base and is positioned on the outer side of the detection base.

Wherein, the containing box still includes the groove of accomodating, the notch in accomodating the groove is towards one side of probe.

The containing box welding is in the outside of detecting the base, the containing box still has the groove of accomodating, the notch orientation of accomodating the groove the direction of probe, through the centre gripping disc is put into the electronic detonator in the containing box, concentrates the collection to the electronic detonator that detects the completion.

The industrial electronic detonator assembling equipment further comprises a spongy cushion, wherein the spongy cushion is fixedly connected with the containing box and is positioned on one side of the containing box.

The sponge pads are bonded on the periphery and the bottom inside the containing box, and the electronic detonators placed in the containing box are protected by the sponge pads, so that damage to internal circuits of the detonators caused by collision is prevented, and safety problems are caused.

The industrial electronic detonator assembling equipment of the utility model clamps the detonator tube body on the clamping disc, the probe is connected to the detection base through a bracket, the guide rail is welded on the detection base, the sliding block is connected with the guide rail in a sliding way, the hydraulic assembly provides driving power to move the sliding block on the guide rail, the connecting bracket is welded on the sliding block, the clamping disc is welded on the connecting bracket, thereby driving the clamping disc to move through the movement of the sliding block, so that the clamping disc moves to the lower part of the probe on the detection base, through the probe stretches into the inside of the electronic detonator to detect the inner loop of the detonator, the direct contact between a human body and the detonator is avoided during detection, so that the safety during detection is improved, and the potential safety hazard of the human body is eliminated.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of an industrial electronic detonator assembling apparatus of the present invention.

Fig. 2 is a schematic view of the structure of the transmission of the present invention.

Fig. 3 is a schematic view of the connection of the connecting bracket of the present invention with the clamping disk and the slider.

Fig. 4 is a schematic view of the sponge mat of the present invention connected to a storage box.

Fig. 5 is a schematic diagram of the hydraulic assembly of the present invention.

In the figure: the device comprises a clamping disc 1, a detection base 2, a probe 3, a transmission device 4, a lateral support 5, a storage box 6, a sponge cushion 7, a pipe body chute 21, a guide rail 41, a sliding block 42, a connecting support 43, a hydraulic assembly 44, a storage groove 61, a transverse chute 411, a hydraulic cylinder 441 and a hydraulic rod 442.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides an industrial electronic detonator assembling apparatus, which includes a clamping disc 1, a detection base 2, a probe 3 and a transmission device 4;

the clamping disc 1 is connected with the detection base 2 through the transmission device 4 and is positioned on one side of the detection base 2; the probe 3 is arranged on the detection base 2 through a bracket and is positioned on one side of the detection base 2 close to the clamping disc 1; transmission 4 includes guide rail 41, slider 42, linking bridge 43 and hydraulic assembly 44, guide rail 41 with detect base 2 fixed connection, and be located it is close to detect base 2 one side of centre gripping disc 1, slider 42 with guide rail 41 sliding connection, and be located guide rail 41 is close to detect one side of base 2, linking bridge 43 one side with slider 42 fixed connection, linking bridge 43 the opposite side with centre gripping disc 1 fixed connection, and be located slider 42 with between the centre gripping disc 1, hydraulic assembly 44 with detect base 2 fixed connection.

In this embodiment, the clamping disc 1 is connected to the detection base 2 through the transmission device 4, the probe 3 is connected to the upper side of the detection base 2 through a bracket, the detonator body is clamped through the clamping disc 1, so as to prevent a human body from directly contacting the detonator body during detection, the probe 3 extends into the detonator to detect the circuit of the electronic detonator, the guide rail 41 is welded to the right side of the detection base 2, the limit movement during the movement is realized through the guide rail 41, the slider 42 is slidably connected with the guide rail 41, the right side of the connecting bracket 43 is welded to the slider 42, the connecting bracket 43 is driven to move by the movement of the slider 42 on the guide rail 41, the left side of the connecting bracket 43 is welded to the clamping disc 1, and the clamping disc 1 is driven to move along the direction of the guide rail 41 by the movement of the connecting bracket 43, the clamping disc 1 is driven to move along the direction of the guide rail 41 by the movement of the connecting support 43, the hydraulic assembly 44 is welded on the detection base 2, so that the clamping disc 1 is driven to move by the drive of the hydraulic assembly 44, the detonator tube body is clamped on the clamping disc 1, the probe 3 is connected on the detection base 2 through a support, the guide rail 41 is welded on the detection base 2, the slide block 42 is in sliding connection with the guide rail 41, the slide block 42 is driven to move on the guide rail 41 by the drive power provided by the hydraulic assembly 44, the connecting support 43 is welded on the slide block 42, the clamping disc 1 is welded on the connecting support 43, so that the clamping disc 1 is driven to move on the detection base 2 by the movement of the slide block 42, and the clamping disc 1 is driven to move below the probe 3 on the detection base 2, through probe 3 stretches into inside the electronic detonator and detects detonator inner loop, human body and detonator direct contact when having avoided detecting to improve the security when detecting, eliminated personal safety hidden danger.

Further, referring to fig. 3 and 5, the hydraulic assembly 44 includes a hydraulic cylinder 441 and a hydraulic rod 442, wherein the hydraulic cylinder 441 is fixedly connected to the inspection base 2 and is located on one side of the inspection base 2 close to the guide rail 41; one end of the hydraulic rod 442 is connected to the hydraulic cylinder 441, the other end of the hydraulic rod 442 is fixedly connected to the slide block 42, and the hydraulic rod 442 is located between the hydraulic cylinder 441 and the slide block 42.

In this embodiment, the hydraulic cylinder 441 is welded to the inspection base 2, the hydraulic cylinder 441 provides power for extending and contracting the hydraulic rod 442 during extension and contraction, one end of the hydraulic rod 442 is connected to an output end of the hydraulic cylinder 441, the other end of the hydraulic rod 442 is connected to the slider 42, the hydraulic rod 442 is disposed between the hydraulic cylinder 441 and the slider 42, and the slider 42 is moved in the longitudinal direction of the guide rail 41 by extending and contracting the hydraulic rod 442 by the output power provided by the hydraulic cylinder 441.

Further, referring to fig. 2, the guide rail 41 has a transverse sliding slot 411, and the transverse sliding slot 411 is located on one side of the guide rail 41 close to the sliding block 42 and is engaged with the sliding block 42.

In this embodiment, the notch of the lateral sliding groove 411 faces the direction of the clamping disk 1, and the clamping disk 1 is moved along the long direction of the lateral sliding groove 411 by the driving of the sliding block 42, so that the clamping disk 1 is moved below the probe 3.

Further, referring to fig. 1, the detecting base 2 has a tube sliding slot 21, and a notch of the tube sliding slot 21 faces one side of the probe 3.

In the present embodiment, the electronic detonator is vertically moved on the detection base 2, the upper part of the electronic detonator tube is clamped by the clamping disk 1, and the lower part of the electronic detonator tube is moved in the tube slide groove 21 along the length direction of the tube slide groove 21.

Further, referring to fig. 1, the industrial electronic detonator assembling apparatus further includes a lateral bracket 5, wherein the lateral bracket 5 is fixedly connected with the detection base 2, fixedly connected with the probe 3, and located on one side of the detection base 2 close to the probe 3.

In this embodiment, the side direction support 5 is welded on the left side of the detection base 2, and the probe 3 is supported by the side direction support during detection, and can extend into the tube body through the side direction support 5.

Further, referring to fig. 1 and 4, the industrial electronic detonator assembling equipment further comprises a containing box 6, wherein the containing box 6 is fixedly connected with the detection base 2 and is located at the outer side of the detection base 2.

Further, referring to fig. 4, the receiving box 6 further includes a receiving groove 61, and a notch of the receiving groove 61 faces one side of the probe 3.

In this embodiment, the storage box 6 is welded to the lower outer side of the detection base 2, the storage box 6 further includes the storage groove 61, a notch of the storage groove 61 faces the direction of the probe 3, after the detection is completed, the clamping disk 1 continues to move to the lower end of the detection base 2, the electronic detonators are placed in the storage box 6 through the clamping disk 1, and the detected electronic detonators are collected in a concentrated manner.

Further, referring to fig. 1 and 4, the industrial electronic detonator assembling equipment further comprises a sponge pad 7, and the sponge pad 7 is fixedly connected with the containing box 6 and is positioned on one side of the containing box 6.

In the embodiment, the sponge pad 7 is bonded on the periphery and the bottom inside the containing box 6, and the electronic detonators put into the containing box 6 are protected by the sponge pad 7, so that the containing box 6 is prevented from causing damage to internal circuits of the detonators due to collision, and safety problems are further caused.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (8)

1. The industrial electronic detonator assembling equipment is characterized by comprising a clamping disc, a detection base, a probe and a transmission device;

the clamping disc is connected with the detection base through the transmission device and is positioned on one side of the detection base;

the probe is arranged on the detection base through a support and is positioned on one side, close to the clamping disc, of the detection base;

transmission includes guide rail, slider, linking bridge and hydraulic assembly, the guide rail with detect base fixed connection, and be located it is close to detect the base one side of centre gripping disc, the slider with guide rail sliding connection, and be located the guide rail is close to detect one side of base, one side of linking bridge with slider fixed connection, the opposite side of linking bridge with centre gripping disc fixed connection, and be located the slider with between the centre gripping disc, and be located the slider is close to one side of centre gripping disc, hydraulic assembly with detect base fixed connection.

2. The industrial electronic detonator assembling apparatus of claim 1 wherein,

the hydraulic assembly comprises a hydraulic cylinder and a hydraulic rod, the hydraulic cylinder is fixedly connected with the detection base and is positioned on one side of the detection base, which is close to the guide rail; one end of the hydraulic rod is connected with the hydraulic cylinder, the other end of the hydraulic rod is fixedly connected with the sliding block, and the hydraulic rod is located between the hydraulic cylinder and the sliding block.

3. The industrial electronic detonator assembling apparatus of claim 1 wherein,

the guide rail is provided with a transverse sliding groove, and the transverse sliding groove is positioned on one side of the guide rail, which is close to the sliding block, and is matched with the sliding block.

4. The industrial electronic detonator assembling apparatus of claim 1 wherein,

the detection base is provided with a tube body sliding groove, and a notch of the tube body sliding groove faces one side of the probe.

5. The industrial electronic detonator assembling apparatus of claim 1 wherein,

the industrial electronic detonator assembling equipment further comprises a lateral support, wherein the lateral support is fixedly connected with the detection base, fixedly connected with the probe and positioned on one side of the detection base, which is close to the probe.

6. The industrial electronic detonator assembling apparatus of claim 1 wherein,

the industrial electronic detonator assembling equipment further comprises a containing box, wherein the containing box is fixedly connected with the detection base and is positioned on the outer side of the detection base.

7. Industrial electronic detonator assembling apparatus according to claim 6 wherein,

the containing box still includes accomodates the groove, accomodate the notch orientation of groove one side of probe.

8. Industrial electronic detonator assembling apparatus according to claim 6 wherein,

the industrial electronic detonator assembling equipment further comprises a spongy cushion, wherein the spongy cushion is fixedly connected with the containing box and is positioned on one side of the containing box.

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