CN109991076B - Consumable tensile detection equipment - Google Patents

Abstract

The invention discloses consumable tensile detection equipment which comprises a force measuring driver, a force measuring meter, a force measuring pull ring, a compression screw, a fixing nut, a fixing plate, an upper rolling groove bearing, a connecting shaft, a motor rotating shaft, a base, a shell, a locking block, a lower rolling groove bearing, a sliding table, a feeding hole, a fixing block and a sliding seat. The beneficial effects of the invention are as follows: this consumptive material tensile testing equipment reasonable in design goes up the rolling groove bearing and is the rotation through the latch segment and connect in the latch segment fixed screw, penetrate the consumptive material and go up the rolling groove bearing and move up along with the latch segment when rolling between the groove bearing down, when the consumptive material passed the completion, go up the rolling groove bearing and follow the latch segment and descend, compress tightly the consumptive material, force measurement driver and dynamometer are sliding connection and slip table through the slide, drive the dynamometer through force measurement driver and carry out the backward movement, carry out tensile test to the consumptive material, the clamp screw head is equipped with the clamp block, the clamp block is the contact and connects in the latch segment upper surface, during operating screw corotation.

Description

Consumable tensile detection equipment

Technical Field

The invention relates to detection equipment, in particular to consumable tensile detection equipment, and belongs to the technical field of detection devices.

Background

The 3D printer (3D Printers) is a magic printer designed by the inventor named enrick dini (Enrico Dini), which can print not only a complete building, but also any required shape of objects for astronauts in space craft, but also a model of the object, which is printed in 3D, and the function of the object cannot be printed.

The existing FDM 3D printer consumables on the market do not detect their tensile strength but are directly applied to the daily production of printing models, and these conventional methods have great drawbacks: the situation that consumable breaks appears in the printing process of the 3D printer, so that the phenomenon that the model is hollowed out when printed causes the model to print failure, and equipment is required to be overhauled again manually, so that manpower is wasted, materials are wasted, and enterprise benefits are seriously reduced.

Disclosure of Invention

The invention aims to solve the problems and provide consumable tensile detection equipment.

The invention realizes the above purpose through the following technical scheme: a consumable tensile detection device comprises a force measuring driver, a force measuring meter, a force measuring pull ring, a compression screw, a fixing nut, a fixing plate, an upper rolling groove bearing, a connecting shaft, a motor rotating shaft, a base, a shell, a locking block, a lower rolling groove bearing, a sliding table, a feeding port, a fixing block and a sliding seat; the utility model discloses a dynamometer, including dynamometer, fixed nut, connecting rod, dynamometer pull ring, hold-down screw, holding nut, upper roller groove bearing, connecting rod one end, dynamometer driver, connecting rod other end and motor shaft are in the same place through connecting rod and dynamometer afterbody connection, be equipped with the dynamometer on the dynamometer, the dynamometer pull ring is installed to the dynamometer front end, hold-down screw is the rotation and connects in fixation nut, fixation nut installs on the fixed block, the dynamometer driver below is equipped with the slide, the dynamometer below is equipped with the slide.

Preferably, in order to be convenient for compress tightly the consumptive material on the lower rolling groove bearing through last rolling groove bearing, go up the rolling groove bearing and be rotation connection in the latch segment fixed screw through the latch segment.

Preferably, in order to facilitate consumable tensile testing through a force measuring driver, the force measuring driver and the force measuring meter are in sliding connection with the sliding table through a sliding seat.

Preferably, in order to be convenient for adjust the degree of the compressive force between upper rolling groove bearing and the lower rolling groove bearing through adjusting screw height, the clamp screw head is equipped with the compact heap, and the compact heap is the contact and connects in the latch segment upper surface.

Preferably, in order to facilitate the sliding of the force measuring driver and the force measuring meter on the sliding table, a square sliding groove is formed in the sliding table, and lubricating oil is uniformly coated in the sliding groove.

Preferably, in order to be convenient for carry out sharp tensile test to the consumptive material, the dynamometry pull ring, lower rolling groove bearing, go up rolling groove bearing and feed inlet and be in same level.

Preferably, in order to prevent the force measuring driver from derailing with the force measuring meter, limiting blocks are arranged at the openings at two ends of the sliding table.

The beneficial effects of the invention are as follows: this consumptive material tensile test equipment reasonable in design goes up the rolling channel bearing and is rotated through the latch segment and connect in latch segment fixed screw, penetrate the consumptive material between upper rolling channel bearing and the lower rolling channel bearing, upward the rolling channel bearing moves up along the latch segment, when the consumptive material passed the completion, upward the rolling channel bearing descends along the latch segment, compress tightly the consumptive material, the dynamometry driver is sliding connection and slip table through the slide with the dynamometer, it carries out the backward movement to drive the dynamometer through the dynamometer driver, carry out the tensile test to the consumptive material, the gland screw head is equipped with the clamp block, the clamp block is the contact and connects in the latch segment upper surface, during operation screw forward rotation, the latch segment compresses tightly the consumptive material under the effect of clamp block, when operation screw reverses, loosen the consumptive material, be equipped with square sliding groove on the slip table, and evenly scribble lubricating oil in the sliding groove, the dynamometer driver of being convenient for slides on the slip table, the dynamometer pull ring, lower rolling channel bearing, upward the rolling channel bearing is in same level with the feed inlet, the state that the consumptive material is in level parallel is all up to the dynamometer from the feed inlet, the pulling force is convenient for carry out the test to the pulling force of slip table, both ends are equipped with stopper in order to prevent that the pulling force from appearing in the big opening and take off the test in order to test the big.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

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

FIG. 3 is a schematic view of a feed inlet of the present invention;

FIG. 4 is a schematic view of a locking block of the present invention;

FIG. 5 is a schematic view of a structural retainer plate of the present invention;

FIG. 6 is a schematic view of a structural load cell of the present invention;

fig. 7 is a schematic diagram of a sliding table with a structure according to the present invention.

In the figure: 1. the device comprises a force measuring driver 2, a force measuring meter 3, a force measuring meter 4, a force measuring pull ring 5, a compression screw 6, a fixing nut 7, a fixing plate 8, an upper rolling groove bearing 9, a connecting shaft 10, a motor rotating shaft 11, a base 12, a shell 13, a locking block 14, a lower rolling groove bearing 15, a sliding table 16, a feed inlet 17, a fixing block 18 and a sliding seat.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 7, a consumable tensile testing device includes a force measuring driver 1, a force measuring meter 2, a force measuring meter 3, a force measuring pull ring 4, a compression screw 5, a fixing nut 6, a fixing plate 7, an upper rolling groove bearing 8, a connecting shaft 9, a motor rotating shaft 10, a base 11, a shell 12, a locking block 13, a lower rolling groove bearing 14, a sliding table 15, a feed inlet 16, a fixing block 17 and a sliding seat 18; the utility model discloses a dynamometer, including dynamometer, dynamometer driver 1, fixed plate 7, connecting rod, dynamometer driver 1, dynamometer 2 afterbody link together, be equipped with dynamometer 3 on the dynamometer 2, dynamometer pull ring 4 is installed to dynamometer 2 front end, compression screw 5 is the rotation and connects in fixed nut 6, fixed nut 6 installs on fixed block 17, go up the raceway bearing 8 and install at locking piece 13 lower surface, connecting shaft 9 one end links together with dynamometer driver 1, the connecting shaft 9 other end links together with motor shaft 10, base 11 installs on the inside lower surface of shell 12, locking piece 13 is the detachable connection in fixed plate 7 through the screw, lower raceway bearing 14 is installed on fixed plate 7, slip table 15 installs in base 11 top, feed inlet 16 is established on fixed plate 7 side shell 12, fixed block 17 welds on fixed plate 7, dynamometer driver 1 below is equipped with slide 18, dynamometer 2 below is equipped with slide 18.

The upper rolling groove bearing 8 is rotationally connected with a locking block 13 through a locking block 13 to fix a screw, when consumable materials penetrate between the upper rolling groove bearing 8 and the lower rolling groove bearing 14, the upper rolling groove bearing 8 moves upwards along with the locking block 13, when the consumable materials pass through, the upper rolling groove bearing 8 descends along with the locking block 13 to compress the consumable materials, the force measuring driver 1 and the force measuring meter 2 are in sliding connection with a sliding table 15 through a sliding seat 18, the force measuring driver 1 drives the force measuring meter 2 to move backwards to perform tensile force test on the consumable materials, the head of the compression screw 5 is provided with a compression block which is connected with the upper surface of the locking block 13 in a contact manner, and when the compression screw 5 is operated to rotate forwards, the locking piece 13 compresses tightly the consumptive material under the effect of compact heap, when operation compression screw 5 reverses, loosens the consumptive material, be equipped with square sliding tray on the slip table 15, and evenly scribble lubricating oil in the sliding tray, be convenient for force measurement driver 1 and dynamometer 2 slide on slip table 15, force measurement pull ring 4, lower rolling groove bearing 14, go up rolling groove bearing 8 and feed inlet 16 are in same level, and the consumptive material is from feed inlet 16 until force measurement pull ring 4 all is in the state of horizontal parallelism, and the pulling force to the consumptive material is convenient for carry out accurate test, slip table 15 both ends opening part is equipped with the stopper, in order to prevent force measurement driver 1 and dynamometer 2 in the too big derailment of pulling force appearance of test in-process.

Working principle: when the consumable tensile detection equipment is used, consumable passes through an upper rolling groove bearing 8 and a lower rolling groove bearing 14 in a locking mechanism, a compression screw 5 in the locking mechanism compresses the consumable, the consumable is connected with a force measuring pull ring 4 at one end of a force measuring meter 2, a handle of a force measuring driver 1 moves a sliding block leftwards to slide leftwards with the force measuring meter 2, and when a 20N reading occurs in a force measuring meter 3, the consumable is stopped and kept for 30 seconds to observe whether the consumable is broken or not.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (1)

1. Consumable tensile test equipment, its characterized in that: the device comprises a force measuring driver (1), a force measuring meter (2), a force measuring meter (3), a force measuring pull ring (4), a compression screw (5), a fixing nut (6), a fixing plate (7), an upper rolling groove bearing (8), a connecting shaft (9), a motor rotating shaft (10), a base (11), a shell (12), a locking block (13), a lower rolling groove bearing (14), a sliding table (15), a feed inlet (16), a fixing block (17) and a sliding seat (18); the device is characterized in that the force measuring driver (1) is connected with the tail of the force measuring meter (2) through a connecting rod, the force measuring meter (2) is provided with a force measuring pull ring (4), the front end of the force measuring meter (2) is provided with a force measuring pull ring (4), the compression screw (5) is rotationally connected with a fixing nut (6), the fixing nut (6) is arranged on a fixing block (17), the upper rolling groove bearing (8) is arranged on the lower surface of a locking block (13), one end of the connecting shaft (9) is connected with the force measuring driver (1), the other end of the connecting shaft (9) is connected with a motor rotating shaft (10), the base (11) is arranged on the inner lower surface of a shell (12), the locking block (13) is detachably connected with a fixing plate (7) through a screw, the lower rolling groove bearing (14) is arranged on the fixing plate (7), the sliding table (15) is arranged above the base (11), the feeding port (16) is arranged on the side shell (12) of the fixing plate (7), and the sliding seat (18) is arranged below the fixing block (7), and the sliding seat (18) is arranged above the fixing plate (1);

the upper rolling groove bearing (8) is rotationally connected with a fixed screw of the locking block (13) through the locking block (13); the force measuring driver (1) and the force measuring meter (2) are in sliding connection with the sliding table (15) through the sliding seat (18); the head of the compression screw (5) is provided with a compression block which is connected to the upper surface of the locking block (13) in a contact manner; a square sliding groove is formed in the sliding table (15), and lubricating oil is uniformly coated in the sliding groove; the force measuring pull ring (4), the lower rolling groove bearing (14), the upper rolling groove bearing (8) and the feed inlet (16) are positioned at the same horizontal height; limiting blocks are arranged at openings at two ends of the sliding table (15).