CN203869956U - Electro-hydraulic servo horizontal tensile testing machine - Google Patents

Electro-hydraulic servo horizontal tensile testing machine Download PDF

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Publication number
CN203869956U
CN203869956U CN201420244564.5U CN201420244564U CN203869956U CN 203869956 U CN203869956 U CN 203869956U CN 201420244564 U CN201420244564 U CN 201420244564U CN 203869956 U CN203869956 U CN 203869956U
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CN
China
Prior art keywords
oil cylinder
pull head
prestretched
brace summer
testing machine
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Expired - Fee Related
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CN201420244564.5U
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Chinese (zh)
Inventor
牟秀发
张郁沫
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SHENZHEN REGER INSTRUMENT CO Ltd
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SHENZHEN REGER INSTRUMENT CO Ltd
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Abstract

The utility model discloses an electro-hydraulic servo horizontal tensile testing machine. The electro-hydraulic servo horizontal tensile testing machine comprises two opposite and parallel support beams; the bottoms of the two support beams are connected with connecting cross beams; the support beams and the connecting cross beams are matched to form an interior space; a fixed pull head assembly provided with a fixed pull head and fixed between the two support beams is arranged at one of the interior space; an oil cylinder driving assembly fixed on the support beams and provided with a driving oil cylinder, and a movable pull head arranged on the oil cylinder driving assembly and matched with the fixed pull head for use are arranged at the other end of the interior space; a pressure sensor is arranged at the output end of the driving oil cylinder. The horizontal tensile testing machine has the advantages of simple structure and stable property, can realize tensile testing of products with large tension, and can solve technical defects of conventional products.

Description

Electro-hydraulic servo horizontal tensile testing machine
Technical field
The utility model relates to a kind of tensile test equipment, particularly electro-hydraulic servo horizontal tensile testing machine.
Background technology
In commercial production, tension tester is a kind of conventional testing apparatus, and it is for carrying out pulling force detection to determine the performance of product to products such as steel strand wires, anchor chain, wire rope, nylon rope, nets.But due to many disadvantages such as design, mechanisms, the shortcoming such as existing tension tester ubiquity complex structure, serviceable life are short, tension tester can not be realized the test to large pulling force product (large-scale anchor chain, rope, net series products), in function, there is great limitation, limited the further Improvement and development of Related product.For this reason, the purpose of this utility model is to provide a kind of new technical scheme to solve the existing technological deficiency of existing tension tester.
Utility model content
In order to overcome the deficiencies in the prior art, the utility model provides electro-hydraulic servo horizontal tensile testing machine, has solved existing tensile test equipment and can not realize the technological deficiency of large tensile test.
The utility model solves the technical scheme that its technical matters adopts:
Electro-hydraulic servo horizontal tensile testing machine, comprise two brace summers that be arranged in parallel in opposite directions, the bottom of described two brace summers is connected with connecting cross beam, described brace summer, connecting cross beam cooperation is formed with an inner space, one end of this inner space is provided with the fixing puller component that is fixed between two brace summers and includes fixing pull head, the other end of inner space is provided with and is fixed on brace summer and includes the mobile pull head that drives the hydraulic oil cylinder driving assembly of oil cylinder and be arranged on described hydraulic oil cylinder driving assembly and be used in conjunction with above-mentioned fixing pull head, the output terminal of described driving oil cylinder is provided with pressure transducer.
As the improvement of technique scheme, this kind of horizontal tensile testing machine also includes prestretched assembly, and described prestretched assembly is arranged on fixing pull head away from a side of mobile pull head and can in the time that fixing pull head carries out tensile test, carries out prestretched adjustment.
As the further improvement of technique scheme, described cylinder component comprises the oil cylinder mounting blocks being fixedly connected with above-mentioned two brace summers, described oil cylinder mounting blocks centre position is installed with driving oil cylinder, four corner locations of oil cylinder mounting blocks are provided with four slip guide pillars (34) that can slide along corresponding guide pillar slide opening on oil cylinder mounting blocks, one end of described slip guide pillar is fixedly installed rear loading beam, the other end of slip guide pillar is fixedly installed front loading beam, the output terminal of described driving oil cylinder is fixedly attached on rear loading beam, above-mentioned mobile pull head is fixedly installed on described front loading beam.
As the further improvement of technique scheme, the output terminal of described driving oil cylinder is provided with Self-aligning bindiny mechanism.
As the further improvement of technique scheme, the bottom of described front loading beam, rear loading beam is all provided with the slider roller of being convenient to front loading beam, the slip of rear loading beam front and back.
As the further improvement of technique scheme, described fixing puller component comprises the fixing pull head mounting blocks being fixed between two brace summers and is fixedly installed on the fixing pull head on the middle mounting hole of fixing pull head mounting blocks.
As the further improvement of technique scheme, described brace summer is cross section section bar in the form of slot, brace summer comprises vertical side plate and is connected to epipleural and the lower side panel on upper and lower two edges of described vertical side plate, described vertical side plate, epipleural and lower side panel coordinate and form cross section section bar in the form of slot, and the groove of two brace summers arranges in opposite directions and coordinates the inner space that forms this kind of tension tester.
As the further improvement of technique scheme, on the epipleural of described brace summer, lower side panel, be equipped with many group insertion hole groups, at it, the sidepiece near two brace summers is provided with the vertical jack that is matched with insertion hole groups on brace summer to above-mentioned fixing pull head mounting blocks, in one group of jack in described insertion hole groups, can be inserted with to plug register pin, described register pin also will be fixed pull head mounting blocks through the vertical jack on fixing pull head mounting blocks and fix.
As the further improvement of technique scheme, the section bar that described brace summer is spliced by the independent section bar of multistage, two brace summers of contiguous concatenation are fixedly connected with by above-mentioned connecting cross beam and bolt in the stitching portion of its lower side panel, and the two brace summers thereon stitching portion of side plate are fixedly connected with by contiguous block and bolt.
As the further improvement of technique scheme, the two sides, front and back of described oil cylinder mounting blocks are connected to the support end face of brace summer, in the bottom of brace summer, one side of connecting cross beam is bolted on brace summer lower side panel, the opposite side of connecting cross beam is bolted on the downside of oil cylinder mounting blocks, on the top of brace summer, a side of contiguous block is bolted on brace summer epipleural, and the opposite side of contiguous block is fixed on the upper side of oil cylinder mounting blocks by set bolt.
As the further improvement of technique scheme, described connecting cross beam, the side that contiguous block is pressed close to brace summer at it are provided with positioning boss, on described brace summer, be provided with the detent that is matched with described positioning boss, described positioning boss is entrapped in described detent.
As the further improvement of technique scheme, run through before and after being provided with on the vertical side plate of described brace summer whole vertical side plate every absolutely empty, describedly be separated into interior plate and outer panel every absolutely empty by side plate is set, on described outer panel, be evenly provided with waist through hole.
As the further improvement of technique scheme, described connecting cross beam is joist steel.
As the further improvement of technique scheme, described prestretched assembly comprises the prestretched erecting frame being arranged between two brace summers and is located at the prestretched double-screw bolt of corresponding mounting hole on described prestretched erecting frame, on described prestretched double-screw bolt, be arranged with the screw thread rotating disk with its threaded engagement, one end of described prestretched double-screw bolt is connected to the end of above-mentioned fixing pull head, the other end of prestretched double-screw bolt is inserted with stop pin rod, described prestretched assembly also comprises drive motor, between the output terminal of described drive motor and screw thread rotating disk, is arranged with and is connected belt.
As the further improvement of technique scheme, at it, the sidepiece near two brace summers is provided with the jack that coordinates coordinating with insertion hole groups on brace summer to described prestretched erecting frame, in one group of jack in described insertion hole groups, can be inserted with to plug above-mentioned register pin, this register pin passes the cooperation jack on prestretched erecting frame and prestretched erecting frame is fixed.
As the further improvement of technique scheme, this kind of horizontal tensile testing machine also comprises upper cover plate, described upper cover plate is positioned at the top of brace summer, one bogie side frame of upper cover plate is located at the upper edge of a brace summer, the opposite side of upper cover plate is erected at the upper edge of another brace summer, the both sides of described upper cover plate are provided with pulley, and described pulley can be in brace summer upper surface slide.
The beneficial effects of the utility model are: the utility model provides electro-hydraulic servo horizontal tensile testing machine, this kind of horizontal tensile testing machine, by Structure Improvement Design, can be realized the tensile test of large pulling force product (large-scale anchor chain, rope, net series products) and can keep for a long time load.This kind of electro-hydraulic servo horizontal tensile testing machine solved existing tensile test equipment can not realize the technological deficiency of large tensile test.
Brief description of the drawings
Below in conjunction with drawings and Examples, the utility model is further illustrated.
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the structural representation of another angle of the utility model;
Fig. 3 is the structural representation of hydraulic oil cylinder driving assembly in the utility model;
Fig. 4 is the structural representation of another angle of hydraulic oil cylinder driving assembly in the utility model;
Fig. 5 is the structural representation of oil cylinder mounting blocks in the utility model;
Fig. 6 is the structural representation of fixing puller component and prestretched assembly in the utility model;
Fig. 7 is the structural representation of fixing puller component and another angle of prestretched assembly in the utility model;
Fig. 8 is the structural representation of brace summer in the utility model;
Fig. 9 is the structural representation of another angle of brace summer in the utility model;
Figure 10 is the structural representation of connecting cross beam in the utility model;
Figure 11 is the structural representation of upper cover plate in the utility model;
Figure 12 is the partial enlarged drawing of M in Fig. 1;
Figure 13 is the partial enlarged drawing of N in Fig. 1.
Embodiment
Below with reference to embodiment and accompanying drawing, the technique effect of design of the present utility model, concrete structure and generation is clearly and completely described, to understand fully the purpose of this utility model, feature and effect.Obviously; described embodiment is a part of embodiment of the present utility model, instead of whole embodiment, based on embodiment of the present utility model; other embodiment that those skilled in the art obtains under the prerequisite of not paying creative work, all belong to the scope that the utility model is protected.In addition, all connection/annexations of mentioning in literary composition, not singly refer to that member directly joins, and refer to and can, according to concrete performance, connect auxiliary by adding or reducing, and form more excellent draw bail.The utility model each technical characterictic in creating, can combination of interactions under the prerequisite of not conflicting conflict, with reference to Fig. 1-13.
Specifically with reference to Fig. 1, Fig. 2, electro-hydraulic servo horizontal tensile testing machine, comprise two brace summers that be arranged in parallel in opposite directions 1, the bottom of described two brace summers 1 is connected with connecting cross beam 2, described brace summer 1, connecting cross beam 2 cooperations are formed with an inner space, one end of this inner space is provided with the fixing puller component that is fixed between two brace summers 1 and includes fixing pull head 21, the other end of inner space is provided with and is fixed on brace summer 1 and includes the mobile pull head 32 that drives the hydraulic oil cylinder driving assembly of oil cylinder 31 and be arranged on described hydraulic oil cylinder driving assembly and be used in conjunction with above-mentioned fixing pull head 21, the output terminal of described driving oil cylinder 31 is provided with pressure transducer 4.
In the time of this kind of horizontal tensile testing machine of application, the product two ends of needs test are connected respectively on fixing pull head 21 and mobile pull head 32, drive oil cylinder 31 to be circumscribed with fuel tank, control gear control fuel feeding by equipment also makes to drive oil cylinder 31 to turn round, drive oil cylinder 31 rear drive of turning round to move pull head 32 along moving away from the direction of fixing pull head 21, the pressure transducer 4 of output terminal setting that in this process, pulling force drives oil cylinder 31 is by the Data Collection of test and finally realize tensile test.
This kind of horizontal tensile testing machine also includes prestretched assembly; described prestretched assembly is arranged on fixing pull head 21 away from a side of mobile pull head 32 and can in the time that fixing pull head 21 carries out tensile test, carries out prestretched adjustment; prestretched function can be avoided the severe impact in test process, is conducive to the serviceable life of protection equipment and extension device.
With reference to Fig. 1, Fig. 3, Fig. 4, Fig. 5, described cylinder component comprises the oil cylinder mounting blocks 33 being fixedly connected with above-mentioned two brace summers, described oil cylinder mounting blocks 33 centre positions are installed with and drive oil cylinder 31, four corner locations of oil cylinder mounting blocks 33 are provided with four slip guide pillars 34 that can slide along corresponding guide pillar slide opening 331 on oil cylinder mounting blocks 33, one end of described slip guide pillar 34 is fixedly installed rear loading beam 35, the other end of slip guide pillar 34 is fixedly installed front loading beam 36, the output terminal of described driving oil cylinder 31 is fixedly attached on rear loading beam 35, above-mentioned mobile pull head 32 is fixedly installed on described front loading beam 36.
In the time driving oil cylinder 31 to work, because the output terminal that drives oil cylinder 31 is fixedly connected with and drives oil cylinder 31 to be fixedly installed with rear loading beam 35, because after this loading beam 23, front loading beam 36 and slip guide pillar 34 are along with the output terminal that drives oil cylinder 31 moves in the same way, when after driving the output terminal of oil cylinder 31 to promote, loading beam 35 principle oil cylinder mounting blocks 33 move, the mobile pull head 32 being arranged on front loading beam 36 moves towards the direction of the fixing pull head 21 of transport power.In the time that equipment is worked, the pulling force of product is equal to the thrust that drives oil cylinder 31 output terminals, at this time, is arranged on that to drive the pressure transducer 4 of oil cylinder 31 output terminals to test the force value obtaining be exactly the value of thrust of product.
The output terminal of described driving oil cylinder 31 is provided with Self-aligning bindiny mechanism, and described Self-aligning bindiny mechanism has the function of adjusting axle center.
With reference to Fig. 4, described front loading beam 36, the bottom of rear loading beam 35 are all provided with the slider roller 37 of being convenient to front loading beam 36, the 35 front and back slips of rear loading beam, slider roller 37 can slide on brace summer 1, can support on the one hand the load of vertical direction, also can reduce on the other hand friction force each other, improve measuring accuracy.
With reference to Fig. 1, Fig. 6, Fig. 7, described fixing puller component comprises the fixing pull head mounting blocks 22 being fixed between two brace summers 1 and is fixedly installed on the fixing pull head 21 on the middle mounting hole of fixing pull head mounting blocks 22.
With reference to Fig. 1, Fig. 8, Fig. 9, described brace summer 1 is cross section section bar in the form of slot, brace summer 1 comprises vertical side plate 11 and is connected to epipleural 12 and the lower side panel 13 on upper and lower two edges of described vertical side plate 11, described vertical side plate 11, epipleural 12 and lower side panel 13 coordinate and form cross section section bars in the form of slot, and the groove of two brace summers 1 arranges in opposite directions and coordinates the inner space that forms this kind of tension tester.The section bar that this kind is similar to channel-section steel has high future on the one hand, for large tensile test equipment provides the foundation, also can save on the other hand material, reduces production costs.
With reference to Figure 12, on the epipleural 12 of described brace summer 1, lower side panel 13, be equipped with many group insertion hole groups 14, at it, the sidepiece near two brace summers 1 is provided with the vertical jack 221 that is matched with insertion hole groups 14 on brace summer 1 to above-mentioned fixing pull head mounting blocks 22, in one group of jack in described insertion hole groups 14, can be inserted with to plug register pin 15, it is fixing that described register pin 15 also will be fixed pull head mounting blocks 22 through the vertical jack 221 on fixing pull head mounting blocks 22.
Above-mentioned fixing puller component carries out position by register pin 15 to be fixed, in this kind of device procedures of use, user can be fixed on by fixing puller component the position adjustments that realizes fixing pull head 21 in different insertion hole groups 14 by register pin 15, easy to use, be convenient to adapt to the test products of different length, adaptability is good, and application flexibility is high.
With reference to Fig. 1, Fig. 2, Figure 12, Figure 13, the section bar that described brace summer 1 is spliced by the independent section bar of multistage, two brace summers 1 of contiguous concatenation are fixedly connected with by above-mentioned connecting cross beam 2 and bolt in the stitching portion of its lower side panel 13, and the two brace summers 1 thereon stitching portion of side plate 12 are fixedly connected with by contiguous block 16 and bolt.
With reference to Figure 13, the two sides, front and back of described oil cylinder mounting blocks 33 are connected to the support end face of brace summer 1, in the bottom of brace summer 1, one side of connecting cross beam 2 is bolted on brace summer 1 lower side panel 13, the opposite side of connecting cross beam 2 is bolted on the downside of oil cylinder mounting blocks 33, on the top of brace summer 1, a side of contiguous block 16 is bolted on brace summer 1 epipleural 12, and the opposite side of contiguous block 16 is fixed on the upper side of oil cylinder mounting blocks 33 by set bolt.
Are main force application apparatus owing to driving oil cylinder 31, and oil cylinder mounting blocks 33 will be for driving oil cylinder 31 fixing, the end of brace summer 1 is connected on oil cylinder mounting blocks 33 and contribute to brace summer 1 bearing load better, the reliability of this kind of connected mode is high.
With reference to Fig. 8, Fig. 9, Figure 10, described connecting cross beam 2, the side that contiguous block 16 is pressed close to brace summer at it are provided with positioning boss 17, on described brace summer 1, be provided with the detent 18 that is matched with described positioning boss 17, described positioning boss 17 is entrapped in described detent 18.
The unitized construction of positioning boss 17 and detent 18 facilitates the location between different parts on the one hand, can realize Fast Installation, also makes on the other hand the annexation of two links more reliable, and the ability of its bearing load is higher.
With reference to Fig. 8, Fig. 9, run through before and after being provided with on the vertical side plate 11 of described brace summer 1 whole vertical side plate 11 every absolutely empty, describedly be separated into interior plate 111 and outer panel 112 every absolutely empty by side plate 11 is set, on described outer panel 112, be evenly provided with waist through hole 113.This kind of hollow structure ensured the enough structural strengths of brace summer 1 can reduce on the other hand institute's consumption material on the one hand, saves production cost, increases economic efficiency.
With reference to Figure 10, described connecting cross beam 2 is joist steel, and the connecting cross beam 2 of joist steel has advantages of that intensity is high, improves the ability of whole equipment bearing load.
With reference to Fig. 6, Fig. 7, described prestretched assembly comprises the prestretched erecting frame 51 being arranged between two brace summers 1 and the prestretched double-screw bolt 52 that is located at corresponding mounting hole on described prestretched erecting frame 51, on described prestretched double-screw bolt 52, be arranged with the screw thread rotating disk 53 with its threaded engagement, one end of described prestretched double-screw bolt 52 is connected to the end of above-mentioned fixing pull head 21, the other end of prestretched double-screw bolt 52 is inserted with stop pin rod 54, described prestretched assembly also comprises drive motor, between the output terminal of described drive motor and screw thread rotating disk 53, is arranged with and is connected belt 55.
In the time carrying out prestretched adjustment, drive motor drives screw thread rotating disk 53 to rotate by connecting belt 55, because screw thread rotating disk 53 and prestretched double-screw bolt 52 threaded engagement and prestretched double-screw bolt 52 are rotated by 54 restrictions of stop pin rod, therefore screw thread rotating disk 53 can drive prestretched double-screw bolt 52 to move axially.Because one end of prestretched double-screw bolt 52 is fixedly connected with fixing pull head 21, therefore prestretched double-screw bolt 52 just can be realized prestretched function.
Total in actual application, between prestretched double-screw bolt 52 and fixing pull head 21, be provided with shaft coupling.
With reference to Figure 12, described prestretched erecting frame 51 at it sidepiece near two brace summers 1 be provided with coordinate with insertion hole groups 14 on brace summer 1 coordinate jack 511, in one group of jack in described insertion hole groups 14, can be inserted with to plug above-mentioned register pin 15, this register pin 15 is through the cooperation jack 511 on prestretched erecting frame 51 and by fixing prestretched erecting frame 51, this kind of structure can facilitate prestretched assembly to carry out the adjustment of position, the product of different length easy to use, application is convenient, dirigibility is high.
With reference to Fig. 1, Figure 11, this kind of horizontal tensile testing machine also comprises upper cover plate 6, described upper cover plate 6 is positioned at the top of brace summer 1, one bogie side frame of upper cover plate 6 is located at the upper edge of a brace summer 1, the opposite side of upper cover plate 6 is erected at the upper edge of another brace summer 1, the both sides of described upper cover plate 6 are provided with pulley 61, and described pulley 61 can be in brace summer 1 upper surface slide.
More than that better enforcement of the present utility model is illustrated, but the utility model is created and is not limited to described embodiment, those of ordinary skill in the art also can make all equivalent variations or replacement under the prerequisite without prejudice to the utility model spirit, and the distortion that these are equal to or replacement are all included in the application's claim limited range.

Claims (10)

1. electro-hydraulic servo horizontal tensile testing machine, it is characterized in that: comprise two brace summers that be arranged in parallel in opposite directions (1), the bottom of described two brace summers (1) is connected with connecting cross beam (2), described brace summer (1), connecting cross beam (2) cooperation is formed with an inner space, one end of this inner space is provided with the fixing puller component that is fixed between two brace summers (1) and includes fixing pull head (21), the other end of inner space is provided with that to be fixed on brace summer (1) upper and include the mobile pull head (32) that drives the hydraulic oil cylinder driving assembly of oil cylinder (31) and be arranged on described hydraulic oil cylinder driving assembly and be used in conjunction with above-mentioned fixing pull head (21), the output terminal of described driving oil cylinder (31) is provided with pressure transducer (4).
2. electro-hydraulic servo horizontal tensile testing machine according to claim 1, it is characterized in that: this kind of horizontal tensile testing machine also includes prestretched assembly, described prestretched assembly is arranged on fixing pull head (21) away from a side of mobile pull head (32) and can in the time that fixing pull head (21) carries out tensile test, carries out prestretched adjustment.
3. electro-hydraulic servo horizontal tensile testing machine according to claim 2, it is characterized in that: described cylinder component comprises the oil cylinder mounting blocks (33) being fixedly connected with above-mentioned two brace summers, described oil cylinder mounting blocks (33) centre position is installed with and drives oil cylinder (31), four corner locations of oil cylinder mounting blocks (33) are provided with four slip guide pillars (34) that can slide along the upper corresponding guide pillar slide opening (331) of oil cylinder mounting blocks (33), one end of described slip guide pillar (34) is fixedly installed rear loading beam (35), the other end of slip guide pillar (34) is fixedly installed front loading beam (36), the output terminal of described driving oil cylinder (31) is fixedly attached on rear loading beam (35), above-mentioned mobile pull head (32) is fixedly installed on described front loading beam (36), the output terminal of described driving oil cylinder (31) is provided with Self-aligning bindiny mechanism, described front loading beam (36), the bottom of rear loading beam (35) is all provided with is convenient to front loading beam (36), the slider roller (37) sliding before and after rear loading beam (35).
4. electro-hydraulic servo horizontal tensile testing machine according to claim 3, is characterized in that: described fixing puller component comprises and is fixed on the fixing pull head mounting blocks (22) between two brace summers (1) and is fixedly installed on the fixing pull head (21) on mounting hole in the middle of fixing pull head mounting blocks (22).
5. according to claim 3 or described electro-hydraulic servo horizontal tensile testing machine, it is characterized in that: described brace summer (1) is cross section section bar in the form of slot, brace summer (1) comprises vertical side plate (11) and is connected to epipleural (12) and the lower side panel (13) on upper and lower two edges of described vertical side plate (11), described vertical side plate (11), epipleural (12) and lower side panel (13) coordinate and form cross section section bar in the form of slot, and the groove of two brace summers (1) arranges in opposite directions and coordinates the inner space that forms this kind of tension tester.
6. electro-hydraulic servo horizontal tensile testing machine according to claim 5, it is characterized in that: the epipleural (12) of described brace summer (1), on lower side panel (13), be equipped with many group insertion hole groups (14), at it, the sidepiece near two brace summers (1) is provided with the vertical jack (221) that is matched with the upper insertion hole groups (14) of brace summer (1) to above-mentioned fixing pull head mounting blocks (22), in one group of jack in described insertion hole groups (14), can be inserted with to plug register pin (15), it is fixing that described register pin (15) also will be fixed pull head mounting blocks (22) through the vertical jack (221) on fixing pull head mounting blocks (22), the section bar that described brace summer (1) is spliced by the independent section bar of multistage, two brace summers (1) of contiguous concatenation are fixedly connected with by above-mentioned connecting cross beam (2) and bolt in the stitching portion of its lower side panel (13), two brace summers (1) the thereon stitching portion of side plate (12) are fixedly connected with by contiguous block (16) and bolt.
7. electro-hydraulic servo horizontal tensile testing machine according to claim 6, it is characterized in that: the two sides, front and back of described oil cylinder mounting blocks (33) are connected to the support end face of brace summer (1), in the bottom of brace summer (1), one side of connecting cross beam (2) is bolted on brace summer (1) lower side panel (13), the opposite side of connecting cross beam (2) is bolted on the downside of oil cylinder mounting blocks (33), on the top of brace summer (1), one side of contiguous block (16) is bolted on brace summer (1) epipleural (12), the opposite side of contiguous block (16) is fixed on the upper side of oil cylinder mounting blocks (33) by set bolt.
8. according to the electro-hydraulic servo horizontal tensile testing machine described in claim 6 or 7, it is characterized in that: described connecting cross beam (2), the side that contiguous block (16) is pressed close to brace summer at it are provided with positioning boss (17), on described brace summer (1), be provided with the detent (18) that is matched with described positioning boss (17), described positioning boss (17) is entrapped in described detent (18).
9. electro-hydraulic servo horizontal tensile testing machine according to claim 8, it is characterized in that: run through before and after being provided with on the vertical side plate (11) of described brace summer (1) whole vertical side plate (11) every absolutely empty, describedly every absolutely empty, side plate (11) will be set and be separated into interior plate (111) and outer panel (112), on described outer panel (112), evenly be provided with waist through hole (113).
10. electro-hydraulic servo horizontal tensile testing machine according to claim 9, it is characterized in that: described prestretched assembly comprises the prestretched erecting frame (51) being arranged between two brace summers (1) and is located at the prestretched double-screw bolt (52) of the upper corresponding mounting hole of described prestretched erecting frame (51), on described prestretched double-screw bolt (52), be arranged with the screw thread rotating disk (53) with its threaded engagement, one end of described prestretched double-screw bolt (52) is connected to the end of above-mentioned fixing pull head (21), the other end of prestretched double-screw bolt (52) is inserted with stop pin rod (54), described prestretched assembly also comprises drive motor, between the output terminal of described drive motor and screw thread rotating disk (53), be arranged with and be connected belt (55), described prestretched erecting frame (51) at it sidepiece near two brace summers (1) be provided with coordinate go up insertion hole groups (14) with brace summer (1) coordinate jack (511), in one group of jack in described insertion hole groups (14), can be inserted with to plug above-mentioned register pin (15), this register pin (15) is through the cooperation jack (511) on prestretched erecting frame (51) prestretched erecting frame (51) is fixing.
CN201420244564.5U 2014-05-13 2014-05-13 Electro-hydraulic servo horizontal tensile testing machine Expired - Fee Related CN203869956U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104007016A (en) * 2014-05-13 2014-08-27 深圳市瑞格尔仪器有限公司 Electro-hydraulic servo horizontal tensile testing machine
CN114018715A (en) * 2021-11-05 2022-02-08 永固集团股份有限公司 Multipurpose horizontal tension testing machine for electric power fittings and testing method thereof

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104007016A (en) * 2014-05-13 2014-08-27 深圳市瑞格尔仪器有限公司 Electro-hydraulic servo horizontal tensile testing machine
CN114018715A (en) * 2021-11-05 2022-02-08 永固集团股份有限公司 Multipurpose horizontal tension testing machine for electric power fittings and testing method thereof
CN114018715B (en) * 2021-11-05 2024-05-03 永固集团股份有限公司 Multipurpose horizontal tensile testing machine for electric power fitting and testing method thereof

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